From 9a7f6d6c59e03063f6b3cf01ddbb2a99b3fe0f2a Mon Sep 17 00:00:00 2001 From: Naisila Puka <37271756+naisila@users.noreply.github.com> Date: Mon, 3 Feb 2025 17:13:40 +0300 Subject: [PATCH] Drops PG14 support (#7753) DESCRIPTION: Drops PG14 support 1. Remove "$version_num" != 'xx' from configure file 2. delete all PG_VERSION_NUM = PG_VERSION_XX references in the code 3. Look at pg_version_compat.h file, remove all _compat functions etc defined specifically for PGXX differences 4. delete all PG_VERSION_NUM >= PG_VERSION_(XX+1), PG_VERSION_NUM < PG_VERSION_(XX+1) ifs in the codebase 5. delete ruleutils_xx.c file 6. cleanup normalize.sed file from pg14 specific lines 7. delete all alternative output files for that particular PG version, server_version_ge variable helps here --- .gitattributes | 2 - .github/workflows/build_and_test.yml | 31 +- configure | 2 +- configure.ac | 2 +- src/backend/columnar/columnar_customscan.c | 3 - src/backend/columnar/columnar_metadata.c | 2 +- src/backend/columnar/columnar_tableam.c | 13 +- src/backend/distributed/clock/causal_clock.c | 11 - src/backend/distributed/commands/collation.c | 30 - .../commands/create_distributed_table.c | 9 - src/backend/distributed/commands/database.c | 5 - .../commands/distribute_object_ops.c | 10 +- .../distributed/commands/foreign_constraint.c | 2 - .../distributed/commands/publication.c | 30 - src/backend/distributed/commands/role.c | 15 - src/backend/distributed/commands/sequence.c | 5 - src/backend/distributed/commands/table.c | 15 +- src/backend/distributed/commands/trigger.c | 95 - .../connection/shared_connection_stats.c | 10 - .../distributed/deparser/citus_ruleutils.c | 4 - .../deparser/deparse_database_stmts.c | 4 - .../deparser/deparse_publication_stmts.c | 136 - .../deparser/deparse_sequence_stmts.c | 7 - .../deparser/deparse_table_stmts.c | 2 - .../deparser/qualify_publication_stmt.c | 34 - .../deparser/qualify_sequence_stmt.c | 5 - .../distributed/deparser/ruleutils_14.c | 8638 ----------------- .../distributed/executor/adaptive_executor.c | 25 - .../distributed/executor/query_stats.c | 13 - src/backend/distributed/metadata/dependency.c | 2 - .../distributed/metadata/metadata_sync.c | 43 - .../metadata/pg_get_object_address_13_14_15.c | 4 - .../planner/combine_query_planner.c | 3 - .../distributed/planner/distributed_planner.c | 5 - .../distributed/planner/merge_planner.c | 37 - .../distributed/planner/multi_explain.c | 4 +- .../shardsplit/shardsplit_decoder.c | 4 - src/backend/distributed/shared_library_init.c | 11 - src/backend/distributed/test/fake_am.c | 2 +- .../test/shared_connection_counters.c | 5 - .../distributed/transaction/backend_data.c | 9 - .../distributed/utils/background_jobs.c | 81 - .../distributed/utils/citus_stat_tenants.c | 11 +- .../columnar/columnar_version_compat.h | 8 - src/include/distributed/commands.h | 6 - src/include/distributed/deparser.h | 4 - src/include/distributed/distributed_planner.h | 5 - src/include/distributed/metadata_sync.h | 3 - src/include/pg_version_compat.h | 75 +- src/include/pg_version_constants.h | 1 - src/test/regress/bin/normalize.sed | 6 - .../expected/citus_local_tables_queries.out | 11 - .../expected/citus_local_tables_queries_0.out | 1168 --- src/test/regress/expected/columnar_pg15.out | 7 - src/test/regress/expected/columnar_pg15_0.out | 6 - .../expected/columnar_vacuum_vs_insert.out | 2 +- .../expected/coordinator_shouldhaveshards.out | 11 - .../coordinator_shouldhaveshards_0.out | 1190 --- src/test/regress/expected/cte_inline.out | 11 - src/test/regress/expected/cte_inline_0.out | 1489 --- .../regress/expected/detect_conn_close.out | 7 - .../regress/expected/detect_conn_close_0.out | 9 - .../expected/grant_on_schema_propagation.out | 10 - .../grant_on_schema_propagation_0.out | 400 - .../expected/insert_select_repartition.out | 11 - .../expected/insert_select_repartition_0.out | 1334 --- .../expected/intermediate_result_pruning.out | 11 - .../intermediate_result_pruning_0.out | 1077 -- src/test/regress/expected/issue_5248.out | 12 - src/test/regress/expected/issue_5248_0.out | 230 - .../expected/local_shard_execution.out | 11 - .../expected/local_shard_execution_0.out | 3302 ------- .../local_shard_execution_replicated.out | 11 - .../local_shard_execution_replicated_0.out | 2462 ----- src/test/regress/expected/merge.out | 7 - src/test/regress/expected/merge_0.out | 6 - src/test/regress/expected/merge_arbitrary.out | 7 - .../regress/expected/merge_arbitrary_0.out | 6 - .../expected/merge_arbitrary_create.out | 7 - .../expected/merge_arbitrary_create_0.out | 6 - .../expected/merge_partition_tables.out | 7 - .../expected/merge_partition_tables_0.out | 6 - .../regress/expected/merge_repartition1.out | 7 - .../regress/expected/merge_repartition1_0.out | 6 - .../regress/expected/merge_repartition2.out | 7 - .../regress/expected/merge_repartition2_0.out | 6 - .../expected/merge_schema_sharding.out | 7 - .../expected/merge_schema_sharding_0.out | 6 - src/test/regress/expected/merge_vcore.out | 7 - src/test/regress/expected/merge_vcore_0.out | 6 - ...ter_table_add_constraints_without_name.out | 5 - .../expected/multi_deparse_shard_query.out | 11 - .../expected/multi_deparse_shard_query_0.out | 423 - src/test/regress/expected/multi_extension.out | 8 +- .../regress/expected/multi_insert_select.out | 11 - .../expected/multi_insert_select_0.out | 3507 ------- .../expected/multi_insert_select_conflict.out | 11 - .../multi_insert_select_conflict_0.out | 600 -- .../regress/expected/multi_metadata_sync.out | 10 - .../expected/multi_metadata_sync_0.out | 2262 ----- .../multi_mx_insert_select_repartition.out | 11 - .../multi_mx_insert_select_repartition_0.out | 166 - .../mx_coordinator_shouldhaveshards.out | 11 - .../mx_coordinator_shouldhaveshards_0.out | 335 - src/test/regress/expected/pg15.out | 7 - src/test/regress/expected/pg15_0.out | 9 - src/test/regress/expected/pg15_jsonpath.out | 7 - src/test/regress/expected/pg15_jsonpath_0.out | 10 - src/test/regress/expected/pgmerge.out | 7 - src/test/regress/expected/pgmerge_0.out | 6 - src/test/regress/expected/publication.out | 11 - src/test/regress/expected/publication_0.out | 270 - src/test/regress/expected/single_node.out | 11 - src/test/regress/expected/single_node_0.out | 2581 ----- .../upgrade_citus_finish_citus_upgrade_1.out | 41 + .../sql/citus_local_tables_queries.sql | 6 - src/test/regress/sql/columnar_pg15.sql | 8 - .../sql/coordinator_shouldhaveshards.sql | 6 - src/test/regress/sql/cte_inline.sql | 6 - src/test/regress/sql/detect_conn_close.sql | 7 - .../sql/grant_on_schema_propagation.sql | 5 - .../regress/sql/insert_select_repartition.sql | 6 - .../sql/intermediate_result_pruning.sql | 6 - src/test/regress/sql/issue_5248.sql | 13 - .../regress/sql/local_shard_execution.sql | 6 - .../sql/local_shard_execution_replicated.sql | 6 - src/test/regress/sql/merge.sql | 8 - src/test/regress/sql/merge_arbitrary.sql | 8 - .../regress/sql/merge_arbitrary_create.sql | 8 - .../regress/sql/merge_partition_tables.sql | 9 - src/test/regress/sql/merge_repartition1.sql | 8 - src/test/regress/sql/merge_repartition2.sql | 9 - .../regress/sql/merge_schema_sharding.sql | 8 - src/test/regress/sql/merge_vcore.sql | 8 - ...ter_table_add_constraints_without_name.sql | 6 - .../regress/sql/multi_deparse_shard_query.sql | 6 - src/test/regress/sql/multi_extension.sql | 8 +- src/test/regress/sql/multi_insert_select.sql | 7 +- .../sql/multi_insert_select_conflict.sql | 6 - src/test/regress/sql/multi_metadata_sync.sql | 5 - .../multi_mx_insert_select_repartition.sql | 6 - .../sql/mx_coordinator_shouldhaveshards.sql | 6 - src/test/regress/sql/pg15.sql | 7 - src/test/regress/sql/pg15_jsonpath.sql | 8 - src/test/regress/sql/pgmerge.sql | 8 - src/test/regress/sql/publication.sql | 12 - src/test/regress/sql/single_node.sql | 6 - 147 files changed, 63 insertions(+), 32875 deletions(-) delete mode 100644 src/backend/distributed/deparser/ruleutils_14.c delete mode 100644 src/test/regress/expected/citus_local_tables_queries_0.out delete mode 100644 src/test/regress/expected/columnar_pg15_0.out delete mode 100644 src/test/regress/expected/coordinator_shouldhaveshards_0.out delete mode 100644 src/test/regress/expected/cte_inline_0.out delete mode 100644 src/test/regress/expected/detect_conn_close_0.out delete mode 100644 src/test/regress/expected/grant_on_schema_propagation_0.out delete mode 100644 src/test/regress/expected/insert_select_repartition_0.out delete mode 100644 src/test/regress/expected/intermediate_result_pruning_0.out delete mode 100644 src/test/regress/expected/issue_5248_0.out delete mode 100644 src/test/regress/expected/local_shard_execution_0.out delete mode 100644 src/test/regress/expected/local_shard_execution_replicated_0.out delete mode 100644 src/test/regress/expected/merge_0.out delete mode 100644 src/test/regress/expected/merge_arbitrary_0.out delete mode 100644 src/test/regress/expected/merge_arbitrary_create_0.out delete mode 100644 src/test/regress/expected/merge_partition_tables_0.out delete mode 100644 src/test/regress/expected/merge_repartition1_0.out delete mode 100644 src/test/regress/expected/merge_repartition2_0.out delete mode 100644 src/test/regress/expected/merge_schema_sharding_0.out delete mode 100644 src/test/regress/expected/merge_vcore_0.out delete mode 100644 src/test/regress/expected/multi_deparse_shard_query_0.out delete mode 100644 src/test/regress/expected/multi_insert_select_0.out delete mode 100644 src/test/regress/expected/multi_insert_select_conflict_0.out delete mode 100644 src/test/regress/expected/multi_metadata_sync_0.out delete mode 100644 src/test/regress/expected/multi_mx_insert_select_repartition_0.out delete mode 100644 src/test/regress/expected/mx_coordinator_shouldhaveshards_0.out delete mode 100644 src/test/regress/expected/pg15_0.out delete mode 100644 src/test/regress/expected/pg15_jsonpath_0.out delete mode 100644 src/test/regress/expected/pgmerge_0.out delete mode 100644 src/test/regress/expected/publication_0.out delete mode 100644 src/test/regress/expected/single_node_0.out create mode 100644 src/test/regress/expected/upgrade_citus_finish_citus_upgrade_1.out diff --git a/.gitattributes b/.gitattributes index c7c03e1ef..51520c243 100644 --- a/.gitattributes +++ b/.gitattributes @@ -25,8 +25,6 @@ configure -whitespace # except these exceptions... src/backend/distributed/utils/citus_outfuncs.c -citus-style -src/backend/distributed/deparser/ruleutils_13.c -citus-style -src/backend/distributed/deparser/ruleutils_14.c -citus-style src/backend/distributed/deparser/ruleutils_15.c -citus-style src/backend/distributed/deparser/ruleutils_16.c -citus-style src/backend/distributed/deparser/ruleutils_17.c -citus-style diff --git a/.github/workflows/build_and_test.yml b/.github/workflows/build_and_test.yml index fefcc5bcb..36ba97039 100644 --- a/.github/workflows/build_and_test.yml +++ b/.github/workflows/build_and_test.yml @@ -28,7 +28,7 @@ jobs: style_checker_tools_version: "0.8.18" sql_snapshot_pg_version: "17.2" image_suffix: "-v889e4c1" - pg14_version: '{ "major": "14", "full": "14.15" }' + image_suffix_citus_upgrade: "-dev-2ad1f90" pg15_version: '{ "major": "15", "full": "15.10" }' pg16_version: '{ "major": "16", "full": "16.6" }' pg17_version: '{ "major": "17", "full": "17.2" }' @@ -106,7 +106,6 @@ jobs: image_suffix: - ${{ needs.params.outputs.image_suffix}} pg_version: - - ${{ needs.params.outputs.pg14_version }} - ${{ needs.params.outputs.pg15_version }} - ${{ needs.params.outputs.pg16_version }} - ${{ needs.params.outputs.pg17_version }} @@ -138,7 +137,6 @@ jobs: image_name: - ${{ needs.params.outputs.test_image_name }} pg_version: - - ${{ needs.params.outputs.pg14_version }} - ${{ needs.params.outputs.pg15_version }} - ${{ needs.params.outputs.pg16_version }} - ${{ needs.params.outputs.pg17_version }} @@ -159,10 +157,6 @@ jobs: - check-enterprise-isolation-logicalrep-2 - check-enterprise-isolation-logicalrep-3 include: - - make: check-failure - pg_version: ${{ needs.params.outputs.pg14_version }} - suite: regress - image_name: ${{ needs.params.outputs.fail_test_image_name }} - make: check-failure pg_version: ${{ needs.params.outputs.pg15_version }} suite: regress @@ -175,10 +169,6 @@ jobs: pg_version: ${{ needs.params.outputs.pg17_version }} suite: regress image_name: ${{ needs.params.outputs.fail_test_image_name }} - - make: check-enterprise-failure - pg_version: ${{ needs.params.outputs.pg14_version }} - suite: regress - image_name: ${{ needs.params.outputs.fail_test_image_name }} - make: check-enterprise-failure pg_version: ${{ needs.params.outputs.pg15_version }} suite: regress @@ -191,10 +181,6 @@ jobs: pg_version: ${{ needs.params.outputs.pg17_version }} suite: regress image_name: ${{ needs.params.outputs.fail_test_image_name }} - - make: check-pytest - pg_version: ${{ needs.params.outputs.pg14_version }} - suite: regress - image_name: ${{ needs.params.outputs.fail_test_image_name }} - make: check-pytest pg_version: ${{ needs.params.outputs.pg15_version }} suite: regress @@ -219,10 +205,6 @@ jobs: suite: cdc image_name: ${{ needs.params.outputs.test_image_name }} pg_version: ${{ needs.params.outputs.pg17_version }} - - make: check-query-generator - pg_version: ${{ needs.params.outputs.pg14_version }} - suite: regress - image_name: ${{ needs.params.outputs.fail_test_image_name }} - make: check-query-generator pg_version: ${{ needs.params.outputs.pg15_version }} suite: regress @@ -275,7 +257,6 @@ jobs: image_name: - ${{ needs.params.outputs.fail_test_image_name }} pg_version: - - ${{ needs.params.outputs.pg14_version }} - ${{ needs.params.outputs.pg15_version }} - ${{ needs.params.outputs.pg16_version }} - ${{ needs.params.outputs.pg17_version }} @@ -323,18 +304,12 @@ jobs: fail-fast: false matrix: include: - - old_pg_major: 14 - new_pg_major: 15 - old_pg_major: 15 new_pg_major: 16 - - old_pg_major: 14 - new_pg_major: 16 - old_pg_major: 16 new_pg_major: 17 - old_pg_major: 15 new_pg_major: 17 - - old_pg_major: 14 - new_pg_major: 17 env: old_pg_major: ${{ matrix.old_pg_major }} new_pg_major: ${{ matrix.new_pg_major }} @@ -370,10 +345,10 @@ jobs: flags: ${{ env.old_pg_major }}_${{ env.new_pg_major }}_upgrade codecov_token: ${{ secrets.CODECOV_TOKEN }} test-citus-upgrade: - name: PG${{ fromJson(needs.params.outputs.pg14_version).major }} - check-citus-upgrade + name: PG${{ fromJson(needs.params.outputs.pg15_version).major }} - check-citus-upgrade runs-on: ubuntu-20.04 container: - image: "${{ needs.params.outputs.citusupgrade_image_name }}:${{ fromJson(needs.params.outputs.pg14_version).full }}${{ needs.params.outputs.image_suffix }}" + image: "${{ needs.params.outputs.citusupgrade_image_name }}:${{ fromJson(needs.params.outputs.pg15_version).full }}${{ needs.params.outputs.image_suffix_citus_upgrade }}" options: --user root needs: - params diff --git a/configure b/configure index 5240df4db..d2f4060a7 100755 --- a/configure +++ b/configure @@ -2588,7 +2588,7 @@ fi if test "$with_pg_version_check" = no; then { $as_echo "$as_me:${as_lineno-$LINENO}: building against PostgreSQL $version_num (skipped compatibility check)" >&5 $as_echo "$as_me: building against PostgreSQL $version_num (skipped compatibility check)" >&6;} -elif test "$version_num" != '14' -a "$version_num" != '15' -a "$version_num" != '16' -a "$version_num" != '17'; then +elif test "$version_num" != '15' -a "$version_num" != '16' -a "$version_num" != '17'; then as_fn_error $? "Citus is not compatible with the detected PostgreSQL version ${version_num}." "$LINENO" 5 else { $as_echo "$as_me:${as_lineno-$LINENO}: building against PostgreSQL $version_num" >&5 diff --git a/configure.ac b/configure.ac index c7fde02de..0d79adce1 100644 --- a/configure.ac +++ b/configure.ac @@ -80,7 +80,7 @@ AC_SUBST(with_pg_version_check) if test "$with_pg_version_check" = no; then AC_MSG_NOTICE([building against PostgreSQL $version_num (skipped compatibility check)]) -elif test "$version_num" != '14' -a "$version_num" != '15' -a "$version_num" != '16' -a "$version_num" != '17'; then +elif test "$version_num" != '15' -a "$version_num" != '16' -a "$version_num" != '17'; then AC_MSG_ERROR([Citus is not compatible with the detected PostgreSQL version ${version_num}.]) else AC_MSG_NOTICE([building against PostgreSQL $version_num]) diff --git a/src/backend/columnar/columnar_customscan.c b/src/backend/columnar/columnar_customscan.c index c78485c66..6b4e338c3 100644 --- a/src/backend/columnar/columnar_customscan.c +++ b/src/backend/columnar/columnar_customscan.c @@ -1312,11 +1312,8 @@ AddColumnarScanPath(PlannerInfo *root, RelOptInfo *rel, RangeTblEntry *rte, cpath->methods = &ColumnarScanPathMethods; -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* necessary to avoid extra Result node in PG15 */ cpath->flags = CUSTOMPATH_SUPPORT_PROJECTION; -#endif /* * populate generic path information diff --git a/src/backend/columnar/columnar_metadata.c b/src/backend/columnar/columnar_metadata.c index f3035ba8d..3857f1f07 100644 --- a/src/backend/columnar/columnar_metadata.c +++ b/src/backend/columnar/columnar_metadata.c @@ -1686,7 +1686,7 @@ DeleteTupleAndEnforceConstraints(ModifyState *state, HeapTuple heapTuple) simple_heap_delete(state->rel, tid); /* execute AFTER ROW DELETE Triggers to enforce constraints */ - ExecARDeleteTriggers_compat(estate, resultRelInfo, tid, NULL, NULL, false); + ExecARDeleteTriggers(estate, resultRelInfo, tid, NULL, NULL, false); } diff --git a/src/backend/columnar/columnar_tableam.c b/src/backend/columnar/columnar_tableam.c index 83df11c42..4b777364e 100644 --- a/src/backend/columnar/columnar_tableam.c +++ b/src/backend/columnar/columnar_tableam.c @@ -877,7 +877,7 @@ columnar_relation_set_new_filelocator(Relation rel, *freezeXid = RecentXmin; *minmulti = GetOldestMultiXactId(); - SMgrRelation srel = RelationCreateStorage_compat(*newrlocator, persistence, true); + SMgrRelation srel = RelationCreateStorage(*newrlocator, persistence, true); ColumnarStorageInit(srel, ColumnarMetadataNewStorageId()); InitColumnarOptions(rel->rd_id); @@ -2245,7 +2245,6 @@ ColumnarProcessAlterTable(AlterTableStmt *alterTableStmt, List **columnarOptions columnarRangeVar = alterTableStmt->relation; } } -#if PG_VERSION_NUM >= PG_VERSION_15 else if (alterTableCmd->subtype == AT_SetAccessMethod) { if (columnarRangeVar || *columnarOptions) @@ -2265,7 +2264,6 @@ ColumnarProcessAlterTable(AlterTableStmt *alterTableStmt, List **columnarOptions DeleteColumnarTableOptions(RelationGetRelid(rel), true); } } -#endif /* PG_VERSION_15 */ } relation_close(rel, NoLock); @@ -2649,21 +2647,12 @@ ColumnarCheckLogicalReplication(Relation rel) return; } -#if PG_VERSION_NUM >= PG_VERSION_15 { PublicationDesc pubdesc; RelationBuildPublicationDesc(rel, &pubdesc); pubActionInsert = pubdesc.pubactions.pubinsert; } -#else - if (rel->rd_pubactions == NULL) - { - GetRelationPublicationActions(rel); - Assert(rel->rd_pubactions != NULL); - } - pubActionInsert = rel->rd_pubactions->pubinsert; -#endif if (pubActionInsert) { diff --git a/src/backend/distributed/clock/causal_clock.c b/src/backend/distributed/clock/causal_clock.c index 230d4e733..1bc594693 100644 --- a/src/backend/distributed/clock/causal_clock.c +++ b/src/backend/distributed/clock/causal_clock.c @@ -145,17 +145,6 @@ LogicalClockShmemSize(void) void InitializeClusterClockMem(void) { - /* On PG 15 and above, we use shmem_request_hook_type */ - #if PG_VERSION_NUM < PG_VERSION_15 - - /* allocate shared memory for pre PG-15 versions */ - if (!IsUnderPostmaster) - { - RequestAddinShmemSpace(LogicalClockShmemSize()); - } - - #endif - prev_shmem_startup_hook = shmem_startup_hook; shmem_startup_hook = LogicalClockShmemInit; } diff --git a/src/backend/distributed/commands/collation.c b/src/backend/distributed/commands/collation.c index 4a47b5c18..268694034 100644 --- a/src/backend/distributed/commands/collation.c +++ b/src/backend/distributed/commands/collation.c @@ -68,8 +68,6 @@ CreateCollationDDLInternal(Oid collationId, Oid *collowner, char **quotedCollati char *collcollate; char *collctype; -#if PG_VERSION_NUM >= PG_VERSION_15 - /* * In PG15, there is an added option to use ICU as global locale provider. * pg_collation has three locale-related fields: collcollate and collctype, @@ -112,16 +110,6 @@ CreateCollationDDLInternal(Oid collationId, Oid *collowner, char **quotedCollati } Assert((collcollate && collctype) || colllocale); -#else - - /* - * In versions before 15, collcollate and collctype were type "name". Use - * pstrdup() to match the interface of 15 so that we consistently free the - * result later. - */ - collcollate = pstrdup(NameStr(collationForm->collcollate)); - collctype = pstrdup(NameStr(collationForm->collctype)); -#endif if (collowner != NULL) { @@ -147,7 +135,6 @@ CreateCollationDDLInternal(Oid collationId, Oid *collowner, char **quotedCollati "CREATE COLLATION %s (provider = '%s'", *quotedCollationName, providerString); -#if PG_VERSION_NUM >= PG_VERSION_15 if (colllocale) { appendStringInfo(&collationNameDef, @@ -173,24 +160,7 @@ CreateCollationDDLInternal(Oid collationId, Oid *collowner, char **quotedCollati pfree(collcollate); pfree(collctype); } -#else - if (strcmp(collcollate, collctype) == 0) - { - appendStringInfo(&collationNameDef, - ", locale = %s", - quote_literal_cstr(collcollate)); - } - else - { - appendStringInfo(&collationNameDef, - ", lc_collate = %s, lc_ctype = %s", - quote_literal_cstr(collcollate), - quote_literal_cstr(collctype)); - } - pfree(collcollate); - pfree(collctype); -#endif #if PG_VERSION_NUM >= PG_VERSION_16 char *collicurules = NULL; datum = SysCacheGetAttr(COLLOID, heapTuple, Anum_pg_collation_collicurules, &isnull); diff --git a/src/backend/distributed/commands/create_distributed_table.c b/src/backend/distributed/commands/create_distributed_table.c index 7af6f2dd0..536f80291 100644 --- a/src/backend/distributed/commands/create_distributed_table.c +++ b/src/backend/distributed/commands/create_distributed_table.c @@ -170,12 +170,10 @@ static void EnsureDistributedSequencesHaveOneType(Oid relationId, static void CopyLocalDataIntoShards(Oid distributedTableId); static List * TupleDescColumnNameList(TupleDesc tupleDescriptor); -#if (PG_VERSION_NUM >= PG_VERSION_15) static bool DistributionColumnUsesNumericColumnNegativeScale(TupleDesc relationDesc, Var *distributionColumn); static int numeric_typmod_scale(int32 typmod); static bool is_valid_numeric_typmod(int32 typmod); -#endif static bool DistributionColumnUsesGeneratedStoredColumn(TupleDesc relationDesc, Var *distributionColumn); @@ -2114,8 +2112,6 @@ EnsureRelationCanBeDistributed(Oid relationId, Var *distributionColumn, "AS (...) STORED."))); } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* verify target relation is not distributed by a column of type numeric with negative scale */ if (distributionMethod != DISTRIBUTE_BY_NONE && DistributionColumnUsesNumericColumnNegativeScale(relationDesc, @@ -2126,7 +2122,6 @@ EnsureRelationCanBeDistributed(Oid relationId, Var *distributionColumn, errdetail("Distribution column must not use numeric type " "with negative scale"))); } -#endif /* check for support function needed by specified partition method */ if (distributionMethod == DISTRIBUTE_BY_HASH) @@ -2844,8 +2839,6 @@ TupleDescColumnNameList(TupleDesc tupleDescriptor) } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * is_valid_numeric_typmod checks if the typmod value is valid * @@ -2895,8 +2888,6 @@ DistributionColumnUsesNumericColumnNegativeScale(TupleDesc relationDesc, } -#endif - /* * DistributionColumnUsesGeneratedStoredColumn returns whether a given relation uses * GENERATED ALWAYS AS (...) STORED on distribution column diff --git a/src/backend/distributed/commands/database.c b/src/backend/distributed/commands/database.c index c92191774..15bc0e5bc 100644 --- a/src/backend/distributed/commands/database.c +++ b/src/backend/distributed/commands/database.c @@ -185,8 +185,6 @@ PreprocessAlterDatabaseStmt(Node *node, const char *queryString, } -#if PG_VERSION_NUM >= PG_VERSION_15 - /* * PreprocessAlterDatabaseSetStmt is executed before the statement is applied to the local * postgres instance. @@ -217,9 +215,6 @@ PreprocessAlterDatabaseRefreshCollStmt(Node *node, const char *queryString, } -#endif - - /* * GetDatabaseAddressFromDatabaseName gets the database name and returns the ObjectAddress * of the database. diff --git a/src/backend/distributed/commands/distribute_object_ops.c b/src/backend/distributed/commands/distribute_object_ops.c index 0b476e496..d76bb44f4 100644 --- a/src/backend/distributed/commands/distribute_object_ops.c +++ b/src/backend/distributed/commands/distribute_object_ops.c @@ -465,7 +465,6 @@ static DistributeObjectOps Database_Alter = { .markDistributed = false, }; -#if PG_VERSION_NUM >= PG_VERSION_15 static DistributeObjectOps Database_RefreshColl = { .deparse = DeparseAlterDatabaseRefreshCollStmt, .qualify = NULL, @@ -476,7 +475,6 @@ static DistributeObjectOps Database_RefreshColl = { .address = NULL, .markDistributed = false, }; -#endif static DistributeObjectOps Domain_Alter = { .deparse = DeparseAlterDomainStmt, @@ -837,7 +835,6 @@ static DistributeObjectOps Sequence_AlterOwner = { .address = AlterSequenceOwnerStmtObjectAddress, .markDistributed = false, }; -#if (PG_VERSION_NUM >= PG_VERSION_15) static DistributeObjectOps Sequence_AlterPersistence = { .deparse = DeparseAlterSequencePersistenceStmt, .qualify = QualifyAlterSequencePersistenceStmt, @@ -847,7 +844,6 @@ static DistributeObjectOps Sequence_AlterPersistence = { .address = AlterSequencePersistenceStmtObjectAddress, .markDistributed = false, }; -#endif static DistributeObjectOps Sequence_Drop = { .deparse = DeparseDropSequenceStmt, .qualify = QualifyDropSequenceStmt, @@ -1299,7 +1295,7 @@ static DistributeObjectOps View_Rename = { static DistributeObjectOps Trigger_Rename = { .deparse = NULL, .qualify = NULL, - .preprocess = PreprocessAlterTriggerRenameStmt, + .preprocess = NULL, .operationType = DIST_OPS_ALTER, .postprocess = PostprocessAlterTriggerRenameStmt, .address = NULL, @@ -1321,13 +1317,11 @@ GetDistributeObjectOps(Node *node) return &Database_Alter; } -#if PG_VERSION_NUM >= PG_VERSION_15 case T_AlterDatabaseRefreshCollStmt: { return &Database_RefreshColl; } -#endif case T_AlterDomainStmt: { return &Domain_Alter; @@ -1612,7 +1606,6 @@ GetDistributeObjectOps(Node *node) case OBJECT_SEQUENCE: { -#if (PG_VERSION_NUM >= PG_VERSION_15) ListCell *cmdCell = NULL; foreach(cmdCell, stmt->cmds) { @@ -1640,7 +1633,6 @@ GetDistributeObjectOps(Node *node) } } } -#endif /* * Prior to PG15, the only Alter Table statement diff --git a/src/backend/distributed/commands/foreign_constraint.c b/src/backend/distributed/commands/foreign_constraint.c index b7162b1a4..bc12ccb4d 100644 --- a/src/backend/distributed/commands/foreign_constraint.c +++ b/src/backend/distributed/commands/foreign_constraint.c @@ -467,7 +467,6 @@ ForeignKeyGetDefaultingAttrs(HeapTuple pgConstraintTuple) } List *onDeleteSetDefColumnList = NIL; -#if PG_VERSION_NUM >= PG_VERSION_15 Datum onDeleteSetDefColumnsDatum = SysCacheGetAttr(CONSTROID, pgConstraintTuple, Anum_pg_constraint_confdelsetcols, &isNull); @@ -482,7 +481,6 @@ ForeignKeyGetDefaultingAttrs(HeapTuple pgConstraintTuple) onDeleteSetDefColumnList = IntegerArrayTypeToList(DatumGetArrayTypeP(onDeleteSetDefColumnsDatum)); } -#endif if (list_length(onDeleteSetDefColumnList) == 0) { diff --git a/src/backend/distributed/commands/publication.c b/src/backend/distributed/commands/publication.c index efb017977..91272ca68 100644 --- a/src/backend/distributed/commands/publication.c +++ b/src/backend/distributed/commands/publication.c @@ -33,11 +33,9 @@ static CreatePublicationStmt * BuildCreatePublicationStmt(Oid publicationId); -#if (PG_VERSION_NUM >= PG_VERSION_15) static PublicationObjSpec * BuildPublicationRelationObjSpec(Oid relationId, Oid publicationId, bool tableOnly); -#endif static void AppendPublishOptionList(StringInfo str, List *strings); static char * AlterPublicationOwnerCommand(Oid publicationId); static bool ShouldPropagateCreatePublication(CreatePublicationStmt *stmt); @@ -154,7 +152,6 @@ BuildCreatePublicationStmt(Oid publicationId) ReleaseSysCache(publicationTuple); -#if (PG_VERSION_NUM >= PG_VERSION_15) List *schemaIds = GetPublicationSchemas(publicationId); Oid schemaId = InvalidOid; @@ -170,7 +167,6 @@ BuildCreatePublicationStmt(Oid publicationId) createPubStmt->pubobjects = lappend(createPubStmt->pubobjects, publicationObject); } -#endif List *relationIds = GetPublicationRelations(publicationId, publicationForm->pubviaroot ? @@ -184,7 +180,6 @@ BuildCreatePublicationStmt(Oid publicationId) foreach_declared_oid(relationId, relationIds) { -#if (PG_VERSION_NUM >= PG_VERSION_15) bool tableOnly = false; /* since postgres 15, tables can have a column list and filter */ @@ -192,15 +187,6 @@ BuildCreatePublicationStmt(Oid publicationId) BuildPublicationRelationObjSpec(relationId, publicationId, tableOnly); createPubStmt->pubobjects = lappend(createPubStmt->pubobjects, publicationObject); -#else - - /* before postgres 15, only full tables are supported */ - char *schemaName = get_namespace_name(get_rel_namespace(relationId)); - char *tableName = get_rel_name(relationId); - RangeVar *rangeVar = makeRangeVar(schemaName, tableName, -1); - - createPubStmt->tables = lappend(createPubStmt->tables, rangeVar); -#endif if (IsCitusTable(relationId)) { @@ -276,8 +262,6 @@ AppendPublishOptionList(StringInfo str, List *options) } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * BuildPublicationRelationObjSpec returns a PublicationObjSpec that * can be included in a CREATE or ALTER PUBLICATION statement. @@ -357,9 +341,6 @@ BuildPublicationRelationObjSpec(Oid relationId, Oid publicationId, } -#endif - - /* * PreprocessAlterPublicationStmt handles ALTER PUBLICATION statements * in a way that is mostly similar to PreprocessAlterDistributedObjectStmt, @@ -458,7 +439,6 @@ GetAlterPublicationTableDDLCommand(Oid publicationId, Oid relationId, ReleaseSysCache(pubTuple); -#if (PG_VERSION_NUM >= PG_VERSION_15) bool tableOnly = !isAdd; /* since postgres 15, tables can have a column list and filter */ @@ -467,16 +447,6 @@ GetAlterPublicationTableDDLCommand(Oid publicationId, Oid relationId, alterPubStmt->pubobjects = lappend(alterPubStmt->pubobjects, publicationObject); alterPubStmt->action = isAdd ? AP_AddObjects : AP_DropObjects; -#else - - /* before postgres 15, only full tables are supported */ - char *schemaName = get_namespace_name(get_rel_namespace(relationId)); - char *tableName = get_rel_name(relationId); - RangeVar *rangeVar = makeRangeVar(schemaName, tableName, -1); - - alterPubStmt->tables = lappend(alterPubStmt->tables, rangeVar); - alterPubStmt->tableAction = isAdd ? DEFELEM_ADD : DEFELEM_DROP; -#endif /* we take the WHERE clause from the catalog where it is already transformed */ bool whereClauseNeedsTransform = false; diff --git a/src/backend/distributed/commands/role.c b/src/backend/distributed/commands/role.c index 6a42211a6..ca76f0fc0 100644 --- a/src/backend/distributed/commands/role.c +++ b/src/backend/distributed/commands/role.c @@ -1027,13 +1027,8 @@ makeStringConst(char *str, int location) { A_Const *n = makeNode(A_Const); -#if PG_VERSION_NUM >= PG_VERSION_15 n->val.sval.type = T_String; n->val.sval.sval = str; -#else - n->val.type = T_String; - n->val.val.str = str; -#endif n->location = location; return (Node *) n; @@ -1053,13 +1048,8 @@ makeIntConst(int val, int location) { A_Const *n = makeNode(A_Const); -#if PG_VERSION_NUM >= PG_VERSION_15 n->val.ival.type = T_Integer; n->val.ival.ival = val; -#else - n->val.type = T_Integer; - n->val.val.ival = val; -#endif n->location = location; return (Node *) n; @@ -1076,13 +1066,8 @@ makeFloatConst(char *str, int location) { A_Const *n = makeNode(A_Const); -#if PG_VERSION_NUM >= PG_VERSION_15 n->val.fval.type = T_Float; n->val.fval.fval = str; -#else - n->val.type = T_Float; - n->val.val.str = str; -#endif n->location = location; return (Node *) n; diff --git a/src/backend/distributed/commands/sequence.c b/src/backend/distributed/commands/sequence.c index 4af4c4853..0dd544cc6 100644 --- a/src/backend/distributed/commands/sequence.c +++ b/src/backend/distributed/commands/sequence.c @@ -735,8 +735,6 @@ PostprocessAlterSequenceOwnerStmt(Node *node, const char *queryString) } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * PreprocessAlterSequencePersistenceStmt is called for change of persistence * of sequences before the persistence is changed on the local instance. @@ -847,9 +845,6 @@ PreprocessSequenceAlterTableStmt(Node *node, const char *queryString, } -#endif - - /* * PreprocessGrantOnSequenceStmt is executed before the statement is applied to the local * postgres instance. diff --git a/src/backend/distributed/commands/table.c b/src/backend/distributed/commands/table.c index 67b731a25..eaa8b1031 100644 --- a/src/backend/distributed/commands/table.c +++ b/src/backend/distributed/commands/table.c @@ -1153,7 +1153,6 @@ PreprocessAlterTableStmt(Node *node, const char *alterTableCommand, { AlterTableStmt *stmtCopy = copyObject(alterTableStatement); stmtCopy->objtype = OBJECT_SEQUENCE; -#if (PG_VERSION_NUM >= PG_VERSION_15) /* * it must be ALTER TABLE .. OWNER TO .. @@ -1163,16 +1162,6 @@ PreprocessAlterTableStmt(Node *node, const char *alterTableCommand, */ return PreprocessSequenceAlterTableStmt((Node *) stmtCopy, alterTableCommand, processUtilityContext); -#else - - /* - * it must be ALTER TABLE .. OWNER TO .. command - * since this is the only ALTER command of a sequence that - * passes through an AlterTableStmt - */ - return PreprocessAlterSequenceOwnerStmt((Node *) stmtCopy, alterTableCommand, - processUtilityContext); -#endif } else if (relKind == RELKIND_VIEW) { @@ -3673,9 +3662,8 @@ ErrorIfUnsupportedAlterTableStmt(AlterTableStmt *alterTableStatement) "are currently unsupported."))); break; } - #endif -#if PG_VERSION_NUM >= PG_VERSION_15 + case AT_SetAccessMethod: { /* @@ -3695,7 +3683,6 @@ ErrorIfUnsupportedAlterTableStmt(AlterTableStmt *alterTableStatement) break; } -#endif case AT_SetNotNull: case AT_ReplicaIdentity: case AT_ChangeOwner: diff --git a/src/backend/distributed/commands/trigger.c b/src/backend/distributed/commands/trigger.c index 01ee72d31..5b4d93584 100644 --- a/src/backend/distributed/commands/trigger.c +++ b/src/backend/distributed/commands/trigger.c @@ -57,9 +57,6 @@ static void ExtractDropStmtTriggerAndRelationName(DropStmt *dropTriggerStmt, static void ErrorIfDropStmtDropsMultipleTriggers(DropStmt *dropTriggerStmt); static char * GetTriggerNameById(Oid triggerId); static int16 GetTriggerTypeById(Oid triggerId); -#if (PG_VERSION_NUM < PG_VERSION_15) -static void ErrorOutIfCloneTrigger(Oid tgrelid, const char *tgname); -#endif /* GUC that overrides trigger checks for distributed tables and reference tables */ @@ -404,40 +401,6 @@ CreateTriggerEventExtendNames(CreateTrigStmt *createTriggerStmt, char *schemaNam } -/* - * PreprocessAlterTriggerRenameStmt is called before a ALTER TRIGGER RENAME - * command has been executed by standard process utility. This function errors - * out if we are trying to rename a child trigger on a partition of a distributed - * table. In PG15, this is not allowed anyway. - */ -List * -PreprocessAlterTriggerRenameStmt(Node *node, const char *queryString, - ProcessUtilityContext processUtilityContext) -{ -#if (PG_VERSION_NUM < PG_VERSION_15) - RenameStmt *renameTriggerStmt = castNode(RenameStmt, node); - Assert(renameTriggerStmt->renameType == OBJECT_TRIGGER); - - RangeVar *relation = renameTriggerStmt->relation; - - bool missingOk = false; - Oid relationId = RangeVarGetRelid(relation, ALTER_TRIGGER_LOCK_MODE, missingOk); - - if (!IsCitusTable(relationId)) - { - return NIL; - } - - EnsureCoordinator(); - ErrorOutForTriggerIfNotSupported(relationId); - - ErrorOutIfCloneTrigger(relationId, renameTriggerStmt->subname); -#endif - - return NIL; -} - - /* * PostprocessAlterTriggerRenameStmt is called after a ALTER TRIGGER RENAME * command has been executed by standard process utility. This function errors @@ -759,64 +722,6 @@ ErrorIfRelationHasUnsupportedTrigger(Oid relationId) } -#if (PG_VERSION_NUM < PG_VERSION_15) - -/* - * ErrorOutIfCloneTrigger is a helper function to error - * out if we are trying to rename a child trigger on a - * partition of a distributed table. - * A lot of this code is borrowed from PG15 because - * renaming clone triggers isn't allowed in PG15 anymore. - */ -static void -ErrorOutIfCloneTrigger(Oid tgrelid, const char *tgname) -{ - HeapTuple tuple; - ScanKeyData key[2]; - - Relation tgrel = table_open(TriggerRelationId, RowExclusiveLock); - - /* - * Search for the trigger to modify. - */ - ScanKeyInit(&key[0], - Anum_pg_trigger_tgrelid, - BTEqualStrategyNumber, F_OIDEQ, - ObjectIdGetDatum(tgrelid)); - ScanKeyInit(&key[1], - Anum_pg_trigger_tgname, - BTEqualStrategyNumber, F_NAMEEQ, - CStringGetDatum(tgname)); - SysScanDesc tgscan = systable_beginscan(tgrel, TriggerRelidNameIndexId, true, - NULL, 2, key); - - if (HeapTupleIsValid(tuple = systable_getnext(tgscan))) - { - Form_pg_trigger trigform = (Form_pg_trigger) GETSTRUCT(tuple); - - /* - * If the trigger descends from a trigger on a parent partitioned - * table, reject the rename. - * Appended shard ids to find the trigger on the partition's shards - * are not correct. Hence we would fail to find the trigger on the - * partition's shard. - */ - if (OidIsValid(trigform->tgparentid)) - { - ereport(ERROR, ( - errmsg( - "cannot rename child triggers on distributed partitions"))); - } - } - - systable_endscan(tgscan); - table_close(tgrel, RowExclusiveLock); -} - - -#endif - - /* * GetDropTriggerStmtRelation takes a DropStmt for a trigger object and returns * RangeVar for the relation that owns the trigger. diff --git a/src/backend/distributed/connection/shared_connection_stats.c b/src/backend/distributed/connection/shared_connection_stats.c index 26598b465..027bb46a2 100644 --- a/src/backend/distributed/connection/shared_connection_stats.c +++ b/src/backend/distributed/connection/shared_connection_stats.c @@ -614,16 +614,6 @@ WaitForSharedConnection(void) void InitializeSharedConnectionStats(void) { -/* on PG 15, we use shmem_request_hook_type */ -#if PG_VERSION_NUM < PG_VERSION_15 - - /* allocate shared memory */ - if (!IsUnderPostmaster) - { - RequestAddinShmemSpace(SharedConnectionStatsShmemSize()); - } -#endif - prev_shmem_startup_hook = shmem_startup_hook; shmem_startup_hook = SharedConnectionStatsShmemInit; } diff --git a/src/backend/distributed/deparser/citus_ruleutils.c b/src/backend/distributed/deparser/citus_ruleutils.c index d138f8859..bdba2bf6e 100644 --- a/src/backend/distributed/deparser/citus_ruleutils.c +++ b/src/backend/distributed/deparser/citus_ruleutils.c @@ -258,10 +258,8 @@ pg_get_sequencedef_string(Oid sequenceRelationId) char *typeName = format_type_be(pgSequenceForm->seqtypid); char *sequenceDef = psprintf(CREATE_SEQUENCE_COMMAND, -#if (PG_VERSION_NUM >= PG_VERSION_15) get_rel_persistence(sequenceRelationId) == RELPERSISTENCE_UNLOGGED ? "UNLOGGED " : "", -#endif qualifiedSequenceName, typeName, pgSequenceForm->seqincrement, pgSequenceForm->seqmin, @@ -857,12 +855,10 @@ deparse_shard_index_statement(IndexStmt *origStmt, Oid distrelid, int64 shardid, appendStringInfoString(buffer, ") "); } -#if PG_VERSION_NUM >= PG_VERSION_15 if (indexStmt->nulls_not_distinct) { appendStringInfoString(buffer, "NULLS NOT DISTINCT "); } -#endif /* PG_VERSION_15 */ if (indexStmt->options != NIL) { diff --git a/src/backend/distributed/deparser/deparse_database_stmts.c b/src/backend/distributed/deparser/deparse_database_stmts.c index 596d10713..0e64e10ff 100644 --- a/src/backend/distributed/deparser/deparse_database_stmts.c +++ b/src/backend/distributed/deparser/deparse_database_stmts.c @@ -159,7 +159,6 @@ DeparseAlterDatabaseStmt(Node *node) } -#if PG_VERSION_NUM >= PG_VERSION_15 char * DeparseAlterDatabaseRefreshCollStmt(Node *node) { @@ -174,6 +173,3 @@ DeparseAlterDatabaseRefreshCollStmt(Node *node) return str.data; } - - -#endif diff --git a/src/backend/distributed/deparser/deparse_publication_stmts.c b/src/backend/distributed/deparser/deparse_publication_stmts.c index 35068266e..37346eb5e 100644 --- a/src/backend/distributed/deparser/deparse_publication_stmts.c +++ b/src/backend/distributed/deparser/deparse_publication_stmts.c @@ -32,7 +32,6 @@ static void AppendCreatePublicationStmt(StringInfo buf, CreatePublicationStmt *stmt, bool whereClauseNeedsTransform, bool includeLocalTables); -#if (PG_VERSION_NUM >= PG_VERSION_15) static bool AppendPublicationObjects(StringInfo buf, List *publicationObjects, bool whereClauseNeedsTransform, bool includeLocalTables); @@ -40,10 +39,6 @@ static void AppendWhereClauseExpression(StringInfo buf, RangeVar *tableName, Node *whereClause, bool whereClauseNeedsTransform); static void AppendAlterPublicationAction(StringInfo buf, AlterPublicationAction action); -#else -static bool AppendTables(StringInfo buf, List *tables, bool includeLocalTables); -static void AppendDefElemAction(StringInfo buf, DefElemAction action); -#endif static bool AppendAlterPublicationStmt(StringInfo buf, AlterPublicationStmt *stmt, bool whereClauseNeedsTransform, bool includeLocalTables); @@ -108,7 +103,6 @@ AppendCreatePublicationStmt(StringInfo buf, CreatePublicationStmt *stmt, { appendStringInfoString(buf, " FOR ALL TABLES"); } -#if (PG_VERSION_NUM >= PG_VERSION_15) else if (stmt->pubobjects != NIL) { bool hasObjects = false; @@ -146,32 +140,6 @@ AppendCreatePublicationStmt(StringInfo buf, CreatePublicationStmt *stmt, includeLocalTables); } } -#else - else if (stmt->tables != NIL) - { - bool hasTables = false; - RangeVar *rangeVar = NULL; - - /* - * Check whether there are tables to propagate, mainly to know whether - * we should include "FOR". - */ - foreach_declared_ptr(rangeVar, stmt->tables) - { - if (includeLocalTables || IsCitusTableRangeVar(rangeVar, NoLock, false)) - { - hasTables = true; - break; - } - } - - if (hasTables) - { - appendStringInfoString(buf, " FOR"); - AppendTables(buf, stmt->tables, includeLocalTables); - } - } -#endif if (stmt->options != NIL) { @@ -182,8 +150,6 @@ AppendCreatePublicationStmt(StringInfo buf, CreatePublicationStmt *stmt, } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * AppendPublicationObjects appends a string representing a list of publication * objects to a buffer. @@ -320,57 +286,6 @@ AppendWhereClauseExpression(StringInfo buf, RangeVar *tableName, } -#else - -/* - * AppendPublicationObjects appends a string representing a list of publication - * objects to a buffer. - * - * For instance: TABLE users, departments - */ -static bool -AppendTables(StringInfo buf, List *tables, bool includeLocalTables) -{ - RangeVar *rangeVar = NULL; - bool appendedObject = false; - - foreach_declared_ptr(rangeVar, tables) - { - if (!includeLocalTables && - !IsCitusTableRangeVar(rangeVar, NoLock, false)) - { - /* do not propagate local tables */ - continue; - } - - char *schemaName = rangeVar->schemaname; - char *tableName = rangeVar->relname; - - if (schemaName != NULL) - { - /* qualified table name */ - appendStringInfo(buf, "%s %s", - appendedObject ? "," : " TABLE", - quote_qualified_identifier(schemaName, tableName)); - } - else - { - /* unqualified table name */ - appendStringInfo(buf, "%s %s", - appendedObject ? "," : " TABLE", - quote_identifier(tableName)); - } - - appendedObject = true; - } - - return appendedObject; -} - - -#endif - - /* * DeparseAlterPublicationSchemaStmt builds and returns a string representing * an AlterPublicationStmt. @@ -439,19 +354,12 @@ AppendAlterPublicationStmt(StringInfo buf, AlterPublicationStmt *stmt, return true; } -#if (PG_VERSION_NUM >= PG_VERSION_15) AppendAlterPublicationAction(buf, stmt->action); return AppendPublicationObjects(buf, stmt->pubobjects, whereClauseNeedsTransform, includeLocalTables); -#else - AppendDefElemAction(buf, stmt->tableAction); - return AppendTables(buf, stmt->tables, includeLocalTables); -#endif } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * AppendAlterPublicationAction appends a string representing an AlterPublicationAction * to a buffer. @@ -487,46 +395,6 @@ AppendAlterPublicationAction(StringInfo buf, AlterPublicationAction action) } -#else - -/* - * AppendDefElemAction appends a string representing a DefElemAction - * to a buffer. - */ -static void -AppendDefElemAction(StringInfo buf, DefElemAction action) -{ - switch (action) - { - case DEFELEM_ADD: - { - appendStringInfoString(buf, " ADD"); - break; - } - - case DEFELEM_DROP: - { - appendStringInfoString(buf, " DROP"); - break; - } - - case DEFELEM_SET: - { - appendStringInfoString(buf, " SET"); - break; - } - - default: - { - ereport(ERROR, (errmsg("unrecognized publication action: %d", action))); - } - } -} - - -#endif - - /* * DeparseDropPublicationStmt builds and returns a string representing the DropStmt */ @@ -651,11 +519,7 @@ AppendPublicationOptions(StringInfo stringBuffer, List *optionList) appendStringInfo(stringBuffer, "%s = ", quote_identifier(optionName)); -#if (PG_VERSION_NUM >= PG_VERSION_15) if (valueType == T_Integer || valueType == T_Float || valueType == T_Boolean) -#else - if (valueType == T_Integer || valueType == T_Float) -#endif { /* string escaping is unnecessary for numeric types and can cause issues */ appendStringInfo(stringBuffer, "%s", optionValue); diff --git a/src/backend/distributed/deparser/deparse_sequence_stmts.c b/src/backend/distributed/deparser/deparse_sequence_stmts.c index 9e5fab2c8..b16751d7f 100644 --- a/src/backend/distributed/deparser/deparse_sequence_stmts.c +++ b/src/backend/distributed/deparser/deparse_sequence_stmts.c @@ -28,9 +28,7 @@ static void AppendSequenceNameList(StringInfo buf, List *objects, ObjectType obj static void AppendRenameSequenceStmt(StringInfo buf, RenameStmt *stmt); static void AppendAlterSequenceSchemaStmt(StringInfo buf, AlterObjectSchemaStmt *stmt); static void AppendAlterSequenceOwnerStmt(StringInfo buf, AlterTableStmt *stmt); -#if (PG_VERSION_NUM >= PG_VERSION_15) static void AppendAlterSequencePersistenceStmt(StringInfo buf, AlterTableStmt *stmt); -#endif static void AppendGrantOnSequenceStmt(StringInfo buf, GrantStmt *stmt); static void AppendGrantOnSequenceSequences(StringInfo buf, GrantStmt *stmt); @@ -262,8 +260,6 @@ AppendAlterSequenceOwnerStmt(StringInfo buf, AlterTableStmt *stmt) } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * DeparseAlterSequencePersistenceStmt builds and returns a string representing * the AlterTableStmt consisting of changing the persistence of a sequence @@ -349,9 +345,6 @@ AppendAlterSequencePersistenceStmt(StringInfo buf, AlterTableStmt *stmt) } -#endif - - /* * DeparseGrantOnSequenceStmt builds and returns a string representing the GrantOnSequenceStmt */ diff --git a/src/backend/distributed/deparser/deparse_table_stmts.c b/src/backend/distributed/deparser/deparse_table_stmts.c index 5d184fa66..d58fbabcc 100644 --- a/src/backend/distributed/deparser/deparse_table_stmts.c +++ b/src/backend/distributed/deparser/deparse_table_stmts.c @@ -193,12 +193,10 @@ AppendAlterTableCmdConstraint(StringInfo buf, Constraint *constraint, { appendStringInfoString(buf, " UNIQUE"); -#if (PG_VERSION_NUM >= PG_VERSION_15) if (constraint->nulls_not_distinct == true) { appendStringInfoString(buf, " NULLS NOT DISTINCT"); } -#endif } if (subtype == AT_AddConstraint) diff --git a/src/backend/distributed/deparser/qualify_publication_stmt.c b/src/backend/distributed/deparser/qualify_publication_stmt.c index c47f52e15..0790dc06b 100644 --- a/src/backend/distributed/deparser/qualify_publication_stmt.c +++ b/src/backend/distributed/deparser/qualify_publication_stmt.c @@ -19,11 +19,7 @@ #include "distributed/deparser.h" #include "distributed/listutils.h" -#if (PG_VERSION_NUM >= PG_VERSION_15) static void QualifyPublicationObjects(List *publicationObjects); -#else -static void QualifyTables(List *tables); -#endif static void QualifyPublicationRangeVar(RangeVar *publication); @@ -36,16 +32,10 @@ QualifyCreatePublicationStmt(Node *node) { CreatePublicationStmt *stmt = castNode(CreatePublicationStmt, node); -#if (PG_VERSION_NUM >= PG_VERSION_15) QualifyPublicationObjects(stmt->pubobjects); -#else - QualifyTables(stmt->tables); -#endif } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * QualifyPublicationObjects ensures all table names in a list of * publication objects are fully qualified. @@ -68,26 +58,6 @@ QualifyPublicationObjects(List *publicationObjects) } -#else - -/* - * QualifyTables ensures all table names in a list are fully qualified. - */ -static void -QualifyTables(List *tables) -{ - RangeVar *rangeVar = NULL; - - foreach_declared_ptr(rangeVar, tables) - { - QualifyPublicationRangeVar(rangeVar); - } -} - - -#endif - - /* * QualifyPublicationObjects ensures all table names in a list of * publication objects are fully qualified. @@ -97,11 +67,7 @@ QualifyAlterPublicationStmt(Node *node) { AlterPublicationStmt *stmt = castNode(AlterPublicationStmt, node); -#if (PG_VERSION_NUM >= PG_VERSION_15) QualifyPublicationObjects(stmt->pubobjects); -#else - QualifyTables(stmt->tables); -#endif } diff --git a/src/backend/distributed/deparser/qualify_sequence_stmt.c b/src/backend/distributed/deparser/qualify_sequence_stmt.c index c56d0fda0..402a661ce 100644 --- a/src/backend/distributed/deparser/qualify_sequence_stmt.c +++ b/src/backend/distributed/deparser/qualify_sequence_stmt.c @@ -52,8 +52,6 @@ QualifyAlterSequenceOwnerStmt(Node *node) } -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* * QualifyAlterSequencePersistenceStmt transforms a * ALTER SEQUENCE .. SET LOGGED/UNLOGGED @@ -80,9 +78,6 @@ QualifyAlterSequencePersistenceStmt(Node *node) } -#endif - - /* * QualifyAlterSequenceSchemaStmt transforms a * ALTER SEQUENCE .. SET SCHEMA .. diff --git a/src/backend/distributed/deparser/ruleutils_14.c b/src/backend/distributed/deparser/ruleutils_14.c deleted file mode 100644 index 88948cff5..000000000 --- a/src/backend/distributed/deparser/ruleutils_14.c +++ /dev/null @@ -1,8638 +0,0 @@ -/*------------------------------------------------------------------------- - * - * ruleutils_14.c - * Functions to convert stored expressions/querytrees back to - * source text - * - * Portions Copyright (c) 1996-2018, PostgreSQL Global Development Group - * Portions Copyright (c) 1994, Regents of the University of California - * - * - * IDENTIFICATION - * src/backend/distributed/deparser/ruleutils_14.c - * - * This needs to be closely in sync with the core code. - *------------------------------------------------------------------------- - */ -#include "pg_version_constants.h" - -#include "pg_config.h" - -#if (PG_VERSION_NUM >= PG_VERSION_14) && (PG_VERSION_NUM < PG_VERSION_15) - -#include "postgres.h" - -#include -#include -#include - -#include "access/amapi.h" -#include "access/htup_details.h" -#include "access/relation.h" -#include "access/sysattr.h" -#include "access/table.h" -#include "catalog/pg_aggregate.h" -#include "catalog/pg_am.h" -#include "catalog/pg_authid.h" -#include "catalog/pg_collation.h" -#include "catalog/pg_constraint.h" -#include "catalog/pg_depend.h" -#include "catalog/pg_extension.h" -#include "catalog/pg_foreign_data_wrapper.h" -#include "catalog/pg_language.h" -#include "catalog/pg_opclass.h" -#include "catalog/pg_operator.h" -#include "catalog/pg_partitioned_table.h" -#include "catalog/pg_proc.h" -#include "catalog/pg_statistic_ext.h" -#include "catalog/pg_trigger.h" -#include "catalog/pg_type.h" -#include "commands/defrem.h" -#include "commands/extension.h" -#include "commands/tablespace.h" -#include "common/keywords.h" -#include "distributed/citus_nodefuncs.h" -#include "distributed/citus_ruleutils.h" -#include "distributed/namespace_utils.h" -#include "executor/spi.h" -#include "foreign/foreign.h" -#include "funcapi.h" -#include "mb/pg_wchar.h" -#include "miscadmin.h" -#include "nodes/makefuncs.h" -#include "nodes/nodeFuncs.h" -#include "nodes/pathnodes.h" -#include "optimizer/optimizer.h" -#include "parser/parse_node.h" -#include "parser/parse_agg.h" -#include "parser/parse_func.h" -#include "parser/parse_node.h" -#include "parser/parse_oper.h" -#include "parser/parser.h" -#include "parser/parsetree.h" -#include "rewrite/rewriteHandler.h" -#include "rewrite/rewriteManip.h" -#include "rewrite/rewriteSupport.h" -#include "utils/array.h" -#include "utils/builtins.h" -#include "utils/fmgroids.h" -#include "utils/hsearch.h" -#include "utils/lsyscache.h" -#include "utils/rel.h" -#include "utils/ruleutils.h" -#include "utils/snapmgr.h" -#include "utils/syscache.h" -#include "utils/typcache.h" -#include "utils/varlena.h" -#include "utils/xml.h" - - -/* ---------- - * Pretty formatting constants - * ---------- - */ - -/* Indent counts */ -#define PRETTYINDENT_STD 8 -#define PRETTYINDENT_JOIN 4 -#define PRETTYINDENT_VAR 4 - -#define PRETTYINDENT_LIMIT 40 /* wrap limit */ - -/* Pretty flags */ -#define PRETTYFLAG_PAREN 0x0001 -#define PRETTYFLAG_INDENT 0x0002 - -/* Default line length for pretty-print wrapping: 0 means wrap always */ -#define WRAP_COLUMN_DEFAULT 0 - -/* macros to test if pretty action needed */ -#define PRETTY_PAREN(context) ((context)->prettyFlags & PRETTYFLAG_PAREN) -#define PRETTY_INDENT(context) ((context)->prettyFlags & PRETTYFLAG_INDENT) - - -/* ---------- - * Local data types - * ---------- - */ - -/* Context info needed for invoking a recursive querytree display routine */ -typedef struct -{ - StringInfo buf; /* output buffer to append to */ - List *namespaces; /* List of deparse_namespace nodes */ - List *windowClause; /* Current query level's WINDOW clause */ - List *windowTList; /* targetlist for resolving WINDOW clause */ - int prettyFlags; /* enabling of pretty-print functions */ - int wrapColumn; /* max line length, or -1 for no limit */ - int indentLevel; /* current indent level for prettyprint */ - bool varprefix; /* true to print prefixes on Vars */ - Oid distrelid; /* the distributed table being modified, if valid */ - int64 shardid; /* a distributed table's shardid, if positive */ - ParseExprKind special_exprkind; /* set only for exprkinds needing special - * handling */ - Bitmapset *appendparents; /* if not null, map child Vars of these relids - * back to the parent rel */ -} deparse_context; - -/* - * Each level of query context around a subtree needs a level of Var namespace. - * A Var having varlevelsup=N refers to the N'th item (counting from 0) in - * the current context's namespaces list. - * - * The rangetable is the list of actual RTEs from the query tree, and the - * cte list is the list of actual CTEs. - * - * rtable_names holds the alias name to be used for each RTE (either a C - * string, or NULL for nameless RTEs such as unnamed joins). - * rtable_columns holds the column alias names to be used for each RTE. - * - * In some cases we need to make names of merged JOIN USING columns unique - * across the whole query, not only per-RTE. If so, unique_using is true - * and using_names is a list of C strings representing names already assigned - * to USING columns. - * - * When deparsing plan trees, there is always just a single item in the - * deparse_namespace list (since a plan tree never contains Vars with - * varlevelsup > 0). We store the PlanState node that is the immediate - * parent of the expression to be deparsed, as well as a list of that - * PlanState's ancestors. In addition, we store its outer and inner subplan - * state nodes, as well as their plan nodes' targetlists, and the index tlist - * if the current plan node might contain INDEX_VAR Vars. (These fields could - * be derived on-the-fly from the current PlanState, but it seems notationally - * clearer to set them up as separate fields.) - */ -typedef struct -{ - List *rtable; /* List of RangeTblEntry nodes */ - List *rtable_names; /* Parallel list of names for RTEs */ - List *rtable_columns; /* Parallel list of deparse_columns structs */ - List *subplans; /* List of Plan trees for SubPlans */ - List *ctes; /* List of CommonTableExpr nodes */ - AppendRelInfo **appendrels; /* Array of AppendRelInfo nodes, or NULL */ - /* Workspace for column alias assignment: */ - bool unique_using; /* Are we making USING names globally unique */ - List *using_names; /* List of assigned names for USING columns */ - /* Remaining fields are used only when deparsing a Plan tree: */ - Plan *plan; /* immediate parent of current expression */ - List *ancestors; /* ancestors of planstate */ - Plan *outer_plan; /* outer subnode, or NULL if none */ - Plan *inner_plan; /* inner subnode, or NULL if none */ - List *outer_tlist; /* referent for OUTER_VAR Vars */ - List *inner_tlist; /* referent for INNER_VAR Vars */ - List *index_tlist; /* referent for INDEX_VAR Vars */ - /* Special namespace representing a function signature: */ - char *funcname; - int numargs; - char **argnames; -} deparse_namespace; - -/* Callback signature for resolve_special_varno() */ -typedef void (*rsv_callback) (Node *node, deparse_context *context, - void *callback_arg); - -/* - * Per-relation data about column alias names. - * - * Selecting aliases is unreasonably complicated because of the need to dump - * rules/views whose underlying tables may have had columns added, deleted, or - * renamed since the query was parsed. We must nonetheless print the rule/view - * in a form that can be reloaded and will produce the same results as before. - * - * For each RTE used in the query, we must assign column aliases that are - * unique within that RTE. SQL does not require this of the original query, - * but due to factors such as *-expansion we need to be able to uniquely - * reference every column in a decompiled query. As long as we qualify all - * column references, per-RTE uniqueness is sufficient for that. - * - * However, we can't ensure per-column name uniqueness for unnamed join RTEs, - * since they just inherit column names from their input RTEs, and we can't - * rename the columns at the join level. Most of the time this isn't an issue - * because we don't need to reference the join's output columns as such; we - * can reference the input columns instead. That approach can fail for merged - * JOIN USING columns, however, so when we have one of those in an unnamed - * join, we have to make that column's alias globally unique across the whole - * query to ensure it can be referenced unambiguously. - * - * Another problem is that a JOIN USING clause requires the columns to be - * merged to have the same aliases in both input RTEs, and that no other - * columns in those RTEs or their children conflict with the USING names. - * To handle that, we do USING-column alias assignment in a recursive - * traversal of the query's jointree. When descending through a JOIN with - * USING, we preassign the USING column names to the child columns, overriding - * other rules for column alias assignment. We also mark each RTE with a list - * of all USING column names selected for joins containing that RTE, so that - * when we assign other columns' aliases later, we can avoid conflicts. - * - * Another problem is that if a JOIN's input tables have had columns added or - * deleted since the query was parsed, we must generate a column alias list - * for the join that matches the current set of input columns --- otherwise, a - * change in the number of columns in the left input would throw off matching - * of aliases to columns of the right input. Thus, positions in the printable - * column alias list are not necessarily one-for-one with varattnos of the - * JOIN, so we need a separate new_colnames[] array for printing purposes. - */ -typedef struct -{ - /* - * colnames is an array containing column aliases to use for columns that - * existed when the query was parsed. Dropped columns have NULL entries. - * This array can be directly indexed by varattno to get a Var's name. - * - * Non-NULL entries are guaranteed unique within the RTE, *except* when - * this is for an unnamed JOIN RTE. In that case we merely copy up names - * from the two input RTEs. - * - * During the recursive descent in set_using_names(), forcible assignment - * of a child RTE's column name is represented by pre-setting that element - * of the child's colnames array. So at that stage, NULL entries in this - * array just mean that no name has been preassigned, not necessarily that - * the column is dropped. - */ - int num_cols; /* length of colnames[] array */ - char **colnames; /* array of C strings and NULLs */ - - /* - * new_colnames is an array containing column aliases to use for columns - * that would exist if the query was re-parsed against the current - * definitions of its base tables. This is what to print as the column - * alias list for the RTE. This array does not include dropped columns, - * but it will include columns added since original parsing. Indexes in - * it therefore have little to do with current varattno values. As above, - * entries are unique unless this is for an unnamed JOIN RTE. (In such an - * RTE, we never actually print this array, but we must compute it anyway - * for possible use in computing column names of upper joins.) The - * parallel array is_new_col marks which of these columns are new since - * original parsing. Entries with is_new_col false must match the - * non-NULL colnames entries one-for-one. - */ - int num_new_cols; /* length of new_colnames[] array */ - char **new_colnames; /* array of C strings */ - bool *is_new_col; /* array of bool flags */ - - /* This flag tells whether we should actually print a column alias list */ - bool printaliases; - - /* This list has all names used as USING names in joins above this RTE */ - List *parentUsing; /* names assigned to parent merged columns */ - - /* - * If this struct is for a JOIN RTE, we fill these fields during the - * set_using_names() pass to describe its relationship to its child RTEs. - * - * leftattnos and rightattnos are arrays with one entry per existing - * output column of the join (hence, indexable by join varattno). For a - * simple reference to a column of the left child, leftattnos[i] is the - * child RTE's attno and rightattnos[i] is zero; and conversely for a - * column of the right child. But for merged columns produced by JOIN - * USING/NATURAL JOIN, both leftattnos[i] and rightattnos[i] are nonzero. - * Also, if the column has been dropped, both are zero. - * - * If it's a JOIN USING, usingNames holds the alias names selected for the - * merged columns (these might be different from the original USING list, - * if we had to modify names to achieve uniqueness). - */ - int leftrti; /* rangetable index of left child */ - int rightrti; /* rangetable index of right child */ - int *leftattnos; /* left-child varattnos of join cols, or 0 */ - int *rightattnos; /* right-child varattnos of join cols, or 0 */ - List *usingNames; /* names assigned to merged columns */ -} deparse_columns; - -/* This macro is analogous to rt_fetch(), but for deparse_columns structs */ -#define deparse_columns_fetch(rangetable_index, dpns) \ - ((deparse_columns *) list_nth((dpns)->rtable_columns, (rangetable_index)-1)) - -/* - * Entry in set_rtable_names' hash table - */ -typedef struct -{ - char name[NAMEDATALEN]; /* Hash key --- must be first */ - int counter; /* Largest addition used so far for name */ -} NameHashEntry; - - -/* ---------- - * Local functions - * - * Most of these functions used to use fixed-size buffers to build their - * results. Now, they take an (already initialized) StringInfo object - * as a parameter, and append their text output to its contents. - * ---------- - */ -static void set_rtable_names(deparse_namespace *dpns, List *parent_namespaces, - Bitmapset *rels_used); -static void set_deparse_for_query(deparse_namespace *dpns, Query *query, - List *parent_namespaces); -static bool has_dangerous_join_using(deparse_namespace *dpns, Node *jtnode); -static void set_using_names(deparse_namespace *dpns, Node *jtnode, - List *parentUsing); -static void set_relation_column_names(deparse_namespace *dpns, - RangeTblEntry *rte, - deparse_columns *colinfo); -static void set_join_column_names(deparse_namespace *dpns, RangeTblEntry *rte, - deparse_columns *colinfo); -static bool colname_is_unique(const char *colname, deparse_namespace *dpns, - deparse_columns *colinfo); -static char *make_colname_unique(char *colname, deparse_namespace *dpns, - deparse_columns *colinfo); -static void expand_colnames_array_to(deparse_columns *colinfo, int n); -static void identify_join_columns(JoinExpr *j, RangeTblEntry *jrte, - deparse_columns *colinfo); -static char *get_rtable_name(int rtindex, deparse_context *context); -static void set_deparse_plan(deparse_namespace *dpns, Plan *plan); -static void push_child_plan(deparse_namespace *dpns, Plan *plan, - deparse_namespace *save_dpns); -static void pop_child_plan(deparse_namespace *dpns, - deparse_namespace *save_dpns); -static void push_ancestor_plan(deparse_namespace *dpns, ListCell *ancestor_cell, - deparse_namespace *save_dpns); -static void pop_ancestor_plan(deparse_namespace *dpns, - deparse_namespace *save_dpns); -static void get_query_def(Query *query, StringInfo buf, List *parentnamespace, - TupleDesc resultDesc, - int prettyFlags, int wrapColumn, int startIndent); -static void get_query_def_extended(Query *query, StringInfo buf, - List *parentnamespace, Oid distrelid, int64 shardid, - TupleDesc resultDesc, int prettyFlags, int wrapColumn, - int startIndent); -static void get_values_def(List *values_lists, deparse_context *context); -static void get_with_clause(Query *query, deparse_context *context); -static void get_select_query_def(Query *query, deparse_context *context, - TupleDesc resultDesc); -static void get_insert_query_def(Query *query, deparse_context *context); -static void get_update_query_def(Query *query, deparse_context *context); -static void get_update_query_targetlist_def(Query *query, List *targetList, - deparse_context *context, - RangeTblEntry *rte); -static void get_delete_query_def(Query *query, deparse_context *context); -static void get_utility_query_def(Query *query, deparse_context *context); -static void get_basic_select_query(Query *query, deparse_context *context, - TupleDesc resultDesc); -static void get_target_list(List *targetList, deparse_context *context, - TupleDesc resultDesc); -static void get_setop_query(Node *setOp, Query *query, - deparse_context *context, - TupleDesc resultDesc); -static Node *get_rule_sortgroupclause(Index ref, List *tlist, - bool force_colno, - deparse_context *context); -static void get_rule_groupingset(GroupingSet *gset, List *targetlist, - bool omit_parens, deparse_context *context); -static void get_rule_orderby(List *orderList, List *targetList, - bool force_colno, deparse_context *context); -static void get_rule_windowclause(Query *query, deparse_context *context); -static void get_rule_windowspec(WindowClause *wc, List *targetList, - deparse_context *context); -static char *get_variable(Var *var, int levelsup, bool istoplevel, - deparse_context *context); -static void get_special_variable(Node *node, deparse_context *context, - void *callback_arg); -static void resolve_special_varno(Node *node, deparse_context *context, - rsv_callback callback, void *callback_arg); -static Node *find_param_referent(Param *param, deparse_context *context, - deparse_namespace **dpns_p, ListCell **ancestor_cell_p); -static void get_parameter(Param *param, deparse_context *context); -static const char *get_simple_binary_op_name(OpExpr *expr); -static bool isSimpleNode(Node *node, Node *parentNode, int prettyFlags); -static void appendContextKeyword(deparse_context *context, const char *str, - int indentBefore, int indentAfter, int indentPlus); -static void removeStringInfoSpaces(StringInfo str); -static void get_rule_expr(Node *node, deparse_context *context, - bool showimplicit); -static void get_rule_expr_toplevel(Node *node, deparse_context *context, - bool showimplicit); -static void get_rule_expr_funccall(Node *node, deparse_context *context, - bool showimplicit); -static bool looks_like_function(Node *node); -static void get_oper_expr(OpExpr *expr, deparse_context *context); -static void get_func_expr(FuncExpr *expr, deparse_context *context, - bool showimplicit); -static void get_proc_expr(CallStmt *stmt, deparse_context *context, - bool showimplicit); -static void get_agg_expr(Aggref *aggref, deparse_context *context, - Aggref *original_aggref); -static void get_agg_combine_expr(Node *node, deparse_context *context, - void *callback_arg); -static void get_windowfunc_expr(WindowFunc *wfunc, deparse_context *context); -static bool get_func_sql_syntax(FuncExpr *expr, deparse_context *context); -static void get_coercion_expr(Node *arg, deparse_context *context, - Oid resulttype, int32 resulttypmod, - Node *parentNode); -static void get_const_expr(Const *constval, deparse_context *context, - int showtype); -static void get_const_collation(Const *constval, deparse_context *context); -static void simple_quote_literal(StringInfo buf, const char *val); -static void get_sublink_expr(SubLink *sublink, deparse_context *context); -static void get_tablefunc(TableFunc *tf, deparse_context *context, - bool showimplicit); -static void get_from_clause(Query *query, const char *prefix, - deparse_context *context); -static void get_from_clause_item(Node *jtnode, Query *query, - deparse_context *context); -static void get_column_alias_list(deparse_columns *colinfo, - deparse_context *context); -static void get_from_clause_coldeflist(RangeTblFunction *rtfunc, - deparse_columns *colinfo, - deparse_context *context); -static void get_tablesample_def(TableSampleClause *tablesample, - deparse_context *context); -static void get_opclass_name(Oid opclass, Oid actual_datatype, - StringInfo buf); -static Node *processIndirection(Node *node, deparse_context *context); -static void printSubscripts(SubscriptingRef *aref, deparse_context *context); -static char *get_relation_name(Oid relid); -static char *generate_relation_or_shard_name(Oid relid, Oid distrelid, - int64 shardid, List *namespaces); -static char *generate_rte_shard_name(RangeTblEntry *rangeTableEntry); -static char *generate_fragment_name(char *schemaName, char *tableName); -static char *generate_function_name(Oid funcid, int nargs, - List *argnames, Oid *argtypes, - bool has_variadic, bool *use_variadic_p, - ParseExprKind special_exprkind); - -#define only_marker(rte) ((rte)->inh ? "" : "ONLY ") - - - -/* - * pg_get_query_def parses back one query tree, and outputs the resulting query - * string into given buffer. - */ -void -pg_get_query_def(Query *query, StringInfo buffer) -{ - get_query_def(query, buffer, NIL, NULL, 0, WRAP_COLUMN_DEFAULT, 0); -} - -/* - * get_merged_argument_list merges both the IN and OUT arguments lists into one and - * also eliminates the INOUT duplicates(present in both the lists). After merging both - * the lists, it returns all the named-arguments in a list(mergedNamedArgList) along - * with their types(mergedNamedArgTypes), final argument list(mergedArgumentList), and - * the total number of arguments(totalArguments). - */ -bool -get_merged_argument_list(CallStmt *stmt, List **mergedNamedArgList, - Oid **mergedNamedArgTypes, - List **mergedArgumentList, - int *totalArguments) -{ - - Oid functionOid = stmt->funcexpr->funcid; - List *namedArgList = NIL; - List *finalArgumentList = NIL; - Oid *finalArgTypes; - Oid *argTypes = NULL; - char *argModes = NULL; - char **argNames = NULL; - int argIndex = 0; - - HeapTuple proctup = SearchSysCache1(PROCOID, ObjectIdGetDatum(functionOid)); - if (!HeapTupleIsValid(proctup)) - { - elog(ERROR, "cache lookup failed for function %u", functionOid); - } - - int defArgs = get_func_arg_info(proctup, &argTypes, &argNames, &argModes); - ReleaseSysCache(proctup); - - if (argModes == NULL) - { - /* No OUT arguments */ - return false; - } - - /* - * Passed arguments Includes IN, OUT, INOUT (in both the lists) and VARIADIC arguments, - * which means INOUT arguments are double counted. - */ - int numberOfArgs = list_length(stmt->funcexpr->args) + list_length(stmt->outargs); - int totalInoutArgs = 0; - - /* Let's count INOUT arguments from the defined number of arguments */ - for (argIndex=0; argIndex < defArgs; ++argIndex) - { - if (argModes[argIndex] == PROARGMODE_INOUT) - totalInoutArgs++; - } - - /* Remove the duplicate INOUT counting */ - numberOfArgs = numberOfArgs - totalInoutArgs; - finalArgTypes = palloc0(sizeof(Oid) * numberOfArgs); - - ListCell *inArgCell = list_head(stmt->funcexpr->args); - ListCell *outArgCell = list_head(stmt->outargs); - - for (argIndex=0; argIndex < numberOfArgs; ++argIndex) - { - switch (argModes[argIndex]) - { - case PROARGMODE_IN: - case PROARGMODE_VARIADIC: - { - Node *arg = (Node *) lfirst(inArgCell); - - if (IsA(arg, NamedArgExpr)) - namedArgList = lappend(namedArgList, ((NamedArgExpr *) arg)->name); - finalArgTypes[argIndex] = exprType(arg); - finalArgumentList = lappend(finalArgumentList, arg); - inArgCell = lnext(stmt->funcexpr->args, inArgCell); - break; - } - - case PROARGMODE_OUT: - { - Node *arg = (Node *) lfirst(outArgCell); - - if (IsA(arg, NamedArgExpr)) - namedArgList = lappend(namedArgList, ((NamedArgExpr *) arg)->name); - finalArgTypes[argIndex] = exprType(arg); - finalArgumentList = lappend(finalArgumentList, arg); - outArgCell = lnext(stmt->outargs, outArgCell); - break; - } - - case PROARGMODE_INOUT: - { - Node *arg = (Node *) lfirst(inArgCell); - - if (IsA(arg, NamedArgExpr)) - namedArgList = lappend(namedArgList, ((NamedArgExpr *) arg)->name); - finalArgTypes[argIndex] = exprType(arg); - finalArgumentList = lappend(finalArgumentList, arg); - inArgCell = lnext(stmt->funcexpr->args, inArgCell); - outArgCell = lnext(stmt->outargs, outArgCell); - break; - } - - case PROARGMODE_TABLE: - default: - { - elog(ERROR, "Unhandled procedure argument mode[%d]", argModes[argIndex]); - break; - } - } - } - - /* - * After eliminating INOUT duplicates and merging OUT arguments, we now - * have the final list of arguments. - */ - if (defArgs != list_length(finalArgumentList)) - { - elog(ERROR, "Insufficient number of args passed[%d] for function[%s]", - list_length(finalArgumentList), - get_func_name(functionOid)); - } - - if (list_length(finalArgumentList) > FUNC_MAX_ARGS) - { - ereport(ERROR, - (errcode(ERRCODE_TOO_MANY_ARGUMENTS), - errmsg("too many arguments[%d] for function[%s]", - list_length(finalArgumentList), - get_func_name(functionOid)))); - } - - *mergedNamedArgList = namedArgList; - *mergedNamedArgTypes = finalArgTypes; - *mergedArgumentList = finalArgumentList; - *totalArguments = numberOfArgs; - - return true; -} -/* - * pg_get_rule_expr deparses an expression and returns the result as a string. - */ -char * -pg_get_rule_expr(Node *expression) -{ - bool showImplicitCasts = true; - deparse_context context; - StringInfo buffer = makeStringInfo(); - - /* - * Set search_path to NIL so that all objects outside of pg_catalog will be - * schema-prefixed. pg_catalog will be added automatically when we call - * PushEmptySearchPath(). - */ - int saveNestLevel = PushEmptySearchPath(); - - context.buf = buffer; - context.namespaces = NIL; - context.windowClause = NIL; - context.windowTList = NIL; - context.varprefix = false; - context.prettyFlags = 0; - context.wrapColumn = WRAP_COLUMN_DEFAULT; - context.indentLevel = 0; - context.special_exprkind = EXPR_KIND_NONE; - context.distrelid = InvalidOid; - context.shardid = INVALID_SHARD_ID; - - get_rule_expr(expression, &context, showImplicitCasts); - - /* revert back to original search_path */ - PopEmptySearchPath(saveNestLevel); - - return buffer->data; -} - - -/* - * set_rtable_names: select RTE aliases to be used in printing a query - * - * We fill in dpns->rtable_names with a list of names that is one-for-one with - * the already-filled dpns->rtable list. Each RTE name is unique among those - * in the new namespace plus any ancestor namespaces listed in - * parent_namespaces. - * - * If rels_used isn't NULL, only RTE indexes listed in it are given aliases. - * - * Note that this function is only concerned with relation names, not column - * names. - */ -static void -set_rtable_names(deparse_namespace *dpns, List *parent_namespaces, - Bitmapset *rels_used) -{ - HASHCTL hash_ctl; - HTAB *names_hash; - NameHashEntry *hentry; - bool found; - int rtindex; - ListCell *lc; - - dpns->rtable_names = NIL; - /* nothing more to do if empty rtable */ - if (dpns->rtable == NIL) - return; - - /* - * We use a hash table to hold known names, so that this process is O(N) - * not O(N^2) for N names. - */ - hash_ctl.keysize = NAMEDATALEN; - hash_ctl.entrysize = sizeof(NameHashEntry); - hash_ctl.hcxt = CurrentMemoryContext; - names_hash = hash_create("set_rtable_names names", - list_length(dpns->rtable), - &hash_ctl, - HASH_ELEM | HASH_STRINGS | HASH_CONTEXT); - - /* Preload the hash table with names appearing in parent_namespaces */ - foreach(lc, parent_namespaces) - { - deparse_namespace *olddpns = (deparse_namespace *) lfirst(lc); - ListCell *lc2; - - foreach(lc2, olddpns->rtable_names) - { - char *oldname = (char *) lfirst(lc2); - - if (oldname == NULL) - continue; - hentry = (NameHashEntry *) hash_search(names_hash, - oldname, - HASH_ENTER, - &found); - /* we do not complain about duplicate names in parent namespaces */ - hentry->counter = 0; - } - } - - /* Now we can scan the rtable */ - rtindex = 1; - foreach(lc, dpns->rtable) - { - RangeTblEntry *rte = (RangeTblEntry *) lfirst(lc); - char *refname; - - /* Just in case this takes an unreasonable amount of time ... */ - CHECK_FOR_INTERRUPTS(); - - if (rels_used && !bms_is_member(rtindex, rels_used)) - { - /* Ignore unreferenced RTE */ - refname = NULL; - } - else if (rte->alias) - { - /* If RTE has a user-defined alias, prefer that */ - refname = rte->alias->aliasname; - } - else if (rte->rtekind == RTE_RELATION) - { - /* Use the current actual name of the relation */ - refname = get_rel_name(rte->relid); - } - else if (rte->rtekind == RTE_JOIN) - { - /* Unnamed join has no refname */ - refname = NULL; - } - else - { - /* Otherwise use whatever the parser assigned */ - refname = rte->eref->aliasname; - } - - /* - * If the selected name isn't unique, append digits to make it so, and - * make a new hash entry for it once we've got a unique name. For a - * very long input name, we might have to truncate to stay within - * NAMEDATALEN. - */ - if (refname) - { - hentry = (NameHashEntry *) hash_search(names_hash, - refname, - HASH_ENTER, - &found); - if (found) - { - /* Name already in use, must choose a new one */ - int refnamelen = strlen(refname); - char *modname = (char *) palloc(refnamelen + 16); - NameHashEntry *hentry2; - - do - { - hentry->counter++; - for (;;) - { - memcpy(modname, refname, refnamelen); - sprintf(modname + refnamelen, "_%d", hentry->counter); - if (strlen(modname) < NAMEDATALEN) - break; - /* drop chars from refname to keep all the digits */ - refnamelen = pg_mbcliplen(refname, refnamelen, - refnamelen - 1); - } - hentry2 = (NameHashEntry *) hash_search(names_hash, - modname, - HASH_ENTER, - &found); - } while (found); - hentry2->counter = 0; /* init new hash entry */ - refname = modname; - } - else - { - /* Name not previously used, need only initialize hentry */ - hentry->counter = 0; - } - } - - dpns->rtable_names = lappend(dpns->rtable_names, refname); - rtindex++; - } - - hash_destroy(names_hash); -} - -/* - * set_deparse_for_query: set up deparse_namespace for deparsing a Query tree - * - * For convenience, this is defined to initialize the deparse_namespace struct - * from scratch. - */ -static void -set_deparse_for_query(deparse_namespace *dpns, Query *query, - List *parent_namespaces) -{ - ListCell *lc; - ListCell *lc2; - - /* Initialize *dpns and fill rtable/ctes links */ - memset(dpns, 0, sizeof(deparse_namespace)); - dpns->rtable = query->rtable; - dpns->subplans = NIL; - dpns->ctes = query->cteList; - dpns->appendrels = NULL; - - /* Assign a unique relation alias to each RTE */ - set_rtable_names(dpns, parent_namespaces, NULL); - - /* Initialize dpns->rtable_columns to contain zeroed structs */ - dpns->rtable_columns = NIL; - while (list_length(dpns->rtable_columns) < list_length(dpns->rtable)) - dpns->rtable_columns = lappend(dpns->rtable_columns, - palloc0(sizeof(deparse_columns))); - - /* If it's a utility query, it won't have a jointree */ - if (query->jointree) - { - /* Detect whether global uniqueness of USING names is needed */ - dpns->unique_using = - has_dangerous_join_using(dpns, (Node *) query->jointree); - - /* - * Select names for columns merged by USING, via a recursive pass over - * the query jointree. - */ - set_using_names(dpns, (Node *) query->jointree, NIL); - } - - /* - * Now assign remaining column aliases for each RTE. We do this in a - * linear scan of the rtable, so as to process RTEs whether or not they - * are in the jointree (we mustn't miss NEW.*, INSERT target relations, - * etc). JOIN RTEs must be processed after their children, but this is - * okay because they appear later in the rtable list than their children - * (cf Asserts in identify_join_columns()). - */ - forboth(lc, dpns->rtable, lc2, dpns->rtable_columns) - { - RangeTblEntry *rte = (RangeTblEntry *) lfirst(lc); - deparse_columns *colinfo = (deparse_columns *) lfirst(lc2); - - if (rte->rtekind == RTE_JOIN) - set_join_column_names(dpns, rte, colinfo); - else - set_relation_column_names(dpns, rte, colinfo); - } -} - -/* - * has_dangerous_join_using: search jointree for unnamed JOIN USING - * - * Merged columns of a JOIN USING may act differently from either of the input - * columns, either because they are merged with COALESCE (in a FULL JOIN) or - * because an implicit coercion of the underlying input column is required. - * In such a case the column must be referenced as a column of the JOIN not as - * a column of either input. And this is problematic if the join is unnamed - * (alias-less): we cannot qualify the column's name with an RTE name, since - * there is none. (Forcibly assigning an alias to the join is not a solution, - * since that will prevent legal references to tables below the join.) - * To ensure that every column in the query is unambiguously referenceable, - * we must assign such merged columns names that are globally unique across - * the whole query, aliasing other columns out of the way as necessary. - * - * Because the ensuing re-aliasing is fairly damaging to the readability of - * the query, we don't do this unless we have to. So, we must pre-scan - * the join tree to see if we have to, before starting set_using_names(). - */ -static bool -has_dangerous_join_using(deparse_namespace *dpns, Node *jtnode) -{ - if (IsA(jtnode, RangeTblRef)) - { - /* nothing to do here */ - } - else if (IsA(jtnode, FromExpr)) - { - FromExpr *f = (FromExpr *) jtnode; - ListCell *lc; - - foreach(lc, f->fromlist) - { - if (has_dangerous_join_using(dpns, (Node *) lfirst(lc))) - return true; - } - } - else if (IsA(jtnode, JoinExpr)) - { - JoinExpr *j = (JoinExpr *) jtnode; - - /* Is it an unnamed JOIN with USING? */ - if (j->alias == NULL && j->usingClause) - { - /* - * Yes, so check each join alias var to see if any of them are not - * simple references to underlying columns. If so, we have a - * dangerous situation and must pick unique aliases. - */ - RangeTblEntry *jrte = rt_fetch(j->rtindex, dpns->rtable); - - /* We need only examine the merged columns */ - for (int i = 0; i < jrte->joinmergedcols; i++) - { - Node *aliasvar = list_nth(jrte->joinaliasvars, i); - - if (!IsA(aliasvar, Var)) - return true; - } - } - - /* Nope, but inspect children */ - if (has_dangerous_join_using(dpns, j->larg)) - return true; - if (has_dangerous_join_using(dpns, j->rarg)) - return true; - } - else - elog(ERROR, "unrecognized node type: %d", - (int) nodeTag(jtnode)); - return false; -} - -/* - * set_using_names: select column aliases to be used for merged USING columns - * - * We do this during a recursive descent of the query jointree. - * dpns->unique_using must already be set to determine the global strategy. - * - * Column alias info is saved in the dpns->rtable_columns list, which is - * assumed to be filled with pre-zeroed deparse_columns structs. - * - * parentUsing is a list of all USING aliases assigned in parent joins of - * the current jointree node. (The passed-in list must not be modified.) - */ -static void -set_using_names(deparse_namespace *dpns, Node *jtnode, List *parentUsing) -{ - if (IsA(jtnode, RangeTblRef)) - { - /* nothing to do now */ - } - else if (IsA(jtnode, FromExpr)) - { - FromExpr *f = (FromExpr *) jtnode; - ListCell *lc; - - foreach(lc, f->fromlist) - set_using_names(dpns, (Node *) lfirst(lc), parentUsing); - } - else if (IsA(jtnode, JoinExpr)) - { - JoinExpr *j = (JoinExpr *) jtnode; - RangeTblEntry *rte = rt_fetch(j->rtindex, dpns->rtable); - deparse_columns *colinfo = deparse_columns_fetch(j->rtindex, dpns); - int *leftattnos; - int *rightattnos; - deparse_columns *leftcolinfo; - deparse_columns *rightcolinfo; - int i; - ListCell *lc; - - /* Get info about the shape of the join */ - identify_join_columns(j, rte, colinfo); - leftattnos = colinfo->leftattnos; - rightattnos = colinfo->rightattnos; - - /* Look up the not-yet-filled-in child deparse_columns structs */ - leftcolinfo = deparse_columns_fetch(colinfo->leftrti, dpns); - rightcolinfo = deparse_columns_fetch(colinfo->rightrti, dpns); - - /* - * If this join is unnamed, then we cannot substitute new aliases at - * this level, so any name requirements pushed down to here must be - * pushed down again to the children. - */ - if (rte->alias == NULL) - { - for (i = 0; i < colinfo->num_cols; i++) - { - char *colname = colinfo->colnames[i]; - - if (colname == NULL) - continue; - - /* Push down to left column, unless it's a system column */ - if (leftattnos[i] > 0) - { - expand_colnames_array_to(leftcolinfo, leftattnos[i]); - leftcolinfo->colnames[leftattnos[i] - 1] = colname; - } - - /* Same on the righthand side */ - if (rightattnos[i] > 0) - { - expand_colnames_array_to(rightcolinfo, rightattnos[i]); - rightcolinfo->colnames[rightattnos[i] - 1] = colname; - } - } - } - - /* - * If there's a USING clause, select the USING column names and push - * those names down to the children. We have two strategies: - * - * If dpns->unique_using is true, we force all USING names to be - * unique across the whole query level. In principle we'd only need - * the names of dangerous USING columns to be globally unique, but to - * safely assign all USING names in a single pass, we have to enforce - * the same uniqueness rule for all of them. However, if a USING - * column's name has been pushed down from the parent, we should use - * it as-is rather than making a uniqueness adjustment. This is - * necessary when we're at an unnamed join, and it creates no risk of - * ambiguity. Also, if there's a user-written output alias for a - * merged column, we prefer to use that rather than the input name; - * this simplifies the logic and seems likely to lead to less aliasing - * overall. - * - * If dpns->unique_using is false, we only need USING names to be - * unique within their own join RTE. We still need to honor - * pushed-down names, though. - * - * Though significantly different in results, these two strategies are - * implemented by the same code, with only the difference of whether - * to put assigned names into dpns->using_names. - */ - if (j->usingClause) - { - /* Copy the input parentUsing list so we don't modify it */ - parentUsing = list_copy(parentUsing); - - /* USING names must correspond to the first join output columns */ - expand_colnames_array_to(colinfo, list_length(j->usingClause)); - i = 0; - foreach(lc, j->usingClause) - { - char *colname = strVal(lfirst(lc)); - - /* Assert it's a merged column */ - Assert(leftattnos[i] != 0 && rightattnos[i] != 0); - - /* Adopt passed-down name if any, else select unique name */ - if (colinfo->colnames[i] != NULL) - colname = colinfo->colnames[i]; - else - { - /* Prefer user-written output alias if any */ - if (rte->alias && i < list_length(rte->alias->colnames)) - colname = strVal(list_nth(rte->alias->colnames, i)); - /* Make it appropriately unique */ - colname = make_colname_unique(colname, dpns, colinfo); - if (dpns->unique_using) - dpns->using_names = lappend(dpns->using_names, - colname); - /* Save it as output column name, too */ - colinfo->colnames[i] = colname; - } - - /* Remember selected names for use later */ - colinfo->usingNames = lappend(colinfo->usingNames, colname); - parentUsing = lappend(parentUsing, colname); - - /* Push down to left column, unless it's a system column */ - if (leftattnos[i] > 0) - { - expand_colnames_array_to(leftcolinfo, leftattnos[i]); - leftcolinfo->colnames[leftattnos[i] - 1] = colname; - } - - /* Same on the righthand side */ - if (rightattnos[i] > 0) - { - expand_colnames_array_to(rightcolinfo, rightattnos[i]); - rightcolinfo->colnames[rightattnos[i] - 1] = colname; - } - - i++; - } - } - - /* Mark child deparse_columns structs with correct parentUsing info */ - leftcolinfo->parentUsing = parentUsing; - rightcolinfo->parentUsing = parentUsing; - - /* Now recursively assign USING column names in children */ - set_using_names(dpns, j->larg, parentUsing); - set_using_names(dpns, j->rarg, parentUsing); - } - else - elog(ERROR, "unrecognized node type: %d", - (int) nodeTag(jtnode)); -} - -/* - * set_relation_column_names: select column aliases for a non-join RTE - * - * Column alias info is saved in *colinfo, which is assumed to be pre-zeroed. - * If any colnames entries are already filled in, those override local - * choices. - */ -static void -set_relation_column_names(deparse_namespace *dpns, RangeTblEntry *rte, - deparse_columns *colinfo) -{ - int ncolumns; - char **real_colnames; - bool changed_any; - bool has_anonymous; - int noldcolumns; - int i; - int j; - - /* - * Extract the RTE's "real" column names. This is comparable to - * get_rte_attribute_name, except that it's important to disregard dropped - * columns. We put NULL into the array for a dropped column. - */ - if (rte->rtekind == RTE_RELATION || - GetRangeTblKind(rte) == CITUS_RTE_SHARD) - { - /* Relation --- look to the system catalogs for up-to-date info */ - Relation rel; - TupleDesc tupdesc; - - rel = relation_open(rte->relid, AccessShareLock); - tupdesc = RelationGetDescr(rel); - - ncolumns = tupdesc->natts; - real_colnames = (char **) palloc(ncolumns * sizeof(char *)); - - for (i = 0; i < ncolumns; i++) - { - Form_pg_attribute attr = TupleDescAttr(tupdesc, i); - - if (attr->attisdropped) - real_colnames[i] = NULL; - else - real_colnames[i] = pstrdup(NameStr(attr->attname)); - } - relation_close(rel, AccessShareLock); - } - else - { - /* Otherwise use the column names from eref */ - ListCell *lc; - - ncolumns = list_length(rte->eref->colnames); - real_colnames = (char **) palloc(ncolumns * sizeof(char *)); - - i = 0; - foreach(lc, rte->eref->colnames) - { - /* - * If the column name shown in eref is an empty string, then it's - * a column that was dropped at the time of parsing the query, so - * treat it as dropped. - */ - char *cname = strVal(lfirst(lc)); - - if (cname[0] == '\0') - cname = NULL; - real_colnames[i] = cname; - i++; - } - } - - /* - * Ensure colinfo->colnames has a slot for each column. (It could be long - * enough already, if we pushed down a name for the last column.) Note: - * it's possible that there are now more columns than there were when the - * query was parsed, ie colnames could be longer than rte->eref->colnames. - * We must assign unique aliases to the new columns too, else there could - * be unresolved conflicts when the view/rule is reloaded. - */ - expand_colnames_array_to(colinfo, ncolumns); - Assert(colinfo->num_cols == ncolumns); - - /* - * Make sufficiently large new_colnames and is_new_col arrays, too. - * - * Note: because we leave colinfo->num_new_cols zero until after the loop, - * colname_is_unique will not consult that array, which is fine because it - * would only be duplicate effort. - */ - colinfo->new_colnames = (char **) palloc(ncolumns * sizeof(char *)); - colinfo->is_new_col = (bool *) palloc(ncolumns * sizeof(bool)); - - /* - * Scan the columns, select a unique alias for each one, and store it in - * colinfo->colnames and colinfo->new_colnames. The former array has NULL - * entries for dropped columns, the latter omits them. Also mark - * new_colnames entries as to whether they are new since parse time; this - * is the case for entries beyond the length of rte->eref->colnames. - */ - noldcolumns = list_length(rte->eref->colnames); - changed_any = false; - has_anonymous = false; - j = 0; - for (i = 0; i < ncolumns; i++) - { - char *real_colname = real_colnames[i]; - char *colname = colinfo->colnames[i]; - - /* Skip dropped columns */ - if (real_colname == NULL) - { - Assert(colname == NULL); /* colnames[i] is already NULL */ - continue; - } - - /* If alias already assigned, that's what to use */ - if (colname == NULL) - { - /* If user wrote an alias, prefer that over real column name */ - if (rte->alias && i < list_length(rte->alias->colnames)) - colname = strVal(list_nth(rte->alias->colnames, i)); - else - colname = real_colname; - - /* Unique-ify and insert into colinfo */ - colname = make_colname_unique(colname, dpns, colinfo); - - colinfo->colnames[i] = colname; - } - - /* Put names of non-dropped columns in new_colnames[] too */ - colinfo->new_colnames[j] = colname; - /* And mark them as new or not */ - colinfo->is_new_col[j] = (i >= noldcolumns); - j++; - - /* Remember if any assigned aliases differ from "real" name */ - if (!changed_any && strcmp(colname, real_colname) != 0) - changed_any = true; - - /* - * Remember if there is a reference to an anonymous column as named by - * char * FigureColname(Node *node) - */ - if (!has_anonymous && strcmp(real_colname, "?column?") == 0) - has_anonymous = true; - } - - /* - * Set correct length for new_colnames[] array. (Note: if columns have - * been added, colinfo->num_cols includes them, which is not really quite - * right but is harmless, since any new columns must be at the end where - * they won't affect varattnos of pre-existing columns.) - */ - colinfo->num_new_cols = j; - - /* - * For a relation RTE, we need only print the alias column names if any - * are different from the underlying "real" names. For a function RTE, - * always emit a complete column alias list; this is to protect against - * possible instability of the default column names (eg, from altering - * parameter names). For tablefunc RTEs, we never print aliases, because - * the column names are part of the clause itself. For other RTE types, - * print if we changed anything OR if there were user-written column - * aliases (since the latter would be part of the underlying "reality"). - */ - if (rte->rtekind == RTE_RELATION) - colinfo->printaliases = changed_any; - else if (rte->rtekind == RTE_FUNCTION) - colinfo->printaliases = true; - else if (rte->rtekind == RTE_TABLEFUNC) - colinfo->printaliases = false; - else if (rte->alias && rte->alias->colnames != NIL) - colinfo->printaliases = true; - else - colinfo->printaliases = changed_any || has_anonymous; -} - -/* - * set_join_column_names: select column aliases for a join RTE - * - * Column alias info is saved in *colinfo, which is assumed to be pre-zeroed. - * If any colnames entries are already filled in, those override local - * choices. Also, names for USING columns were already chosen by - * set_using_names(). We further expect that column alias selection has been - * completed for both input RTEs. - */ -static void -set_join_column_names(deparse_namespace *dpns, RangeTblEntry *rte, - deparse_columns *colinfo) -{ - deparse_columns *leftcolinfo; - deparse_columns *rightcolinfo; - bool changed_any; - int noldcolumns; - int nnewcolumns; - Bitmapset *leftmerged = NULL; - Bitmapset *rightmerged = NULL; - int i; - int j; - int ic; - int jc; - - /* Look up the previously-filled-in child deparse_columns structs */ - leftcolinfo = deparse_columns_fetch(colinfo->leftrti, dpns); - rightcolinfo = deparse_columns_fetch(colinfo->rightrti, dpns); - - /* - * Ensure colinfo->colnames has a slot for each column. (It could be long - * enough already, if we pushed down a name for the last column.) Note: - * it's possible that one or both inputs now have more columns than there - * were when the query was parsed, but we'll deal with that below. We - * only need entries in colnames for pre-existing columns. - */ - noldcolumns = list_length(rte->eref->colnames); - expand_colnames_array_to(colinfo, noldcolumns); - Assert(colinfo->num_cols == noldcolumns); - - /* - * Scan the join output columns, select an alias for each one, and store - * it in colinfo->colnames. If there are USING columns, set_using_names() - * already selected their names, so we can start the loop at the first - * non-merged column. - */ - changed_any = false; - for (i = list_length(colinfo->usingNames); i < noldcolumns; i++) - { - char *colname = colinfo->colnames[i]; - char *real_colname; - - /* Join column must refer to at least one input column */ - Assert(colinfo->leftattnos[i] != 0 || colinfo->rightattnos[i] != 0); - - /* Get the child column name */ - if (colinfo->leftattnos[i] > 0) - real_colname = leftcolinfo->colnames[colinfo->leftattnos[i] - 1]; - else if (colinfo->rightattnos[i] > 0) - real_colname = rightcolinfo->colnames[colinfo->rightattnos[i] - 1]; - else - { - /* We're joining system columns --- use eref name */ - real_colname = strVal(list_nth(rte->eref->colnames, i)); - } - /* If child col has been dropped, no need to assign a join colname */ - if (real_colname == NULL) - { - colinfo->colnames[i] = NULL; - continue; - } - - /* In an unnamed join, just report child column names as-is */ - if (rte->alias == NULL) - { - colinfo->colnames[i] = real_colname; - continue; - } - - /* If alias already assigned, that's what to use */ - if (colname == NULL) - { - /* If user wrote an alias, prefer that over real column name */ - if (rte->alias && i < list_length(rte->alias->colnames)) - colname = strVal(list_nth(rte->alias->colnames, i)); - else - colname = real_colname; - - /* Unique-ify and insert into colinfo */ - colname = make_colname_unique(colname, dpns, colinfo); - - colinfo->colnames[i] = colname; - } - - /* Remember if any assigned aliases differ from "real" name */ - if (!changed_any && strcmp(colname, real_colname) != 0) - changed_any = true; - } - - /* - * Calculate number of columns the join would have if it were re-parsed - * now, and create storage for the new_colnames and is_new_col arrays. - * - * Note: colname_is_unique will be consulting new_colnames[] during the - * loops below, so its not-yet-filled entries must be zeroes. - */ - nnewcolumns = leftcolinfo->num_new_cols + rightcolinfo->num_new_cols - - list_length(colinfo->usingNames); - colinfo->num_new_cols = nnewcolumns; - colinfo->new_colnames = (char **) palloc0(nnewcolumns * sizeof(char *)); - colinfo->is_new_col = (bool *) palloc0(nnewcolumns * sizeof(bool)); - - /* - * Generating the new_colnames array is a bit tricky since any new columns - * added since parse time must be inserted in the right places. This code - * must match the parser, which will order a join's columns as merged - * columns first (in USING-clause order), then non-merged columns from the - * left input (in attnum order), then non-merged columns from the right - * input (ditto). If one of the inputs is itself a join, its columns will - * be ordered according to the same rule, which means newly-added columns - * might not be at the end. We can figure out what's what by consulting - * the leftattnos and rightattnos arrays plus the input is_new_col arrays. - * - * In these loops, i indexes leftattnos/rightattnos (so it's join varattno - * less one), j indexes new_colnames/is_new_col, and ic/jc have similar - * meanings for the current child RTE. - */ - - /* Handle merged columns; they are first and can't be new */ - i = j = 0; - while (i < noldcolumns && - colinfo->leftattnos[i] != 0 && - colinfo->rightattnos[i] != 0) - { - /* column name is already determined and known unique */ - colinfo->new_colnames[j] = colinfo->colnames[i]; - colinfo->is_new_col[j] = false; - - /* build bitmapsets of child attnums of merged columns */ - if (colinfo->leftattnos[i] > 0) - leftmerged = bms_add_member(leftmerged, colinfo->leftattnos[i]); - if (colinfo->rightattnos[i] > 0) - rightmerged = bms_add_member(rightmerged, colinfo->rightattnos[i]); - - i++, j++; - } - - /* Handle non-merged left-child columns */ - ic = 0; - for (jc = 0; jc < leftcolinfo->num_new_cols; jc++) - { - char *child_colname = leftcolinfo->new_colnames[jc]; - - if (!leftcolinfo->is_new_col[jc]) - { - /* Advance ic to next non-dropped old column of left child */ - while (ic < leftcolinfo->num_cols && - leftcolinfo->colnames[ic] == NULL) - ic++; - Assert(ic < leftcolinfo->num_cols); - ic++; - /* If it is a merged column, we already processed it */ - if (bms_is_member(ic, leftmerged)) - continue; - /* Else, advance i to the corresponding existing join column */ - while (i < colinfo->num_cols && - colinfo->colnames[i] == NULL) - i++; - Assert(i < colinfo->num_cols); - Assert(ic == colinfo->leftattnos[i]); - /* Use the already-assigned name of this column */ - colinfo->new_colnames[j] = colinfo->colnames[i]; - i++; - } - else - { - /* - * Unique-ify the new child column name and assign, unless we're - * in an unnamed join, in which case just copy - */ - if (rte->alias != NULL) - { - colinfo->new_colnames[j] = - make_colname_unique(child_colname, dpns, colinfo); - if (!changed_any && - strcmp(colinfo->new_colnames[j], child_colname) != 0) - changed_any = true; - } - else - colinfo->new_colnames[j] = child_colname; - } - - colinfo->is_new_col[j] = leftcolinfo->is_new_col[jc]; - j++; - } - - /* Handle non-merged right-child columns in exactly the same way */ - ic = 0; - for (jc = 0; jc < rightcolinfo->num_new_cols; jc++) - { - char *child_colname = rightcolinfo->new_colnames[jc]; - - if (!rightcolinfo->is_new_col[jc]) - { - /* Advance ic to next non-dropped old column of right child */ - while (ic < rightcolinfo->num_cols && - rightcolinfo->colnames[ic] == NULL) - ic++; - Assert(ic < rightcolinfo->num_cols); - ic++; - /* If it is a merged column, we already processed it */ - if (bms_is_member(ic, rightmerged)) - continue; - /* Else, advance i to the corresponding existing join column */ - while (i < colinfo->num_cols && - colinfo->colnames[i] == NULL) - i++; - Assert(i < colinfo->num_cols); - Assert(ic == colinfo->rightattnos[i]); - /* Use the already-assigned name of this column */ - colinfo->new_colnames[j] = colinfo->colnames[i]; - i++; - } - else - { - /* - * Unique-ify the new child column name and assign, unless we're - * in an unnamed join, in which case just copy - */ - if (rte->alias != NULL) - { - colinfo->new_colnames[j] = - make_colname_unique(child_colname, dpns, colinfo); - if (!changed_any && - strcmp(colinfo->new_colnames[j], child_colname) != 0) - changed_any = true; - } - else - colinfo->new_colnames[j] = child_colname; - } - - colinfo->is_new_col[j] = rightcolinfo->is_new_col[jc]; - j++; - } - - /* Assert we processed the right number of columns */ -#ifdef USE_ASSERT_CHECKING - for (int col_index = 0; col_index < colinfo->num_cols; col_index++) - { - /* - * In the above processing-loops, "i" advances only if - * the column is not new, check if this is a new column. - */ - if (colinfo->is_new_col[col_index]) - i++; - } - Assert(i == colinfo->num_cols); - Assert(j == nnewcolumns); -#endif - - /* - * For a named join, print column aliases if we changed any from the child - * names. Unnamed joins cannot print aliases. - */ - if (rte->alias != NULL) - colinfo->printaliases = changed_any; - else - colinfo->printaliases = false; -} - -/* - * colname_is_unique: is colname distinct from already-chosen column names? - * - * dpns is query-wide info, colinfo is for the column's RTE - */ -static bool -colname_is_unique(const char *colname, deparse_namespace *dpns, - deparse_columns *colinfo) -{ - int i; - ListCell *lc; - - /* Check against already-assigned column aliases within RTE */ - for (i = 0; i < colinfo->num_cols; i++) - { - char *oldname = colinfo->colnames[i]; - - if (oldname && strcmp(oldname, colname) == 0) - return false; - } - - /* - * If we're building a new_colnames array, check that too (this will be - * partially but not completely redundant with the previous checks) - */ - for (i = 0; i < colinfo->num_new_cols; i++) - { - char *oldname = colinfo->new_colnames[i]; - - if (oldname && strcmp(oldname, colname) == 0) - return false; - } - - /* Also check against USING-column names that must be globally unique */ - foreach(lc, dpns->using_names) - { - char *oldname = (char *) lfirst(lc); - - if (strcmp(oldname, colname) == 0) - return false; - } - - /* Also check against names already assigned for parent-join USING cols */ - foreach(lc, colinfo->parentUsing) - { - char *oldname = (char *) lfirst(lc); - - if (strcmp(oldname, colname) == 0) - return false; - } - - return true; -} - -/* - * make_colname_unique: modify colname if necessary to make it unique - * - * dpns is query-wide info, colinfo is for the column's RTE - */ -static char * -make_colname_unique(char *colname, deparse_namespace *dpns, - deparse_columns *colinfo) -{ - /* - * If the selected name isn't unique, append digits to make it so. For a - * very long input name, we might have to truncate to stay within - * NAMEDATALEN. - */ - if (!colname_is_unique(colname, dpns, colinfo)) - { - int colnamelen = strlen(colname); - char *modname = (char *) palloc(colnamelen + 16); - int i = 0; - - do - { - i++; - for (;;) - { - memcpy(modname, colname, colnamelen); - sprintf(modname + colnamelen, "_%d", i); - if (strlen(modname) < NAMEDATALEN) - break; - /* drop chars from colname to keep all the digits */ - colnamelen = pg_mbcliplen(colname, colnamelen, - colnamelen - 1); - } - } while (!colname_is_unique(modname, dpns, colinfo)); - colname = modname; - } - return colname; -} - -/* - * expand_colnames_array_to: make colinfo->colnames at least n items long - * - * Any added array entries are initialized to zero. - */ -static void -expand_colnames_array_to(deparse_columns *colinfo, int n) -{ - if (n > colinfo->num_cols) - { - if (colinfo->colnames == NULL) - colinfo->colnames = (char **) palloc0(n * sizeof(char *)); - else - { - colinfo->colnames = (char **) repalloc(colinfo->colnames, - n * sizeof(char *)); - memset(colinfo->colnames + colinfo->num_cols, 0, - (n - colinfo->num_cols) * sizeof(char *)); - } - colinfo->num_cols = n; - } -} - -/* - * identify_join_columns: figure out where columns of a join come from - * - * Fills the join-specific fields of the colinfo struct, except for - * usingNames which is filled later. - */ -static void -identify_join_columns(JoinExpr *j, RangeTblEntry *jrte, - deparse_columns *colinfo) -{ - int numjoincols; - int jcolno; - int rcolno; - ListCell *lc; - - /* Extract left/right child RT indexes */ - if (IsA(j->larg, RangeTblRef)) - colinfo->leftrti = ((RangeTblRef *) j->larg)->rtindex; - else if (IsA(j->larg, JoinExpr)) - colinfo->leftrti = ((JoinExpr *) j->larg)->rtindex; - else - elog(ERROR, "unrecognized node type in jointree: %d", - (int) nodeTag(j->larg)); - if (IsA(j->rarg, RangeTblRef)) - colinfo->rightrti = ((RangeTblRef *) j->rarg)->rtindex; - else if (IsA(j->rarg, JoinExpr)) - colinfo->rightrti = ((JoinExpr *) j->rarg)->rtindex; - else - elog(ERROR, "unrecognized node type in jointree: %d", - (int) nodeTag(j->rarg)); - - /* Assert children will be processed earlier than join in second pass */ - Assert(colinfo->leftrti < j->rtindex); - Assert(colinfo->rightrti < j->rtindex); - - /* Initialize result arrays with zeroes */ - numjoincols = list_length(jrte->joinaliasvars); - Assert(numjoincols == list_length(jrte->eref->colnames)); - colinfo->leftattnos = (int *) palloc0(numjoincols * sizeof(int)); - colinfo->rightattnos = (int *) palloc0(numjoincols * sizeof(int)); - - /* - * Deconstruct RTE's joinleftcols/joinrightcols into desired format. - * Recall that the column(s) merged due to USING are the first column(s) - * of the join output. We need not do anything special while scanning - * joinleftcols, but while scanning joinrightcols we must distinguish - * merged from unmerged columns. - */ - jcolno = 0; - foreach(lc, jrte->joinleftcols) - { - int leftattno = lfirst_int(lc); - - colinfo->leftattnos[jcolno++] = leftattno; - } - rcolno = 0; - foreach(lc, jrte->joinrightcols) - { - int rightattno = lfirst_int(lc); - - if (rcolno < jrte->joinmergedcols) /* merged column? */ - colinfo->rightattnos[rcolno] = rightattno; - else - colinfo->rightattnos[jcolno++] = rightattno; - rcolno++; - } - Assert(jcolno == numjoincols); -} - -/* - * get_rtable_name: convenience function to get a previously assigned RTE alias - * - * The RTE must belong to the topmost namespace level in "context". - */ -static char * -get_rtable_name(int rtindex, deparse_context *context) -{ - deparse_namespace *dpns = (deparse_namespace *) linitial(context->namespaces); - - Assert(rtindex > 0 && rtindex <= list_length(dpns->rtable_names)); - return (char *) list_nth(dpns->rtable_names, rtindex - 1); -} - -/* - * set_deparse_plan: set up deparse_namespace to parse subexpressions - * of a given Plan node - * - * This sets the plan, outer_planstate, inner_planstate, outer_tlist, - * inner_tlist, and index_tlist fields. Caller is responsible for adjusting - * the ancestors list if necessary. Note that the rtable and ctes fields do - * not need to change when shifting attention to different plan nodes in a - * single plan tree. - */ -static void -set_deparse_plan(deparse_namespace *dpns, Plan *plan) -{ - dpns->plan = plan; - - /* - * We special-case Append and MergeAppend to pretend that the first child - * plan is the OUTER referent; we have to interpret OUTER Vars in their - * tlists according to one of the children, and the first one is the most - * natural choice. - */ - if (IsA(plan, Append)) - dpns->outer_plan = linitial(((Append *) plan)->appendplans); - else if (IsA(plan, MergeAppend)) - dpns->outer_plan = linitial(((MergeAppend *) plan)->mergeplans); - else - dpns->outer_plan = outerPlan(plan); - - if (dpns->outer_plan) - dpns->outer_tlist = dpns->outer_plan->targetlist; - else - dpns->outer_tlist = NIL; - - /* - * For a SubqueryScan, pretend the subplan is INNER referent. (We don't - * use OUTER because that could someday conflict with the normal meaning.) - * Likewise, for a CteScan, pretend the subquery's plan is INNER referent. - * For ON CONFLICT .. UPDATE we just need the inner tlist to point to the - * excluded expression's tlist. (Similar to the SubqueryScan we don't want - * to reuse OUTER, it's used for RETURNING in some modify table cases, - * although not INSERT .. CONFLICT). - */ - if (IsA(plan, SubqueryScan)) - dpns->inner_plan = ((SubqueryScan *) plan)->subplan; - else if (IsA(plan, CteScan)) - dpns->inner_plan = list_nth(dpns->subplans, - ((CteScan *) plan)->ctePlanId - 1); - else if (IsA(plan, ModifyTable)) - dpns->inner_plan = plan; - else - dpns->inner_plan = innerPlan(plan); - - if (IsA(plan, ModifyTable)) - dpns->inner_tlist = ((ModifyTable *) plan)->exclRelTlist; - else if (dpns->inner_plan) - dpns->inner_tlist = dpns->inner_plan->targetlist; - else - dpns->inner_tlist = NIL; - - /* Set up referent for INDEX_VAR Vars, if needed */ - if (IsA(plan, IndexOnlyScan)) - dpns->index_tlist = ((IndexOnlyScan *) plan)->indextlist; - else if (IsA(plan, ForeignScan)) - dpns->index_tlist = ((ForeignScan *) plan)->fdw_scan_tlist; - else if (IsA(plan, CustomScan)) - dpns->index_tlist = ((CustomScan *) plan)->custom_scan_tlist; - else - dpns->index_tlist = NIL; -} - -/* - * push_child_plan: temporarily transfer deparsing attention to a child plan - * - * When expanding an OUTER_VAR or INNER_VAR reference, we must adjust the - * deparse context in case the referenced expression itself uses - * OUTER_VAR/INNER_VAR. We modify the top stack entry in-place to avoid - * affecting levelsup issues (although in a Plan tree there really shouldn't - * be any). - * - * Caller must provide a local deparse_namespace variable to save the - * previous state for pop_child_plan. - */ -static void -push_child_plan(deparse_namespace *dpns, Plan *plan, - deparse_namespace *save_dpns) -{ - /* Save state for restoration later */ - *save_dpns = *dpns; - - /* Link current plan node into ancestors list */ - dpns->ancestors = lcons(dpns->plan, dpns->ancestors); - - /* Set attention on selected child */ - set_deparse_plan(dpns, plan); -} - -/* - * pop_child_plan: undo the effects of push_child_plan - */ -static void -pop_child_plan(deparse_namespace *dpns, deparse_namespace *save_dpns) -{ - List *ancestors; - - /* Get rid of ancestors list cell added by push_child_plan */ - ancestors = list_delete_first(dpns->ancestors); - - /* Restore fields changed by push_child_plan */ - *dpns = *save_dpns; - - /* Make sure dpns->ancestors is right (may be unnecessary) */ - dpns->ancestors = ancestors; -} - -/* - * push_ancestor_plan: temporarily transfer deparsing attention to an - * ancestor plan - * - * When expanding a Param reference, we must adjust the deparse context - * to match the plan node that contains the expression being printed; - * otherwise we'd fail if that expression itself contains a Param or - * OUTER_VAR/INNER_VAR/INDEX_VAR variable. - * - * The target ancestor is conveniently identified by the ListCell holding it - * in dpns->ancestors. - * - * Caller must provide a local deparse_namespace variable to save the - * previous state for pop_ancestor_plan. - */ -static void -push_ancestor_plan(deparse_namespace *dpns, ListCell *ancestor_cell, - deparse_namespace *save_dpns) -{ - Plan *plan = (Plan *) lfirst(ancestor_cell); - - /* Save state for restoration later */ - *save_dpns = *dpns; - - /* Build a new ancestor list with just this node's ancestors */ - dpns->ancestors = - list_copy_tail(dpns->ancestors, - list_cell_number(dpns->ancestors, ancestor_cell) + 1); - - /* Set attention on selected ancestor */ - set_deparse_plan(dpns, plan); -} - -/* - * pop_ancestor_plan: undo the effects of push_ancestor_plan - */ -static void -pop_ancestor_plan(deparse_namespace *dpns, deparse_namespace *save_dpns) -{ - /* Free the ancestor list made in push_ancestor_plan */ - list_free(dpns->ancestors); - - /* Restore fields changed by push_ancestor_plan */ - *dpns = *save_dpns; -} - - -/* ---------- - * deparse_shard_query - Parse back a query for execution on a shard - * - * Builds an SQL string to perform the provided query on a specific shard and - * places this string into the provided buffer. - * ---------- - */ -void -deparse_shard_query(Query *query, Oid distrelid, int64 shardid, - StringInfo buffer) -{ - get_query_def_extended(query, buffer, NIL, distrelid, shardid, NULL, 0, - WRAP_COLUMN_DEFAULT, 0); -} - - -/* ---------- - * get_query_def - Parse back one query parsetree - * - * If resultDesc is not NULL, then it is the output tuple descriptor for - * the view represented by a SELECT query. - * ---------- - */ -static void -get_query_def(Query *query, StringInfo buf, List *parentnamespace, - TupleDesc resultDesc, - int prettyFlags, int wrapColumn, int startIndent) -{ - get_query_def_extended(query, buf, parentnamespace, InvalidOid, 0, resultDesc, - prettyFlags, wrapColumn, startIndent); -} - - -/* ---------- - * get_query_def_extended - Parse back one query parsetree, optionally - * with extension using a shard identifier. - * - * If distrelid is valid and shardid is positive, the provided shardid is added - * any time the provided relid is deparsed, so that the query may be executed - * on a placement for the given shard. - * ---------- - */ -static void -get_query_def_extended(Query *query, StringInfo buf, List *parentnamespace, - Oid distrelid, int64 shardid, TupleDesc resultDesc, - int prettyFlags, int wrapColumn, int startIndent) -{ - deparse_context context; - deparse_namespace dpns; - - /* Guard against excessively long or deeply-nested queries */ - CHECK_FOR_INTERRUPTS(); - check_stack_depth(); - - /* - * Before we begin to examine the query, acquire locks on referenced - * relations, and fix up deleted columns in JOIN RTEs. This ensures - * consistent results. Note we assume it's OK to scribble on the passed - * querytree! - * - * We are only deparsing the query (we are not about to execute it), so we - * only need AccessShareLock on the relations it mentions. - */ - AcquireRewriteLocks(query, false, false); - - /* - * Set search_path to NIL so that all objects outside of pg_catalog will be - * schema-prefixed. pg_catalog will be added automatically when we call - * PushEmptySearchPath(). - */ - int saveNestLevel = PushEmptySearchPath(); - - context.buf = buf; - context.namespaces = lcons(&dpns, list_copy(parentnamespace)); - context.windowClause = NIL; - context.windowTList = NIL; - context.varprefix = (parentnamespace != NIL || - list_length(query->rtable) != 1); - context.prettyFlags = prettyFlags; - context.wrapColumn = wrapColumn; - context.indentLevel = startIndent; - context.special_exprkind = EXPR_KIND_NONE; - context.appendparents = NULL; - context.distrelid = distrelid; - context.shardid = shardid; - - set_deparse_for_query(&dpns, query, parentnamespace); - - switch (query->commandType) - { - case CMD_SELECT: - get_select_query_def(query, &context, resultDesc); - break; - - case CMD_UPDATE: - get_update_query_def(query, &context); - break; - - case CMD_INSERT: - get_insert_query_def(query, &context); - break; - - case CMD_DELETE: - get_delete_query_def(query, &context); - break; - - case CMD_NOTHING: - appendStringInfoString(buf, "NOTHING"); - break; - - case CMD_UTILITY: - get_utility_query_def(query, &context); - break; - - default: - elog(ERROR, "unrecognized query command type: %d", - query->commandType); - break; - } - - /* revert back to original search_path */ - PopEmptySearchPath(saveNestLevel); -} - -/* ---------- - * get_values_def - Parse back a VALUES list - * ---------- - */ -static void -get_values_def(List *values_lists, deparse_context *context) -{ - StringInfo buf = context->buf; - bool first_list = true; - ListCell *vtl; - - appendStringInfoString(buf, "VALUES "); - - foreach(vtl, values_lists) - { - List *sublist = (List *) lfirst(vtl); - bool first_col = true; - ListCell *lc; - - if (first_list) - first_list = false; - else - appendStringInfoString(buf, ", "); - - appendStringInfoChar(buf, '('); - foreach(lc, sublist) - { - Node *col = (Node *) lfirst(lc); - - if (first_col) - first_col = false; - else - appendStringInfoChar(buf, ','); - - /* - * Print the value. Whole-row Vars need special treatment. - */ - get_rule_expr_toplevel(col, context, false); - } - appendStringInfoChar(buf, ')'); - } -} - -/* ---------- - * get_with_clause - Parse back a WITH clause - * ---------- - */ -static void -get_with_clause(Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - const char *sep; - ListCell *l; - - if (query->cteList == NIL) - return; - - if (PRETTY_INDENT(context)) - { - context->indentLevel += PRETTYINDENT_STD; - appendStringInfoChar(buf, ' '); - } - - if (query->hasRecursive) - sep = "WITH RECURSIVE "; - else - sep = "WITH "; - foreach(l, query->cteList) - { - CommonTableExpr *cte = (CommonTableExpr *) lfirst(l); - - appendStringInfoString(buf, sep); - appendStringInfoString(buf, quote_identifier(cte->ctename)); - if (cte->aliascolnames) - { - bool first = true; - ListCell *col; - - appendStringInfoChar(buf, '('); - foreach(col, cte->aliascolnames) - { - if (first) - first = false; - else - appendStringInfoString(buf, ", "); - appendStringInfoString(buf, - quote_identifier(strVal(lfirst(col)))); - } - appendStringInfoChar(buf, ')'); - } - appendStringInfoString(buf, " AS "); - switch (cte->ctematerialized) - { - case CTEMaterializeDefault: - break; - case CTEMaterializeAlways: - appendStringInfoString(buf, "MATERIALIZED "); - break; - case CTEMaterializeNever: - appendStringInfoString(buf, "NOT MATERIALIZED "); - break; - } - appendStringInfoChar(buf, '('); - if (PRETTY_INDENT(context)) - appendContextKeyword(context, "", 0, 0, 0); - get_query_def((Query *) cte->ctequery, buf, context->namespaces, NULL, - context->prettyFlags, context->wrapColumn, - context->indentLevel); - if (PRETTY_INDENT(context)) - appendContextKeyword(context, "", 0, 0, 0); - appendStringInfoChar(buf, ')'); - - if (cte->search_clause) - { - bool first = true; - ListCell *lc; - - appendStringInfo(buf, " SEARCH %s FIRST BY ", - cte->search_clause->search_breadth_first ? "BREADTH" : "DEPTH"); - - foreach(lc, cte->search_clause->search_col_list) - { - if (first) - first = false; - else - appendStringInfoString(buf, ", "); - appendStringInfoString(buf, - quote_identifier(strVal(lfirst(lc)))); - } - - appendStringInfo(buf, " SET %s", quote_identifier(cte->search_clause->search_seq_column)); - } - - if (cte->cycle_clause) - { - bool first = true; - ListCell *lc; - - appendStringInfoString(buf, " CYCLE "); - - foreach(lc, cte->cycle_clause->cycle_col_list) - { - if (first) - first = false; - else - appendStringInfoString(buf, ", "); - appendStringInfoString(buf, - quote_identifier(strVal(lfirst(lc)))); - } - - appendStringInfo(buf, " SET %s", quote_identifier(cte->cycle_clause->cycle_mark_column)); - - { - Const *cmv = castNode(Const, cte->cycle_clause->cycle_mark_value); - Const *cmd = castNode(Const, cte->cycle_clause->cycle_mark_default); - - if (!(cmv->consttype == BOOLOID && !cmv->constisnull && DatumGetBool(cmv->constvalue) == true && - cmd->consttype == BOOLOID && !cmd->constisnull && DatumGetBool(cmd->constvalue) == false)) - { - appendStringInfoString(buf, " TO "); - get_rule_expr(cte->cycle_clause->cycle_mark_value, context, false); - appendStringInfoString(buf, " DEFAULT "); - get_rule_expr(cte->cycle_clause->cycle_mark_default, context, false); - } - } - - appendStringInfo(buf, " USING %s", quote_identifier(cte->cycle_clause->cycle_path_column)); - } - - sep = ", "; - } - - if (PRETTY_INDENT(context)) - { - context->indentLevel -= PRETTYINDENT_STD; - appendContextKeyword(context, "", 0, 0, 0); - } - else - appendStringInfoChar(buf, ' '); -} - -/* ---------- - * get_select_query_def - Parse back a SELECT parsetree - * ---------- - */ -static void -get_select_query_def(Query *query, deparse_context *context, - TupleDesc resultDesc) -{ - StringInfo buf = context->buf; - List *save_windowclause; - List *save_windowtlist; - bool force_colno; - ListCell *l; - - /* Insert the WITH clause if given */ - get_with_clause(query, context); - - /* Set up context for possible window functions */ - save_windowclause = context->windowClause; - context->windowClause = query->windowClause; - save_windowtlist = context->windowTList; - context->windowTList = query->targetList; - - /* - * If the Query node has a setOperations tree, then it's the top level of - * a UNION/INTERSECT/EXCEPT query; only the WITH, ORDER BY and LIMIT - * fields are interesting in the top query itself. - */ - if (query->setOperations) - { - get_setop_query(query->setOperations, query, context, resultDesc); - /* ORDER BY clauses must be simple in this case */ - force_colno = true; - } - else - { - get_basic_select_query(query, context, resultDesc); - force_colno = false; - } - - /* Add the ORDER BY clause if given */ - if (query->sortClause != NIL) - { - appendContextKeyword(context, " ORDER BY ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_rule_orderby(query->sortClause, query->targetList, - force_colno, context); - } - - /* - * Add the LIMIT/OFFSET clauses if given. If non-default options, use the - * standard spelling of LIMIT. - */ - if (query->limitOffset != NULL) - { - appendContextKeyword(context, " OFFSET ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - get_rule_expr(query->limitOffset, context, false); - } - if (query->limitCount != NULL) - { - if (query->limitOption == LIMIT_OPTION_WITH_TIES) - { - // had to add '(' and ')' here because it fails with casting - appendContextKeyword(context, " FETCH FIRST (", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - get_rule_expr(query->limitCount, context, false); - appendStringInfoString(buf, ") ROWS WITH TIES"); - } - else - { - appendContextKeyword(context, " LIMIT ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - if (IsA(query->limitCount, Const) && - ((Const *) query->limitCount)->constisnull) - appendStringInfoString(buf, "ALL"); - else - get_rule_expr(query->limitCount, context, false); - } - } - - /* Add FOR [KEY] UPDATE/SHARE clauses if present */ - if (query->hasForUpdate) - { - foreach(l, query->rowMarks) - { - RowMarkClause *rc = (RowMarkClause *) lfirst(l); - - /* don't print implicit clauses */ - if (rc->pushedDown) - continue; - - switch (rc->strength) - { - case LCS_NONE: - /* we intentionally throw an error for LCS_NONE */ - elog(ERROR, "unrecognized LockClauseStrength %d", - (int) rc->strength); - break; - case LCS_FORKEYSHARE: - appendContextKeyword(context, " FOR KEY SHARE", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - break; - case LCS_FORSHARE: - appendContextKeyword(context, " FOR SHARE", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - break; - case LCS_FORNOKEYUPDATE: - appendContextKeyword(context, " FOR NO KEY UPDATE", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - break; - case LCS_FORUPDATE: - appendContextKeyword(context, " FOR UPDATE", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - break; - } - - appendStringInfo(buf, " OF %s", - quote_identifier(get_rtable_name(rc->rti, - context))); - if (rc->waitPolicy == LockWaitError) - appendStringInfoString(buf, " NOWAIT"); - else if (rc->waitPolicy == LockWaitSkip) - appendStringInfoString(buf, " SKIP LOCKED"); - } - } - - context->windowClause = save_windowclause; - context->windowTList = save_windowtlist; -} - -/* - * Detect whether query looks like SELECT ... FROM VALUES(); - * if so, return the VALUES RTE. Otherwise return NULL. - */ -static RangeTblEntry * -get_simple_values_rte(Query *query, TupleDesc resultDesc) -{ - RangeTblEntry *result = NULL; - ListCell *lc; - int colno; - - /* - * We want to return true even if the Query also contains OLD or NEW rule - * RTEs. So the idea is to scan the rtable and see if there is only one - * inFromCl RTE that is a VALUES RTE. - */ - foreach(lc, query->rtable) - { - RangeTblEntry *rte = (RangeTblEntry *) lfirst(lc); - - if (rte->rtekind == RTE_VALUES && rte->inFromCl) - { - if (result) - return NULL; /* multiple VALUES (probably not possible) */ - result = rte; - } - else if (rte->rtekind == RTE_RELATION && !rte->inFromCl) - continue; /* ignore rule entries */ - else - return NULL; /* something else -> not simple VALUES */ - } - - /* - * We don't need to check the targetlist in any great detail, because - * parser/analyze.c will never generate a "bare" VALUES RTE --- they only - * appear inside auto-generated sub-queries with very restricted - * structure. However, DefineView might have modified the tlist by - * injecting new column aliases; so compare tlist resnames against the - * RTE's names to detect that. - */ - if (result) - { - ListCell *lcn; - - if (list_length(query->targetList) != list_length(result->eref->colnames)) - return NULL; /* this probably cannot happen */ - colno = 0; - forboth(lc, query->targetList, lcn, result->eref->colnames) - { - TargetEntry *tle = (TargetEntry *) lfirst(lc); - char *cname = strVal(lfirst(lcn)); - char *colname; - - if (tle->resjunk) - return NULL; /* this probably cannot happen */ - /* compute name that get_target_list would use for column */ - colno++; - if (resultDesc && colno <= resultDesc->natts) - colname = NameStr(TupleDescAttr(resultDesc, colno - 1)->attname); - else - colname = tle->resname; - - /* does it match the VALUES RTE? */ - if (colname == NULL || strcmp(colname, cname) != 0) - return NULL; /* column name has been changed */ - } - } - - return result; -} - -static void -get_basic_select_query(Query *query, deparse_context *context, - TupleDesc resultDesc) -{ - StringInfo buf = context->buf; - RangeTblEntry *values_rte; - char *sep; - ListCell *l; - - if (PRETTY_INDENT(context)) - { - context->indentLevel += PRETTYINDENT_STD; - appendStringInfoChar(buf, ' '); - } - - /* - * If the query looks like SELECT * FROM (VALUES ...), then print just the - * VALUES part. This reverses what transformValuesClause() did at parse - * time. - */ - values_rte = get_simple_values_rte(query, resultDesc); - if (values_rte) - { - get_values_def(values_rte->values_lists, context); - return; - } - - /* - * Build up the query string - first we say SELECT - */ - if (query->isReturn) - appendStringInfoString(buf, "RETURN"); - else - appendStringInfoString(buf, "SELECT"); - - /* Add the DISTINCT clause if given */ - if (query->distinctClause != NIL) - { - if (query->hasDistinctOn) - { - appendStringInfoString(buf, " DISTINCT ON ("); - sep = ""; - foreach(l, query->distinctClause) - { - SortGroupClause *srt = (SortGroupClause *) lfirst(l); - - appendStringInfoString(buf, sep); - get_rule_sortgroupclause(srt->tleSortGroupRef, query->targetList, - false, context); - sep = ", "; - } - appendStringInfoChar(buf, ')'); - } - else - appendStringInfoString(buf, " DISTINCT"); - } - - /* Then we tell what to select (the targetlist) */ - get_target_list(query->targetList, context, resultDesc); - - /* Add the FROM clause if needed */ - get_from_clause(query, " FROM ", context); - - /* Add the WHERE clause if given */ - if (query->jointree->quals != NULL) - { - appendContextKeyword(context, " WHERE ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_rule_expr(query->jointree->quals, context, false); - } - - /* Add the GROUP BY clause if given */ - if (query->groupClause != NULL || query->groupingSets != NULL) - { - ParseExprKind save_exprkind; - - appendContextKeyword(context, " GROUP BY ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - if (query->groupDistinct) - appendStringInfoString(buf, "DISTINCT "); - - save_exprkind = context->special_exprkind; - context->special_exprkind = EXPR_KIND_GROUP_BY; - - if (query->groupingSets == NIL) - { - sep = ""; - foreach(l, query->groupClause) - { - SortGroupClause *grp = (SortGroupClause *) lfirst(l); - - appendStringInfoString(buf, sep); - get_rule_sortgroupclause(grp->tleSortGroupRef, query->targetList, - false, context); - sep = ", "; - } - } - else - { - sep = ""; - foreach(l, query->groupingSets) - { - GroupingSet *grp = lfirst(l); - - appendStringInfoString(buf, sep); - get_rule_groupingset(grp, query->targetList, true, context); - sep = ", "; - } - } - - context->special_exprkind = save_exprkind; - } - - /* Add the HAVING clause if given */ - if (query->havingQual != NULL) - { - appendContextKeyword(context, " HAVING ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 0); - get_rule_expr(query->havingQual, context, false); - } - - /* Add the WINDOW clause if needed */ - if (query->windowClause != NIL) - get_rule_windowclause(query, context); -} - -/* ---------- - * get_target_list - Parse back a SELECT target list - * - * This is also used for RETURNING lists in INSERT/UPDATE/DELETE. - * ---------- - */ -static void -get_target_list(List *targetList, deparse_context *context, - TupleDesc resultDesc) -{ - StringInfo buf = context->buf; - StringInfoData targetbuf; - bool last_was_multiline = false; - char *sep; - int colno; - ListCell *l; - - /* we use targetbuf to hold each TLE's text temporarily */ - initStringInfo(&targetbuf); - - sep = " "; - colno = 0; - foreach(l, targetList) - { - TargetEntry *tle = (TargetEntry *) lfirst(l); - char *colname; - char *attname; - - if (tle->resjunk) - continue; /* ignore junk entries */ - - appendStringInfoString(buf, sep); - sep = ", "; - colno++; - - /* - * Put the new field text into targetbuf so we can decide after we've - * got it whether or not it needs to go on a new line. - */ - resetStringInfo(&targetbuf); - context->buf = &targetbuf; - - /* - * We special-case Var nodes rather than using get_rule_expr. This is - * needed because get_rule_expr will display a whole-row Var as - * "foo.*", which is the preferred notation in most contexts, but at - * the top level of a SELECT list it's not right (the parser will - * expand that notation into multiple columns, yielding behavior - * different from a whole-row Var). We need to call get_variable - * directly so that we can tell it to do the right thing, and so that - * we can get the attribute name which is the default AS label. - */ - if (tle->expr && (IsA(tle->expr, Var))) - { - attname = get_variable((Var *) tle->expr, 0, true, context); - } - else - { - get_rule_expr((Node *) tle->expr, context, true); - /* We'll show the AS name unless it's this: */ - attname = "?column?"; - } - - /* - * Figure out what the result column should be called. In the context - * of a view, use the view's tuple descriptor (so as to pick up the - * effects of any column RENAME that's been done on the view). - * Otherwise, just use what we can find in the TLE. - */ - if (resultDesc && colno <= resultDesc->natts) - colname = NameStr(TupleDescAttr(resultDesc, colno - 1)->attname); - else - colname = tle->resname; - - /* Show AS unless the column's name is correct as-is */ - if (colname) /* resname could be NULL */ - { - if (attname == NULL || strcmp(attname, colname) != 0) - appendStringInfo(&targetbuf, " AS %s", quote_identifier(colname)); - } - - /* Restore context's output buffer */ - context->buf = buf; - - /* Consider line-wrapping if enabled */ - if (PRETTY_INDENT(context) && context->wrapColumn >= 0) - { - int leading_nl_pos; - - /* Does the new field start with a new line? */ - if (targetbuf.len > 0 && targetbuf.data[0] == '\n') - leading_nl_pos = 0; - else - leading_nl_pos = -1; - - /* If so, we shouldn't add anything */ - if (leading_nl_pos >= 0) - { - /* instead, remove any trailing spaces currently in buf */ - removeStringInfoSpaces(buf); - } - else - { - char *trailing_nl; - - /* Locate the start of the current line in the output buffer */ - trailing_nl = strrchr(buf->data, '\n'); - if (trailing_nl == NULL) - trailing_nl = buf->data; - else - trailing_nl++; - - /* - * Add a newline, plus some indentation, if the new field is - * not the first and either the new field would cause an - * overflow or the last field used more than one line. - */ - if (colno > 1 && - ((strlen(trailing_nl) + targetbuf.len > context->wrapColumn) || - last_was_multiline)) - appendContextKeyword(context, "", -PRETTYINDENT_STD, - PRETTYINDENT_STD, PRETTYINDENT_VAR); - } - - /* Remember this field's multiline status for next iteration */ - last_was_multiline = - (strchr(targetbuf.data + leading_nl_pos + 1, '\n') != NULL); - } - - /* Add the new field */ - appendStringInfoString(buf, targetbuf.data); - } - - /* clean up */ - pfree(targetbuf.data); -} - -static void -get_setop_query(Node *setOp, Query *query, deparse_context *context, - TupleDesc resultDesc) -{ - StringInfo buf = context->buf; - bool need_paren; - - /* Guard against excessively long or deeply-nested queries */ - CHECK_FOR_INTERRUPTS(); - check_stack_depth(); - - if (IsA(setOp, RangeTblRef)) - { - RangeTblRef *rtr = (RangeTblRef *) setOp; - RangeTblEntry *rte = rt_fetch(rtr->rtindex, query->rtable); - Query *subquery = rte->subquery; - - Assert(subquery != NULL); - Assert(subquery->setOperations == NULL); - /* Need parens if WITH, ORDER BY, FOR UPDATE, or LIMIT; see gram.y */ - need_paren = (subquery->cteList || - subquery->sortClause || - subquery->rowMarks || - subquery->limitOffset || - subquery->limitCount); - if (need_paren) - appendStringInfoChar(buf, '('); - get_query_def(subquery, buf, context->namespaces, resultDesc, - context->prettyFlags, context->wrapColumn, - context->indentLevel); - if (need_paren) - appendStringInfoChar(buf, ')'); - } - else if (IsA(setOp, SetOperationStmt)) - { - SetOperationStmt *op = (SetOperationStmt *) setOp; - int subindent; - - /* - * We force parens when nesting two SetOperationStmts, except when the - * lefthand input is another setop of the same kind. Syntactically, - * we could omit parens in rather more cases, but it seems best to use - * parens to flag cases where the setop operator changes. If we use - * parens, we also increase the indentation level for the child query. - * - * There are some cases in which parens are needed around a leaf query - * too, but those are more easily handled at the next level down (see - * code above). - */ - if (IsA(op->larg, SetOperationStmt)) - { - SetOperationStmt *lop = (SetOperationStmt *) op->larg; - - if (op->op == lop->op && op->all == lop->all) - need_paren = false; - else - need_paren = true; - } - else - need_paren = false; - - if (need_paren) - { - appendStringInfoChar(buf, '('); - subindent = PRETTYINDENT_STD; - appendContextKeyword(context, "", subindent, 0, 0); - } - else - subindent = 0; - - get_setop_query(op->larg, query, context, resultDesc); - - if (need_paren) - appendContextKeyword(context, ") ", -subindent, 0, 0); - else if (PRETTY_INDENT(context)) - appendContextKeyword(context, "", -subindent, 0, 0); - else - appendStringInfoChar(buf, ' '); - - switch (op->op) - { - case SETOP_UNION: - appendStringInfoString(buf, "UNION "); - break; - case SETOP_INTERSECT: - appendStringInfoString(buf, "INTERSECT "); - break; - case SETOP_EXCEPT: - appendStringInfoString(buf, "EXCEPT "); - break; - default: - elog(ERROR, "unrecognized set op: %d", - (int) op->op); - } - if (op->all) - appendStringInfoString(buf, "ALL "); - - /* Always parenthesize if RHS is another setop */ - need_paren = IsA(op->rarg, SetOperationStmt); - - /* - * The indentation code here is deliberately a bit different from that - * for the lefthand input, because we want the line breaks in - * different places. - */ - if (need_paren) - { - appendStringInfoChar(buf, '('); - subindent = PRETTYINDENT_STD; - } - else - subindent = 0; - appendContextKeyword(context, "", subindent, 0, 0); - - get_setop_query(op->rarg, query, context, resultDesc); - - if (PRETTY_INDENT(context)) - context->indentLevel -= subindent; - if (need_paren) - appendContextKeyword(context, ")", 0, 0, 0); - } - else - { - elog(ERROR, "unrecognized node type: %d", - (int) nodeTag(setOp)); - } -} - -/* - * Display a sort/group clause. - * - * Also returns the expression tree, so caller need not find it again. - */ -static Node * -get_rule_sortgroupclause(Index ref, List *tlist, bool force_colno, - deparse_context *context) -{ - StringInfo buf = context->buf; - TargetEntry *tle; - Node *expr; - - tle = get_sortgroupref_tle(ref, tlist); - expr = (Node *) tle->expr; - - /* - * Use column-number form if requested by caller. Otherwise, if - * expression is a constant, force it to be dumped with an explicit cast - * as decoration --- this is because a simple integer constant is - * ambiguous (and will be misinterpreted by findTargetlistEntry()) if we - * dump it without any decoration. If it's anything more complex than a - * simple Var, then force extra parens around it, to ensure it can't be - * misinterpreted as a cube() or rollup() construct. - */ - if (force_colno) - { - Assert(!tle->resjunk); - appendStringInfo(buf, "%d", tle->resno); - } - else if (expr && IsA(expr, Const)) - get_const_expr((Const *) expr, context, 1); - else if (!expr || IsA(expr, Var)) - get_rule_expr(expr, context, true); - else - { - /* - * We must force parens for function-like expressions even if - * PRETTY_PAREN is off, since those are the ones in danger of - * misparsing. For other expressions we need to force them only if - * PRETTY_PAREN is on, since otherwise the expression will output them - * itself. (We can't skip the parens.) - */ - bool need_paren = (PRETTY_PAREN(context) - || IsA(expr, FuncExpr) - || IsA(expr, Aggref) - || IsA(expr, WindowFunc)); - - if (need_paren) - appendStringInfoChar(context->buf, '('); - get_rule_expr(expr, context, true); - if (need_paren) - appendStringInfoChar(context->buf, ')'); - } - - return expr; -} - -/* - * Display a GroupingSet - */ -static void -get_rule_groupingset(GroupingSet *gset, List *targetlist, - bool omit_parens, deparse_context *context) -{ - ListCell *l; - StringInfo buf = context->buf; - bool omit_child_parens = true; - char *sep = ""; - - switch (gset->kind) - { - case GROUPING_SET_EMPTY: - appendStringInfoString(buf, "()"); - return; - - case GROUPING_SET_SIMPLE: - { - if (!omit_parens || list_length(gset->content) != 1) - appendStringInfoChar(buf, '('); - - foreach(l, gset->content) - { - Index ref = lfirst_int(l); - - appendStringInfoString(buf, sep); - get_rule_sortgroupclause(ref, targetlist, - false, context); - sep = ", "; - } - - if (!omit_parens || list_length(gset->content) != 1) - appendStringInfoChar(buf, ')'); - } - return; - - case GROUPING_SET_ROLLUP: - appendStringInfoString(buf, "ROLLUP("); - break; - case GROUPING_SET_CUBE: - appendStringInfoString(buf, "CUBE("); - break; - case GROUPING_SET_SETS: - appendStringInfoString(buf, "GROUPING SETS ("); - omit_child_parens = false; - break; - } - - foreach(l, gset->content) - { - appendStringInfoString(buf, sep); - get_rule_groupingset(lfirst(l), targetlist, omit_child_parens, context); - sep = ", "; - } - - appendStringInfoChar(buf, ')'); -} - -/* - * Display an ORDER BY list. - */ -static void -get_rule_orderby(List *orderList, List *targetList, - bool force_colno, deparse_context *context) -{ - StringInfo buf = context->buf; - const char *sep; - ListCell *l; - - sep = ""; - foreach(l, orderList) - { - SortGroupClause *srt = (SortGroupClause *) lfirst(l); - Node *sortexpr; - Oid sortcoltype; - TypeCacheEntry *typentry; - - appendStringInfoString(buf, sep); - sortexpr = get_rule_sortgroupclause(srt->tleSortGroupRef, targetList, - force_colno, context); - sortcoltype = exprType(sortexpr); - /* See whether operator is default < or > for datatype */ - typentry = lookup_type_cache(sortcoltype, - TYPECACHE_LT_OPR | TYPECACHE_GT_OPR); - if (srt->sortop == typentry->lt_opr) - { - /* ASC is default, so emit nothing for it */ - if (srt->nulls_first) - appendStringInfoString(buf, " NULLS FIRST"); - } - else if (srt->sortop == typentry->gt_opr) - { - appendStringInfoString(buf, " DESC"); - /* DESC defaults to NULLS FIRST */ - if (!srt->nulls_first) - appendStringInfoString(buf, " NULLS LAST"); - } - else - { - appendStringInfo(buf, " USING %s", - generate_operator_name(srt->sortop, - sortcoltype, - sortcoltype)); - /* be specific to eliminate ambiguity */ - if (srt->nulls_first) - appendStringInfoString(buf, " NULLS FIRST"); - else - appendStringInfoString(buf, " NULLS LAST"); - } - sep = ", "; - } -} - -/* - * Display a WINDOW clause. - * - * Note that the windowClause list might contain only anonymous window - * specifications, in which case we should print nothing here. - */ -static void -get_rule_windowclause(Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - const char *sep; - ListCell *l; - - sep = NULL; - foreach(l, query->windowClause) - { - WindowClause *wc = (WindowClause *) lfirst(l); - - if (wc->name == NULL) - continue; /* ignore anonymous windows */ - - if (sep == NULL) - appendContextKeyword(context, " WINDOW ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - else - appendStringInfoString(buf, sep); - - appendStringInfo(buf, "%s AS ", quote_identifier(wc->name)); - - get_rule_windowspec(wc, query->targetList, context); - - sep = ", "; - } -} - -/* - * Display a window definition - */ -static void -get_rule_windowspec(WindowClause *wc, List *targetList, - deparse_context *context) -{ - StringInfo buf = context->buf; - bool needspace = false; - const char *sep; - ListCell *l; - - appendStringInfoChar(buf, '('); - if (wc->refname) - { - appendStringInfoString(buf, quote_identifier(wc->refname)); - needspace = true; - } - /* partition clauses are always inherited, so only print if no refname */ - if (wc->partitionClause && !wc->refname) - { - if (needspace) - appendStringInfoChar(buf, ' '); - appendStringInfoString(buf, "PARTITION BY "); - sep = ""; - foreach(l, wc->partitionClause) - { - SortGroupClause *grp = (SortGroupClause *) lfirst(l); - - appendStringInfoString(buf, sep); - get_rule_sortgroupclause(grp->tleSortGroupRef, targetList, - false, context); - sep = ", "; - } - needspace = true; - } - /* print ordering clause only if not inherited */ - if (wc->orderClause && !wc->copiedOrder) - { - if (needspace) - appendStringInfoChar(buf, ' '); - appendStringInfoString(buf, "ORDER BY "); - get_rule_orderby(wc->orderClause, targetList, false, context); - needspace = true; - } - /* framing clause is never inherited, so print unless it's default */ - if (wc->frameOptions & FRAMEOPTION_NONDEFAULT) - { - if (needspace) - appendStringInfoChar(buf, ' '); - if (wc->frameOptions & FRAMEOPTION_RANGE) - appendStringInfoString(buf, "RANGE "); - else if (wc->frameOptions & FRAMEOPTION_ROWS) - appendStringInfoString(buf, "ROWS "); - else if (wc->frameOptions & FRAMEOPTION_GROUPS) - appendStringInfoString(buf, "GROUPS "); - else - Assert(false); - if (wc->frameOptions & FRAMEOPTION_BETWEEN) - appendStringInfoString(buf, "BETWEEN "); - if (wc->frameOptions & FRAMEOPTION_START_UNBOUNDED_PRECEDING) - appendStringInfoString(buf, "UNBOUNDED PRECEDING "); - else if (wc->frameOptions & FRAMEOPTION_START_CURRENT_ROW) - appendStringInfoString(buf, "CURRENT ROW "); - else if (wc->frameOptions & FRAMEOPTION_START_OFFSET) - { - get_rule_expr(wc->startOffset, context, false); - if (wc->frameOptions & FRAMEOPTION_START_OFFSET_PRECEDING) - appendStringInfoString(buf, " PRECEDING "); - else if (wc->frameOptions & FRAMEOPTION_START_OFFSET_FOLLOWING) - appendStringInfoString(buf, " FOLLOWING "); - else - Assert(false); - } - else - Assert(false); - if (wc->frameOptions & FRAMEOPTION_BETWEEN) - { - appendStringInfoString(buf, "AND "); - if (wc->frameOptions & FRAMEOPTION_END_UNBOUNDED_FOLLOWING) - appendStringInfoString(buf, "UNBOUNDED FOLLOWING "); - else if (wc->frameOptions & FRAMEOPTION_END_CURRENT_ROW) - appendStringInfoString(buf, "CURRENT ROW "); - else if (wc->frameOptions & FRAMEOPTION_END_OFFSET) - { - get_rule_expr(wc->endOffset, context, false); - if (wc->frameOptions & FRAMEOPTION_END_OFFSET_PRECEDING) - appendStringInfoString(buf, " PRECEDING "); - else if (wc->frameOptions & FRAMEOPTION_END_OFFSET_FOLLOWING) - appendStringInfoString(buf, " FOLLOWING "); - else - Assert(false); - } - else - Assert(false); - } - if (wc->frameOptions & FRAMEOPTION_EXCLUDE_CURRENT_ROW) - appendStringInfoString(buf, "EXCLUDE CURRENT ROW "); - else if (wc->frameOptions & FRAMEOPTION_EXCLUDE_GROUP) - appendStringInfoString(buf, "EXCLUDE GROUP "); - else if (wc->frameOptions & FRAMEOPTION_EXCLUDE_TIES) - appendStringInfoString(buf, "EXCLUDE TIES "); - /* we will now have a trailing space; remove it */ - buf->len--; - } - appendStringInfoChar(buf, ')'); -} - -/* ---------- - * get_insert_query_def - Parse back an INSERT parsetree - * ---------- - */ -static void -get_insert_query_def(Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - RangeTblEntry *select_rte = NULL; - RangeTblEntry *values_rte = NULL; - RangeTblEntry *rte; - char *sep; - ListCell *l; - List *strippedexprs; - - /* Insert the WITH clause if given */ - get_with_clause(query, context); - - /* - * If it's an INSERT ... SELECT or multi-row VALUES, there will be a - * single RTE for the SELECT or VALUES. Plain VALUES has neither. - */ - foreach(l, query->rtable) - { - rte = (RangeTblEntry *) lfirst(l); - - if (rte->rtekind == RTE_SUBQUERY) - { - if (select_rte) - elog(ERROR, "too many subquery RTEs in INSERT"); - select_rte = rte; - } - - if (rte->rtekind == RTE_VALUES) - { - if (values_rte) - elog(ERROR, "too many values RTEs in INSERT"); - values_rte = rte; - } - } - if (select_rte && values_rte) - elog(ERROR, "both subquery and values RTEs in INSERT"); - - /* - * Start the query with INSERT INTO relname - */ - rte = rt_fetch(query->resultRelation, query->rtable); - Assert(rte->rtekind == RTE_RELATION); - - if (PRETTY_INDENT(context)) - { - context->indentLevel += PRETTYINDENT_STD; - appendStringInfoChar(buf, ' '); - } - appendStringInfo(buf, "INSERT INTO %s ", - generate_relation_or_shard_name(rte->relid, - context->distrelid, - context->shardid, NIL)); - /* INSERT requires AS keyword for target alias */ - if (rte->alias != NULL) - appendStringInfo(buf, "AS %s ", - quote_identifier(get_rtable_name(query->resultRelation, context))); - - /* - * Add the insert-column-names list. Any indirection decoration needed on - * the column names can be inferred from the top targetlist. - */ - strippedexprs = NIL; - sep = ""; - if (query->targetList) - appendStringInfoChar(buf, '('); - foreach(l, query->targetList) - { - TargetEntry *tle = (TargetEntry *) lfirst(l); - - if (tle->resjunk) - continue; /* ignore junk entries */ - - appendStringInfoString(buf, sep); - sep = ", "; - - /* - * Put out name of target column; look in the catalogs, not at - * tle->resname, since resname will fail to track RENAME. - */ - appendStringInfoString(buf, - quote_identifier(get_attname(rte->relid, - tle->resno, - false))); - - /* - * Print any indirection needed (subfields or subscripts), and strip - * off the top-level nodes representing the indirection assignments. - * Add the stripped expressions to strippedexprs. (If it's a - * single-VALUES statement, the stripped expressions are the VALUES to - * print below. Otherwise they're just Vars and not really - * interesting.) - */ - strippedexprs = lappend(strippedexprs, - processIndirection((Node *) tle->expr, - context)); - } - if (query->targetList) - appendStringInfoString(buf, ") "); - - if (query->override) - { - if (query->override == OVERRIDING_SYSTEM_VALUE) - appendStringInfoString(buf, "OVERRIDING SYSTEM VALUE "); - else if (query->override == OVERRIDING_USER_VALUE) - appendStringInfoString(buf, "OVERRIDING USER VALUE "); - } - - if (select_rte) - { - /* Add the SELECT */ - get_query_def(select_rte->subquery, buf, NIL, NULL, - context->prettyFlags, context->wrapColumn, - context->indentLevel); - } - else if (values_rte) - { - /* Add the multi-VALUES expression lists */ - get_values_def(values_rte->values_lists, context); - } - else if (strippedexprs) - { - /* Add the single-VALUES expression list */ - appendContextKeyword(context, "VALUES (", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 2); - get_rule_expr((Node *) strippedexprs, context, false); - appendStringInfoChar(buf, ')'); - } - else - { - /* No expressions, so it must be DEFAULT VALUES */ - appendStringInfoString(buf, "DEFAULT VALUES"); - } - - /* Add ON CONFLICT if present */ - if (query->onConflict) - { - OnConflictExpr *confl = query->onConflict; - - appendStringInfoString(buf, " ON CONFLICT"); - - if (confl->arbiterElems) - { - /* Add the single-VALUES expression list */ - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) confl->arbiterElems, context, false); - appendStringInfoChar(buf, ')'); - - /* Add a WHERE clause (for partial indexes) if given */ - if (confl->arbiterWhere != NULL) - { - bool save_varprefix; - - /* - * Force non-prefixing of Vars, since parser assumes that they - * belong to target relation. WHERE clause does not use - * InferenceElem, so this is separately required. - */ - save_varprefix = context->varprefix; - context->varprefix = false; - - appendContextKeyword(context, " WHERE ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_rule_expr(confl->arbiterWhere, context, false); - - context->varprefix = save_varprefix; - } - } - else if (OidIsValid(confl->constraint)) - { - char *constraint = get_constraint_name(confl->constraint); - int64 shardId = context->shardid; - - if (shardId > 0) - { - AppendShardIdToName(&constraint, shardId); - } - - if (!constraint) - elog(ERROR, "cache lookup failed for constraint %u", - confl->constraint); - appendStringInfo(buf, " ON CONSTRAINT %s", - quote_identifier(constraint)); - } - - if (confl->action == ONCONFLICT_NOTHING) - { - appendStringInfoString(buf, " DO NOTHING"); - } - else - { - appendStringInfoString(buf, " DO UPDATE SET "); - /* Deparse targetlist */ - get_update_query_targetlist_def(query, confl->onConflictSet, - context, rte); - - /* Add a WHERE clause if given */ - if (confl->onConflictWhere != NULL) - { - appendContextKeyword(context, " WHERE ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_rule_expr(confl->onConflictWhere, context, false); - } - } - } - - /* Add RETURNING if present */ - if (query->returningList) - { - appendContextKeyword(context, " RETURNING", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_target_list(query->returningList, context, NULL); - } -} - - -/* ---------- - * get_update_query_def - Parse back an UPDATE parsetree - * ---------- - */ -static void -get_update_query_def(Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - RangeTblEntry *rte; - - /* Insert the WITH clause if given */ - get_with_clause(query, context); - - /* - * Start the query with UPDATE relname SET - */ - rte = rt_fetch(query->resultRelation, query->rtable); - - if (PRETTY_INDENT(context)) - { - appendStringInfoChar(buf, ' '); - context->indentLevel += PRETTYINDENT_STD; - } - - /* if it's a shard, do differently */ - if (GetRangeTblKind(rte) == CITUS_RTE_SHARD) - { - char *fragmentSchemaName = NULL; - char *fragmentTableName = NULL; - - ExtractRangeTblExtraData(rte, NULL, &fragmentSchemaName, &fragmentTableName, NULL); - - /* use schema and table name from the remote alias */ - appendStringInfo(buf, "UPDATE %s%s", - only_marker(rte), - generate_fragment_name(fragmentSchemaName, fragmentTableName)); - - if(rte->eref != NULL) - appendStringInfo(buf, " %s", - quote_identifier(get_rtable_name(query->resultRelation, context))); - } - else - { - appendStringInfo(buf, "UPDATE %s%s", - only_marker(rte), - generate_relation_or_shard_name(rte->relid, - context->distrelid, - context->shardid, NIL)); - - if (rte->alias != NULL) - appendStringInfo(buf, " %s", - quote_identifier(get_rtable_name(query->resultRelation, context))); - } - - appendStringInfoString(buf, " SET "); - - /* Deparse targetlist */ - get_update_query_targetlist_def(query, query->targetList, context, rte); - - /* Add the FROM clause if needed */ - get_from_clause(query, " FROM ", context); - - /* Add a WHERE clause if given */ - if (query->jointree->quals != NULL) - { - appendContextKeyword(context, " WHERE ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_rule_expr(query->jointree->quals, context, false); - } - - /* Add RETURNING if present */ - if (query->returningList) - { - appendContextKeyword(context, " RETURNING", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_target_list(query->returningList, context, NULL); - } -} - - -/* ---------- - * get_update_query_targetlist_def - Parse back an UPDATE targetlist - * ---------- - */ -static void -get_update_query_targetlist_def(Query *query, List *targetList, - deparse_context *context, RangeTblEntry *rte) -{ - StringInfo buf = context->buf; - ListCell *l; - ListCell *next_ma_cell; - int remaining_ma_columns; - const char *sep; - SubLink *cur_ma_sublink; - List *ma_sublinks; - - /* - * Prepare to deal with MULTIEXPR assignments: collect the source SubLinks - * into a list. We expect them to appear, in ID order, in resjunk tlist - * entries. - */ - ma_sublinks = NIL; - if (query->hasSubLinks) /* else there can't be any */ - { - foreach(l, targetList) - { - TargetEntry *tle = (TargetEntry *) lfirst(l); - - if (tle->resjunk && IsA(tle->expr, SubLink)) - { - SubLink *sl = (SubLink *) tle->expr; - - if (sl->subLinkType == MULTIEXPR_SUBLINK) - { - ma_sublinks = lappend(ma_sublinks, sl); - Assert(sl->subLinkId == list_length(ma_sublinks)); - } - } - } - } - next_ma_cell = list_head(ma_sublinks); - cur_ma_sublink = NULL; - remaining_ma_columns = 0; - - /* Add the comma separated list of 'attname = value' */ - sep = ""; - foreach(l, targetList) - { - TargetEntry *tle = (TargetEntry *) lfirst(l); - Node *expr; - - if (tle->resjunk) - continue; /* ignore junk entries */ - - /* Emit separator (OK whether we're in multiassignment or not) */ - appendStringInfoString(buf, sep); - sep = ", "; - - /* - * Check to see if we're starting a multiassignment group: if so, - * output a left paren. - */ - if (next_ma_cell != NULL && cur_ma_sublink == NULL) - { - /* - * We must dig down into the expr to see if it's a PARAM_MULTIEXPR - * Param. That could be buried under FieldStores and - * SubscriptingRefs and CoerceToDomains (cf processIndirection()), - * and underneath those there could be an implicit type coercion. - * Because we would ignore implicit type coercions anyway, we - * don't need to be as careful as processIndirection() is about - * descending past implicit CoerceToDomains. - */ - expr = (Node *) tle->expr; - while (expr) - { - if (IsA(expr, FieldStore)) - { - FieldStore *fstore = (FieldStore *) expr; - - expr = (Node *) linitial(fstore->newvals); - } - else if (IsA(expr, SubscriptingRef)) - { - SubscriptingRef *sbsref = (SubscriptingRef *) expr; - - if (sbsref->refassgnexpr == NULL) - break; - expr = (Node *) sbsref->refassgnexpr; - } - else if (IsA(expr, CoerceToDomain)) - { - CoerceToDomain *cdomain = (CoerceToDomain *) expr; - - if (cdomain->coercionformat != COERCE_IMPLICIT_CAST) - break; - expr = (Node *) cdomain->arg; - } - else - break; - } - expr = strip_implicit_coercions(expr); - - if (expr && IsA(expr, Param) && - ((Param *) expr)->paramkind == PARAM_MULTIEXPR) - { - cur_ma_sublink = (SubLink *) lfirst(next_ma_cell); - next_ma_cell = lnext(ma_sublinks, next_ma_cell); - remaining_ma_columns = count_nonjunk_tlist_entries( - ((Query *) cur_ma_sublink->subselect)->targetList); - Assert(((Param *) expr)->paramid == - ((cur_ma_sublink->subLinkId << 16) | 1)); - appendStringInfoChar(buf, '('); - } - } - - /* - * Put out name of target column; look in the catalogs, not at - * tle->resname, since resname will fail to track RENAME. - */ - appendStringInfoString(buf, - quote_identifier(get_attname(rte->relid, - tle->resno, - false))); - - /* - * Print any indirection needed (subfields or subscripts), and strip - * off the top-level nodes representing the indirection assignments. - */ - expr = processIndirection((Node *) tle->expr, context); - - /* - * If we're in a multiassignment, skip printing anything more, unless - * this is the last column; in which case, what we print should be the - * sublink, not the Param. - */ - if (cur_ma_sublink != NULL) - { - if (--remaining_ma_columns > 0) - continue; /* not the last column of multiassignment */ - appendStringInfoChar(buf, ')'); - expr = (Node *) cur_ma_sublink; - cur_ma_sublink = NULL; - } - - appendStringInfoString(buf, " = "); - - get_rule_expr(expr, context, false); - } -} - - -/* ---------- - * get_delete_query_def - Parse back a DELETE parsetree - * ---------- - */ -static void -get_delete_query_def(Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - RangeTblEntry *rte; - - /* Insert the WITH clause if given */ - get_with_clause(query, context); - - /* - * Start the query with DELETE FROM relname - */ - rte = rt_fetch(query->resultRelation, query->rtable); - - if (PRETTY_INDENT(context)) - { - appendStringInfoChar(buf, ' '); - context->indentLevel += PRETTYINDENT_STD; - } - - /* if it's a shard, do differently */ - if (GetRangeTblKind(rte) == CITUS_RTE_SHARD) - { - char *fragmentSchemaName = NULL; - char *fragmentTableName = NULL; - - ExtractRangeTblExtraData(rte, NULL, &fragmentSchemaName, &fragmentTableName, NULL); - - /* use schema and table name from the remote alias */ - appendStringInfo(buf, "DELETE FROM %s%s", - only_marker(rte), - generate_fragment_name(fragmentSchemaName, fragmentTableName)); - - if(rte->eref != NULL) - appendStringInfo(buf, " %s", - quote_identifier(get_rtable_name(query->resultRelation, context))); - } - else - { - appendStringInfo(buf, "DELETE FROM %s%s", - only_marker(rte), - generate_relation_or_shard_name(rte->relid, - context->distrelid, - context->shardid, NIL)); - - if (rte->alias != NULL) - appendStringInfo(buf, " %s", - quote_identifier(get_rtable_name(query->resultRelation, context))); - } - - /* Add the USING clause if given */ - get_from_clause(query, " USING ", context); - - /* Add a WHERE clause if given */ - if (query->jointree->quals != NULL) - { - appendContextKeyword(context, " WHERE ", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_rule_expr(query->jointree->quals, context, false); - } - - /* Add RETURNING if present */ - if (query->returningList) - { - appendContextKeyword(context, " RETURNING", - -PRETTYINDENT_STD, PRETTYINDENT_STD, 1); - get_target_list(query->returningList, context, NULL); - } -} - - -/* ---------- - * get_utility_query_def - Parse back a UTILITY parsetree - * ---------- - */ -static void -get_utility_query_def(Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - - if (query->utilityStmt && IsA(query->utilityStmt, NotifyStmt)) - { - NotifyStmt *stmt = (NotifyStmt *) query->utilityStmt; - - appendContextKeyword(context, "", - 0, PRETTYINDENT_STD, 1); - appendStringInfo(buf, "NOTIFY %s", - quote_identifier(stmt->conditionname)); - if (stmt->payload) - { - appendStringInfoString(buf, ", "); - simple_quote_literal(buf, stmt->payload); - } - } - else if (query->utilityStmt && IsA(query->utilityStmt, TruncateStmt)) - { - TruncateStmt *stmt = (TruncateStmt *) query->utilityStmt; - List *relationList = stmt->relations; - ListCell *relationCell = NULL; - - appendContextKeyword(context, "", - 0, PRETTYINDENT_STD, 1); - - appendStringInfo(buf, "TRUNCATE TABLE"); - - foreach(relationCell, relationList) - { - RangeVar *relationVar = (RangeVar *) lfirst(relationCell); - Oid relationId = RangeVarGetRelid(relationVar, NoLock, false); - char *relationName = generate_relation_or_shard_name(relationId, - context->distrelid, - context->shardid, NIL); - appendStringInfo(buf, " %s", relationName); - - if (lnext(relationList, relationCell) != NULL) - { - appendStringInfo(buf, ","); - } - } - - if (stmt->restart_seqs) - { - appendStringInfo(buf, " RESTART IDENTITY"); - } - - if (stmt->behavior == DROP_CASCADE) - { - appendStringInfo(buf, " CASCADE"); - } - } - else - { - /* Currently only NOTIFY utility commands can appear in rules */ - elog(ERROR, "unexpected utility statement type"); - } -} - -/* - * Display a Var appropriately. - * - * In some cases (currently only when recursing into an unnamed join) - * the Var's varlevelsup has to be interpreted with respect to a context - * above the current one; levelsup indicates the offset. - * - * If istoplevel is true, the Var is at the top level of a SELECT's - * targetlist, which means we need special treatment of whole-row Vars. - * Instead of the normal "tab.*", we'll print "tab.*::typename", which is a - * dirty hack to prevent "tab.*" from being expanded into multiple columns. - * (The parser will strip the useless coercion, so no inefficiency is added in - * dump and reload.) We used to print just "tab" in such cases, but that is - * ambiguous and will yield the wrong result if "tab" is also a plain column - * name in the query. - * - * Returns the attname of the Var, or NULL if the Var has no attname (because - * it is a whole-row Var or a subplan output reference). - */ -static char * -get_variable(Var *var, int levelsup, bool istoplevel, deparse_context *context) -{ - StringInfo buf = context->buf; - RangeTblEntry *rte; - AttrNumber attnum; - Index varno; - AttrNumber varattno; - int netlevelsup; - deparse_namespace *dpns; - deparse_columns *colinfo; - char *refname; - char *attname; - - /* Find appropriate nesting depth */ - netlevelsup = var->varlevelsup + levelsup; - if (netlevelsup >= list_length(context->namespaces)) - elog(ERROR, "bogus varlevelsup: %d offset %d", - var->varlevelsup, levelsup); - dpns = (deparse_namespace *) list_nth(context->namespaces, - netlevelsup); - - varno = var->varno; - varattno = var->varattno; - - - if (var->varnosyn > 0 && var->varnosyn <= list_length(dpns->rtable) && dpns->plan == NULL) { - rte = rt_fetch(var->varnosyn, dpns->rtable); - - /* - * if the rte var->varnosyn points to is not a regular table and it is a join - * then the correct relname will be found with var->varnosyn and var->varattnosyn - */ - if (rte->rtekind == RTE_JOIN && rte->relid == 0 && var->varnosyn != var->varno) { - varno = var->varnosyn; - varattno = var->varattnosyn; - } - } - - /* - * Try to find the relevant RTE in this rtable. In a plan tree, it's - * likely that varno is OUTER_VAR or INNER_VAR, in which case we must dig - * down into the subplans, or INDEX_VAR, which is resolved similarly. Also - * find the aliases previously assigned for this RTE. - */ - if (varno >= 1 && varno <= list_length(dpns->rtable)) - { - - /* - * We might have been asked to map child Vars to some parent relation. - */ - if (context->appendparents && dpns->appendrels) - { - - Index pvarno = varno; - AttrNumber pvarattno = varattno; - AppendRelInfo *appinfo = dpns->appendrels[pvarno]; - bool found = false; - - /* Only map up to inheritance parents, not UNION ALL appendrels */ - while (appinfo && - rt_fetch(appinfo->parent_relid, - dpns->rtable)->rtekind == RTE_RELATION) - { - found = false; - if (pvarattno > 0) /* system columns stay as-is */ - { - if (pvarattno > appinfo->num_child_cols) - break; /* safety check */ - pvarattno = appinfo->parent_colnos[pvarattno - 1]; - if (pvarattno == 0) - break; /* Var is local to child */ - } - - pvarno = appinfo->parent_relid; - found = true; - - /* If the parent is itself a child, continue up. */ - Assert(pvarno > 0 && pvarno <= list_length(dpns->rtable)); - appinfo = dpns->appendrels[pvarno]; - } - - /* - * If we found an ancestral rel, and that rel is included in - * appendparents, print that column not the original one. - */ - if (found && bms_is_member(pvarno, context->appendparents)) - { - varno = pvarno; - varattno = pvarattno; - } - } - - rte = rt_fetch(varno, dpns->rtable); - refname = (char *) list_nth(dpns->rtable_names, varno - 1); - colinfo = deparse_columns_fetch(varno, dpns); - attnum = varattno; - } - else - { - resolve_special_varno((Node *) var, context, get_special_variable, - NULL); - return NULL; - } - - /* - * The planner will sometimes emit Vars referencing resjunk elements of a - * subquery's target list (this is currently only possible if it chooses - * to generate a "physical tlist" for a SubqueryScan or CteScan node). - * Although we prefer to print subquery-referencing Vars using the - * subquery's alias, that's not possible for resjunk items since they have - * no alias. So in that case, drill down to the subplan and print the - * contents of the referenced tlist item. This works because in a plan - * tree, such Vars can only occur in a SubqueryScan or CteScan node, and - * we'll have set dpns->inner_plan to reference the child plan node. - */ - if ((rte->rtekind == RTE_SUBQUERY || rte->rtekind == RTE_CTE) && - attnum > list_length(rte->eref->colnames) && - dpns->inner_plan) - { - TargetEntry *tle; - deparse_namespace save_dpns; - - tle = get_tle_by_resno(dpns->inner_tlist, attnum); - if (!tle) - elog(ERROR, "invalid attnum %d for relation \"%s\"", - attnum, rte->eref->aliasname); - - Assert(netlevelsup == 0); - push_child_plan(dpns, dpns->inner_plan, &save_dpns); - - /* - * Force parentheses because our caller probably assumed a Var is a - * simple expression. - */ - if (!IsA(tle->expr, Var)) - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) tle->expr, context, true); - if (!IsA(tle->expr, Var)) - appendStringInfoChar(buf, ')'); - - pop_child_plan(dpns, &save_dpns); - return NULL; - } - - /* - * If it's an unnamed join, look at the expansion of the alias variable. - * If it's a simple reference to one of the input vars, then recursively - * print the name of that var instead. When it's not a simple reference, - * we have to just print the unqualified join column name. (This can only - * happen with "dangerous" merged columns in a JOIN USING; we took pains - * previously to make the unqualified column name unique in such cases.) - * - * This wouldn't work in decompiling plan trees, because we don't store - * joinaliasvars lists after planning; but a plan tree should never - * contain a join alias variable. - */ - if (rte->rtekind == RTE_JOIN && rte->alias == NULL) - { - if (rte->joinaliasvars == NIL) - elog(ERROR, "cannot decompile join alias var in plan tree"); - if (attnum > 0) - { - Var *aliasvar; - - aliasvar = (Var *) list_nth(rte->joinaliasvars, attnum - 1); - /* we intentionally don't strip implicit coercions here */ - if (aliasvar && IsA(aliasvar, Var)) - { - return get_variable(aliasvar, var->varlevelsup + levelsup, - istoplevel, context); - } - } - - /* - * Unnamed join has no refname. (Note: since it's unnamed, there is - * no way the user could have referenced it to create a whole-row Var - * for it. So we don't have to cover that case below.) - */ - Assert(refname == NULL); - } - - if (attnum == InvalidAttrNumber) - attname = NULL; - else if (attnum > 0) - { - /* Get column name to use from the colinfo struct */ - if (attnum > colinfo->num_cols) - elog(ERROR, "invalid attnum %d for relation \"%s\"", - attnum, rte->eref->aliasname); - attname = colinfo->colnames[attnum - 1]; - if (attname == NULL) /* dropped column? */ - elog(ERROR, "invalid attnum %d for relation \"%s\"", - attnum, rte->eref->aliasname); - } - else if (GetRangeTblKind(rte) == CITUS_RTE_SHARD) - { - /* System column on a Citus shard */ - attname = get_attname(rte->relid, attnum, false); - } - else - { - /* System column - name is fixed, get it from the catalog */ - attname = get_rte_attribute_name(rte, attnum); - } - - if (refname && (context->varprefix || attname == NULL)) - { - appendStringInfoString(buf, quote_identifier(refname)); - appendStringInfoChar(buf, '.'); - } - if (attname) - appendStringInfoString(buf, quote_identifier(attname)); - else - { - appendStringInfoChar(buf, '*'); - - if (istoplevel) - { - if (GetRangeTblKind(rte) == CITUS_RTE_SHARD) - { - /* use rel.*::shard_name instead of rel.*::table_name */ - appendStringInfo(buf, "::%s", - generate_rte_shard_name(rte)); - } - else - { - appendStringInfo(buf, "::%s", - format_type_with_typemod(var->vartype, - var->vartypmod)); - } - } - } - - return attname; -} - -/* - * Deparse a Var which references OUTER_VAR, INNER_VAR, or INDEX_VAR. This - * routine is actually a callback for get_special_varno, which handles finding - * the correct TargetEntry. We get the expression contained in that - * TargetEntry and just need to deparse it, a job we can throw back on - * get_rule_expr. - */ -static void -get_special_variable(Node *node, deparse_context *context, void *callback_arg) -{ - StringInfo buf = context->buf; - - /* - * For a non-Var referent, force parentheses because our caller probably - * assumed a Var is a simple expression. - */ - if (!IsA(node, Var)) - appendStringInfoChar(buf, '('); - get_rule_expr(node, context, true); - if (!IsA(node, Var)) - appendStringInfoChar(buf, ')'); -} - -/* - * Chase through plan references to special varnos (OUTER_VAR, INNER_VAR, - * INDEX_VAR) until we find a real Var or some kind of non-Var node; then, - * invoke the callback provided. - */ -static void -resolve_special_varno(Node *node, deparse_context *context, rsv_callback callback, void *callback_arg) -{ - Var *var; - deparse_namespace *dpns; - - /* This function is recursive, so let's be paranoid. */ - check_stack_depth(); - - /* If it's not a Var, invoke the callback. */ - if (!IsA(node, Var)) - { - (*callback) (node, context, callback_arg); - return; - } - - /* Find appropriate nesting depth */ - var = (Var *) node; - dpns = (deparse_namespace *) list_nth(context->namespaces, - var->varlevelsup); - - /* - * It's a special RTE, so recurse. - */ - if (var->varno == OUTER_VAR && dpns->outer_tlist) - { - TargetEntry *tle; - deparse_namespace save_dpns; - Bitmapset *save_appendparents; - - tle = get_tle_by_resno(dpns->outer_tlist, var->varattno); - if (!tle) - elog(ERROR, "bogus varattno for OUTER_VAR var: %d", var->varattno); - - /* If we're descending to the first child of an Append or MergeAppend, - * update appendparents. This will affect deparsing of all Vars - * appearing within the eventually-resolved subexpression. - */ - save_appendparents = context->appendparents; - - if (IsA(dpns->plan, Append)) - context->appendparents = bms_union(context->appendparents, - ((Append *) dpns->plan)->apprelids); - else if (IsA(dpns->plan, MergeAppend)) - context->appendparents = bms_union(context->appendparents, - ((MergeAppend *) dpns->plan)->apprelids); - - push_child_plan(dpns, dpns->outer_plan, &save_dpns); - resolve_special_varno((Node *) tle->expr, context, - callback, callback_arg); - pop_child_plan(dpns, &save_dpns); - context->appendparents = save_appendparents; - return; - } - else if (var->varno == INNER_VAR && dpns->inner_tlist) - { - TargetEntry *tle; - deparse_namespace save_dpns; - - tle = get_tle_by_resno(dpns->inner_tlist, var->varattno); - if (!tle) - elog(ERROR, "bogus varattno for INNER_VAR var: %d", var->varattno); - - push_child_plan(dpns, dpns->inner_plan, &save_dpns); - resolve_special_varno((Node *) tle->expr, context, callback, callback_arg); - pop_child_plan(dpns, &save_dpns); - return; - } - else if (var->varno == INDEX_VAR && dpns->index_tlist) - { - TargetEntry *tle; - - tle = get_tle_by_resno(dpns->index_tlist, var->varattno); - if (!tle) - elog(ERROR, "bogus varattno for INDEX_VAR var: %d", var->varattno); - - resolve_special_varno((Node *) tle->expr, context, callback, callback_arg); - return; - } - else if (var->varno < 1 || var->varno > list_length(dpns->rtable)) - elog(ERROR, "bogus varno: %d", var->varno); - - /* Not special. Just invoke the callback. */ - (*callback) (node, context, callback_arg); -} - -/* - * Get the name of a field of an expression of composite type. The - * expression is usually a Var, but we handle other cases too. - * - * levelsup is an extra offset to interpret the Var's varlevelsup correctly. - * - * This is fairly straightforward when the expression has a named composite - * type; we need only look up the type in the catalogs. However, the type - * could also be RECORD. Since no actual table or view column is allowed to - * have type RECORD, a Var of type RECORD must refer to a JOIN or FUNCTION RTE - * or to a subquery output. We drill down to find the ultimate defining - * expression and attempt to infer the field name from it. We ereport if we - * can't determine the name. - * - * Similarly, a PARAM of type RECORD has to refer to some expression of - * a determinable composite type. - */ -static const char * -get_name_for_var_field(Var *var, int fieldno, - int levelsup, deparse_context *context) -{ - RangeTblEntry *rte; - AttrNumber attnum; - int netlevelsup; - deparse_namespace *dpns; - Index varno; - AttrNumber varattno; - TupleDesc tupleDesc; - Node *expr; - - /* - * If it's a RowExpr that was expanded from a whole-row Var, use the - * column names attached to it. - */ - if (IsA(var, RowExpr)) - { - RowExpr *r = (RowExpr *) var; - - if (fieldno > 0 && fieldno <= list_length(r->colnames)) - return strVal(list_nth(r->colnames, fieldno - 1)); - } - - /* - * If it's a Param of type RECORD, try to find what the Param refers to. - */ - if (IsA(var, Param)) - { - Param *param = (Param *) var; - ListCell *ancestor_cell; - - expr = find_param_referent(param, context, &dpns, &ancestor_cell); - if (expr) - { - /* Found a match, so recurse to decipher the field name */ - deparse_namespace save_dpns; - const char *result; - - push_ancestor_plan(dpns, ancestor_cell, &save_dpns); - result = get_name_for_var_field((Var *) expr, fieldno, - 0, context); - pop_ancestor_plan(dpns, &save_dpns); - return result; - } - } - - /* - * If it's a Var of type RECORD, we have to find what the Var refers to; - * if not, we can use get_expr_result_tupdesc(). - */ - if (!IsA(var, Var) || - var->vartype != RECORDOID) - { - tupleDesc = get_expr_result_tupdesc((Node *) var, false); - /* Got the tupdesc, so we can extract the field name */ - Assert(fieldno >= 1 && fieldno <= tupleDesc->natts); - return NameStr(TupleDescAttr(tupleDesc, fieldno - 1)->attname); - } - - /* Find appropriate nesting depth */ - netlevelsup = var->varlevelsup + levelsup; - if (netlevelsup >= list_length(context->namespaces)) - elog(ERROR, "bogus varlevelsup: %d offset %d", - var->varlevelsup, levelsup); - dpns = (deparse_namespace *) list_nth(context->namespaces, - netlevelsup); - - varno = var->varno; - varattno = var->varattno; - - if (var->varnosyn > 0 && var->varnosyn <= list_length(dpns->rtable) && dpns->plan == NULL) { - rte = rt_fetch(var->varnosyn, dpns->rtable); - - /* - * if the rte var->varnosyn points to is not a regular table and it is a join - * then the correct relname will be found with var->varnosyn and var->varattnosyn - */ - if (rte->rtekind == RTE_JOIN && rte->relid == 0 && var->varnosyn != var->varno) { - varno = var->varnosyn; - varattno = var->varattnosyn; - } - } - - /* - * Try to find the relevant RTE in this rtable. In a plan tree, it's - * likely that varno is OUTER_VAR or INNER_VAR, in which case we must dig - * down into the subplans, or INDEX_VAR, which is resolved similarly. - */ - if (varno >= 1 && varno <= list_length(dpns->rtable)) - { - rte = rt_fetch(varno, dpns->rtable); - attnum = varattno; - } - else if (varno == OUTER_VAR && dpns->outer_tlist) - { - TargetEntry *tle; - deparse_namespace save_dpns; - const char *result; - - tle = get_tle_by_resno(dpns->outer_tlist, varattno); - if (!tle) - elog(ERROR, "bogus varattno for OUTER_VAR var: %d", varattno); - - Assert(netlevelsup == 0); - push_child_plan(dpns, dpns->outer_plan, &save_dpns); - - result = get_name_for_var_field((Var *) tle->expr, fieldno, - levelsup, context); - - pop_child_plan(dpns, &save_dpns); - return result; - } - else if (varno == INNER_VAR && dpns->inner_tlist) - { - TargetEntry *tle; - deparse_namespace save_dpns; - const char *result; - - tle = get_tle_by_resno(dpns->inner_tlist, varattno); - if (!tle) - elog(ERROR, "bogus varattno for INNER_VAR var: %d", varattno); - - Assert(netlevelsup == 0); - push_child_plan(dpns, dpns->inner_plan, &save_dpns); - - result = get_name_for_var_field((Var *) tle->expr, fieldno, - levelsup, context); - - pop_child_plan(dpns, &save_dpns); - return result; - } - else if (varno == INDEX_VAR && dpns->index_tlist) - { - TargetEntry *tle; - const char *result; - - tle = get_tle_by_resno(dpns->index_tlist, varattno); - if (!tle) - elog(ERROR, "bogus varattno for INDEX_VAR var: %d", varattno); - - Assert(netlevelsup == 0); - - result = get_name_for_var_field((Var *) tle->expr, fieldno, - levelsup, context); - - return result; - } - else - { - elog(ERROR, "bogus varno: %d", varno); - return NULL; /* keep compiler quiet */ - } - - if (attnum == InvalidAttrNumber) - { - /* Var is whole-row reference to RTE, so select the right field */ - return get_rte_attribute_name(rte, fieldno); - } - - /* - * This part has essentially the same logic as the parser's - * expandRecordVariable() function, but we are dealing with a different - * representation of the input context, and we only need one field name - * not a TupleDesc. Also, we need special cases for finding subquery and - * CTE subplans when deparsing Plan trees. - */ - expr = (Node *) var; /* default if we can't drill down */ - - switch (rte->rtekind) - { - case RTE_RELATION: - case RTE_VALUES: - case RTE_NAMEDTUPLESTORE: - case RTE_RESULT: - - /* - * This case should not occur: a column of a table or values list - * shouldn't have type RECORD. Fall through and fail (most - * likely) at the bottom. - */ - break; - case RTE_SUBQUERY: - /* Subselect-in-FROM: examine sub-select's output expr */ - { - if (rte->subquery) - { - TargetEntry *ste = get_tle_by_resno(rte->subquery->targetList, - attnum); - - if (ste == NULL || ste->resjunk) - elog(ERROR, "subquery %s does not have attribute %d", - rte->eref->aliasname, attnum); - expr = (Node *) ste->expr; - if (IsA(expr, Var)) - { - /* - * Recurse into the sub-select to see what its Var - * refers to. We have to build an additional level of - * namespace to keep in step with varlevelsup in the - * subselect. - */ - deparse_namespace mydpns; - const char *result; - - set_deparse_for_query(&mydpns, rte->subquery, - context->namespaces); - - context->namespaces = lcons(&mydpns, - context->namespaces); - - result = get_name_for_var_field((Var *) expr, fieldno, - 0, context); - - context->namespaces = - list_delete_first(context->namespaces); - - return result; - } - /* else fall through to inspect the expression */ - } - else - { - /* - * We're deparsing a Plan tree so we don't have complete - * RTE entries (in particular, rte->subquery is NULL). But - * the only place we'd see a Var directly referencing a - * SUBQUERY RTE is in a SubqueryScan plan node, and we can - * look into the child plan's tlist instead. - */ - TargetEntry *tle; - deparse_namespace save_dpns; - const char *result; - - if (!dpns->inner_plan) - elog(ERROR, "failed to find plan for subquery %s", - rte->eref->aliasname); - tle = get_tle_by_resno(dpns->inner_tlist, attnum); - if (!tle) - elog(ERROR, "bogus varattno for subquery var: %d", - attnum); - Assert(netlevelsup == 0); - push_child_plan(dpns, dpns->inner_plan, &save_dpns); - - result = get_name_for_var_field((Var *) tle->expr, fieldno, - levelsup, context); - - pop_child_plan(dpns, &save_dpns); - return result; - } - } - break; - case RTE_JOIN: - /* Join RTE --- recursively inspect the alias variable */ - if (rte->joinaliasvars == NIL) - elog(ERROR, "cannot decompile join alias var in plan tree"); - Assert(attnum > 0 && attnum <= list_length(rte->joinaliasvars)); - expr = (Node *) list_nth(rte->joinaliasvars, attnum - 1); - Assert(expr != NULL); - /* we intentionally don't strip implicit coercions here */ - if (IsA(expr, Var)) - return get_name_for_var_field((Var *) expr, fieldno, - var->varlevelsup + levelsup, - context); - /* else fall through to inspect the expression */ - break; - case RTE_FUNCTION: - case RTE_TABLEFUNC: - - /* - * We couldn't get here unless a function is declared with one of - * its result columns as RECORD, which is not allowed. - */ - break; - case RTE_CTE: - /* CTE reference: examine subquery's output expr */ - { - CommonTableExpr *cte = NULL; - Index ctelevelsup; - ListCell *lc; - - /* - * Try to find the referenced CTE using the namespace stack. - */ - ctelevelsup = rte->ctelevelsup + netlevelsup; - if (ctelevelsup >= list_length(context->namespaces)) - lc = NULL; - else - { - deparse_namespace *ctedpns; - - ctedpns = (deparse_namespace *) - list_nth(context->namespaces, ctelevelsup); - foreach(lc, ctedpns->ctes) - { - cte = (CommonTableExpr *) lfirst(lc); - if (strcmp(cte->ctename, rte->ctename) == 0) - break; - } - } - if (lc != NULL) - { - Query *ctequery = (Query *) cte->ctequery; - TargetEntry *ste = get_tle_by_resno(GetCTETargetList(cte), - attnum); - - if (ste == NULL || ste->resjunk) - elog(ERROR, "subquery %s does not have attribute %d", - rte->eref->aliasname, attnum); - expr = (Node *) ste->expr; - if (IsA(expr, Var)) - { - /* - * Recurse into the CTE to see what its Var refers to. - * We have to build an additional level of namespace - * to keep in step with varlevelsup in the CTE. - * Furthermore it could be an outer CTE, so we may - * have to delete some levels of namespace. - */ - List *save_nslist = context->namespaces; - List *new_nslist; - deparse_namespace mydpns; - const char *result; - - set_deparse_for_query(&mydpns, ctequery, - context->namespaces); - - new_nslist = list_copy_tail(context->namespaces, - ctelevelsup); - context->namespaces = lcons(&mydpns, new_nslist); - - result = get_name_for_var_field((Var *) expr, fieldno, - 0, context); - - context->namespaces = save_nslist; - - return result; - } - /* else fall through to inspect the expression */ - } - else - { - /* - * We're deparsing a Plan tree so we don't have a CTE - * list. But the only place we'd see a Var directly - * referencing a CTE RTE is in a CteScan plan node, and we - * can look into the subplan's tlist instead. - */ - TargetEntry *tle; - deparse_namespace save_dpns; - const char *result; - - if (!dpns->inner_plan) - elog(ERROR, "failed to find plan for CTE %s", - rte->eref->aliasname); - tle = get_tle_by_resno(dpns->inner_tlist, attnum); - if (!tle) - elog(ERROR, "bogus varattno for subquery var: %d", - attnum); - Assert(netlevelsup == 0); - push_child_plan(dpns, dpns->inner_plan, &save_dpns); - - result = get_name_for_var_field((Var *) tle->expr, fieldno, - levelsup, context); - - pop_child_plan(dpns, &save_dpns); - return result; - } - } - break; - } - - /* - * We now have an expression we can't expand any more, so see if - * get_expr_result_tupdesc() can do anything with it. - */ - tupleDesc = get_expr_result_tupdesc(expr, false); - /* Got the tupdesc, so we can extract the field name */ - Assert(fieldno >= 1 && fieldno <= tupleDesc->natts); - return NameStr(TupleDescAttr(tupleDesc, fieldno - 1)->attname); -} - -/* - * Try to find the referenced expression for a PARAM_EXEC Param that might - * reference a parameter supplied by an upper NestLoop or SubPlan plan node. - * - * If successful, return the expression and set *dpns_p and *ancestor_cell_p - * appropriately for calling push_ancestor_plan(). If no referent can be - * found, return NULL. - */ -static Node * -find_param_referent(Param *param, deparse_context *context, - deparse_namespace **dpns_p, ListCell **ancestor_cell_p) -{ - /* Initialize output parameters to prevent compiler warnings */ - *dpns_p = NULL; - *ancestor_cell_p = NULL; - - /* - * If it's a PARAM_EXEC parameter, look for a matching NestLoopParam or - * SubPlan argument. This will necessarily be in some ancestor of the - * current expression's Plan. - */ - if (param->paramkind == PARAM_EXEC) - { - deparse_namespace *dpns; - Plan *child_plan; - bool in_same_plan_level; - ListCell *lc; - - dpns = (deparse_namespace *) linitial(context->namespaces); - child_plan = dpns->plan; - in_same_plan_level = true; - - foreach(lc, dpns->ancestors) - { - Node *ancestor = (Node *) lfirst(lc); - ListCell *lc2; - - /* - * NestLoops transmit params to their inner child only; also, once - * we've crawled up out of a subplan, this couldn't possibly be - * the right match. - */ - if (IsA(ancestor, NestLoop) && - child_plan == innerPlan(ancestor) && - in_same_plan_level) - { - NestLoop *nl = (NestLoop *) ancestor; - - foreach(lc2, nl->nestParams) - { - NestLoopParam *nlp = (NestLoopParam *) lfirst(lc2); - - if (nlp->paramno == param->paramid) - { - /* Found a match, so return it */ - *dpns_p = dpns; - *ancestor_cell_p = lc; - return (Node *) nlp->paramval; - } - } - } - - /* - * Check to see if we're crawling up from a subplan. - */ - if(IsA(ancestor, SubPlan)) - { - SubPlan *subplan = (SubPlan *) ancestor; - ListCell *lc3; - ListCell *lc4; - - /* Matched subplan, so check its arguments */ - forboth(lc3, subplan->parParam, lc4, subplan->args) - { - int paramid = lfirst_int(lc3); - Node *arg = (Node *) lfirst(lc4); - - if (paramid == param->paramid) - { - /* - * Found a match, so return it. But, since Vars in - * the arg are to be evaluated in the surrounding - * context, we have to point to the next ancestor item - * that is *not* a SubPlan. - */ - ListCell *rest; - - for_each_cell(rest, dpns->ancestors, - lnext(dpns->ancestors, lc)) - { - Node *ancestor2 = (Node *) lfirst(rest); - - if (!IsA(ancestor2, SubPlan)) - { - *dpns_p = dpns; - *ancestor_cell_p = rest; - return arg; - } - } - elog(ERROR, "SubPlan cannot be outermost ancestor"); - } - } - - /* We have emerged from a subplan. */ - in_same_plan_level = false; - - /* SubPlan isn't a kind of Plan, so skip the rest */ - continue; - } - - /* - * Check to see if we're emerging from an initplan of the current - * ancestor plan. Initplans never have any parParams, so no need - * to search that list, but we need to know if we should reset - * in_same_plan_level. - */ - foreach(lc2, ((Plan *) ancestor)->initPlan) - { - SubPlan *subplan = lfirst_node(SubPlan, lc2); - - if (child_plan != (Plan *) list_nth(dpns->subplans, - subplan->plan_id - 1)) - continue; - - /* No parameters to be had here. */ - Assert(subplan->parParam == NIL); - - /* We have emerged from an initplan. */ - in_same_plan_level = false; - break; - } - - /* No luck, crawl up to next ancestor */ - child_plan = (Plan *) ancestor; - } - } - - /* No referent found */ - return NULL; -} - -/* - * Display a Param appropriately. - */ -static void -get_parameter(Param *param, deparse_context *context) -{ - Node *expr; - deparse_namespace *dpns; - ListCell *ancestor_cell; - - /* - * If it's a PARAM_EXEC parameter, try to locate the expression from which - * the parameter was computed. Note that failing to find a referent isn't - * an error, since the Param might well be a subplan output rather than an - * input. - */ - expr = find_param_referent(param, context, &dpns, &ancestor_cell); - if (expr) - { - /* Found a match, so print it */ - deparse_namespace save_dpns; - bool save_varprefix; - bool need_paren; - - /* Switch attention to the ancestor plan node */ - push_ancestor_plan(dpns, ancestor_cell, &save_dpns); - - /* - * Force prefixing of Vars, since they won't belong to the relation - * being scanned in the original plan node. - */ - save_varprefix = context->varprefix; - context->varprefix = true; - - /* - * A Param's expansion is typically a Var, Aggref, or upper-level - * Param, which wouldn't need extra parentheses. Otherwise, insert - * parens to ensure the expression looks atomic. - */ - need_paren = !(IsA(expr, Var) || - IsA(expr, Aggref) || - IsA(expr, Param)); - if (need_paren) - appendStringInfoChar(context->buf, '('); - - get_rule_expr(expr, context, false); - - if (need_paren) - appendStringInfoChar(context->buf, ')'); - - context->varprefix = save_varprefix; - - pop_ancestor_plan(dpns, &save_dpns); - - return; - } - - /* - * If it's an external parameter, see if the outermost namespace provides - * function argument names. - */ - if (param->paramkind == PARAM_EXTERN) - { - dpns = lfirst(list_tail(context->namespaces)); - if (dpns->argnames) - { - char *argname = dpns->argnames[param->paramid - 1]; - - if (argname) - { - bool should_qualify = false; - ListCell *lc; - - /* - * Qualify the parameter name if there are any other deparse - * namespaces with range tables. This avoids qualifying in - * trivial cases like "RETURN a + b", but makes it safe in all - * other cases. - */ - foreach(lc, context->namespaces) - { - deparse_namespace *dp_ns = lfirst(lc); - - if (list_length(dp_ns->rtable_names) > 0) - { - should_qualify = true; - break; - } - } - if (should_qualify) - { - appendStringInfoString(context->buf, quote_identifier(dpns->funcname)); - appendStringInfoChar(context->buf, '.'); - } - - appendStringInfoString(context->buf, quote_identifier(argname)); - return; - } - } - } - - /* - * Not PARAM_EXEC, or couldn't find referent: for base types just print $N. - * For composite types, add cast to the parameter to ease remote node detect - * the type. - */ - if (param->paramtype >= FirstNormalObjectId) - { - char *typeName = format_type_with_typemod(param->paramtype, param->paramtypmod); - - appendStringInfo(context->buf, "$%d::%s", param->paramid, typeName); - } - else - { - appendStringInfo(context->buf, "$%d", param->paramid); - } -} - -/* - * get_simple_binary_op_name - * - * helper function for isSimpleNode - * will return single char binary operator name, or NULL if it's not - */ -static const char * -get_simple_binary_op_name(OpExpr *expr) -{ - List *args = expr->args; - - if (list_length(args) == 2) - { - /* binary operator */ - Node *arg1 = (Node *) linitial(args); - Node *arg2 = (Node *) lsecond(args); - const char *op; - - op = generate_operator_name(expr->opno, exprType(arg1), exprType(arg2)); - if (strlen(op) == 1) - return op; - } - return NULL; -} - - -/* - * isSimpleNode - check if given node is simple (doesn't need parenthesizing) - * - * true : simple in the context of parent node's type - * false : not simple - */ -static bool -isSimpleNode(Node *node, Node *parentNode, int prettyFlags) -{ - if (!node) - return false; - - switch (nodeTag(node)) - { - case T_Var: - case T_Const: - case T_Param: - case T_CoerceToDomainValue: - case T_SetToDefault: - case T_CurrentOfExpr: - /* single words: always simple */ - return true; - - case T_SubscriptingRef: - case T_ArrayExpr: - case T_RowExpr: - case T_CoalesceExpr: - case T_MinMaxExpr: - case T_SQLValueFunction: - case T_XmlExpr: - case T_NextValueExpr: - case T_NullIfExpr: - case T_Aggref: - case T_WindowFunc: - case T_FuncExpr: - /* function-like: name(..) or name[..] */ - return true; - - /* CASE keywords act as parentheses */ - case T_CaseExpr: - return true; - - case T_FieldSelect: - - /* - * appears simple since . has top precedence, unless parent is - * T_FieldSelect itself! - */ - return (IsA(parentNode, FieldSelect) ? false : true); - - case T_FieldStore: - - /* - * treat like FieldSelect (probably doesn't matter) - */ - return (IsA(parentNode, FieldStore) ? false : true); - - case T_CoerceToDomain: - /* maybe simple, check args */ - return isSimpleNode((Node *) ((CoerceToDomain *) node)->arg, - node, prettyFlags); - case T_RelabelType: - return isSimpleNode((Node *) ((RelabelType *) node)->arg, - node, prettyFlags); - case T_CoerceViaIO: - return isSimpleNode((Node *) ((CoerceViaIO *) node)->arg, - node, prettyFlags); - case T_ArrayCoerceExpr: - return isSimpleNode((Node *) ((ArrayCoerceExpr *) node)->arg, - node, prettyFlags); - case T_ConvertRowtypeExpr: - return isSimpleNode((Node *) ((ConvertRowtypeExpr *) node)->arg, - node, prettyFlags); - - case T_OpExpr: - { - /* depends on parent node type; needs further checking */ - if (prettyFlags & PRETTYFLAG_PAREN && IsA(parentNode, OpExpr)) - { - const char *op; - const char *parentOp; - bool is_lopriop; - bool is_hipriop; - bool is_lopriparent; - bool is_hipriparent; - - op = get_simple_binary_op_name((OpExpr *) node); - if (!op) - return false; - - /* We know only the basic operators + - and * / % */ - is_lopriop = (strchr("+-", *op) != NULL); - is_hipriop = (strchr("*/%", *op) != NULL); - if (!(is_lopriop || is_hipriop)) - return false; - - parentOp = get_simple_binary_op_name((OpExpr *) parentNode); - if (!parentOp) - return false; - - is_lopriparent = (strchr("+-", *parentOp) != NULL); - is_hipriparent = (strchr("*/%", *parentOp) != NULL); - if (!(is_lopriparent || is_hipriparent)) - return false; - - if (is_hipriop && is_lopriparent) - return true; /* op binds tighter than parent */ - - if (is_lopriop && is_hipriparent) - return false; - - /* - * Operators are same priority --- can skip parens only if - * we have (a - b) - c, not a - (b - c). - */ - if (node == (Node *) linitial(((OpExpr *) parentNode)->args)) - return true; - - return false; - } - /* else do the same stuff as for T_SubLink et al. */ - } - /* FALLTHROUGH */ - - case T_SubLink: - case T_NullTest: - case T_BooleanTest: - case T_DistinctExpr: - switch (nodeTag(parentNode)) - { - case T_FuncExpr: - { - /* special handling for casts */ - CoercionForm type = ((FuncExpr *) parentNode)->funcformat; - - if (type == COERCE_EXPLICIT_CAST || - type == COERCE_IMPLICIT_CAST) - return false; - return true; /* own parentheses */ - } - case T_BoolExpr: /* lower precedence */ - case T_SubscriptingRef: /* other separators */ - case T_ArrayExpr: /* other separators */ - case T_RowExpr: /* other separators */ - case T_CoalesceExpr: /* own parentheses */ - case T_MinMaxExpr: /* own parentheses */ - case T_XmlExpr: /* own parentheses */ - case T_NullIfExpr: /* other separators */ - case T_Aggref: /* own parentheses */ - case T_WindowFunc: /* own parentheses */ - case T_CaseExpr: /* other separators */ - return true; - default: - return false; - } - - case T_BoolExpr: - switch (nodeTag(parentNode)) - { - case T_BoolExpr: - if (prettyFlags & PRETTYFLAG_PAREN) - { - BoolExprType type; - BoolExprType parentType; - - type = ((BoolExpr *) node)->boolop; - parentType = ((BoolExpr *) parentNode)->boolop; - switch (type) - { - case NOT_EXPR: - case AND_EXPR: - if (parentType == AND_EXPR || parentType == OR_EXPR) - return true; - break; - case OR_EXPR: - if (parentType == OR_EXPR) - return true; - break; - } - } - return false; - case T_FuncExpr: - { - /* special handling for casts */ - CoercionForm type = ((FuncExpr *) parentNode)->funcformat; - - if (type == COERCE_EXPLICIT_CAST || - type == COERCE_IMPLICIT_CAST) - return false; - return true; /* own parentheses */ - } - case T_SubscriptingRef: /* other separators */ - case T_ArrayExpr: /* other separators */ - case T_RowExpr: /* other separators */ - case T_CoalesceExpr: /* own parentheses */ - case T_MinMaxExpr: /* own parentheses */ - case T_XmlExpr: /* own parentheses */ - case T_NullIfExpr: /* other separators */ - case T_Aggref: /* own parentheses */ - case T_WindowFunc: /* own parentheses */ - case T_CaseExpr: /* other separators */ - return true; - default: - return false; - } - - default: - break; - } - /* those we don't know: in dubio complexo */ - return false; -} - - -/* - * appendContextKeyword - append a keyword to buffer - * - * If prettyPrint is enabled, perform a line break, and adjust indentation. - * Otherwise, just append the keyword. - */ -static void -appendContextKeyword(deparse_context *context, const char *str, - int indentBefore, int indentAfter, int indentPlus) -{ - StringInfo buf = context->buf; - - if (PRETTY_INDENT(context)) - { - int indentAmount; - - context->indentLevel += indentBefore; - - /* remove any trailing spaces currently in the buffer ... */ - removeStringInfoSpaces(buf); - /* ... then add a newline and some spaces */ - appendStringInfoChar(buf, '\n'); - - if (context->indentLevel < PRETTYINDENT_LIMIT) - indentAmount = Max(context->indentLevel, 0) + indentPlus; - else - { - /* - * If we're indented more than PRETTYINDENT_LIMIT characters, try - * to conserve horizontal space by reducing the per-level - * indentation. For best results the scale factor here should - * divide all the indent amounts that get added to indentLevel - * (PRETTYINDENT_STD, etc). It's important that the indentation - * not grow unboundedly, else deeply-nested trees use O(N^2) - * whitespace; so we also wrap modulo PRETTYINDENT_LIMIT. - */ - indentAmount = PRETTYINDENT_LIMIT + - (context->indentLevel - PRETTYINDENT_LIMIT) / - (PRETTYINDENT_STD / 2); - indentAmount %= PRETTYINDENT_LIMIT; - /* scale/wrap logic affects indentLevel, but not indentPlus */ - indentAmount += indentPlus; - } - appendStringInfoSpaces(buf, indentAmount); - - appendStringInfoString(buf, str); - - context->indentLevel += indentAfter; - if (context->indentLevel < 0) - context->indentLevel = 0; - } - else - appendStringInfoString(buf, str); -} - -/* - * removeStringInfoSpaces - delete trailing spaces from a buffer. - * - * Possibly this should move to stringinfo.c at some point. - */ -static void -removeStringInfoSpaces(StringInfo str) -{ - while (str->len > 0 && str->data[str->len - 1] == ' ') - str->data[--(str->len)] = '\0'; -} - - -/* - * get_rule_expr_paren - deparse expr using get_rule_expr, - * embracing the string with parentheses if necessary for prettyPrint. - * - * Never embrace if prettyFlags=0, because it's done in the calling node. - * - * Any node that does *not* embrace its argument node by sql syntax (with - * parentheses, non-operator keywords like CASE/WHEN/ON, or comma etc) should - * use get_rule_expr_paren instead of get_rule_expr so parentheses can be - * added. - */ -static void -get_rule_expr_paren(Node *node, deparse_context *context, - bool showimplicit, Node *parentNode) -{ - bool need_paren; - - need_paren = PRETTY_PAREN(context) && - !isSimpleNode(node, parentNode, context->prettyFlags); - - if (need_paren) - appendStringInfoChar(context->buf, '('); - - get_rule_expr(node, context, showimplicit); - - if (need_paren) - appendStringInfoChar(context->buf, ')'); -} - - -/* ---------- - * get_rule_expr - Parse back an expression - * - * Note: showimplicit determines whether we display any implicit cast that - * is present at the top of the expression tree. It is a passed argument, - * not a field of the context struct, because we change the value as we - * recurse down into the expression. In general we suppress implicit casts - * when the result type is known with certainty (eg, the arguments of an - * OR must be boolean). We display implicit casts for arguments of functions - * and operators, since this is needed to be certain that the same function - * or operator will be chosen when the expression is re-parsed. - * ---------- - */ -static void -get_rule_expr(Node *node, deparse_context *context, - bool showimplicit) -{ - StringInfo buf = context->buf; - - if (node == NULL) - return; - - /* Guard against excessively long or deeply-nested queries */ - CHECK_FOR_INTERRUPTS(); - check_stack_depth(); - - /* - * Each level of get_rule_expr must emit an indivisible term - * (parenthesized if necessary) to ensure result is reparsed into the same - * expression tree. The only exception is that when the input is a List, - * we emit the component items comma-separated with no surrounding - * decoration; this is convenient for most callers. - */ - switch (nodeTag(node)) - { - case T_Var: - (void) get_variable((Var *) node, 0, false, context); - break; - - case T_Const: - get_const_expr((Const *) node, context, 0); - break; - - case T_Param: - get_parameter((Param *) node, context); - break; - - case T_Aggref: - get_agg_expr((Aggref *) node, context, (Aggref *) node); - break; - - case T_GroupingFunc: - { - GroupingFunc *gexpr = (GroupingFunc *) node; - - appendStringInfoString(buf, "GROUPING("); - get_rule_expr((Node *) gexpr->args, context, true); - appendStringInfoChar(buf, ')'); - } - break; - - case T_WindowFunc: - get_windowfunc_expr((WindowFunc *) node, context); - break; - - case T_SubscriptingRef: - { - SubscriptingRef *sbsref = (SubscriptingRef *) node; - bool need_parens; - - /* - * If the argument is a CaseTestExpr, we must be inside a - * FieldStore, ie, we are assigning to an element of an array - * within a composite column. Since we already punted on - * displaying the FieldStore's target information, just punt - * here too, and display only the assignment source - * expression. - */ - if (IsA(sbsref->refexpr, CaseTestExpr)) - { - Assert(sbsref->refassgnexpr); - get_rule_expr((Node *) sbsref->refassgnexpr, - context, showimplicit); - break; - } - - /* - * Parenthesize the argument unless it's a simple Var or a - * FieldSelect. (In particular, if it's another - * SubscriptingRef, we *must* parenthesize to avoid - * confusion.) - */ - need_parens = !IsA(sbsref->refexpr, Var) && - !IsA(sbsref->refexpr, FieldSelect); - if (need_parens) - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) sbsref->refexpr, context, showimplicit); - if (need_parens) - appendStringInfoChar(buf, ')'); - - /* - * If there's a refassgnexpr, we want to print the node in the - * format "container[subscripts] := refassgnexpr". This is - * not legal SQL, so decompilation of INSERT or UPDATE - * statements should always use processIndirection as part of - * the statement-level syntax. We should only see this when - * EXPLAIN tries to print the targetlist of a plan resulting - * from such a statement. - */ - if (sbsref->refassgnexpr) - { - Node *refassgnexpr; - - /* - * Use processIndirection to print this node's subscripts - * as well as any additional field selections or - * subscripting in immediate descendants. It returns the - * RHS expr that is actually being "assigned". - */ - refassgnexpr = processIndirection(node, context); - appendStringInfoString(buf, " := "); - get_rule_expr(refassgnexpr, context, showimplicit); - } - else - { - /* Just an ordinary container fetch, so print subscripts */ - printSubscripts(sbsref, context); - } - } - break; - - case T_FuncExpr: - get_func_expr((FuncExpr *) node, context, showimplicit); - break; - - case T_NamedArgExpr: - { - NamedArgExpr *na = (NamedArgExpr *) node; - - appendStringInfo(buf, "%s => ", quote_identifier(na->name)); - get_rule_expr((Node *) na->arg, context, showimplicit); - } - break; - - case T_OpExpr: - get_oper_expr((OpExpr *) node, context); - break; - - case T_DistinctExpr: - { - DistinctExpr *expr = (DistinctExpr *) node; - List *args = expr->args; - Node *arg1 = (Node *) linitial(args); - Node *arg2 = (Node *) lsecond(args); - - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren(arg1, context, true, node); - appendStringInfoString(buf, " IS DISTINCT FROM "); - get_rule_expr_paren(arg2, context, true, node); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - break; - - case T_NullIfExpr: - { - NullIfExpr *nullifexpr = (NullIfExpr *) node; - - appendStringInfoString(buf, "NULLIF("); - get_rule_expr((Node *) nullifexpr->args, context, true); - appendStringInfoChar(buf, ')'); - } - break; - - case T_ScalarArrayOpExpr: - { - ScalarArrayOpExpr *expr = (ScalarArrayOpExpr *) node; - List *args = expr->args; - Node *arg1 = (Node *) linitial(args); - Node *arg2 = (Node *) lsecond(args); - - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren(arg1, context, true, node); - appendStringInfo(buf, " %s %s (", - generate_operator_name(expr->opno, - exprType(arg1), - get_base_element_type(exprType(arg2))), - expr->useOr ? "ANY" : "ALL"); - get_rule_expr_paren(arg2, context, true, node); - - /* - * There's inherent ambiguity in "x op ANY/ALL (y)" when y is - * a bare sub-SELECT. Since we're here, the sub-SELECT must - * be meant as a scalar sub-SELECT yielding an array value to - * be used in ScalarArrayOpExpr; but the grammar will - * preferentially interpret such a construct as an ANY/ALL - * SubLink. To prevent misparsing the output that way, insert - * a dummy coercion (which will be stripped by parse analysis, - * so no inefficiency is added in dump and reload). This is - * indeed most likely what the user wrote to get the construct - * accepted in the first place. - */ - if (IsA(arg2, SubLink) && - ((SubLink *) arg2)->subLinkType == EXPR_SUBLINK) - appendStringInfo(buf, "::%s", - format_type_with_typemod(exprType(arg2), - exprTypmod(arg2))); - appendStringInfoChar(buf, ')'); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - break; - - case T_BoolExpr: - { - BoolExpr *expr = (BoolExpr *) node; - Node *first_arg = linitial(expr->args); - ListCell *arg; - - switch (expr->boolop) - { - case AND_EXPR: - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren(first_arg, context, - false, node); - for_each_from(arg, expr->args, 1) - { - appendStringInfoString(buf, " AND "); - get_rule_expr_paren((Node *) lfirst(arg), context, - false, node); - } - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - break; - - case OR_EXPR: - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren(first_arg, context, - false, node); - for_each_from(arg, expr->args, 1) - { - appendStringInfoString(buf, " OR "); - get_rule_expr_paren((Node *) lfirst(arg), context, - false, node); - } - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - break; - - case NOT_EXPR: - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - appendStringInfoString(buf, "NOT "); - get_rule_expr_paren(first_arg, context, - false, node); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - break; - - default: - elog(ERROR, "unrecognized boolop: %d", - (int) expr->boolop); - } - } - break; - - case T_SubLink: - get_sublink_expr((SubLink *) node, context); - break; - - case T_SubPlan: - { - SubPlan *subplan = (SubPlan *) node; - - /* - * We cannot see an already-planned subplan in rule deparsing, - * only while EXPLAINing a query plan. We don't try to - * reconstruct the original SQL, just reference the subplan - * that appears elsewhere in EXPLAIN's result. - */ - if (subplan->useHashTable) - appendStringInfo(buf, "(hashed %s)", subplan->plan_name); - else - appendStringInfo(buf, "(%s)", subplan->plan_name); - } - break; - - case T_AlternativeSubPlan: - { - AlternativeSubPlan *asplan = (AlternativeSubPlan *) node; - ListCell *lc; - - /* - * This case cannot be reached in normal usage, since no - * AlternativeSubPlan can appear either in parsetrees or - * finished plan trees. We keep it just in case somebody - * wants to use this code to print planner data structures. - */ - appendStringInfoString(buf, "(alternatives: "); - foreach(lc, asplan->subplans) - { - SubPlan *splan = lfirst_node(SubPlan, lc); - - if (splan->useHashTable) - appendStringInfo(buf, "hashed %s", splan->plan_name); - else - appendStringInfoString(buf, splan->plan_name); - if (lnext(asplan->subplans, lc)) - appendStringInfoString(buf, " or "); - } - appendStringInfoChar(buf, ')'); - } - break; - - case T_FieldSelect: - { - FieldSelect *fselect = (FieldSelect *) node; - Node *arg = (Node *) fselect->arg; - int fno = fselect->fieldnum; - const char *fieldname; - bool need_parens; - - /* - * Parenthesize the argument unless it's an SubscriptingRef or - * another FieldSelect. Note in particular that it would be - * WRONG to not parenthesize a Var argument; simplicity is not - * the issue here, having the right number of names is. - */ - need_parens = !IsA(arg, SubscriptingRef) && - !IsA(arg, FieldSelect); - if (need_parens) - appendStringInfoChar(buf, '('); - get_rule_expr(arg, context, true); - if (need_parens) - appendStringInfoChar(buf, ')'); - - /* - * Get and print the field name. - */ - fieldname = get_name_for_var_field((Var *) arg, fno, - 0, context); - appendStringInfo(buf, ".%s", quote_identifier(fieldname)); - } - break; - - case T_FieldStore: - { - FieldStore *fstore = (FieldStore *) node; - bool need_parens; - - /* - * There is no good way to represent a FieldStore as real SQL, - * so decompilation of INSERT or UPDATE statements should - * always use processIndirection as part of the - * statement-level syntax. We should only get here when - * EXPLAIN tries to print the targetlist of a plan resulting - * from such a statement. The plan case is even harder than - * ordinary rules would be, because the planner tries to - * collapse multiple assignments to the same field or subfield - * into one FieldStore; so we can see a list of target fields - * not just one, and the arguments could be FieldStores - * themselves. We don't bother to try to print the target - * field names; we just print the source arguments, with a - * ROW() around them if there's more than one. This isn't - * terribly complete, but it's probably good enough for - * EXPLAIN's purposes; especially since anything more would be - * either hopelessly confusing or an even poorer - * representation of what the plan is actually doing. - */ - need_parens = (list_length(fstore->newvals) != 1); - if (need_parens) - appendStringInfoString(buf, "ROW("); - get_rule_expr((Node *) fstore->newvals, context, showimplicit); - if (need_parens) - appendStringInfoChar(buf, ')'); - } - break; - - case T_RelabelType: - { - RelabelType *relabel = (RelabelType *) node; - Node *arg = (Node *) relabel->arg; - - if (relabel->relabelformat == COERCE_IMPLICIT_CAST && - !showimplicit) - { - /* don't show the implicit cast */ - get_rule_expr_paren(arg, context, false, node); - } - else - { - get_coercion_expr(arg, context, - relabel->resulttype, - relabel->resulttypmod, - node); - } - } - break; - - case T_CoerceViaIO: - { - CoerceViaIO *iocoerce = (CoerceViaIO *) node; - Node *arg = (Node *) iocoerce->arg; - - if (iocoerce->coerceformat == COERCE_IMPLICIT_CAST && - !showimplicit) - { - /* don't show the implicit cast */ - get_rule_expr_paren(arg, context, false, node); - } - else - { - get_coercion_expr(arg, context, - iocoerce->resulttype, - -1, - node); - } - } - break; - - case T_ArrayCoerceExpr: - { - ArrayCoerceExpr *acoerce = (ArrayCoerceExpr *) node; - Node *arg = (Node *) acoerce->arg; - - if (acoerce->coerceformat == COERCE_IMPLICIT_CAST && - !showimplicit) - { - /* don't show the implicit cast */ - get_rule_expr_paren(arg, context, false, node); - } - else - { - get_coercion_expr(arg, context, - acoerce->resulttype, - acoerce->resulttypmod, - node); - } - } - break; - - case T_ConvertRowtypeExpr: - { - ConvertRowtypeExpr *convert = (ConvertRowtypeExpr *) node; - Node *arg = (Node *) convert->arg; - - if (convert->convertformat == COERCE_IMPLICIT_CAST && - !showimplicit) - { - /* don't show the implicit cast */ - get_rule_expr_paren(arg, context, false, node); - } - else - { - get_coercion_expr(arg, context, - convert->resulttype, -1, - node); - } - } - break; - - case T_CollateExpr: - { - CollateExpr *collate = (CollateExpr *) node; - Node *arg = (Node *) collate->arg; - - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren(arg, context, showimplicit, node); - appendStringInfo(buf, " COLLATE %s", - generate_collation_name(collate->collOid)); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - break; - - case T_CaseExpr: - { - CaseExpr *caseexpr = (CaseExpr *) node; - ListCell *temp; - - appendContextKeyword(context, "CASE", - 0, PRETTYINDENT_VAR, 0); - if (caseexpr->arg) - { - appendStringInfoChar(buf, ' '); - get_rule_expr((Node *) caseexpr->arg, context, true); - } - foreach(temp, caseexpr->args) - { - CaseWhen *when = (CaseWhen *) lfirst(temp); - Node *w = (Node *) when->expr; - - if (caseexpr->arg) - { - /* - * The parser should have produced WHEN clauses of the - * form "CaseTestExpr = RHS", possibly with an - * implicit coercion inserted above the CaseTestExpr. - * For accurate decompilation of rules it's essential - * that we show just the RHS. However in an - * expression that's been through the optimizer, the - * WHEN clause could be almost anything (since the - * equality operator could have been expanded into an - * inline function). If we don't recognize the form - * of the WHEN clause, just punt and display it as-is. - */ - if (IsA(w, OpExpr)) - { - List *args = ((OpExpr *) w)->args; - - if (list_length(args) == 2 && - IsA(strip_implicit_coercions(linitial(args)), - CaseTestExpr)) - w = (Node *) lsecond(args); - } - } - - if (!PRETTY_INDENT(context)) - appendStringInfoChar(buf, ' '); - appendContextKeyword(context, "WHEN ", - 0, 0, 0); - get_rule_expr(w, context, false); - appendStringInfoString(buf, " THEN "); - get_rule_expr((Node *) when->result, context, true); - } - if (!PRETTY_INDENT(context)) - appendStringInfoChar(buf, ' '); - appendContextKeyword(context, "ELSE ", - 0, 0, 0); - get_rule_expr((Node *) caseexpr->defresult, context, true); - if (!PRETTY_INDENT(context)) - appendStringInfoChar(buf, ' '); - appendContextKeyword(context, "END", - -PRETTYINDENT_VAR, 0, 0); - } - break; - - case T_CaseTestExpr: - { - /* - * Normally we should never get here, since for expressions - * that can contain this node type we attempt to avoid - * recursing to it. But in an optimized expression we might - * be unable to avoid that (see comments for CaseExpr). If we - * do see one, print it as CASE_TEST_EXPR. - */ - appendStringInfoString(buf, "CASE_TEST_EXPR"); - } - break; - - case T_ArrayExpr: - { - ArrayExpr *arrayexpr = (ArrayExpr *) node; - - appendStringInfoString(buf, "ARRAY["); - get_rule_expr((Node *) arrayexpr->elements, context, true); - appendStringInfoChar(buf, ']'); - - /* - * If the array isn't empty, we assume its elements are - * coerced to the desired type. If it's empty, though, we - * need an explicit coercion to the array type. - */ - if (arrayexpr->elements == NIL) - appendStringInfo(buf, "::%s", - format_type_with_typemod(arrayexpr->array_typeid, -1)); - } - break; - - case T_RowExpr: - { - RowExpr *rowexpr = (RowExpr *) node; - TupleDesc tupdesc = NULL; - ListCell *arg; - int i; - char *sep; - - /* - * If it's a named type and not RECORD, we may have to skip - * dropped columns and/or claim there are NULLs for added - * columns. - */ - if (rowexpr->row_typeid != RECORDOID) - { - tupdesc = lookup_rowtype_tupdesc(rowexpr->row_typeid, -1); - Assert(list_length(rowexpr->args) <= tupdesc->natts); - } - - /* - * SQL99 allows "ROW" to be omitted when there is more than - * one column, but for simplicity we always print it. - */ - appendStringInfoString(buf, "ROW("); - sep = ""; - i = 0; - foreach(arg, rowexpr->args) - { - Node *e = (Node *) lfirst(arg); - - if (tupdesc == NULL || - !TupleDescAttr(tupdesc, i)->attisdropped) - { - appendStringInfoString(buf, sep); - /* Whole-row Vars need special treatment here */ - get_rule_expr_toplevel(e, context, true); - sep = ", "; - } - i++; - } - if (tupdesc != NULL) - { - while (i < tupdesc->natts) - { - if (!TupleDescAttr(tupdesc, i)->attisdropped) - { - appendStringInfoString(buf, sep); - appendStringInfoString(buf, "NULL"); - sep = ", "; - } - i++; - } - - ReleaseTupleDesc(tupdesc); - } - appendStringInfoChar(buf, ')'); - if (rowexpr->row_format == COERCE_EXPLICIT_CAST) - appendStringInfo(buf, "::%s", - format_type_with_typemod(rowexpr->row_typeid, -1)); - } - break; - - case T_RowCompareExpr: - { - RowCompareExpr *rcexpr = (RowCompareExpr *) node; - ListCell *arg; - char *sep; - - /* - * SQL99 allows "ROW" to be omitted when there is more than - * one column, but for simplicity we always print it. - */ - appendStringInfoString(buf, "(ROW("); - sep = ""; - foreach(arg, rcexpr->largs) - { - Node *e = (Node *) lfirst(arg); - - appendStringInfoString(buf, sep); - get_rule_expr(e, context, true); - sep = ", "; - } - - /* - * We assume that the name of the first-column operator will - * do for all the rest too. This is definitely open to - * failure, eg if some but not all operators were renamed - * since the construct was parsed, but there seems no way to - * be perfect. - */ - appendStringInfo(buf, ") %s ROW(", - generate_operator_name(linitial_oid(rcexpr->opnos), - exprType(linitial(rcexpr->largs)), - exprType(linitial(rcexpr->rargs)))); - sep = ""; - foreach(arg, rcexpr->rargs) - { - Node *e = (Node *) lfirst(arg); - - appendStringInfoString(buf, sep); - get_rule_expr(e, context, true); - sep = ", "; - } - appendStringInfoString(buf, "))"); - } - break; - - case T_CoalesceExpr: - { - CoalesceExpr *coalesceexpr = (CoalesceExpr *) node; - - appendStringInfoString(buf, "COALESCE("); - get_rule_expr((Node *) coalesceexpr->args, context, true); - appendStringInfoChar(buf, ')'); - } - break; - - case T_MinMaxExpr: - { - MinMaxExpr *minmaxexpr = (MinMaxExpr *) node; - - switch (minmaxexpr->op) - { - case IS_GREATEST: - appendStringInfoString(buf, "GREATEST("); - break; - case IS_LEAST: - appendStringInfoString(buf, "LEAST("); - break; - } - get_rule_expr((Node *) minmaxexpr->args, context, true); - appendStringInfoChar(buf, ')'); - } - break; - - case T_SQLValueFunction: - { - SQLValueFunction *svf = (SQLValueFunction *) node; - - /* - * Note: this code knows that typmod for time, timestamp, and - * timestamptz just prints as integer. - */ - switch (svf->op) - { - case SVFOP_CURRENT_DATE: - appendStringInfoString(buf, "CURRENT_DATE"); - break; - case SVFOP_CURRENT_TIME: - appendStringInfoString(buf, "CURRENT_TIME"); - break; - case SVFOP_CURRENT_TIME_N: - appendStringInfo(buf, "CURRENT_TIME(%d)", svf->typmod); - break; - case SVFOP_CURRENT_TIMESTAMP: - appendStringInfoString(buf, "CURRENT_TIMESTAMP"); - break; - case SVFOP_CURRENT_TIMESTAMP_N: - appendStringInfo(buf, "CURRENT_TIMESTAMP(%d)", - svf->typmod); - break; - case SVFOP_LOCALTIME: - appendStringInfoString(buf, "LOCALTIME"); - break; - case SVFOP_LOCALTIME_N: - appendStringInfo(buf, "LOCALTIME(%d)", svf->typmod); - break; - case SVFOP_LOCALTIMESTAMP: - appendStringInfoString(buf, "LOCALTIMESTAMP"); - break; - case SVFOP_LOCALTIMESTAMP_N: - appendStringInfo(buf, "LOCALTIMESTAMP(%d)", - svf->typmod); - break; - case SVFOP_CURRENT_ROLE: - appendStringInfoString(buf, "CURRENT_ROLE"); - break; - case SVFOP_CURRENT_USER: - appendStringInfoString(buf, "CURRENT_USER"); - break; - case SVFOP_USER: - appendStringInfoString(buf, "USER"); - break; - case SVFOP_SESSION_USER: - appendStringInfoString(buf, "SESSION_USER"); - break; - case SVFOP_CURRENT_CATALOG: - appendStringInfoString(buf, "CURRENT_CATALOG"); - break; - case SVFOP_CURRENT_SCHEMA: - appendStringInfoString(buf, "CURRENT_SCHEMA"); - break; - } - } - break; - - case T_XmlExpr: - { - XmlExpr *xexpr = (XmlExpr *) node; - bool needcomma = false; - ListCell *arg; - ListCell *narg; - Const *con; - - switch (xexpr->op) - { - case IS_XMLCONCAT: - appendStringInfoString(buf, "XMLCONCAT("); - break; - case IS_XMLELEMENT: - appendStringInfoString(buf, "XMLELEMENT("); - break; - case IS_XMLFOREST: - appendStringInfoString(buf, "XMLFOREST("); - break; - case IS_XMLPARSE: - appendStringInfoString(buf, "XMLPARSE("); - break; - case IS_XMLPI: - appendStringInfoString(buf, "XMLPI("); - break; - case IS_XMLROOT: - appendStringInfoString(buf, "XMLROOT("); - break; - case IS_XMLSERIALIZE: - appendStringInfoString(buf, "XMLSERIALIZE("); - break; - case IS_DOCUMENT: - break; - } - if (xexpr->op == IS_XMLPARSE || xexpr->op == IS_XMLSERIALIZE) - { - if (xexpr->xmloption == XMLOPTION_DOCUMENT) - appendStringInfoString(buf, "DOCUMENT "); - else - appendStringInfoString(buf, "CONTENT "); - } - if (xexpr->name) - { - appendStringInfo(buf, "NAME %s", - quote_identifier(map_xml_name_to_sql_identifier(xexpr->name))); - needcomma = true; - } - if (xexpr->named_args) - { - if (xexpr->op != IS_XMLFOREST) - { - if (needcomma) - appendStringInfoString(buf, ", "); - appendStringInfoString(buf, "XMLATTRIBUTES("); - needcomma = false; - } - forboth(arg, xexpr->named_args, narg, xexpr->arg_names) - { - Node *e = (Node *) lfirst(arg); - char *argname = strVal(lfirst(narg)); - - if (needcomma) - appendStringInfoString(buf, ", "); - get_rule_expr((Node *) e, context, true); - appendStringInfo(buf, " AS %s", - quote_identifier(map_xml_name_to_sql_identifier(argname))); - needcomma = true; - } - if (xexpr->op != IS_XMLFOREST) - appendStringInfoChar(buf, ')'); - } - if (xexpr->args) - { - if (needcomma) - appendStringInfoString(buf, ", "); - switch (xexpr->op) - { - case IS_XMLCONCAT: - case IS_XMLELEMENT: - case IS_XMLFOREST: - case IS_XMLPI: - case IS_XMLSERIALIZE: - /* no extra decoration needed */ - get_rule_expr((Node *) xexpr->args, context, true); - break; - case IS_XMLPARSE: - Assert(list_length(xexpr->args) == 2); - - get_rule_expr((Node *) linitial(xexpr->args), - context, true); - - con = lsecond_node(Const, xexpr->args); - Assert(!con->constisnull); - if (DatumGetBool(con->constvalue)) - appendStringInfoString(buf, - " PRESERVE WHITESPACE"); - else - appendStringInfoString(buf, - " STRIP WHITESPACE"); - break; - case IS_XMLROOT: - Assert(list_length(xexpr->args) == 3); - - get_rule_expr((Node *) linitial(xexpr->args), - context, true); - - appendStringInfoString(buf, ", VERSION "); - con = (Const *) lsecond(xexpr->args); - if (IsA(con, Const) && - con->constisnull) - appendStringInfoString(buf, "NO VALUE"); - else - get_rule_expr((Node *) con, context, false); - - con = lthird_node(Const, xexpr->args); - if (con->constisnull) - /* suppress STANDALONE NO VALUE */ ; - else - { - switch (DatumGetInt32(con->constvalue)) - { - case XML_STANDALONE_YES: - appendStringInfoString(buf, - ", STANDALONE YES"); - break; - case XML_STANDALONE_NO: - appendStringInfoString(buf, - ", STANDALONE NO"); - break; - case XML_STANDALONE_NO_VALUE: - appendStringInfoString(buf, - ", STANDALONE NO VALUE"); - break; - default: - break; - } - } - break; - case IS_DOCUMENT: - get_rule_expr_paren((Node *) xexpr->args, context, false, node); - break; - } - - } - if (xexpr->op == IS_XMLSERIALIZE) - appendStringInfo(buf, " AS %s", - format_type_with_typemod(xexpr->type, - xexpr->typmod)); - if (xexpr->op == IS_DOCUMENT) - appendStringInfoString(buf, " IS DOCUMENT"); - else - appendStringInfoChar(buf, ')'); - } - break; - - case T_NullTest: - { - NullTest *ntest = (NullTest *) node; - - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren((Node *) ntest->arg, context, true, node); - - /* - * For scalar inputs, we prefer to print as IS [NOT] NULL, - * which is shorter and traditional. If it's a rowtype input - * but we're applying a scalar test, must print IS [NOT] - * DISTINCT FROM NULL to be semantically correct. - */ - if (ntest->argisrow || - !type_is_rowtype(exprType((Node *) ntest->arg))) - { - switch (ntest->nulltesttype) - { - case IS_NULL: - appendStringInfoString(buf, " IS NULL"); - break; - case IS_NOT_NULL: - appendStringInfoString(buf, " IS NOT NULL"); - break; - default: - elog(ERROR, "unrecognized nulltesttype: %d", - (int) ntest->nulltesttype); - } - } - else - { - switch (ntest->nulltesttype) - { - case IS_NULL: - appendStringInfoString(buf, " IS NOT DISTINCT FROM NULL"); - break; - case IS_NOT_NULL: - appendStringInfoString(buf, " IS DISTINCT FROM NULL"); - break; - default: - elog(ERROR, "unrecognized nulltesttype: %d", - (int) ntest->nulltesttype); - } - } - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - break; - - case T_BooleanTest: - { - BooleanTest *btest = (BooleanTest *) node; - - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren((Node *) btest->arg, context, false, node); - switch (btest->booltesttype) - { - case IS_TRUE: - appendStringInfoString(buf, " IS TRUE"); - break; - case IS_NOT_TRUE: - appendStringInfoString(buf, " IS NOT TRUE"); - break; - case IS_FALSE: - appendStringInfoString(buf, " IS FALSE"); - break; - case IS_NOT_FALSE: - appendStringInfoString(buf, " IS NOT FALSE"); - break; - case IS_UNKNOWN: - appendStringInfoString(buf, " IS UNKNOWN"); - break; - case IS_NOT_UNKNOWN: - appendStringInfoString(buf, " IS NOT UNKNOWN"); - break; - default: - elog(ERROR, "unrecognized booltesttype: %d", - (int) btest->booltesttype); - } - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - break; - - case T_CoerceToDomain: - { - CoerceToDomain *ctest = (CoerceToDomain *) node; - Node *arg = (Node *) ctest->arg; - - if (ctest->coercionformat == COERCE_IMPLICIT_CAST && - !showimplicit) - { - /* don't show the implicit cast */ - get_rule_expr(arg, context, false); - } - else - { - get_coercion_expr(arg, context, - ctest->resulttype, - ctest->resulttypmod, - node); - } - } - break; - - case T_CoerceToDomainValue: - appendStringInfoString(buf, "VALUE"); - break; - - case T_SetToDefault: - appendStringInfoString(buf, "DEFAULT"); - break; - - case T_CurrentOfExpr: - { - CurrentOfExpr *cexpr = (CurrentOfExpr *) node; - - if (cexpr->cursor_name) - appendStringInfo(buf, "CURRENT OF %s", - quote_identifier(cexpr->cursor_name)); - else - appendStringInfo(buf, "CURRENT OF $%d", - cexpr->cursor_param); - } - break; - - case T_NextValueExpr: - { - NextValueExpr *nvexpr = (NextValueExpr *) node; - - /* - * This isn't exactly nextval(), but that seems close enough - * for EXPLAIN's purposes. - */ - appendStringInfoString(buf, "nextval("); - simple_quote_literal(buf, - generate_relation_name(nvexpr->seqid, - NIL)); - appendStringInfoChar(buf, ')'); - } - break; - - case T_InferenceElem: - { - InferenceElem *iexpr = (InferenceElem *) node; - bool save_varprefix; - bool need_parens; - - /* - * InferenceElem can only refer to target relation, so a - * prefix is not useful, and indeed would cause parse errors. - */ - save_varprefix = context->varprefix; - context->varprefix = false; - - /* - * Parenthesize the element unless it's a simple Var or a bare - * function call. Follows pg_get_indexdef_worker(). - */ - need_parens = !IsA(iexpr->expr, Var); - if (IsA(iexpr->expr, FuncExpr) && - ((FuncExpr *) iexpr->expr)->funcformat == - COERCE_EXPLICIT_CALL) - need_parens = false; - - if (need_parens) - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) iexpr->expr, - context, false); - if (need_parens) - appendStringInfoChar(buf, ')'); - - context->varprefix = save_varprefix; - - if (iexpr->infercollid) - appendStringInfo(buf, " COLLATE %s", - generate_collation_name(iexpr->infercollid)); - - /* Add the operator class name, if not default */ - if (iexpr->inferopclass) - { - Oid inferopclass = iexpr->inferopclass; - Oid inferopcinputtype = get_opclass_input_type(iexpr->inferopclass); - - get_opclass_name(inferopclass, inferopcinputtype, buf); - } - } - break; - - case T_PartitionBoundSpec: - { - PartitionBoundSpec *spec = (PartitionBoundSpec *) node; - ListCell *cell; - char *sep; - - if (spec->is_default) - { - appendStringInfoString(buf, "DEFAULT"); - break; - } - - switch (spec->strategy) - { - case PARTITION_STRATEGY_HASH: - Assert(spec->modulus > 0 && spec->remainder >= 0); - Assert(spec->modulus > spec->remainder); - - appendStringInfoString(buf, "FOR VALUES"); - appendStringInfo(buf, " WITH (modulus %d, remainder %d)", - spec->modulus, spec->remainder); - break; - - case PARTITION_STRATEGY_LIST: - Assert(spec->listdatums != NIL); - - appendStringInfoString(buf, "FOR VALUES IN ("); - sep = ""; - foreach(cell, spec->listdatums) - { - Const *val = lfirst_node(Const, cell); - - appendStringInfoString(buf, sep); - get_const_expr(val, context, -1); - sep = ", "; - } - - appendStringInfoChar(buf, ')'); - break; - - case PARTITION_STRATEGY_RANGE: - Assert(spec->lowerdatums != NIL && - spec->upperdatums != NIL && - list_length(spec->lowerdatums) == - list_length(spec->upperdatums)); - - appendStringInfo(buf, "FOR VALUES FROM %s TO %s", - get_range_partbound_string(spec->lowerdatums), - get_range_partbound_string(spec->upperdatums)); - break; - - default: - elog(ERROR, "unrecognized partition strategy: %d", - (int) spec->strategy); - break; - } - } - break; - - case T_List: - { - char *sep; - ListCell *l; - - sep = ""; - foreach(l, (List *) node) - { - appendStringInfoString(buf, sep); - get_rule_expr((Node *) lfirst(l), context, showimplicit); - sep = ", "; - } - } - break; - - case T_TableFunc: - get_tablefunc((TableFunc *) node, context, showimplicit); - break; - - case T_CallStmt: - get_proc_expr((CallStmt *) node, context, showimplicit); - break; - - default: - elog(ERROR, "unrecognized node type: %d", (int) nodeTag(node)); - break; - } -} - -/* - * get_rule_expr_toplevel - Parse back a toplevel expression - * - * Same as get_rule_expr(), except that if the expr is just a Var, we pass - * istoplevel = true not false to get_variable(). This causes whole-row Vars - * to get printed with decoration that will prevent expansion of "*". - * We need to use this in contexts such as ROW() and VALUES(), where the - * parser would expand "foo.*" appearing at top level. (In principle we'd - * use this in get_target_list() too, but that has additional worries about - * whether to print AS, so it needs to invoke get_variable() directly anyway.) - */ -static void -get_rule_expr_toplevel(Node *node, deparse_context *context, - bool showimplicit) -{ - if (node && IsA(node, Var)) - (void) get_variable((Var *) node, 0, true, context); - else - get_rule_expr(node, context, showimplicit); -} - -/* - * get_rule_expr_funccall - Parse back a function-call expression - * - * Same as get_rule_expr(), except that we guarantee that the output will - * look like a function call, or like one of the things the grammar treats as - * equivalent to a function call (see the func_expr_windowless production). - * This is needed in places where the grammar uses func_expr_windowless and - * you can't substitute a parenthesized a_expr. If what we have isn't going - * to look like a function call, wrap it in a dummy CAST() expression, which - * will satisfy the grammar --- and, indeed, is likely what the user wrote to - * produce such a thing. - */ -static void -get_rule_expr_funccall(Node *node, deparse_context *context, - bool showimplicit) -{ - if (looks_like_function(node)) - get_rule_expr(node, context, showimplicit); - else - { - StringInfo buf = context->buf; - - appendStringInfoString(buf, "CAST("); - /* no point in showing any top-level implicit cast */ - get_rule_expr(node, context, false); - appendStringInfo(buf, " AS %s)", - format_type_with_typemod(exprType(node), - exprTypmod(node))); - } -} - -/* - * Helper function to identify node types that satisfy func_expr_windowless. - * If in doubt, "false" is always a safe answer. - */ -static bool -looks_like_function(Node *node) -{ - if (node == NULL) - return false; /* probably shouldn't happen */ - switch (nodeTag(node)) - { - case T_FuncExpr: - /* OK, unless it's going to deparse as a cast */ - return (((FuncExpr *) node)->funcformat == COERCE_EXPLICIT_CALL || - ((FuncExpr *) node)->funcformat == COERCE_SQL_SYNTAX); - case T_NullIfExpr: - case T_CoalesceExpr: - case T_MinMaxExpr: - case T_SQLValueFunction: - case T_XmlExpr: - /* these are all accepted by func_expr_common_subexpr */ - return true; - default: - break; - } - return false; -} - - -/* - * get_oper_expr - Parse back an OpExpr node - */ -static void -get_oper_expr(OpExpr *expr, deparse_context *context) -{ - StringInfo buf = context->buf; - Oid opno = expr->opno; - List *args = expr->args; - - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - if (list_length(args) == 2) - { - /* binary operator */ - Node *arg1 = (Node *) linitial(args); - Node *arg2 = (Node *) lsecond(args); - - get_rule_expr_paren(arg1, context, true, (Node *) expr); - appendStringInfo(buf, " %s ", - generate_operator_name(opno, - exprType(arg1), - exprType(arg2))); - get_rule_expr_paren(arg2, context, true, (Node *) expr); - } - else - { - /* prefix operator */ - Node *arg = (Node *) linitial(args); - - appendStringInfo(buf, "%s ", - generate_operator_name(opno, - InvalidOid, - exprType(arg))); - get_rule_expr_paren(arg, context, true, (Node *) expr); - } - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); -} - -/* - * get_func_expr - Parse back a FuncExpr node - */ -static void -get_func_expr(FuncExpr *expr, deparse_context *context, - bool showimplicit) -{ - StringInfo buf = context->buf; - Oid funcoid = expr->funcid; - Oid argtypes[FUNC_MAX_ARGS]; - int nargs; - List *argnames; - bool use_variadic; - ListCell *l; - - /* - * If the function call came from an implicit coercion, then just show the - * first argument --- unless caller wants to see implicit coercions. - */ - if (expr->funcformat == COERCE_IMPLICIT_CAST && !showimplicit) - { - get_rule_expr_paren((Node *) linitial(expr->args), context, - false, (Node *) expr); - return; - } - - /* - * If the function call came from a cast, then show the first argument - * plus an explicit cast operation. - */ - if (expr->funcformat == COERCE_EXPLICIT_CAST || - expr->funcformat == COERCE_IMPLICIT_CAST) - { - Node *arg = linitial(expr->args); - Oid rettype = expr->funcresulttype; - int32 coercedTypmod; - - /* Get the typmod if this is a length-coercion function */ - (void) exprIsLengthCoercion((Node *) expr, &coercedTypmod); - - get_coercion_expr(arg, context, - rettype, coercedTypmod, - (Node *) expr); - - return; - } - - /* - * If the function was called using one of the SQL spec's random special - * syntaxes, try to reproduce that. If we don't recognize the function, - * fall through. - */ - if (expr->funcformat == COERCE_SQL_SYNTAX) - { - if (get_func_sql_syntax(expr, context)) - return; - } - - - /* - * Normal function: display as proname(args). First we need to extract - * the argument datatypes. - */ - if (list_length(expr->args) > FUNC_MAX_ARGS) - ereport(ERROR, - (errcode(ERRCODE_TOO_MANY_ARGUMENTS), - errmsg("too many arguments"))); - nargs = 0; - argnames = NIL; - foreach(l, expr->args) - { - Node *arg = (Node *) lfirst(l); - - if (IsA(arg, NamedArgExpr)) - argnames = lappend(argnames, ((NamedArgExpr *) arg)->name); - argtypes[nargs] = exprType(arg); - nargs++; - } - - appendStringInfo(buf, "%s(", - generate_function_name(funcoid, nargs, - argnames, argtypes, - expr->funcvariadic, - &use_variadic, - context->special_exprkind)); - nargs = 0; - foreach(l, expr->args) - { - if (nargs++ > 0) - appendStringInfoString(buf, ", "); - if (use_variadic && lnext(expr->args, l) == NULL) - appendStringInfoString(buf, "VARIADIC "); - get_rule_expr((Node *) lfirst(l), context, true); - } - - appendStringInfoChar(buf, ')'); -} - - -/* - * get_proc_expr - Parse back a CallStmt node - */ -static void -get_proc_expr(CallStmt *stmt, deparse_context *context, - bool showimplicit) -{ - StringInfo buf = context->buf; - Oid functionOid = stmt->funcexpr->funcid; - bool use_variadic; - Oid *argumentTypes; - List *finalArgumentList = NIL; - ListCell *argumentCell; - List *namedArgList = NIL; - int numberOfArgs = -1; - - if (!get_merged_argument_list(stmt, &namedArgList, &argumentTypes, - &finalArgumentList, &numberOfArgs)) - { - /* Nothing merged i.e. no OUT arguments */ - get_func_expr((FuncExpr *) stmt->funcexpr, context, showimplicit); - return; - } - - appendStringInfo(buf, "%s(", - generate_function_name(functionOid, numberOfArgs, - namedArgList, argumentTypes, - stmt->funcexpr->funcvariadic, - &use_variadic, - context->special_exprkind)); - int argNumber = 0; - foreach(argumentCell, finalArgumentList) - { - if (argNumber++ > 0) - appendStringInfoString(buf, ", "); - if (use_variadic && lnext(finalArgumentList, argumentCell) == NULL) - appendStringInfoString(buf, "VARIADIC "); - get_rule_expr((Node *) lfirst(argumentCell), context, true); - argNumber++; - } - - appendStringInfoChar(buf, ')'); -} - -/* - * get_agg_expr - Parse back an Aggref node - */ -static void -get_agg_expr(Aggref *aggref, deparse_context *context, - Aggref *original_aggref) -{ - StringInfo buf = context->buf; - Oid argtypes[FUNC_MAX_ARGS]; - int nargs; - bool use_variadic; - - /* - * For a combining aggregate, we look up and deparse the corresponding - * partial aggregate instead. This is necessary because our input - * argument list has been replaced; the new argument list always has just - * one element, which will point to a partial Aggref that supplies us with - * transition states to combine. - */ - if (DO_AGGSPLIT_COMBINE(aggref->aggsplit)) - { - TargetEntry *tle; - - - Assert(list_length(aggref->args) == 1); - tle = linitial_node(TargetEntry, aggref->args); - resolve_special_varno((Node *) tle->expr, context, - get_agg_combine_expr, original_aggref); - return; - } - - /* - * Mark as PARTIAL, if appropriate. We look to the original aggref so as - * to avoid printing this when recursing from the code just above. - */ - if (DO_AGGSPLIT_SKIPFINAL(original_aggref->aggsplit)) - appendStringInfoString(buf, "PARTIAL "); - - /* Extract the argument types as seen by the parser */ - nargs = get_aggregate_argtypes(aggref, argtypes); - - /* Print the aggregate name, schema-qualified if needed */ - appendStringInfo(buf, "%s(%s", - generate_function_name(aggref->aggfnoid, nargs, - NIL, argtypes, - aggref->aggvariadic, - &use_variadic, - context->special_exprkind), - (aggref->aggdistinct != NIL) ? "DISTINCT " : ""); - - if (AGGKIND_IS_ORDERED_SET(aggref->aggkind)) - { - /* - * Ordered-set aggregates do not use "*" syntax. Also, we needn't - * worry about inserting VARIADIC. So we can just dump the direct - * args as-is. - */ - Assert(!aggref->aggvariadic); - get_rule_expr((Node *) aggref->aggdirectargs, context, true); - Assert(aggref->aggorder != NIL); - appendStringInfoString(buf, ") WITHIN GROUP (ORDER BY "); - get_rule_orderby(aggref->aggorder, aggref->args, false, context); - } - else - { - /* aggstar can be set only in zero-argument aggregates */ - if (aggref->aggstar) - appendStringInfoChar(buf, '*'); - else - { - ListCell *l; - int i; - - i = 0; - foreach(l, aggref->args) - { - TargetEntry *tle = (TargetEntry *) lfirst(l); - Node *arg = (Node *) tle->expr; - - Assert(!IsA(arg, NamedArgExpr)); - if (tle->resjunk) - continue; - if (i++ > 0) - appendStringInfoString(buf, ", "); - if (use_variadic && i == nargs) - appendStringInfoString(buf, "VARIADIC "); - get_rule_expr(arg, context, true); - } - } - - if (aggref->aggorder != NIL) - { - appendStringInfoString(buf, " ORDER BY "); - get_rule_orderby(aggref->aggorder, aggref->args, false, context); - } - } - - if (aggref->aggfilter != NULL) - { - appendStringInfoString(buf, ") FILTER (WHERE "); - get_rule_expr((Node *) aggref->aggfilter, context, false); - } - - appendStringInfoChar(buf, ')'); -} - -/* - * This is a helper function for get_agg_expr(). It's used when we deparse - * a combining Aggref; resolve_special_varno locates the corresponding partial - * Aggref and then calls this. - */ -static void -get_agg_combine_expr(Node *node, deparse_context *context, void *callback_arg) -{ - Aggref *aggref; - Aggref *original_aggref = callback_arg; - - if (!IsA(node, Aggref)) - elog(ERROR, "combining Aggref does not point to an Aggref"); - - aggref = (Aggref *) node; - get_agg_expr(aggref, context, original_aggref); -} - -/* - * get_windowfunc_expr - Parse back a WindowFunc node - */ -static void -get_windowfunc_expr(WindowFunc *wfunc, deparse_context *context) -{ - StringInfo buf = context->buf; - Oid argtypes[FUNC_MAX_ARGS]; - int nargs; - List *argnames; - ListCell *l; - - if (list_length(wfunc->args) > FUNC_MAX_ARGS) - ereport(ERROR, - (errcode(ERRCODE_TOO_MANY_ARGUMENTS), - errmsg("too many arguments"))); - nargs = 0; - argnames = NIL; - foreach(l, wfunc->args) - { - Node *arg = (Node *) lfirst(l); - - if (IsA(arg, NamedArgExpr)) - argnames = lappend(argnames, ((NamedArgExpr *) arg)->name); - argtypes[nargs] = exprType(arg); - nargs++; - } - - appendStringInfo(buf, "%s(", - generate_function_name(wfunc->winfnoid, nargs, - argnames, argtypes, - false, NULL, - context->special_exprkind)); - /* winstar can be set only in zero-argument aggregates */ - if (wfunc->winstar) - appendStringInfoChar(buf, '*'); - else - get_rule_expr((Node *) wfunc->args, context, true); - - if (wfunc->aggfilter != NULL) - { - appendStringInfoString(buf, ") FILTER (WHERE "); - get_rule_expr((Node *) wfunc->aggfilter, context, false); - } - - appendStringInfoString(buf, ") OVER "); - - foreach(l, context->windowClause) - { - WindowClause *wc = (WindowClause *) lfirst(l); - - if (wc->winref == wfunc->winref) - { - if (wc->name) - appendStringInfoString(buf, quote_identifier(wc->name)); - else - get_rule_windowspec(wc, context->windowTList, context); - break; - } - } - if (l == NULL) - { - if (context->windowClause) - elog(ERROR, "could not find window clause for winref %u", - wfunc->winref); - - /* - * In EXPLAIN, we don't have window context information available, so - * we have to settle for this: - */ - appendStringInfoString(buf, "(?)"); - } -} - - -/* - * get_func_sql_syntax - Parse back a SQL-syntax function call - * - * Returns true if we successfully deparsed, false if we did not - * recognize the function. - */ -static bool -get_func_sql_syntax(FuncExpr *expr, deparse_context *context) -{ - StringInfo buf = context->buf; - Oid funcoid = expr->funcid; - - switch (funcoid) - { - case F_TIMEZONE_INTERVAL_TIMESTAMP: - case F_TIMEZONE_INTERVAL_TIMESTAMPTZ: - case F_TIMEZONE_INTERVAL_TIMETZ: - case F_TIMEZONE_TEXT_TIMESTAMP: - case F_TIMEZONE_TEXT_TIMESTAMPTZ: - case F_TIMEZONE_TEXT_TIMETZ: - /* AT TIME ZONE ... note reversed argument order */ - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoString(buf, " AT TIME ZONE "); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - case F_OVERLAPS_TIMESTAMPTZ_INTERVAL_TIMESTAMPTZ_INTERVAL: - case F_OVERLAPS_TIMESTAMPTZ_INTERVAL_TIMESTAMPTZ_TIMESTAMPTZ: - case F_OVERLAPS_TIMESTAMPTZ_TIMESTAMPTZ_TIMESTAMPTZ_INTERVAL: - case F_OVERLAPS_TIMESTAMPTZ_TIMESTAMPTZ_TIMESTAMPTZ_TIMESTAMPTZ: - case F_OVERLAPS_TIMESTAMP_INTERVAL_TIMESTAMP_INTERVAL: - case F_OVERLAPS_TIMESTAMP_INTERVAL_TIMESTAMP_TIMESTAMP: - case F_OVERLAPS_TIMESTAMP_TIMESTAMP_TIMESTAMP_INTERVAL: - case F_OVERLAPS_TIMESTAMP_TIMESTAMP_TIMESTAMP_TIMESTAMP: - case F_OVERLAPS_TIMETZ_TIMETZ_TIMETZ_TIMETZ: - case F_OVERLAPS_TIME_INTERVAL_TIME_INTERVAL: - case F_OVERLAPS_TIME_INTERVAL_TIME_TIME: - case F_OVERLAPS_TIME_TIME_TIME_INTERVAL: - case F_OVERLAPS_TIME_TIME_TIME_TIME: - /* (x1, x2) OVERLAPS (y1, y2) */ - appendStringInfoString(buf, "(("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, ", "); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoString(buf, ") OVERLAPS ("); - get_rule_expr((Node *) lthird(expr->args), context, false); - appendStringInfoString(buf, ", "); - get_rule_expr((Node *) lfourth(expr->args), context, false); - appendStringInfoString(buf, "))"); - return true; - - case F_EXTRACT_TEXT_DATE: - case F_EXTRACT_TEXT_TIME: - case F_EXTRACT_TEXT_TIMETZ: - case F_EXTRACT_TEXT_TIMESTAMP: - case F_EXTRACT_TEXT_TIMESTAMPTZ: - case F_EXTRACT_TEXT_INTERVAL: - /* EXTRACT (x FROM y) */ - appendStringInfoString(buf, "EXTRACT("); - { - Const *con = (Const *) linitial(expr->args); - - Assert(IsA(con, Const) && - con->consttype == TEXTOID && - !con->constisnull); - appendStringInfoString(buf, TextDatumGetCString(con->constvalue)); - } - appendStringInfoString(buf, " FROM "); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - case F_IS_NORMALIZED: - /* IS xxx NORMALIZED */ - appendStringInfoString(buf, "(("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, ") IS"); - if (list_length(expr->args) == 2) - { - Const *con = (Const *) lsecond(expr->args); - - Assert(IsA(con, Const) && - con->consttype == TEXTOID && - !con->constisnull); - appendStringInfo(buf, " %s", - TextDatumGetCString(con->constvalue)); - } - appendStringInfoString(buf, " NORMALIZED)"); - return true; - - case F_PG_COLLATION_FOR: - /* COLLATION FOR */ - appendStringInfoString(buf, "COLLATION FOR ("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - /* - * XXX EXTRACT, a/k/a date_part(), is intentionally not covered - * yet. Add it after we change the return type to numeric. - */ - - case F_NORMALIZE: - /* NORMALIZE() */ - appendStringInfoString(buf, "NORMALIZE("); - get_rule_expr((Node *) linitial(expr->args), context, false); - if (list_length(expr->args) == 2) - { - Const *con = (Const *) lsecond(expr->args); - - Assert(IsA(con, Const) && - con->consttype == TEXTOID && - !con->constisnull); - appendStringInfo(buf, ", %s", - TextDatumGetCString(con->constvalue)); - } - appendStringInfoChar(buf, ')'); - return true; - - case F_OVERLAY_BIT_BIT_INT4: - case F_OVERLAY_BIT_BIT_INT4_INT4: - case F_OVERLAY_BYTEA_BYTEA_INT4: - case F_OVERLAY_BYTEA_BYTEA_INT4_INT4: - case F_OVERLAY_TEXT_TEXT_INT4: - case F_OVERLAY_TEXT_TEXT_INT4_INT4: - /* OVERLAY() */ - appendStringInfoString(buf, "OVERLAY("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, " PLACING "); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoString(buf, " FROM "); - get_rule_expr((Node *) lthird(expr->args), context, false); - if (list_length(expr->args) == 4) - { - appendStringInfoString(buf, " FOR "); - get_rule_expr((Node *) lfourth(expr->args), context, false); - } - appendStringInfoChar(buf, ')'); - return true; - - case F_POSITION_BIT_BIT: - case F_POSITION_BYTEA_BYTEA: - case F_POSITION_TEXT_TEXT: - /* POSITION() ... extra parens since args are b_expr not a_expr */ - appendStringInfoString(buf, "POSITION(("); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoString(buf, ") IN ("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, "))"); - return true; - - case F_SUBSTRING_BIT_INT4: - case F_SUBSTRING_BIT_INT4_INT4: - case F_SUBSTRING_BYTEA_INT4: - case F_SUBSTRING_BYTEA_INT4_INT4: - case F_SUBSTRING_TEXT_INT4: - case F_SUBSTRING_TEXT_INT4_INT4: - /* SUBSTRING FROM/FOR (i.e., integer-position variants) */ - appendStringInfoString(buf, "SUBSTRING("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, " FROM "); - get_rule_expr((Node *) lsecond(expr->args), context, false); - if (list_length(expr->args) == 3) - { - appendStringInfoString(buf, " FOR "); - get_rule_expr((Node *) lthird(expr->args), context, false); - } - appendStringInfoChar(buf, ')'); - return true; - - case F_SUBSTRING_TEXT_TEXT_TEXT: - /* SUBSTRING SIMILAR/ESCAPE */ - appendStringInfoString(buf, "SUBSTRING("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, " SIMILAR "); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoString(buf, " ESCAPE "); - get_rule_expr((Node *) lthird(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - case F_BTRIM_BYTEA_BYTEA: - case F_BTRIM_TEXT: - case F_BTRIM_TEXT_TEXT: - /* TRIM() */ - appendStringInfoString(buf, "TRIM(BOTH"); - if (list_length(expr->args) == 2) - { - appendStringInfoChar(buf, ' '); - get_rule_expr((Node *) lsecond(expr->args), context, false); - } - appendStringInfoString(buf, " FROM "); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - case F_LTRIM_BYTEA_BYTEA: - case F_LTRIM_TEXT: - case F_LTRIM_TEXT_TEXT: - /* TRIM() */ - appendStringInfoString(buf, "TRIM(LEADING"); - if (list_length(expr->args) == 2) - { - appendStringInfoChar(buf, ' '); - get_rule_expr((Node *) lsecond(expr->args), context, false); - } - appendStringInfoString(buf, " FROM "); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - case F_RTRIM_BYTEA_BYTEA: - case F_RTRIM_TEXT: - case F_RTRIM_TEXT_TEXT: - /* TRIM() */ - appendStringInfoString(buf, "TRIM(TRAILING"); - if (list_length(expr->args) == 2) - { - appendStringInfoChar(buf, ' '); - get_rule_expr((Node *) lsecond(expr->args), context, false); - } - appendStringInfoString(buf, " FROM "); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoChar(buf, ')'); - return true; - - case F_XMLEXISTS: - /* XMLEXISTS ... extra parens because args are c_expr */ - appendStringInfoString(buf, "XMLEXISTS(("); - get_rule_expr((Node *) linitial(expr->args), context, false); - appendStringInfoString(buf, ") PASSING ("); - get_rule_expr((Node *) lsecond(expr->args), context, false); - appendStringInfoString(buf, "))"); - return true; - } - return false; -} - - -/* ---------- - * get_coercion_expr - * - * Make a string representation of a value coerced to a specific type - * ---------- - */ -static void -get_coercion_expr(Node *arg, deparse_context *context, - Oid resulttype, int32 resulttypmod, - Node *parentNode) -{ - StringInfo buf = context->buf; - - /* - * Since parse_coerce.c doesn't immediately collapse application of - * length-coercion functions to constants, what we'll typically see in - * such cases is a Const with typmod -1 and a length-coercion function - * right above it. Avoid generating redundant output. However, beware of - * suppressing casts when the user actually wrote something like - * 'foo'::text::char(3). - * - * Note: it might seem that we are missing the possibility of needing to - * print a COLLATE clause for such a Const. However, a Const could only - * have nondefault collation in a post-constant-folding tree, in which the - * length coercion would have been folded too. See also the special - * handling of CollateExpr in coerce_to_target_type(): any collation - * marking will be above the coercion node, not below it. - */ - if (arg && IsA(arg, Const) && - ((Const *) arg)->consttype == resulttype && - ((Const *) arg)->consttypmod == -1) - { - /* Show the constant without normal ::typename decoration */ - get_const_expr((Const *) arg, context, -1); - } - else - { - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr_paren(arg, context, false, parentNode); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - appendStringInfo(buf, "::%s", - format_type_with_typemod(resulttype, resulttypmod)); -} - -/* ---------- - * get_const_expr - * - * Make a string representation of a Const - * - * showtype can be -1 to never show "::typename" decoration, or +1 to always - * show it, or 0 to show it only if the constant wouldn't be assumed to be - * the right type by default. - * - * If the Const's collation isn't default for its type, show that too. - * We mustn't do this when showtype is -1 (since that means the caller will - * print "::typename", and we can't put a COLLATE clause in between). It's - * caller's responsibility that collation isn't missed in such cases. - * ---------- - */ -static void -get_const_expr(Const *constval, deparse_context *context, int showtype) -{ - StringInfo buf = context->buf; - Oid typoutput; - bool typIsVarlena; - char *extval; - bool needlabel = false; - - if (constval->constisnull) - { - /* - * Always label the type of a NULL constant to prevent misdecisions - * about type when reparsing. - */ - appendStringInfoString(buf, "NULL"); - if (showtype >= 0) - { - appendStringInfo(buf, "::%s", - format_type_with_typemod(constval->consttype, - constval->consttypmod)); - get_const_collation(constval, context); - } - return; - } - - getTypeOutputInfo(constval->consttype, - &typoutput, &typIsVarlena); - - extval = OidOutputFunctionCall(typoutput, constval->constvalue); - - switch (constval->consttype) - { - case INT4OID: - - /* - * INT4 can be printed without any decoration, unless it is - * negative; in that case print it as '-nnn'::integer to ensure - * that the output will re-parse as a constant, not as a constant - * plus operator. In most cases we could get away with printing - * (-nnn) instead, because of the way that gram.y handles negative - * literals; but that doesn't work for INT_MIN, and it doesn't - * seem that much prettier anyway. - */ - if (extval[0] != '-') - appendStringInfoString(buf, extval); - else - { - appendStringInfo(buf, "'%s'", extval); - needlabel = true; /* we must attach a cast */ - } - break; - - case NUMERICOID: - - /* - * NUMERIC can be printed without quotes if it looks like a float - * constant (not an integer, and not Infinity or NaN) and doesn't - * have a leading sign (for the same reason as for INT4). - */ - if (isdigit((unsigned char) extval[0]) && - strcspn(extval, "eE.") != strlen(extval)) - { - appendStringInfoString(buf, extval); - } - else - { - appendStringInfo(buf, "'%s'", extval); - needlabel = true; /* we must attach a cast */ - } - break; - - case BITOID: - case VARBITOID: - appendStringInfo(buf, "B'%s'", extval); - break; - - case BOOLOID: - if (strcmp(extval, "t") == 0) - appendStringInfoString(buf, "true"); - else - appendStringInfoString(buf, "false"); - break; - - default: - simple_quote_literal(buf, extval); - break; - } - - pfree(extval); - - if (showtype < 0) - return; - - /* - * For showtype == 0, append ::typename unless the constant will be - * implicitly typed as the right type when it is read in. - * - * XXX this code has to be kept in sync with the behavior of the parser, - * especially make_const. - */ - switch (constval->consttype) - { - case BOOLOID: - case UNKNOWNOID: - /* These types can be left unlabeled */ - needlabel = false; - break; - case INT4OID: - /* We determined above whether a label is needed */ - break; - case NUMERICOID: - - /* - * Float-looking constants will be typed as numeric, which we - * checked above; but if there's a nondefault typmod we need to - * show it. - */ - needlabel |= (constval->consttypmod >= 0); - break; - default: - needlabel = true; - break; - } - if (needlabel || showtype > 0) - appendStringInfo(buf, "::%s", - format_type_with_typemod(constval->consttype, - constval->consttypmod)); - - get_const_collation(constval, context); -} - -/* - * helper for get_const_expr: append COLLATE if needed - */ -static void -get_const_collation(Const *constval, deparse_context *context) -{ - StringInfo buf = context->buf; - - if (OidIsValid(constval->constcollid)) - { - Oid typcollation = get_typcollation(constval->consttype); - - if (constval->constcollid != typcollation) - { - appendStringInfo(buf, " COLLATE %s", - generate_collation_name(constval->constcollid)); - } - } -} - -/* - * simple_quote_literal - Format a string as a SQL literal, append to buf - */ -static void -simple_quote_literal(StringInfo buf, const char *val) -{ - const char *valptr; - - /* - * We form the string literal according to the prevailing setting of - * standard_conforming_strings; we never use E''. User is responsible for - * making sure result is used correctly. - */ - appendStringInfoChar(buf, '\''); - for (valptr = val; *valptr; valptr++) - { - char ch = *valptr; - - if (SQL_STR_DOUBLE(ch, !standard_conforming_strings)) - appendStringInfoChar(buf, ch); - appendStringInfoChar(buf, ch); - } - appendStringInfoChar(buf, '\''); -} - - -/* ---------- - * get_sublink_expr - Parse back a sublink - * ---------- - */ -static void -get_sublink_expr(SubLink *sublink, deparse_context *context) -{ - StringInfo buf = context->buf; - Query *query = (Query *) (sublink->subselect); - char *opname = NULL; - bool need_paren; - - if (sublink->subLinkType == ARRAY_SUBLINK) - appendStringInfoString(buf, "ARRAY("); - else - appendStringInfoChar(buf, '('); - - /* - * Note that we print the name of only the first operator, when there are - * multiple combining operators. This is an approximation that could go - * wrong in various scenarios (operators in different schemas, renamed - * operators, etc) but there is not a whole lot we can do about it, since - * the syntax allows only one operator to be shown. - */ - if (sublink->testexpr) - { - if (IsA(sublink->testexpr, OpExpr)) - { - /* single combining operator */ - OpExpr *opexpr = (OpExpr *) sublink->testexpr; - - get_rule_expr(linitial(opexpr->args), context, true); - opname = generate_operator_name(opexpr->opno, - exprType(linitial(opexpr->args)), - exprType(lsecond(opexpr->args))); - } - else if (IsA(sublink->testexpr, BoolExpr)) - { - /* multiple combining operators, = or <> cases */ - char *sep; - ListCell *l; - - appendStringInfoChar(buf, '('); - sep = ""; - foreach(l, ((BoolExpr *) sublink->testexpr)->args) - { - OpExpr *opexpr = lfirst_node(OpExpr, l); - - appendStringInfoString(buf, sep); - get_rule_expr(linitial(opexpr->args), context, true); - if (!opname) - opname = generate_operator_name(opexpr->opno, - exprType(linitial(opexpr->args)), - exprType(lsecond(opexpr->args))); - sep = ", "; - } - appendStringInfoChar(buf, ')'); - } - else if (IsA(sublink->testexpr, RowCompareExpr)) - { - /* multiple combining operators, < <= > >= cases */ - RowCompareExpr *rcexpr = (RowCompareExpr *) sublink->testexpr; - - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) rcexpr->largs, context, true); - opname = generate_operator_name(linitial_oid(rcexpr->opnos), - exprType(linitial(rcexpr->largs)), - exprType(linitial(rcexpr->rargs))); - appendStringInfoChar(buf, ')'); - } - else - elog(ERROR, "unrecognized testexpr type: %d", - (int) nodeTag(sublink->testexpr)); - } - - need_paren = true; - - switch (sublink->subLinkType) - { - case EXISTS_SUBLINK: - appendStringInfoString(buf, "EXISTS "); - break; - - case ANY_SUBLINK: - if (strcmp(opname, "=") == 0) /* Represent = ANY as IN */ - appendStringInfoString(buf, " IN "); - else - appendStringInfo(buf, " %s ANY ", opname); - break; - - case ALL_SUBLINK: - appendStringInfo(buf, " %s ALL ", opname); - break; - - case ROWCOMPARE_SUBLINK: - appendStringInfo(buf, " %s ", opname); - break; - - case EXPR_SUBLINK: - case MULTIEXPR_SUBLINK: - case ARRAY_SUBLINK: - need_paren = false; - break; - - case CTE_SUBLINK: /* shouldn't occur in a SubLink */ - default: - elog(ERROR, "unrecognized sublink type: %d", - (int) sublink->subLinkType); - break; - } - - if (need_paren) - appendStringInfoChar(buf, '('); - - get_query_def(query, buf, context->namespaces, NULL, - context->prettyFlags, context->wrapColumn, - context->indentLevel); - - if (need_paren) - appendStringInfoString(buf, "))"); - else - appendStringInfoChar(buf, ')'); -} - - -/* ---------- - * get_tablefunc - Parse back a table function - * ---------- - */ -static void -get_tablefunc(TableFunc *tf, deparse_context *context, bool showimplicit) -{ - StringInfo buf = context->buf; - - /* XMLTABLE is the only existing implementation. */ - - appendStringInfoString(buf, "XMLTABLE("); - - if (tf->ns_uris != NIL) - { - ListCell *lc1, - *lc2; - bool first = true; - - appendStringInfoString(buf, "XMLNAMESPACES ("); - forboth(lc1, tf->ns_uris, lc2, tf->ns_names) - { - Node *expr = (Node *) lfirst(lc1); - char *name = strVal(lfirst(lc2)); - - if (!first) - appendStringInfoString(buf, ", "); - else - first = false; - - if (name != NULL) - { - get_rule_expr(expr, context, showimplicit); - appendStringInfo(buf, " AS %s", name); - } - else - { - appendStringInfoString(buf, "DEFAULT "); - get_rule_expr(expr, context, showimplicit); - } - } - appendStringInfoString(buf, "), "); - } - - appendStringInfoChar(buf, '('); - get_rule_expr((Node *) tf->rowexpr, context, showimplicit); - appendStringInfoString(buf, ") PASSING ("); - get_rule_expr((Node *) tf->docexpr, context, showimplicit); - appendStringInfoChar(buf, ')'); - - if (tf->colexprs != NIL) - { - ListCell *l1; - ListCell *l2; - ListCell *l3; - ListCell *l4; - ListCell *l5; - int colnum = 0; - - appendStringInfoString(buf, " COLUMNS "); - forfive(l1, tf->colnames, l2, tf->coltypes, l3, tf->coltypmods, - l4, tf->colexprs, l5, tf->coldefexprs) - { - char *colname = strVal(lfirst(l1)); - Oid typid = lfirst_oid(l2); - int32 typmod = lfirst_int(l3); - Node *colexpr = (Node *) lfirst(l4); - Node *coldefexpr = (Node *) lfirst(l5); - bool ordinality = (tf->ordinalitycol == colnum); - bool notnull = bms_is_member(colnum, tf->notnulls); - - if (colnum > 0) - appendStringInfoString(buf, ", "); - colnum++; - - appendStringInfo(buf, "%s %s", quote_identifier(colname), - ordinality ? "FOR ORDINALITY" : - format_type_with_typemod(typid, typmod)); - if (ordinality) - continue; - - if (coldefexpr != NULL) - { - appendStringInfoString(buf, " DEFAULT ("); - get_rule_expr((Node *) coldefexpr, context, showimplicit); - appendStringInfoChar(buf, ')'); - } - if (colexpr != NULL) - { - appendStringInfoString(buf, " PATH ("); - get_rule_expr((Node *) colexpr, context, showimplicit); - appendStringInfoChar(buf, ')'); - } - if (notnull) - appendStringInfoString(buf, " NOT NULL"); - } - } - - appendStringInfoChar(buf, ')'); -} - -/* ---------- - * get_from_clause - Parse back a FROM clause - * - * "prefix" is the keyword that denotes the start of the list of FROM - * elements. It is FROM when used to parse back SELECT and UPDATE, but - * is USING when parsing back DELETE. - * ---------- - */ -static void -get_from_clause(Query *query, const char *prefix, deparse_context *context) -{ - StringInfo buf = context->buf; - bool first = true; - ListCell *l; - - /* - * We use the query's jointree as a guide to what to print. However, we - * must ignore auto-added RTEs that are marked not inFromCl. (These can - * only appear at the top level of the jointree, so it's sufficient to - * check here.) This check also ensures we ignore the rule pseudo-RTEs - * for NEW and OLD. - */ - foreach(l, query->jointree->fromlist) - { - Node *jtnode = (Node *) lfirst(l); - - if (IsA(jtnode, RangeTblRef)) - { - int varno = ((RangeTblRef *) jtnode)->rtindex; - RangeTblEntry *rte = rt_fetch(varno, query->rtable); - - if (!rte->inFromCl) - continue; - } - - if (first) - { - appendContextKeyword(context, prefix, - -PRETTYINDENT_STD, PRETTYINDENT_STD, 2); - first = false; - - get_from_clause_item(jtnode, query, context); - } - else - { - StringInfoData itembuf; - - appendStringInfoString(buf, ", "); - - /* - * Put the new FROM item's text into itembuf so we can decide - * after we've got it whether or not it needs to go on a new line. - */ - initStringInfo(&itembuf); - context->buf = &itembuf; - - get_from_clause_item(jtnode, query, context); - - /* Restore context's output buffer */ - context->buf = buf; - - /* Consider line-wrapping if enabled */ - if (PRETTY_INDENT(context) && context->wrapColumn >= 0) - { - /* Does the new item start with a new line? */ - if (itembuf.len > 0 && itembuf.data[0] == '\n') - { - /* If so, we shouldn't add anything */ - /* instead, remove any trailing spaces currently in buf */ - removeStringInfoSpaces(buf); - } - else - { - char *trailing_nl; - - /* Locate the start of the current line in the buffer */ - trailing_nl = strrchr(buf->data, '\n'); - if (trailing_nl == NULL) - trailing_nl = buf->data; - else - trailing_nl++; - - /* - * Add a newline, plus some indentation, if the new item - * would cause an overflow. - */ - if (strlen(trailing_nl) + itembuf.len > context->wrapColumn) - appendContextKeyword(context, "", -PRETTYINDENT_STD, - PRETTYINDENT_STD, - PRETTYINDENT_VAR); - } - } - - /* Add the new item */ - appendStringInfoString(buf, itembuf.data); - - /* clean up */ - pfree(itembuf.data); - } - } -} - -static void -get_from_clause_item(Node *jtnode, Query *query, deparse_context *context) -{ - StringInfo buf = context->buf; - deparse_namespace *dpns = (deparse_namespace *) linitial(context->namespaces); - - if (IsA(jtnode, RangeTblRef)) - { - int varno = ((RangeTblRef *) jtnode)->rtindex; - RangeTblEntry *rte = rt_fetch(varno, query->rtable); - char *refname = get_rtable_name(varno, context); - deparse_columns *colinfo = deparse_columns_fetch(varno, dpns); - RangeTblFunction *rtfunc1 = NULL; - bool printalias; - CitusRTEKind rteKind = GetRangeTblKind(rte); - - if (rte->lateral) - appendStringInfoString(buf, "LATERAL "); - - /* Print the FROM item proper */ - switch (rte->rtekind) - { - case RTE_RELATION: - /* Normal relation RTE */ - appendStringInfo(buf, "%s%s", - only_marker(rte), - generate_relation_or_shard_name(rte->relid, - context->distrelid, - context->shardid, - context->namespaces)); - break; - case RTE_SUBQUERY: - /* Subquery RTE */ - appendStringInfoChar(buf, '('); - get_query_def(rte->subquery, buf, context->namespaces, NULL, - context->prettyFlags, context->wrapColumn, - context->indentLevel); - appendStringInfoChar(buf, ')'); - break; - case RTE_FUNCTION: - /* if it's a shard, do differently */ - if (GetRangeTblKind(rte) == CITUS_RTE_SHARD) - { - char *fragmentSchemaName = NULL; - char *fragmentTableName = NULL; - - ExtractRangeTblExtraData(rte, NULL, &fragmentSchemaName, &fragmentTableName, NULL); - - /* use schema and table name from the remote alias */ - appendStringInfo(buf, "%s%s", - only_marker(rte), - generate_fragment_name(fragmentSchemaName, - fragmentTableName)); - break; - } - - /* Function RTE */ - rtfunc1 = (RangeTblFunction *) linitial(rte->functions); - - /* - * Omit ROWS FROM() syntax for just one function, unless it - * has both a coldeflist and WITH ORDINALITY. If it has both, - * we must use ROWS FROM() syntax to avoid ambiguity about - * whether the coldeflist includes the ordinality column. - */ - if (list_length(rte->functions) == 1 && - (rtfunc1->funccolnames == NIL || !rte->funcordinality)) - { - get_rule_expr_funccall(rtfunc1->funcexpr, context, true); - /* we'll print the coldeflist below, if it has one */ - } - else - { - bool all_unnest; - ListCell *lc; - - /* - * If all the function calls in the list are to unnest, - * and none need a coldeflist, then collapse the list back - * down to UNNEST(args). (If we had more than one - * built-in unnest function, this would get more - * difficult.) - * - * XXX This is pretty ugly, since it makes not-terribly- - * future-proof assumptions about what the parser would do - * with the output; but the alternative is to emit our - * nonstandard ROWS FROM() notation for what might have - * been a perfectly spec-compliant multi-argument - * UNNEST(). - */ - all_unnest = true; - foreach(lc, rte->functions) - { - RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc); - - if (!IsA(rtfunc->funcexpr, FuncExpr) || - ((FuncExpr *) rtfunc->funcexpr)->funcid != F_UNNEST_ANYARRAY || - rtfunc->funccolnames != NIL) - { - all_unnest = false; - break; - } - } - - if (all_unnest) - { - List *allargs = NIL; - - foreach(lc, rte->functions) - { - RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc); - List *args = ((FuncExpr *) rtfunc->funcexpr)->args; - - allargs = list_concat(allargs, args); - } - - appendStringInfoString(buf, "UNNEST("); - get_rule_expr((Node *) allargs, context, true); - appendStringInfoChar(buf, ')'); - } - else - { - int funcno = 0; - - appendStringInfoString(buf, "ROWS FROM("); - foreach(lc, rte->functions) - { - RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc); - - if (funcno > 0) - appendStringInfoString(buf, ", "); - get_rule_expr_funccall(rtfunc->funcexpr, context, true); - if (rtfunc->funccolnames != NIL) - { - /* Reconstruct the column definition list */ - appendStringInfoString(buf, " AS "); - get_from_clause_coldeflist(rtfunc, - NULL, - context); - } - funcno++; - } - appendStringInfoChar(buf, ')'); - } - /* prevent printing duplicate coldeflist below */ - rtfunc1 = NULL; - } - if (rte->funcordinality) - appendStringInfoString(buf, " WITH ORDINALITY"); - break; - case RTE_TABLEFUNC: - get_tablefunc(rte->tablefunc, context, true); - break; - case RTE_VALUES: - /* Values list RTE */ - appendStringInfoChar(buf, '('); - get_values_def(rte->values_lists, context); - appendStringInfoChar(buf, ')'); - break; - case RTE_CTE: - appendStringInfoString(buf, quote_identifier(rte->ctename)); - break; - default: - elog(ERROR, "unrecognized RTE kind: %d", (int) rte->rtekind); - break; - } - - /* Print the relation alias, if needed */ - printalias = false; - if (rte->alias != NULL) - { - /* Always print alias if user provided one */ - printalias = true; - } - else if (colinfo->printaliases) - { - /* Always print alias if we need to print column aliases */ - printalias = true; - } - else if (rte->rtekind == RTE_RELATION) - { - /* - * No need to print alias if it's same as relation name (this - * would normally be the case, but not if set_rtable_names had to - * resolve a conflict). - */ - if (strcmp(refname, get_relation_name(rte->relid)) != 0) - printalias = true; - } - else if (rte->rtekind == RTE_FUNCTION) - { - /* - * For a function RTE, always print alias. This covers possible - * renaming of the function and/or instability of the - * FigureColname rules for things that aren't simple functions. - * Note we'd need to force it anyway for the columndef list case. - */ - printalias = true; - } - else if (rte->rtekind == RTE_VALUES) - { - /* Alias is syntactically required for VALUES */ - printalias = true; - } - else if (rte->rtekind == RTE_CTE) - { - /* - * No need to print alias if it's same as CTE name (this would - * normally be the case, but not if set_rtable_names had to - * resolve a conflict). - */ - if (strcmp(refname, rte->ctename) != 0) - printalias = true; - } - else if (rte->rtekind == RTE_SUBQUERY) - { - /* subquery requires alias too */ - printalias = true; - } - if (printalias) - appendStringInfo(buf, " %s", quote_identifier(refname)); - - /* Print the column definitions or aliases, if needed */ - if (rtfunc1 && rtfunc1->funccolnames != NIL) - { - /* Reconstruct the columndef list, which is also the aliases */ - get_from_clause_coldeflist(rtfunc1, colinfo, context); - } - else if (GetRangeTblKind(rte) != CITUS_RTE_SHARD || - (rte->alias != NULL && rte->alias->colnames != NIL)) - { - /* Else print column aliases as needed */ - get_column_alias_list(colinfo, context); - } - /* check if column's are given aliases in distributed tables */ - else if (colinfo->parentUsing != NIL) - { - Assert(colinfo->printaliases); - get_column_alias_list(colinfo, context); - } - - /* Tablesample clause must go after any alias */ - if ((rteKind == CITUS_RTE_RELATION || rteKind == CITUS_RTE_SHARD) && - rte->tablesample) - { - get_tablesample_def(rte->tablesample, context); - } - } - else if (IsA(jtnode, JoinExpr)) - { - JoinExpr *j = (JoinExpr *) jtnode; - deparse_columns *colinfo = deparse_columns_fetch(j->rtindex, dpns); - bool need_paren_on_right; - - need_paren_on_right = PRETTY_PAREN(context) && - !IsA(j->rarg, RangeTblRef) && - !(IsA(j->rarg, JoinExpr) && ((JoinExpr *) j->rarg)->alias != NULL); - - if (!PRETTY_PAREN(context) || j->alias != NULL) - appendStringInfoChar(buf, '('); - - get_from_clause_item(j->larg, query, context); - - switch (j->jointype) - { - case JOIN_INNER: - if (j->quals) - appendContextKeyword(context, " JOIN ", - -PRETTYINDENT_STD, - PRETTYINDENT_STD, - PRETTYINDENT_JOIN); - else - appendContextKeyword(context, " CROSS JOIN ", - -PRETTYINDENT_STD, - PRETTYINDENT_STD, - PRETTYINDENT_JOIN); - break; - case JOIN_LEFT: - appendContextKeyword(context, " LEFT JOIN ", - -PRETTYINDENT_STD, - PRETTYINDENT_STD, - PRETTYINDENT_JOIN); - break; - case JOIN_FULL: - appendContextKeyword(context, " FULL JOIN ", - -PRETTYINDENT_STD, - PRETTYINDENT_STD, - PRETTYINDENT_JOIN); - break; - case JOIN_RIGHT: - appendContextKeyword(context, " RIGHT JOIN ", - -PRETTYINDENT_STD, - PRETTYINDENT_STD, - PRETTYINDENT_JOIN); - break; - default: - elog(ERROR, "unrecognized join type: %d", - (int) j->jointype); - } - - if (need_paren_on_right) - appendStringInfoChar(buf, '('); - get_from_clause_item(j->rarg, query, context); - if (need_paren_on_right) - appendStringInfoChar(buf, ')'); - - if (j->usingClause) - { - ListCell *lc; - bool first = true; - - appendStringInfoString(buf, " USING ("); - /* Use the assigned names, not what's in usingClause */ - foreach(lc, colinfo->usingNames) - { - char *colname = (char *) lfirst(lc); - - if (first) - first = false; - else - appendStringInfoString(buf, ", "); - appendStringInfoString(buf, quote_identifier(colname)); - } - appendStringInfoChar(buf, ')'); - - if (j->join_using_alias) - appendStringInfo(buf, " AS %s", - quote_identifier(j->join_using_alias->aliasname)); - } - else if (j->quals) - { - appendStringInfoString(buf, " ON "); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, '('); - get_rule_expr(j->quals, context, false); - if (!PRETTY_PAREN(context)) - appendStringInfoChar(buf, ')'); - } - else if (j->jointype != JOIN_INNER) - { - /* If we didn't say CROSS JOIN above, we must provide an ON */ - appendStringInfoString(buf, " ON TRUE"); - } - - if (!PRETTY_PAREN(context) || j->alias != NULL) - appendStringInfoChar(buf, ')'); - - /* Yes, it's correct to put alias after the right paren ... */ - if (j->alias != NULL) - { - /* - * Note that it's correct to emit an alias clause if and only if - * there was one originally. Otherwise we'd be converting a named - * join to unnamed or vice versa, which creates semantic - * subtleties we don't want. However, we might print a different - * alias name than was there originally. - */ - appendStringInfo(buf, " %s", - quote_identifier(get_rtable_name(j->rtindex, - context))); - get_column_alias_list(colinfo, context); - } - } - else - elog(ERROR, "unrecognized node type: %d", - (int) nodeTag(jtnode)); -} - -/* - * get_column_alias_list - print column alias list for an RTE - * - * Caller must already have printed the relation's alias name. - */ -static void -get_column_alias_list(deparse_columns *colinfo, deparse_context *context) -{ - StringInfo buf = context->buf; - int i; - bool first = true; - - /* Don't print aliases if not needed */ - if (!colinfo->printaliases) - return; - - for (i = 0; i < colinfo->num_new_cols; i++) - { - char *colname = colinfo->new_colnames[i]; - - if (first) - { - appendStringInfoChar(buf, '('); - first = false; - } - else - appendStringInfoString(buf, ", "); - appendStringInfoString(buf, quote_identifier(colname)); - } - if (!first) - appendStringInfoChar(buf, ')'); -} - -/* - * get_from_clause_coldeflist - reproduce FROM clause coldeflist - * - * When printing a top-level coldeflist (which is syntactically also the - * relation's column alias list), use column names from colinfo. But when - * printing a coldeflist embedded inside ROWS FROM(), we prefer to use the - * original coldeflist's names, which are available in rtfunc->funccolnames. - * Pass NULL for colinfo to select the latter behavior. - * - * The coldeflist is appended immediately (no space) to buf. Caller is - * responsible for ensuring that an alias or AS is present before it. - */ -static void -get_from_clause_coldeflist(RangeTblFunction *rtfunc, - deparse_columns *colinfo, - deparse_context *context) -{ - StringInfo buf = context->buf; - ListCell *l1; - ListCell *l2; - ListCell *l3; - ListCell *l4; - int i; - - appendStringInfoChar(buf, '('); - - i = 0; - forfour(l1, rtfunc->funccoltypes, - l2, rtfunc->funccoltypmods, - l3, rtfunc->funccolcollations, - l4, rtfunc->funccolnames) - { - Oid atttypid = lfirst_oid(l1); - int32 atttypmod = lfirst_int(l2); - Oid attcollation = lfirst_oid(l3); - char *attname; - - if (colinfo) - attname = colinfo->colnames[i]; - else - attname = strVal(lfirst(l4)); - - Assert(attname); /* shouldn't be any dropped columns here */ - - if (i > 0) - appendStringInfoString(buf, ", "); - appendStringInfo(buf, "%s %s", - quote_identifier(attname), - format_type_with_typemod(atttypid, atttypmod)); - if (OidIsValid(attcollation) && - attcollation != get_typcollation(atttypid)) - appendStringInfo(buf, " COLLATE %s", - generate_collation_name(attcollation)); - - i++; - } - - appendStringInfoChar(buf, ')'); -} - -/* - * get_tablesample_def - print a TableSampleClause - */ -static void -get_tablesample_def(TableSampleClause *tablesample, deparse_context *context) -{ - StringInfo buf = context->buf; - Oid argtypes[1]; - int nargs; - ListCell *l; - - /* - * We should qualify the handler's function name if it wouldn't be - * resolved by lookup in the current search path. - */ - argtypes[0] = INTERNALOID; - appendStringInfo(buf, " TABLESAMPLE %s (", - generate_function_name(tablesample->tsmhandler, 1, - NIL, argtypes, - false, NULL, EXPR_KIND_NONE)); - - nargs = 0; - foreach(l, tablesample->args) - { - if (nargs++ > 0) - appendStringInfoString(buf, ", "); - get_rule_expr((Node *) lfirst(l), context, false); - } - appendStringInfoChar(buf, ')'); - - if (tablesample->repeatable != NULL) - { - appendStringInfoString(buf, " REPEATABLE ("); - get_rule_expr((Node *) tablesample->repeatable, context, false); - appendStringInfoChar(buf, ')'); - } -} - - -/* - * get_opclass_name - fetch name of an index operator class - * - * The opclass name is appended (after a space) to buf. - * - * Output is suppressed if the opclass is the default for the given - * actual_datatype. (If you don't want this behavior, just pass - * InvalidOid for actual_datatype.) - */ -static void -get_opclass_name(Oid opclass, Oid actual_datatype, - StringInfo buf) -{ - HeapTuple ht_opc; - Form_pg_opclass opcrec; - char *opcname; - char *nspname; - - ht_opc = SearchSysCache1(CLAOID, ObjectIdGetDatum(opclass)); - if (!HeapTupleIsValid(ht_opc)) - elog(ERROR, "cache lookup failed for opclass %u", opclass); - opcrec = (Form_pg_opclass) GETSTRUCT(ht_opc); - - if (!OidIsValid(actual_datatype) || - GetDefaultOpClass(actual_datatype, opcrec->opcmethod) != opclass) - { - /* Okay, we need the opclass name. Do we need to qualify it? */ - opcname = NameStr(opcrec->opcname); - if (OpclassIsVisible(opclass)) - appendStringInfo(buf, " %s", quote_identifier(opcname)); - else - { - nspname = get_namespace_name(opcrec->opcnamespace); - appendStringInfo(buf, " %s.%s", - quote_identifier(nspname), - quote_identifier(opcname)); - } - } - ReleaseSysCache(ht_opc); -} - -/* - * processIndirection - take care of array and subfield assignment - * - * We strip any top-level FieldStore or assignment SubscriptingRef nodes that - * appear in the input, printing them as decoration for the base column - * name (which we assume the caller just printed). We might also need to - * strip CoerceToDomain nodes, but only ones that appear above assignment - * nodes. - * - * Returns the subexpression that's to be assigned. - */ -static Node * -processIndirection(Node *node, deparse_context *context) -{ - StringInfo buf = context->buf; - CoerceToDomain *cdomain = NULL; - - for (;;) - { - if (node == NULL) - break; - if (IsA(node, FieldStore)) - { - FieldStore *fstore = (FieldStore *) node; - Oid typrelid; - char *fieldname; - - /* lookup tuple type */ - typrelid = get_typ_typrelid(fstore->resulttype); - if (!OidIsValid(typrelid)) - elog(ERROR, "argument type %s of FieldStore is not a tuple type", - format_type_be(fstore->resulttype)); - - /* - * Print the field name. There should only be one target field in - * stored rules. There could be more than that in executable - * target lists, but this function cannot be used for that case. - */ - Assert(list_length(fstore->fieldnums) == 1); - fieldname = get_attname(typrelid, - linitial_int(fstore->fieldnums), false); - appendStringInfo(buf, ".%s", quote_identifier(fieldname)); - - /* - * We ignore arg since it should be an uninteresting reference to - * the target column or subcolumn. - */ - node = (Node *) linitial(fstore->newvals); - } - else if (IsA(node, SubscriptingRef)) - { - SubscriptingRef *sbsref = (SubscriptingRef *) node; - - if (sbsref->refassgnexpr == NULL) - break; - printSubscripts(sbsref, context); - - /* - * We ignore refexpr since it should be an uninteresting reference - * to the target column or subcolumn. - */ - node = (Node *) sbsref->refassgnexpr; - } - else if (IsA(node, CoerceToDomain)) - { - cdomain = (CoerceToDomain *) node; - /* If it's an explicit domain coercion, we're done */ - if (cdomain->coercionformat != COERCE_IMPLICIT_CAST) - break; - /* Tentatively descend past the CoerceToDomain */ - node = (Node *) cdomain->arg; - } - else - break; - } - - /* - * If we descended past a CoerceToDomain whose argument turned out not to - * be a FieldStore or array assignment, back up to the CoerceToDomain. - * (This is not enough to be fully correct if there are nested implicit - * CoerceToDomains, but such cases shouldn't ever occur.) - */ - if (cdomain && node == (Node *) cdomain->arg) - node = (Node *) cdomain; - - return node; -} - -static void -printSubscripts(SubscriptingRef *sbsref, deparse_context *context) -{ - StringInfo buf = context->buf; - ListCell *lowlist_item; - ListCell *uplist_item; - - lowlist_item = list_head(sbsref->reflowerindexpr); /* could be NULL */ - foreach(uplist_item, sbsref->refupperindexpr) - { - appendStringInfoChar(buf, '['); - if (lowlist_item) - { - /* If subexpression is NULL, get_rule_expr prints nothing */ - get_rule_expr((Node *) lfirst(lowlist_item), context, false); - appendStringInfoChar(buf, ':'); - lowlist_item = lnext(sbsref->reflowerindexpr, lowlist_item); - } - /* If subexpression is NULL, get_rule_expr prints nothing */ - get_rule_expr((Node *) lfirst(uplist_item), context, false); - appendStringInfoChar(buf, ']'); - } -} - -/* - * get_relation_name - * Get the unqualified name of a relation specified by OID - * - * This differs from the underlying get_rel_name() function in that it will - * throw error instead of silently returning NULL if the OID is bad. - */ -static char * -get_relation_name(Oid relid) -{ - char *relname = get_rel_name(relid); - - if (!relname) - elog(ERROR, "cache lookup failed for relation %u", relid); - return relname; -} - -/* - * generate_relation_or_shard_name - * Compute the name to display for a relation or shard - * - * If the provided relid is equal to the provided distrelid, this function - * returns a shard-extended relation name; otherwise, it falls through to a - * simple generate_relation_name call. - */ -static char * -generate_relation_or_shard_name(Oid relid, Oid distrelid, int64 shardid, - List *namespaces) -{ - char *relname = NULL; - - if (relid == distrelid) - { - relname = get_relation_name(relid); - - if (shardid > 0) - { - Oid schemaOid = get_rel_namespace(relid); - char *schemaName = get_namespace_name(schemaOid); - - AppendShardIdToName(&relname, shardid); - - relname = quote_qualified_identifier(schemaName, relname); - } - } - else - { - relname = generate_relation_name(relid, namespaces); - } - - return relname; -} - -/* - * generate_relation_name - * Compute the name to display for a relation specified by OID - * - * The result includes all necessary quoting and schema-prefixing. - * - * If namespaces isn't NIL, it must be a list of deparse_namespace nodes. - * We will forcibly qualify the relation name if it equals any CTE name - * visible in the namespace list. - */ -char * -generate_relation_name(Oid relid, List *namespaces) -{ - HeapTuple tp; - Form_pg_class reltup; - bool need_qual; - ListCell *nslist; - char *relname; - char *nspname; - char *result; - - tp = SearchSysCache1(RELOID, ObjectIdGetDatum(relid)); - if (!HeapTupleIsValid(tp)) - elog(ERROR, "cache lookup failed for relation %u", relid); - reltup = (Form_pg_class) GETSTRUCT(tp); - relname = NameStr(reltup->relname); - - /* Check for conflicting CTE name */ - need_qual = false; - foreach(nslist, namespaces) - { - deparse_namespace *dpns = (deparse_namespace *) lfirst(nslist); - ListCell *ctlist; - - foreach(ctlist, dpns->ctes) - { - CommonTableExpr *cte = (CommonTableExpr *) lfirst(ctlist); - - if (strcmp(cte->ctename, relname) == 0) - { - need_qual = true; - break; - } - } - if (need_qual) - break; - } - - /* Otherwise, qualify the name if not visible in search path */ - if (!need_qual) - need_qual = !RelationIsVisible(relid); - - if (need_qual) - nspname = get_namespace_name(reltup->relnamespace); - else - nspname = NULL; - - result = quote_qualified_identifier(nspname, relname); - - ReleaseSysCache(tp); - - return result; -} - - -/* - * generate_rte_shard_name returns the qualified name of the shard given a - * CITUS_RTE_SHARD range table entry. - */ -static char * -generate_rte_shard_name(RangeTblEntry *rangeTableEntry) -{ - char *shardSchemaName = NULL; - char *shardTableName = NULL; - - Assert(GetRangeTblKind(rangeTableEntry) == CITUS_RTE_SHARD); - - ExtractRangeTblExtraData(rangeTableEntry, NULL, &shardSchemaName, &shardTableName, - NULL); - - return generate_fragment_name(shardSchemaName, shardTableName); -} - - -/* - * generate_fragment_name - * Compute the name to display for a shard or merged table - * - * The result includes all necessary quoting and schema-prefixing. The schema - * name can be NULL for regular shards. For merged tables, they are always - * declared within a job-specific schema, and therefore can't have null schema - * names. - */ -static char * -generate_fragment_name(char *schemaName, char *tableName) -{ - StringInfo fragmentNameString = makeStringInfo(); - - if (schemaName != NULL) - { - appendStringInfo(fragmentNameString, "%s.%s", quote_identifier(schemaName), - quote_identifier(tableName)); - } - else - { - appendStringInfoString(fragmentNameString, quote_identifier(tableName)); - } - - return fragmentNameString->data; -} - -/* - * generate_function_name - * Compute the name to display for a function specified by OID, - * given that it is being called with the specified actual arg names and - * types. (Those matter because of ambiguous-function resolution rules.) - * - * If we're dealing with a potentially variadic function (in practice, this - * means a FuncExpr or Aggref, not some other way of calling a function), then - * has_variadic must specify whether variadic arguments have been merged, - * and *use_variadic_p will be set to indicate whether to print VARIADIC in - * the output. For non-FuncExpr cases, has_variadic should be false and - * use_variadic_p can be NULL. - * - * The result includes all necessary quoting and schema-prefixing. - */ -static char * -generate_function_name(Oid funcid, int nargs, List *argnames, Oid *argtypes, - bool has_variadic, bool *use_variadic_p, - ParseExprKind special_exprkind) -{ - char *result; - HeapTuple proctup; - Form_pg_proc procform; - char *proname; - bool use_variadic; - char *nspname; - FuncDetailCode p_result; - Oid p_funcid; - Oid p_rettype; - bool p_retset; - int p_nvargs; - Oid p_vatype; - Oid *p_true_typeids; - bool force_qualify = false; - - proctup = SearchSysCache1(PROCOID, ObjectIdGetDatum(funcid)); - if (!HeapTupleIsValid(proctup)) - elog(ERROR, "cache lookup failed for function %u", funcid); - procform = (Form_pg_proc) GETSTRUCT(proctup); - proname = NameStr(procform->proname); - - /* - * Due to parser hacks to avoid needing to reserve CUBE, we need to force - * qualification in some special cases. - */ - if (special_exprkind == EXPR_KIND_GROUP_BY) - { - if (strcmp(proname, "cube") == 0 || strcmp(proname, "rollup") == 0) - force_qualify = true; - } - - /* - * Determine whether VARIADIC should be printed. We must do this first - * since it affects the lookup rules in func_get_detail(). - * - * Currently, we always print VARIADIC if the function has a merged - * variadic-array argument. Note that this is always the case for - * functions taking a VARIADIC argument type other than VARIADIC ANY. - * - * In principle, if VARIADIC wasn't originally specified and the array - * actual argument is deconstructable, we could print the array elements - * separately and not print VARIADIC, thus more nearly reproducing the - * original input. For the moment that seems like too much complication - * for the benefit, and anyway we do not know whether VARIADIC was - * originally specified if it's a non-ANY type. - */ - if (use_variadic_p) - { - /* Parser should not have set funcvariadic unless fn is variadic */ - Assert(!has_variadic || OidIsValid(procform->provariadic)); - use_variadic = has_variadic; - *use_variadic_p = use_variadic; - } - else - { - Assert(!has_variadic); - use_variadic = false; - } - - /* - * The idea here is to schema-qualify only if the parser would fail to - * resolve the correct function given the unqualified func name with the - * specified argtypes and VARIADIC flag. But if we already decided to - * force qualification, then we can skip the lookup and pretend we didn't - * find it. - */ - if (!force_qualify) - p_result = func_get_detail(list_make1(makeString(proname)), - NIL, argnames, nargs, argtypes, - !use_variadic, true, false, - &p_funcid, &p_rettype, - &p_retset, &p_nvargs, &p_vatype, - &p_true_typeids, NULL); - else - { - p_result = FUNCDETAIL_NOTFOUND; - p_funcid = InvalidOid; - } - - if ((p_result == FUNCDETAIL_NORMAL || - p_result == FUNCDETAIL_AGGREGATE || - p_result == FUNCDETAIL_WINDOWFUNC) && - p_funcid == funcid) - nspname = NULL; - else - nspname = get_namespace_name(procform->pronamespace); - - result = quote_qualified_identifier(nspname, proname); - - ReleaseSysCache(proctup); - - return result; -} - -/* - * generate_operator_name - * Compute the name to display for an operator specified by OID, - * given that it is being called with the specified actual arg types. - * (Arg types matter because of ambiguous-operator resolution rules. - * Pass InvalidOid for unused arg of a unary operator.) - * - * The result includes all necessary quoting and schema-prefixing, - * plus the OPERATOR() decoration needed to use a qualified operator name - * in an expression. - */ -char * -generate_operator_name(Oid operid, Oid arg1, Oid arg2) -{ - StringInfoData buf; - HeapTuple opertup; - Form_pg_operator operform; - char *oprname; - char *nspname; - - initStringInfo(&buf); - - opertup = SearchSysCache1(OPEROID, ObjectIdGetDatum(operid)); - if (!HeapTupleIsValid(opertup)) - elog(ERROR, "cache lookup failed for operator %u", operid); - operform = (Form_pg_operator) GETSTRUCT(opertup); - oprname = NameStr(operform->oprname); - - /* - * Unlike generate_operator_name() in postgres/src/backend/utils/adt/ruleutils.c, - * we don't check if the operator is in current namespace or not. This is - * because this check is costly when the operator is not in current namespace. - */ - nspname = get_namespace_name(operform->oprnamespace); - Assert(nspname != NULL); - appendStringInfo(&buf, "OPERATOR(%s.", quote_identifier(nspname)); - appendStringInfoString(&buf, oprname); - appendStringInfoChar(&buf, ')'); - - ReleaseSysCache(opertup); - - return buf.data; -} - -/* - * get_one_range_partition_bound_string - * A C string representation of one range partition bound - */ -char * -get_range_partbound_string(List *bound_datums) -{ - deparse_context context; - StringInfo buf = makeStringInfo(); - ListCell *cell; - char *sep; - - memset(&context, 0, sizeof(deparse_context)); - context.buf = buf; - - appendStringInfoChar(buf, '('); - sep = ""; - foreach(cell, bound_datums) - { - PartitionRangeDatum *datum = - lfirst_node(PartitionRangeDatum, cell); - - appendStringInfoString(buf, sep); - if (datum->kind == PARTITION_RANGE_DATUM_MINVALUE) - appendStringInfoString(buf, "MINVALUE"); - else if (datum->kind == PARTITION_RANGE_DATUM_MAXVALUE) - appendStringInfoString(buf, "MAXVALUE"); - else - { - Const *val = castNode(Const, datum->value); - - get_const_expr(val, &context, -1); - } - sep = ", "; - } - appendStringInfoChar(buf, ')'); - - return buf->data; -} - -/* - * Collect a list of OIDs of all sequences owned by the specified relation, - * and column if specified. If deptype is not zero, then only find sequences - * with the specified dependency type. - */ -List * -getOwnedSequences_internal(Oid relid, AttrNumber attnum, char deptype) -{ - List *result = NIL; - Relation depRel; - ScanKeyData key[3]; - SysScanDesc scan; - HeapTuple tup; - - depRel = table_open(DependRelationId, AccessShareLock); - - ScanKeyInit(&key[0], - Anum_pg_depend_refclassid, - BTEqualStrategyNumber, F_OIDEQ, - ObjectIdGetDatum(RelationRelationId)); - ScanKeyInit(&key[1], - Anum_pg_depend_refobjid, - BTEqualStrategyNumber, F_OIDEQ, - ObjectIdGetDatum(relid)); - if (attnum) - ScanKeyInit(&key[2], - Anum_pg_depend_refobjsubid, - BTEqualStrategyNumber, F_INT4EQ, - Int32GetDatum(attnum)); - - scan = systable_beginscan(depRel, DependReferenceIndexId, true, - NULL, attnum ? 3 : 2, key); - - while (HeapTupleIsValid(tup = systable_getnext(scan))) - { - Form_pg_depend deprec = (Form_pg_depend) GETSTRUCT(tup); - - /* - * We assume any auto or internal dependency of a sequence on a column - * must be what we are looking for. (We need the relkind test because - * indexes can also have auto dependencies on columns.) - */ - if (deprec->classid == RelationRelationId && - deprec->objsubid == 0 && - deprec->refobjsubid != 0 && - (deprec->deptype == DEPENDENCY_AUTO || deprec->deptype == DEPENDENCY_INTERNAL) && - get_rel_relkind(deprec->objid) == RELKIND_SEQUENCE) - { - if (!deptype || deprec->deptype == deptype) - result = lappend_oid(result, deprec->objid); - } - } - - systable_endscan(scan); - - table_close(depRel, AccessShareLock); - - return result; -} - -#endif /* (PG_VERSION_NUM >= PG_VERSION_14) && (PG_VERSION_NUM < PG_VERSION_15) */ diff --git a/src/backend/distributed/executor/adaptive_executor.c b/src/backend/distributed/executor/adaptive_executor.c index 9606cd724..5b554b7c2 100644 --- a/src/backend/distributed/executor/adaptive_executor.c +++ b/src/backend/distributed/executor/adaptive_executor.c @@ -720,10 +720,8 @@ static void RebuildWaitEventSetForSessions(DistributedExecution *execution); static void AddLatchWaitEventToExecution(DistributedExecution *execution); static void ProcessWaitEvents(DistributedExecution *execution, WaitEvent *events, int eventCount, bool *cancellationReceived); -#if PG_VERSION_NUM >= PG_VERSION_15 static void RemoteSocketClosedForAnySession(DistributedExecution *execution); static void ProcessWaitEventsForSocketClosed(WaitEvent *events, int eventCount); -#endif static long MillisecondsBetweenTimestamps(instr_time startTime, instr_time endTime); static uint64 MicrosecondsBetweenTimestamps(instr_time startTime, instr_time endTime); static int WorkerPoolCompare(const void *lhsKey, const void *rhsKey); @@ -1769,11 +1767,8 @@ FindOrCreateWorkerSession(WorkerPool *workerPool, MultiConnection *connection) session->commandsSent = 0; session->waitEventSetIndex = WAIT_EVENT_SET_INDEX_NOT_INITIALIZED; -#if PG_VERSION_NUM >= PG_VERSION_15 - /* always detect closed sockets */ UpdateConnectionWaitFlags(session, WL_SOCKET_CLOSED); -#endif dlist_init(&session->pendingTaskQueue); dlist_init(&session->readyTaskQueue); @@ -1817,7 +1812,6 @@ FindOrCreateWorkerSession(WorkerPool *workerPool, MultiConnection *connection) * the events, even ignores cancellation events. Future callers of this * function should consider its limitations. */ -#if PG_VERSION_NUM >= PG_VERSION_15 static void RemoteSocketClosedForAnySession(DistributedExecution *execution) { @@ -1835,9 +1829,6 @@ RemoteSocketClosedForAnySession(DistributedExecution *execution) } -#endif - - /* * SequentialRunDistributedExecution gets a distributed execution and * executes each individual task in the execution sequentially, one @@ -2173,8 +2164,6 @@ ProcessWaitEvents(DistributedExecution *execution, WaitEvent *events, int eventC } -#if PG_VERSION_NUM >= PG_VERSION_15 - /* * ProcessWaitEventsForSocketClosed mainly checks for WL_SOCKET_CLOSED event. * If WL_SOCKET_CLOSED is found, the function sets the underlying connection's @@ -2207,9 +2196,6 @@ ProcessWaitEventsForSocketClosed(WaitEvent *events, int eventCount) } -#endif - - /* * ManageWorkerPool ensures the worker pool has the appropriate number of connections * based on the number of pending tasks. @@ -2704,7 +2690,6 @@ OpenNewConnections(WorkerPool *workerPool, int newConnectionCount, * Instead, we prefer this slight difference, which in effect has almost no * difference, but doing things in different points in time. */ -#if PG_VERSION_NUM >= PG_VERSION_15 /* we added new connections, rebuild the waitEventSet */ RebuildWaitEventSetForSessions(execution); @@ -2724,9 +2709,6 @@ OpenNewConnections(WorkerPool *workerPool, int newConnectionCount, * of the execution. */ AddLatchWaitEventToExecution(execution); -#else - execution->rebuildWaitEventSet = true; -#endif WorkerSession *session = NULL; foreach_declared_ptr(session, newSessionsList) @@ -3663,13 +3645,8 @@ UpdateConnectionWaitFlags(WorkerSession *session, int waitFlags) return; } -#if PG_VERSION_NUM >= PG_VERSION_15 - /* always detect closed sockets */ connection->waitFlags = waitFlags | WL_SOCKET_CLOSED; -#else - connection->waitFlags = waitFlags; -#endif /* without signalling the execution, the flag changes won't be reflected */ execution->waitFlagsChanged = true; @@ -3694,13 +3671,11 @@ CheckConnectionReady(WorkerSession *session) return false; } -#if PG_VERSION_NUM >= PG_VERSION_15 if ((session->latestUnconsumedWaitEvents & WL_SOCKET_CLOSED) != 0) { connection->connectionState = MULTI_CONNECTION_LOST; return false; } -#endif /* try to send all pending data */ int sendStatus = PQflush(connection->pgConn); diff --git a/src/backend/distributed/executor/query_stats.c b/src/backend/distributed/executor/query_stats.c index ce6179b96..319041b56 100644 --- a/src/backend/distributed/executor/query_stats.c +++ b/src/backend/distributed/executor/query_stats.c @@ -140,19 +140,6 @@ static void CitusQueryStatsRemoveExpiredEntries(HTAB *existingQueryIdHash); void InitializeCitusQueryStats(void) { -/* on PG 15, we use shmem_request_hook_type */ -#if PG_VERSION_NUM < PG_VERSION_15 - - /* allocate shared memory */ - if (!IsUnderPostmaster) - { - RequestAddinShmemSpace(CitusQueryStatsSharedMemSize()); - - elog(LOG, "requesting named LWLockTranch for %s", STATS_SHARED_MEM_NAME); - RequestNamedLWLockTranche(STATS_SHARED_MEM_NAME, 1); - } -#endif - /* Install hook */ prev_shmem_startup_hook = shmem_startup_hook; shmem_startup_hook = CitusQueryStatsShmemStartup; diff --git a/src/backend/distributed/metadata/dependency.c b/src/backend/distributed/metadata/dependency.c index 683a24587..9f4427c33 100644 --- a/src/backend/distributed/metadata/dependency.c +++ b/src/backend/distributed/metadata/dependency.c @@ -1717,13 +1717,11 @@ ExpandCitusSupportedTypes(ObjectAddressCollector *collector, ObjectAddress targe /* * As of PostgreSQL 15, the same applies to schemas. */ -#if PG_VERSION_NUM >= PG_VERSION_15 List *schemaIdList = GetPublicationSchemas(publicationId); List *schemaDependencyList = CreateObjectAddressDependencyDefList(NamespaceRelationId, schemaIdList); result = list_concat(result, schemaDependencyList); -#endif break; } diff --git a/src/backend/distributed/metadata/metadata_sync.c b/src/backend/distributed/metadata/metadata_sync.c index 9abd60e5a..d6275bffc 100644 --- a/src/backend/distributed/metadata/metadata_sync.c +++ b/src/backend/distributed/metadata/metadata_sync.c @@ -1739,48 +1739,6 @@ GetSequencesFromAttrDef(Oid attrdefOid) } -#if PG_VERSION_NUM < PG_VERSION_15 - -/* - * Given a pg_attrdef OID, return the relation OID and column number of - * the owning column (represented as an ObjectAddress for convenience). - * - * Returns InvalidObjectAddress if there is no such pg_attrdef entry. - */ -ObjectAddress -GetAttrDefaultColumnAddress(Oid attrdefoid) -{ - ObjectAddress result = InvalidObjectAddress; - ScanKeyData skey[1]; - HeapTuple tup; - - Relation attrdef = table_open(AttrDefaultRelationId, AccessShareLock); - ScanKeyInit(&skey[0], - Anum_pg_attrdef_oid, - BTEqualStrategyNumber, F_OIDEQ, - ObjectIdGetDatum(attrdefoid)); - SysScanDesc scan = systable_beginscan(attrdef, AttrDefaultOidIndexId, true, - NULL, 1, skey); - - if (HeapTupleIsValid(tup = systable_getnext(scan))) - { - Form_pg_attrdef atdform = (Form_pg_attrdef) GETSTRUCT(tup); - - result.classId = RelationRelationId; - result.objectId = atdform->adrelid; - result.objectSubId = atdform->adnum; - } - - systable_endscan(scan); - table_close(attrdef, AccessShareLock); - - return result; -} - - -#endif - - /* * GetAttrDefsFromSequence returns a list of attrdef OIDs that have * a dependency on the given sequence @@ -3011,7 +2969,6 @@ SyncNodeMetadataToNodesMain(Datum main_arg) PopActiveSnapshot(); CommitTransactionCommand(); - ProcessCompletedNotifies(); if (syncedAllNodes) { diff --git a/src/backend/distributed/metadata/pg_get_object_address_13_14_15.c b/src/backend/distributed/metadata/pg_get_object_address_13_14_15.c index abe378cdb..bd9b84e81 100644 --- a/src/backend/distributed/metadata/pg_get_object_address_13_14_15.c +++ b/src/backend/distributed/metadata/pg_get_object_address_13_14_15.c @@ -283,9 +283,7 @@ PgGetObjectAddress(char *ttype, ArrayType *namearr, ArrayType *argsarr) case OBJECT_FDW: case OBJECT_FOREIGN_SERVER: case OBJECT_LANGUAGE: -#if PG_VERSION_NUM >= PG_VERSION_15 case OBJECT_PARAMETER_ACL: -#endif case OBJECT_PUBLICATION: case OBJECT_ROLE: case OBJECT_SCHEMA: @@ -323,9 +321,7 @@ PgGetObjectAddress(char *ttype, ArrayType *namearr, ArrayType *argsarr) break; } -#if PG_VERSION_NUM >= PG_VERSION_15 case OBJECT_PUBLICATION_NAMESPACE: -#endif case OBJECT_USER_MAPPING: { objnode = (Node *) list_make2(linitial(name), linitial(args)); diff --git a/src/backend/distributed/planner/combine_query_planner.c b/src/backend/distributed/planner/combine_query_planner.c index f81ade91c..c8ab2a4b3 100644 --- a/src/backend/distributed/planner/combine_query_planner.c +++ b/src/backend/distributed/planner/combine_query_planner.c @@ -136,11 +136,8 @@ CreateCitusCustomScanPath(PlannerInfo *root, RelOptInfo *relOptInfo, path->custom_path.path.pathtarget = relOptInfo->reltarget; path->custom_path.path.parent = relOptInfo; -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* necessary to avoid extra Result node in PG15 */ path->custom_path.flags = CUSTOMPATH_SUPPORT_PROJECTION; -#endif /* * The 100k rows we put on the cost of the path is kind of arbitrary and could be diff --git a/src/backend/distributed/planner/distributed_planner.c b/src/backend/distributed/planner/distributed_planner.c index 0ec3883da..a388c767c 100644 --- a/src/backend/distributed/planner/distributed_planner.c +++ b/src/backend/distributed/planner/distributed_planner.c @@ -1442,13 +1442,8 @@ FinalizePlan(PlannedStmt *localPlan, DistributedPlan *distributedPlan) customScan->custom_private = list_make1(distributedPlanData); -#if (PG_VERSION_NUM >= PG_VERSION_15) - /* necessary to avoid extra Result node in PG15 */ customScan->flags = CUSTOMPATH_SUPPORT_BACKWARD_SCAN | CUSTOMPATH_SUPPORT_PROJECTION; -#else - customScan->flags = CUSTOMPATH_SUPPORT_BACKWARD_SCAN; -#endif /* * Fast path queries cannot have any subplans by definition, so skip diff --git a/src/backend/distributed/planner/merge_planner.c b/src/backend/distributed/planner/merge_planner.c index 9c0ba3cd3..e1d917ca0 100644 --- a/src/backend/distributed/planner/merge_planner.c +++ b/src/backend/distributed/planner/merge_planner.c @@ -38,8 +38,6 @@ #include "distributed/shard_pruning.h" #include "distributed/shared_library_init.h" -#if PG_VERSION_NUM >= PG_VERSION_15 - static int SourceResultPartitionColumnIndex(Query *mergeQuery, List *sourceTargetList, CitusTableCacheEntry *targetRelation); @@ -100,8 +98,6 @@ static char * MergeCommandResultIdPrefix(uint64 planId); static void ErrorIfMergeHasReturningList(Query *query); static Node * GetMergeJoinCondition(Query *mergeQuery); -#endif - /* * CreateMergePlan @@ -118,13 +114,6 @@ CreateMergePlan(uint64 planId, Query *originalQuery, Query *query, PlannerRestrictionContext *plannerRestrictionContext, ParamListInfo boundParams) { - /* function is void for pre-15 versions of Postgres */ - #if PG_VERSION_NUM < PG_VERSION_15 - - ereport(ERROR, (errmsg("MERGE is not supported in pre-15 Postgres versions"))); - - #else - Oid targetRelationId = ModifyQueryResultRelationId(originalQuery); /* @@ -153,8 +142,6 @@ CreateMergePlan(uint64 planId, Query *originalQuery, Query *query, } return distributedPlan; - - #endif } @@ -184,9 +171,6 @@ GetMergeJoinTree(Query *mergeQuery) } -#if PG_VERSION_NUM >= PG_VERSION_15 - - /* * GetMergeJoinCondition returns the quals of the ON condition */ @@ -1443,9 +1427,6 @@ SourceResultPartitionColumnIndex(Query *mergeQuery, List *sourceTargetList, } -#endif - - /* * ExtractMergeSourceRangeTableEntry returns the range table entry of source * table or source query in USING clause. @@ -1453,13 +1434,6 @@ SourceResultPartitionColumnIndex(Query *mergeQuery, List *sourceTargetList, RangeTblEntry * ExtractMergeSourceRangeTableEntry(Query *query, bool joinSourceOk) { - /* function is void for pre-15 versions of Postgres */ - #if PG_VERSION_NUM < PG_VERSION_15 - - ereport(ERROR, (errmsg("MERGE is not supported in pre-15 Postgres versions"))); - - #else - Assert(IsMergeQuery(query)); List *fromList = query->jointree->fromlist; @@ -1498,8 +1472,6 @@ ExtractMergeSourceRangeTableEntry(Query *query, bool joinSourceOk) RangeTblEntry *subqueryRte = rt_fetch(reference->rtindex, query->rtable); return subqueryRte; - - #endif } @@ -1516,13 +1488,6 @@ ExtractMergeSourceRangeTableEntry(Query *query, bool joinSourceOk) Var * FetchAndValidateInsertVarIfExists(Oid targetRelationId, Query *query) { - /* function is void for pre-15 versions of Postgres */ - #if PG_VERSION_NUM < PG_VERSION_15 - - ereport(ERROR, (errmsg("MERGE is not supported in pre-15 Postgres versions"))); - - #else - Assert(IsMergeQuery(query)); if (!IsCitusTableType(targetRelationId, DISTRIBUTED_TABLE)) @@ -1593,8 +1558,6 @@ FetchAndValidateInsertVarIfExists(Oid targetRelationId, Query *query) } return NULL; - - #endif } diff --git a/src/backend/distributed/planner/multi_explain.c b/src/backend/distributed/planner/multi_explain.c index 527fd073c..58d9068f5 100644 --- a/src/backend/distributed/planner/multi_explain.c +++ b/src/backend/distributed/planner/multi_explain.c @@ -1289,8 +1289,8 @@ worker_save_query_explain_analyze(PG_FUNCTION_ARGS) } /* resolve OIDs of unknown (user-defined) types */ - Query *analyzedQuery = parse_analyze_varparams_compat(parseTree, queryString, - ¶mTypes, &numParams, NULL); + Query *analyzedQuery = parse_analyze_varparams(parseTree, queryString, + ¶mTypes, &numParams, NULL); /* pg_rewrite_query is a wrapper around QueryRewrite with some debugging logic */ List *queryList = pg_rewrite_query(analyzedQuery); diff --git a/src/backend/distributed/shardsplit/shardsplit_decoder.c b/src/backend/distributed/shardsplit/shardsplit_decoder.c index 20dd01b0c..837009530 100644 --- a/src/backend/distributed/shardsplit/shardsplit_decoder.c +++ b/src/backend/distributed/shardsplit/shardsplit_decoder.c @@ -122,11 +122,7 @@ update_replication_progress(LogicalDecodingContext *ctx, bool skipped_xact) */ if (ctx->end_xact || ++changes_count >= CHANGES_THRESHOLD) { -#if (PG_VERSION_NUM >= PG_VERSION_15) OutputPluginUpdateProgress(ctx, skipped_xact); -#else - OutputPluginUpdateProgress(ctx); -#endif changes_count = 0; } } diff --git a/src/backend/distributed/shared_library_init.c b/src/backend/distributed/shared_library_init.c index d7fa094ed..33faaa6c8 100644 --- a/src/backend/distributed/shared_library_init.c +++ b/src/backend/distributed/shared_library_init.c @@ -174,15 +174,11 @@ static bool FinishedStartupCitusBackend = false; static object_access_hook_type PrevObjectAccessHook = NULL; -#if PG_VERSION_NUM >= PG_VERSION_15 static shmem_request_hook_type prev_shmem_request_hook = NULL; -#endif void _PG_init(void); -#if PG_VERSION_NUM >= PG_VERSION_15 static void citus_shmem_request(void); -#endif static void CitusObjectAccessHook(ObjectAccessType access, Oid classId, Oid objectId, int subId, void *arg); static void DoInitialCleanup(void); @@ -475,10 +471,8 @@ _PG_init(void) original_client_auth_hook = ClientAuthentication_hook; ClientAuthentication_hook = CitusAuthHook; -#if PG_VERSION_NUM >= PG_VERSION_15 prev_shmem_request_hook = shmem_request_hook; shmem_request_hook = citus_shmem_request; -#endif InitializeMaintenanceDaemon(); @@ -602,8 +596,6 @@ AdjustDynamicLibraryPathForCdcDecoders(void) } -#if PG_VERSION_NUM >= PG_VERSION_15 - /* * Requests any additional shared memory required for citus. */ @@ -624,9 +616,6 @@ citus_shmem_request(void) } -#endif - - /* * DoInitialCleanup does cleanup at start time. * Currently it: diff --git a/src/backend/distributed/test/fake_am.c b/src/backend/distributed/test/fake_am.c index 928051942..8829d0d8b 100644 --- a/src/backend/distributed/test/fake_am.c +++ b/src/backend/distributed/test/fake_am.c @@ -310,7 +310,7 @@ fake_relation_set_new_filenode(Relation rel, */ *minmulti = GetOldestMultiXactId(); - SMgrRelation srel = RelationCreateStorage_compat(*newrnode, persistence, true); + SMgrRelation srel = RelationCreateStorage(*newrnode, persistence, true); /* * If required, set up an init fork for an unlogged table so that it can diff --git a/src/backend/distributed/test/shared_connection_counters.c b/src/backend/distributed/test/shared_connection_counters.c index c59602887..e5c685e65 100644 --- a/src/backend/distributed/test/shared_connection_counters.c +++ b/src/backend/distributed/test/shared_connection_counters.c @@ -49,13 +49,8 @@ makeIntConst(int val, int location) { A_Const *n = makeNode(A_Const); -#if PG_VERSION_NUM >= PG_VERSION_15 n->val.ival.type = T_Integer; n->val.ival.ival = val; -#else - n->val.type = T_Integer; - n->val.val.ival = val; -#endif n->location = location; return (Node *) n; diff --git a/src/backend/distributed/transaction/backend_data.c b/src/backend/distributed/transaction/backend_data.c index 866b18fd2..19b03978e 100644 --- a/src/backend/distributed/transaction/backend_data.c +++ b/src/backend/distributed/transaction/backend_data.c @@ -519,15 +519,6 @@ UserHasPermissionToViewStatsOf(Oid currentUserId, Oid backendOwnedId) void InitializeBackendManagement(void) { -/* on PG 15, we use shmem_request_hook_type */ -#if PG_VERSION_NUM < PG_VERSION_15 - - /* allocate shared memory */ - if (!IsUnderPostmaster) - { - RequestAddinShmemSpace(BackendManagementShmemSize()); - } -#endif prev_shmem_startup_hook = shmem_startup_hook; shmem_startup_hook = BackendManagementShmemInit; } diff --git a/src/backend/distributed/utils/background_jobs.c b/src/backend/distributed/utils/background_jobs.c index 73a635f21..c9cabc16c 100644 --- a/src/backend/distributed/utils/background_jobs.c +++ b/src/backend/distributed/utils/background_jobs.c @@ -1393,87 +1393,6 @@ CalculateBackoffDelay(int retryCount) } -#if PG_VERSION_NUM < PG_VERSION_15 -static const char * -error_severity(int elevel) -{ - const char *prefix; - - switch (elevel) - { - case DEBUG1: - case DEBUG2: - case DEBUG3: - case DEBUG4: - case DEBUG5: - { - prefix = gettext_noop("DEBUG"); - break; - } - - case LOG: - case LOG_SERVER_ONLY: - { - prefix = gettext_noop("LOG"); - break; - } - - case INFO: - { - prefix = gettext_noop("INFO"); - break; - } - - case NOTICE: - { - prefix = gettext_noop("NOTICE"); - break; - } - - case WARNING: - { - prefix = gettext_noop("WARNING"); - break; - } - - case WARNING_CLIENT_ONLY: - { - prefix = gettext_noop("WARNING"); - break; - } - - case ERROR: - { - prefix = gettext_noop("ERROR"); - break; - } - - case FATAL: - { - prefix = gettext_noop("FATAL"); - break; - } - - case PANIC: - { - prefix = gettext_noop("PANIC"); - break; - } - - default: - { - prefix = "???"; - break; - } - } - - return prefix; -} - - -#endif - - /* * bgw_generate_returned_message - * generates the message to be inserted into the job_run_details table diff --git a/src/backend/distributed/utils/citus_stat_tenants.c b/src/backend/distributed/utils/citus_stat_tenants.c index 6af5c0d58..1ca4fc6f1 100644 --- a/src/backend/distributed/utils/citus_stat_tenants.c +++ b/src/backend/distributed/utils/citus_stat_tenants.c @@ -15,6 +15,7 @@ #include "unistd.h" #include "access/hash.h" +#include "common/pg_prng.h" #include "executor/execdesc.h" #include "storage/ipc.h" #include "storage/lwlock.h" @@ -38,10 +39,6 @@ #include "distributed/tuplestore.h" #include "distributed/utils/citus_stat_tenants.h" -#if (PG_VERSION_NUM >= PG_VERSION_15) - #include "common/pg_prng.h" -#endif - static void AttributeMetricsIfApplicable(void); ExecutorEnd_hook_type prev_ExecutorEnd = NULL; @@ -298,13 +295,7 @@ AttributeTask(char *tenantId, int colocationId, CmdType commandType) /* If the tenant is not found in the hash table, we will track the query with a probability of StatTenantsSampleRateForNewTenants. */ if (!found) { -#if (PG_VERSION_NUM >= PG_VERSION_15) double randomValue = pg_prng_double(&pg_global_prng_state); -#else - - /* Generate a random double between 0 and 1 */ - double randomValue = (double) random() / MAX_RANDOM_VALUE; -#endif bool shouldTrackQuery = randomValue <= StatTenantsSampleRateForNewTenants; if (!shouldTrackQuery) { diff --git a/src/include/columnar/columnar_version_compat.h b/src/include/columnar/columnar_version_compat.h index d9b29cdb0..d6908aced 100644 --- a/src/include/columnar/columnar_version_compat.h +++ b/src/include/columnar/columnar_version_compat.h @@ -14,14 +14,6 @@ #include "pg_version_constants.h" -#if PG_VERSION_NUM >= PG_VERSION_15 -#define ExecARDeleteTriggers_compat(a, b, c, d, e, f) \ - ExecARDeleteTriggers(a, b, c, d, e, f) -#else -#define ExecARDeleteTriggers_compat(a, b, c, d, e, f) \ - ExecARDeleteTriggers(a, b, c, d, e) -#endif - #define ACLCHECK_OBJECT_TABLE OBJECT_TABLE #define ExplainPropertyLong(qlabel, value, es) \ diff --git a/src/include/distributed/commands.h b/src/include/distributed/commands.h index caf40ff95..72f495aa2 100644 --- a/src/include/distributed/commands.h +++ b/src/include/distributed/commands.h @@ -525,13 +525,11 @@ extern List * PostprocessAlterSequenceSchemaStmt(Node *node, const char *querySt extern List * PreprocessAlterSequenceOwnerStmt(Node *node, const char *queryString, ProcessUtilityContext processUtilityContext); extern List * PostprocessAlterSequenceOwnerStmt(Node *node, const char *queryString); -#if (PG_VERSION_NUM >= PG_VERSION_15) extern List * PreprocessAlterSequencePersistenceStmt(Node *node, const char *queryString, ProcessUtilityContext processUtilityContext); extern List * PreprocessSequenceAlterTableStmt(Node *node, const char *queryString, ProcessUtilityContext processUtilityContext); -#endif extern List * PreprocessDropSequenceStmt(Node *node, const char *queryString, ProcessUtilityContext processUtilityContext); extern List * SequenceDropStmtObjectAddress(Node *stmt, bool missing_ok, bool @@ -547,10 +545,8 @@ extern List * AlterSequenceSchemaStmtObjectAddress(Node *node, bool missing_ok, isPostprocess); extern List * AlterSequenceOwnerStmtObjectAddress(Node *node, bool missing_ok, bool isPostprocess); -#if (PG_VERSION_NUM >= PG_VERSION_15) extern List * AlterSequencePersistenceStmtObjectAddress(Node *node, bool missing_ok, bool isPostprocess); -#endif extern List * RenameSequenceStmtObjectAddress(Node *node, bool missing_ok, bool isPostprocess); extern void ErrorIfUnsupportedSeqStmt(CreateSeqStmt *createSeqStmt); @@ -754,8 +750,6 @@ extern List * CreateTriggerStmtObjectAddress(Node *node, bool missingOk, bool isPostprocess); extern void CreateTriggerEventExtendNames(CreateTrigStmt *createTriggerStmt, char *schemaName, uint64 shardId); -extern List * PreprocessAlterTriggerRenameStmt(Node *node, const char *queryString, - ProcessUtilityContext processUtilityContext); extern List * PostprocessAlterTriggerRenameStmt(Node *node, const char *queryString); extern void AlterTriggerRenameEventExtendNames(RenameStmt *renameTriggerStmt, char *schemaName, uint64 shardId); diff --git a/src/include/distributed/deparser.h b/src/include/distributed/deparser.h index 8c4c58c88..3431a29c5 100644 --- a/src/include/distributed/deparser.h +++ b/src/include/distributed/deparser.h @@ -267,9 +267,7 @@ extern char * DeparseDropSequenceStmt(Node *node); extern char * DeparseRenameSequenceStmt(Node *node); extern char * DeparseAlterSequenceSchemaStmt(Node *node); extern char * DeparseAlterSequenceOwnerStmt(Node *node); -#if (PG_VERSION_NUM >= PG_VERSION_15) extern char * DeparseAlterSequencePersistenceStmt(Node *node); -#endif extern char * DeparseGrantOnSequenceStmt(Node *node); /* forward declarations for qualify_sequence_stmt.c */ @@ -277,9 +275,7 @@ extern void QualifyRenameSequenceStmt(Node *node); extern void QualifyDropSequenceStmt(Node *node); extern void QualifyAlterSequenceSchemaStmt(Node *node); extern void QualifyAlterSequenceOwnerStmt(Node *node); -#if (PG_VERSION_NUM >= PG_VERSION_15) extern void QualifyAlterSequencePersistenceStmt(Node *node); -#endif extern void QualifyGrantOnSequenceStmt(Node *node); #endif /* CITUS_DEPARSER_H */ diff --git a/src/include/distributed/distributed_planner.h b/src/include/distributed/distributed_planner.h index d7234e4bc..ed65db07c 100644 --- a/src/include/distributed/distributed_planner.h +++ b/src/include/distributed/distributed_planner.h @@ -28,11 +28,6 @@ #define CURSOR_OPT_FORCE_DISTRIBUTED 0x080000 -/* Hack to compile Citus on pre-MERGE Postgres versions */ -#if PG_VERSION_NUM < PG_VERSION_15 -#define CMD_MERGE CMD_UNKNOWN -#endif - /* level of planner calls */ extern int PlannerLevel; diff --git a/src/include/distributed/metadata_sync.h b/src/include/distributed/metadata_sync.h index 56b34bc21..a2e86f2ba 100644 --- a/src/include/distributed/metadata_sync.h +++ b/src/include/distributed/metadata_sync.h @@ -128,9 +128,6 @@ extern List * IdentitySequenceDependencyCommandList(Oid targetRelationId); extern List * DDLCommandsForSequence(Oid sequenceOid, char *ownerName); extern List * GetSequencesFromAttrDef(Oid attrdefOid); -#if PG_VERSION_NUM < PG_VERSION_15 -ObjectAddress GetAttrDefaultColumnAddress(Oid attrdefoid); -#endif extern List * GetAttrDefsFromSequence(Oid seqOid); extern void GetDependentSequencesWithRelation(Oid relationId, List **seqInfoList, AttrNumber attnum, char depType); diff --git a/src/include/pg_version_compat.h b/src/include/pg_version_compat.h index 0db4f9a26..43a381135 100644 --- a/src/include/pg_version_compat.h +++ b/src/include/pg_version_compat.h @@ -286,76 +286,6 @@ typedef RangeTblEntry RTEPermissionInfo; #endif -#if PG_VERSION_NUM >= PG_VERSION_15 -#define ProcessCompletedNotifies() -#define RelationCreateStorage_compat(a, b, c) RelationCreateStorage(a, b, c) -#define parse_analyze_varparams_compat(a, b, c, d, e) parse_analyze_varparams(a, b, c, d, \ - e) -#define CREATE_SEQUENCE_COMMAND \ - "CREATE %sSEQUENCE IF NOT EXISTS %s AS %s INCREMENT BY " INT64_FORMAT \ - " MINVALUE " INT64_FORMAT " MAXVALUE " INT64_FORMAT \ - " START WITH " INT64_FORMAT " CACHE " INT64_FORMAT " %sCYCLE" -#else - -#include "nodes/value.h" -#include "storage/smgr.h" -#include "utils/int8.h" -#include "utils/rel.h" - -typedef Value String; - -#ifdef HAVE_LONG_INT_64 -#define strtoi64(str, endptr, base) ((int64) strtol(str, endptr, base)) -#define strtou64(str, endptr, base) ((uint64) strtoul(str, endptr, base)) -#else -#define strtoi64(str, endptr, base) ((int64) strtoll(str, endptr, base)) -#define strtou64(str, endptr, base) ((uint64) strtoull(str, endptr, base)) -#endif -#define RelationCreateStorage_compat(a, b, c) RelationCreateStorage(a, b) -#define parse_analyze_varparams_compat(a, b, c, d, e) parse_analyze_varparams(a, b, c, d) -#define pgstat_init_relation(r) pgstat_initstats(r) -#define pg_analyze_and_rewrite_fixedparams(a, b, c, d, e) pg_analyze_and_rewrite(a, b, c, \ - d, e) -#define boolVal(v) intVal(v) -#define makeBoolean(val) makeInteger(val) - -static inline int64 -pg_strtoint64(char *s) -{ - int64 result; - (void) scanint8(s, false, &result); - return result; -} - - -/* - * RelationGetSmgr got backported in 13.10 and 14.7 so redefining it for any - * version higher causes compilation errors due to redefining of the function. - * We want to use it in all versions. So we backport it ourselves in earlier - * versions, and rely on the Postgres provided version in the later versions. - */ -#if PG_VERSION_NUM < 140007 -static inline SMgrRelation -RelationGetSmgr(Relation rel) -{ - if (unlikely(rel->rd_smgr == NULL)) - { - smgrsetowner(&(rel->rd_smgr), smgropen(rel->rd_node, rel->rd_backend)); - } - return rel->rd_smgr; -} - - -#endif - - -#define CREATE_SEQUENCE_COMMAND \ - "CREATE SEQUENCE IF NOT EXISTS %s AS %s INCREMENT BY " INT64_FORMAT \ - " MINVALUE " INT64_FORMAT " MAXVALUE " INT64_FORMAT \ - " START WITH " INT64_FORMAT " CACHE " INT64_FORMAT " %sCYCLE" - -#endif - #define SetListCellPtr(a, b) ((a)->ptr_value = (b)) #define RangeTableEntryFromNSItem(a) ((a)->p_rte) #define fcGetArgValue(fc, n) ((fc)->args[n].value) @@ -365,4 +295,9 @@ RelationGetSmgr(Relation rel) #define fcSetArg(fc, n, value) fcSetArgExt(fc, n, value, false) #define fcSetArgNull(fc, n) fcSetArgExt(fc, n, (Datum) 0, true) +#define CREATE_SEQUENCE_COMMAND \ + "CREATE %sSEQUENCE IF NOT EXISTS %s AS %s INCREMENT BY " INT64_FORMAT \ + " MINVALUE " INT64_FORMAT " MAXVALUE " INT64_FORMAT \ + " START WITH " INT64_FORMAT " CACHE " INT64_FORMAT " %sCYCLE" + #endif /* PG_VERSION_COMPAT_H */ diff --git a/src/include/pg_version_constants.h b/src/include/pg_version_constants.h index ba2a9a03e..c8bfd319e 100644 --- a/src/include/pg_version_constants.h +++ b/src/include/pg_version_constants.h @@ -11,7 +11,6 @@ #ifndef PG_VERSION_CONSTANTS #define PG_VERSION_CONSTANTS -#define PG_VERSION_14 140000 #define PG_VERSION_15 150000 #define PG_VERSION_16 160000 #define PG_VERSION_17 170000 diff --git a/src/test/regress/bin/normalize.sed b/src/test/regress/bin/normalize.sed index 59bf6d97c..3d9fcb8c2 100644 --- a/src/test/regress/bin/normalize.sed +++ b/src/test/regress/bin/normalize.sed @@ -108,19 +108,13 @@ s/(ERROR: |WARNING: |error:) invalid socket/\1 connection not open/g /^\s*invalid socket$/d # pg15 changes -# can be removed when dropping PG13&14 support -#if (PG_VERSION_NUM >= PG_VERSION_14) && (PG_VERSION_NUM < PG_VERSION_15) -# (This is not preprocessor directive, but a reminder for the developer that will drop PG14 support ) -s/is not a PostgreSQL server process/is not a PostgreSQL backend process/g s/ AS "\?column\?"//g -s/".*\.(.*)": (found .* removable)/"\1": \2/g # We ignore multiline error messages, and substitute first line with a single line # alternative that is used in some older libpq versions. s/(ERROR: |WARNING: |error:) server closed the connection unexpectedly/\1 connection not open/g /^\s*This probably means the server terminated abnormally$/d /^\s*before or while processing the request.$/d /^\s*connection not open$/d -#endif /* (PG_VERSION_NUM >= PG_VERSION_13) && (PG_VERSION_NUM < PG_VERSION_14) */ # intermediate_results s/(ERROR.*)pgsql_job_cache\/([0-9]+_[0-9]+_[0-9]+)\/(.*).data/\1pgsql_job_cache\/xx_x_xxx\/\3.data/g diff --git a/src/test/regress/expected/citus_local_tables_queries.out b/src/test/regress/expected/citus_local_tables_queries.out index 2b2761644..148e08a4b 100644 --- a/src/test/regress/expected/citus_local_tables_queries.out +++ b/src/test/regress/expected/citus_local_tables_queries.out @@ -1,17 +1,6 @@ -- -- CITUS_LOCAL_TABLES_QUERIES -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - \set VERBOSITY terse SET citus.next_shard_id TO 1509000; SET citus.shard_replication_factor TO 1; diff --git a/src/test/regress/expected/citus_local_tables_queries_0.out b/src/test/regress/expected/citus_local_tables_queries_0.out deleted file mode 100644 index 4da695c89..000000000 --- a/src/test/regress/expected/citus_local_tables_queries_0.out +++ /dev/null @@ -1,1168 +0,0 @@ --- --- CITUS_LOCAL_TABLES_QUERIES --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -\set VERBOSITY terse -SET citus.next_shard_id TO 1509000; -SET citus.shard_replication_factor TO 1; -SET citus.enable_local_execution TO ON; -SET citus.log_local_commands TO ON; -CREATE SCHEMA citus_local_table_queries; -SET search_path TO citus_local_table_queries; --- ensure that coordinator is added to pg_dist_node -SET client_min_messages to ERROR; -SELECT 1 FROM master_add_node('localhost', :master_port, groupId => 0); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -RESET client_min_messages; -CREATE TABLE dummy_reference_table(a int unique, b int); -SELECT create_reference_table('dummy_reference_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE citus_local_table(a int, b int); -ALTER TABLE citus_local_table ADD CONSTRAINT fkey_to_dummy_1 FOREIGN KEY (a) REFERENCES dummy_reference_table(a); -NOTICE: executing the command locally: SELECT worker_apply_inter_shard_ddl_command (1509001, 'citus_local_table_queries', 1509000, 'citus_local_table_queries', 'ALTER TABLE citus_local_table ADD CONSTRAINT fkey_to_dummy_1 FOREIGN KEY (a) REFERENCES dummy_reference_table(a);') -CREATE TABLE citus_local_table_2(a int, b int); -ALTER TABLE citus_local_table_2 ADD CONSTRAINT fkey_to_dummy_2 FOREIGN KEY (a) REFERENCES dummy_reference_table(a); -NOTICE: executing the command locally: SELECT worker_apply_inter_shard_ddl_command (1509002, 'citus_local_table_queries', 1509000, 'citus_local_table_queries', 'ALTER TABLE citus_local_table_2 ADD CONSTRAINT fkey_to_dummy_2 FOREIGN KEY (a) REFERENCES dummy_reference_table(a);') -CREATE TABLE reference_table(a int, b int); -SELECT create_reference_table('reference_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE distributed_table(a int, b int); -SELECT create_distributed_table('distributed_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE postgres_local_table(a int, b int); --- Define a helper function to truncate & insert some data into our test tables --- We should call this function at some places in this test file to prevent --- test to take a long time. --- We shouldn't use LIMIT in INSERT SELECT queries to make the test faster as --- LIMIT would force planner to wrap SELECT query in an intermediate result and --- this might reduce the coverage of the test cases. -CREATE FUNCTION clear_and_init_test_tables() RETURNS void AS $$ - BEGIN - SET client_min_messages to ERROR; - - TRUNCATE postgres_local_table, citus_local_table, reference_table, distributed_table, dummy_reference_table, citus_local_table_2; - - INSERT INTO dummy_reference_table SELECT i, i FROM generate_series(0, 5) i; - INSERT INTO citus_local_table SELECT i, i FROM generate_series(0, 5) i; - INSERT INTO citus_local_table_2 SELECT i, i FROM generate_series(0, 5) i; - INSERT INTO postgres_local_table SELECT i, i FROM generate_series(0, 5) i; - INSERT INTO distributed_table SELECT i, i FROM generate_series(0, 5) i; - INSERT INTO reference_table SELECT i, i FROM generate_series(0, 5) i; - - RESET client_min_messages; - END; -$$ LANGUAGE plpgsql; ---------------------------------------------------------------------- ----- SELECT ---- ---------------------------------------------------------------------- -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - --- join between citus local tables and reference tables would succeed -SELECT count(*) FROM citus_local_table, reference_table WHERE citus_local_table.a = reference_table.a; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table, citus_local_table_queries.reference_table_1509003 reference_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) - count ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT * FROM citus_local_table, reference_table WHERE citus_local_table.a = reference_table.a ORDER BY 1,2,3,4 FOR UPDATE; -NOTICE: executing the command locally: SELECT citus_local_table.a, citus_local_table.b, reference_table.a, reference_table.b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table, citus_local_table_queries.reference_table_1509003 reference_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) ORDER BY citus_local_table.a, citus_local_table.b, reference_table.a, reference_table.b FOR UPDATE OF citus_local_table FOR UPDATE OF reference_table - a | b | a | b ---------------------------------------------------------------------- - 0 | 0 | 0 | 0 - 1 | 1 | 1 | 1 - 2 | 2 | 2 | 2 - 3 | 3 | 3 | 3 - 4 | 4 | 4 | 4 - 5 | 5 | 5 | 5 -(6 rows) - --- should work -WITH cte_1 AS - (SELECT * FROM citus_local_table, reference_table WHERE citus_local_table.a = reference_table.a ORDER BY 1,2,3,4 FOR UPDATE) -SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: WITH cte_1 AS (SELECT citus_local_table.a, citus_local_table.b, reference_table.a, reference_table.b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table, citus_local_table_queries.reference_table_1509003 reference_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) ORDER BY citus_local_table.a, citus_local_table.b, reference_table.a, reference_table.b FOR UPDATE OF citus_local_table FOR UPDATE OF reference_table) SELECT count(*) AS count FROM cte_1 cte_1(a, b, a_1, b_1) - count ---------------------------------------------------------------------- - 6 -(1 row) - --- should work as joins are between ctes -WITH cte_citus_local_table AS - (SELECT * FROM citus_local_table), -cte_postgres_local_table AS - (SELECT * FROM postgres_local_table), -cte_distributed_table AS - (SELECT * FROM distributed_table) -SELECT count(*) FROM cte_distributed_table, cte_citus_local_table, cte_postgres_local_table -WHERE cte_citus_local_table.a = 1 AND cte_distributed_table.a = 1; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - --- should fail as we don't support direct joins between distributed/local tables -SELECT count(*) FROM distributed_table d1, distributed_table d2, citus_local_table; -ERROR: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns --- local table inside subquery should just work -SELECT count(*) FROM -( - SELECT * FROM (SELECT * FROM citus_local_table) as subquery_inner -) as subquery_top; -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT subquery_inner.a, subquery_inner.b FROM (SELECT citus_local_table.a, citus_local_table.b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table) subquery_inner) subquery_top - count ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - --- join between citus/postgres local tables should just work -SELECT count(*) FROM -( - SELECT * FROM (SELECT count(*) FROM citus_local_table, postgres_local_table) as subquery_inner -) as subquery_top; -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT subquery_inner.count FROM (SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table, citus_local_table_queries.postgres_local_table) subquery_inner) subquery_top - count ---------------------------------------------------------------------- - 1 -(1 row) - --- should fail as we don't support direct joins between distributed/local tables -SELECT count(*) FROM -( - SELECT *, random() FROM (SELECT *, random() FROM citus_local_table, distributed_table) as subquery_inner -) as subquery_top; -NOTICE: executing the command locally: SELECT NULL::integer AS "dummy-1" FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true - count ---------------------------------------------------------------------- - 36 -(1 row) - --- should fail as we don't support direct joins between distributed/local tables -SELECT count(*) FROM -( - SELECT *, random() - FROM ( - WITH cte_1 AS (SELECT *, random() FROM citus_local_table, distributed_table) SELECT * FROM cte_1) as subquery_inner -) as subquery_top; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT subquery_inner.a, subquery_inner.b, subquery_inner.a_1 AS a, subquery_inner.b_1 AS b, subquery_inner.random, random() AS random FROM (SELECT cte_1.a, cte_1.b, cte_1.a_1 AS a, cte_1.b_1 AS b, cte_1.random FROM (SELECT intermediate_result.a, intermediate_result.b, intermediate_result.a_1 AS a, intermediate_result.b_1 AS b, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer, a_1 integer, b_1 integer, random double precision)) cte_1(a, b, a_1, b_1, random)) subquery_inner(a, b, a_1, b_1, random)) subquery_top(a, b, a_1, b_1, random, random_1) - count ---------------------------------------------------------------------- - 36 -(1 row) - --- should be fine -SELECT count(*) FROM -( - SELECT *, random() - FROM ( - WITH cte_1 AS (SELECT *, random() FROM citus_local_table), cte_2 AS (SELECT * FROM distributed_table) SELECT count(*) FROM cte_1, cte_2 - ) as subquery_inner -) as subquery_top; -NOTICE: executing the command locally: SELECT a, b, random() AS random FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT subquery_inner.count, random() AS random FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) subquery_inner) subquery_top - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - --- prepared statement -PREPARE citus_local_only AS SELECT count(*) FROM citus_local_table; --- execute 6 times, local tables without params -EXECUTE citus_local_only; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - -EXECUTE citus_local_only; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - -EXECUTE citus_local_only; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - -EXECUTE citus_local_only; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - -EXECUTE citus_local_only; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - -EXECUTE citus_local_only; -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - --- execute 6 times, with param -PREPARE citus_local_only_p(int) AS SELECT count(*) FROM citus_local_table WHERE a = $1; -EXECUTE citus_local_only_p(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE citus_local_only_p(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE citus_local_only_p(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE citus_local_only_p(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE citus_local_only_p(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE citus_local_only_p(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - --- do not evalute the function --- show the logs -EXECUTE citus_local_only_p(random()); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE citus_local_only_p(random()); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) $1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -PREPARE mixed_query(int, int, int) AS - WITH cte_citus_local_table AS - (SELECT * FROM citus_local_table WHERE a = $1), - cte_postgres_local_table AS - (SELECT * FROM postgres_local_table WHERE a = $2), - cte_distributed_table AS - (SELECT * FROM distributed_table WHERE a = $3), - cte_mixes AS (SELECT * FROM cte_distributed_table, cte_citus_local_table, cte_postgres_local_table) - SELECT count(*) FROM cte_mixes; -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE mixed_query(1,2,3); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - --- anonymous columns -WITH a AS (SELECT a, '' FROM citus_local_table GROUP BY a) SELECT a.a FROM a ORDER BY 1 LIMIT 5; -NOTICE: executing the command locally: SELECT a FROM (SELECT citus_local_table.a, ''::text FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table GROUP BY citus_local_table.a) a(a, "?column?") ORDER BY a LIMIT 5 - a ---------------------------------------------------------------------- - 0 - 1 - 2 - 3 - 4 -(5 rows) - -WITH a AS (SELECT b, '' FROM citus_local_table WHERE a = 1) SELECT * FROM a, a b ORDER BY 1 LIMIT 5; -NOTICE: executing the command locally: WITH a AS (SELECT citus_local_table.b, ''::text FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) 1)) SELECT a.b, a."?column?", b.b, b."?column?" FROM a a(b, "?column?"), a b(b, "?column?") ORDER BY a.b LIMIT 5 - b | ?column? | b | ?column? ---------------------------------------------------------------------- - 1 | | 1 | -(1 row) - --- weird expression on citus/pg table joins should be fine -SELECT * FROM citus_local_table, postgres_local_table -WHERE citus_local_table.a - postgres_local_table.a = 0 -ORDER BY 1,2,3,4 -LIMIT 10; -NOTICE: executing the command locally: SELECT citus_local_table.a, citus_local_table.b, postgres_local_table.a, postgres_local_table.b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table, citus_local_table_queries.postgres_local_table WHERE ((citus_local_table.a OPERATOR(pg_catalog.-) postgres_local_table.a) OPERATOR(pg_catalog.=) 0) ORDER BY citus_local_table.a, citus_local_table.b, postgres_local_table.a, postgres_local_table.b LIMIT 10 - a | b | a | b ---------------------------------------------------------------------- - 0 | 0 | 0 | 0 - 1 | 1 | 1 | 1 - 2 | 2 | 2 | 2 - 3 | 3 | 3 | 3 - 4 | 4 | 4 | 4 - 5 | 5 | 5 | 5 -(6 rows) - --- set operations should just work -SELECT * FROM citus_local_table UNION SELECT * FROM postgres_local_table UNION SELECT * FROM distributed_table ORDER BY 1,2; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -NOTICE: executing the command locally: SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) UNION SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) UNION SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ORDER BY 1, 2 - a | b ---------------------------------------------------------------------- - 0 | 0 - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(6 rows) - -(SELECT * FROM citus_local_table ORDER BY 1,2 LIMIT 5) INTERSECT (SELECT i, i FROM generate_series(0, 100) i) ORDER BY 1, 2; -NOTICE: executing the command locally: (SELECT citus_local_table.a, citus_local_table.b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table ORDER BY citus_local_table.a, citus_local_table.b LIMIT 5) INTERSECT SELECT i.i, i.i FROM generate_series(0, 100) i(i) ORDER BY 1, 2 - a | b ---------------------------------------------------------------------- - 0 | 0 - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 -(5 rows) - --- should just work as recursive planner kicks in -SELECT count(*) FROM distributed_table WHERE a IN (SELECT a FROM citus_local_table); -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - count ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT count(*) FROM citus_local_table WHERE a IN (SELECT a FROM distributed_table); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer))) - count ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT count(*) FROM reference_table WHERE a IN (SELECT a FROM citus_local_table); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.reference_table_1509003 reference_table WHERE (a OPERATOR(pg_catalog.=) ANY (SELECT citus_local_table.a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table)) - count ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT count(*) FROM citus_local_table WHERE a IN (SELECT a FROM reference_table); -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) ANY (SELECT reference_table.a FROM citus_local_table_queries.reference_table_1509003 reference_table)) - count ---------------------------------------------------------------------- - 6 -(1 row) - --- nested recursive queries should just work -SELECT count(*) FROM citus_local_table - WHERE a IN - (SELECT a FROM distributed_table WHERE a IN - (SELECT b FROM citus_local_table WHERE b IN (SELECT b FROM postgres_local_table))); -NOTICE: executing the command locally: SELECT b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (b OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(b integer))) -NOTICE: executing the command locally: SELECT count(*) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.a FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(a integer))) - count ---------------------------------------------------------------------- - 6 -(1 row) - --- local outer joins -SELECT count(*) FROM citus_local_table LEFT JOIN reference_table ON (true); -NOTICE: executing the command locally: SELECT count(*) AS count FROM (citus_local_table_queries.citus_local_table_1509001 citus_local_table LEFT JOIN citus_local_table_queries.reference_table_1509003 reference_table ON (true)) - count ---------------------------------------------------------------------- - 36 -(1 row) - -SELECT count(*) FROM reference_table - LEFT JOIN citus_local_table ON (true) - LEFT JOIN postgres_local_table ON (true) - LEFT JOIN reference_table r2 ON (true); -NOTICE: executing the command locally: SELECT count(*) AS count FROM (((citus_local_table_queries.reference_table_1509003 reference_table LEFT JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) LEFT JOIN citus_local_table_queries.postgres_local_table ON (true)) LEFT JOIN citus_local_table_queries.reference_table_1509003 r2 ON (true)) - count ---------------------------------------------------------------------- - 1296 -(1 row) - -SELECT count(*) FROM citus_local_table LEFT JOIN distributed_table ON (true); -NOTICE: executing the command locally: SELECT NULL::integer AS "dummy-1" FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM ((SELECT NULL::integer AS a, NULL::integer AS b FROM (SELECT intermediate_result."dummy-1" FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result("dummy-1" integer)) citus_local_table_1) citus_local_table LEFT JOIN (SELECT NULL::integer AS a, NULL::integer AS b FROM (SELECT intermediate_result."dummy-1" FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result("dummy-1" integer)) distributed_table_1) distributed_table ON (true)) - count ---------------------------------------------------------------------- - 36 -(1 row) - --- distinct in subquery on CTE -WITH one_row AS ( - SELECT a from citus_local_table WHERE b = 1 -) -SELECT - * -FROM - distributed_table -WHERE - b IN (SELECT DISTINCT a FROM one_row) -ORDER BY - 1, 2 -LIMIT - 1; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (b OPERATOR(pg_catalog.=) 1) - a | b ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -WITH one_row_2 AS ( - SELECT a from distributed_table WHERE b = 1 -) -SELECT - * -FROM - citus_local_table -WHERE - b IN (SELECT DISTINCT a FROM one_row_2) -ORDER BY - 1 ,2 -LIMIT - 1; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (b OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer))) ORDER BY a, b LIMIT 1 - a | b ---------------------------------------------------------------------- - 1 | 1 -(1 row) - --- join between citus local tables and distributed tables would fail -SELECT count(*) FROM citus_local_table, distributed_table; -NOTICE: executing the command locally: SELECT NULL::integer AS "dummy-1" FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true - count ---------------------------------------------------------------------- - 36 -(1 row) - -SELECT * FROM citus_local_table, distributed_table ORDER BY 1,2,3,4 FOR UPDATE; -ERROR: could not run distributed query with FOR UPDATE/SHARE commands --- join between citus local tables and postgres local tables are okey -SELECT count(citus_local_table.b), count(postgres_local_table.a) -FROM citus_local_table, postgres_local_table -WHERE citus_local_table.a = postgres_local_table.b; -NOTICE: executing the command locally: SELECT count(citus_local_table.b) AS count, count(postgres_local_table.a) AS count FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table, citus_local_table_queries.postgres_local_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) postgres_local_table.b) - count | count ---------------------------------------------------------------------- - 6 | 6 -(1 row) - --- select for update is just OK -SELECT * FROM citus_local_table ORDER BY 1,2 FOR UPDATE; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table ORDER BY a, b FOR UPDATE OF citus_local_table - a | b ---------------------------------------------------------------------- - 0 | 0 - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(6 rows) - ---------------------------------------------------------------------- ------ INSERT SELECT ----- ---------------------------------------------------------------------- --- simple INSERT SELECT is OK -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO citus_local_table -SELECT * from reference_table; -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a, b) SELECT a, b FROM citus_local_table_queries.reference_table_1509003 reference_table -INSERT INTO reference_table -SELECT * from citus_local_table; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO citus_local_table -SELECT * from distributed_table; -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO distributed_table -SELECT * from citus_local_table; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -INSERT INTO citus_local_table -SELECT * from citus_local_table_2; -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a, b) SELECT a, b FROM citus_local_table_queries.citus_local_table_2_1509002 citus_local_table_2 -INSERT INTO citus_local_table -SELECT sum(a), b from citus_local_table_2 -GROUP BY b; -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a, b) SELECT sum(a) AS sum, b FROM citus_local_table_queries.citus_local_table_2_1509002 citus_local_table_2 GROUP BY b -INSERT INTO citus_local_table -SELECT * from postgres_local_table; -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO postgres_local_table -SELECT * from citus_local_table; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table --- INSERT SELECT with local joins are OK -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO citus_local_table -SELECT reference_table.* FROM reference_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a, b) SELECT reference_table.a, reference_table.b FROM (citus_local_table_queries.reference_table_1509003 reference_table JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) -INSERT INTO reference_table -SELECT reference_table.* FROM reference_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: SELECT reference_table.a, reference_table.b FROM (citus_local_table_queries.reference_table_1509003 reference_table JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO reference_table -SELECT reference_table.* FROM reference_table, postgres_local_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: SELECT reference_table.a, reference_table.b FROM citus_local_table_queries.reference_table_1509003 reference_table, (citus_local_table_queries.postgres_local_table JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) -NOTICE: executing the copy locally for shard xxxxx -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO distributed_table -SELECT reference_table.* FROM reference_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: SELECT reference_table.a, reference_table.b FROM (citus_local_table_queries.reference_table_1509003 reference_table JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) -INSERT INTO distributed_table -SELECT reference_table.* FROM reference_table, postgres_local_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: SELECT reference_table.a, reference_table.b FROM citus_local_table_queries.reference_table_1509003 reference_table, (citus_local_table_queries.postgres_local_table JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) -INSERT INTO postgres_local_table -SELECT reference_table.* FROM reference_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: SELECT reference_table.a, reference_table.b FROM (citus_local_table_queries.reference_table_1509003 reference_table JOIN citus_local_table_queries.citus_local_table_1509001 citus_local_table ON (true)) --- INSERT SELECT that joins reference and distributed tables is also OK -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO citus_local_table -SELECT reference_table.* FROM reference_table -JOIN distributed_table ON (true); -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO citus_local_table -SELECT reference_table.* -FROM reference_table, distributed_table; -NOTICE: executing the copy locally for shard xxxxx --- INSERT SELECT that joins citus local and distributed table directly will fail .. -INSERT INTO citus_local_table -SELECT distributed_table.* FROM distributed_table -JOIN citus_local_table ON (true); -NOTICE: executing the command locally: SELECT NULL::integer AS "dummy-1" FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -NOTICE: executing the copy locally for shard xxxxx --- .. but when wrapped into a CTE, join works fine -INSERT INTO citus_local_table -SELECT distributed_table.* FROM distributed_table -JOIN (WITH cte AS (SELECT * FROM citus_local_table) SELECT * FROM cte) as foo ON (true); -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -NOTICE: executing the copy locally for shard xxxxx --- multi row insert is OK -INSERT INTO citus_local_table VALUES (1, 2), (3, 4); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a, b) VALUES (1,2), (3,4) ---------------------------------------------------------------------- ------ DELETE / UPDATE ----- ---------------------------------------------------------------------- --- modifications using citus local tables and postgres local tables --- are not supported, see below four tests -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - -DELETE FROM citus_local_table -USING postgres_local_table -WHERE citus_local_table.b = postgres_local_table.b; -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table USING citus_local_table_queries.postgres_local_table WHERE (citus_local_table.b OPERATOR(pg_catalog.=) postgres_local_table.b) -UPDATE citus_local_table -SET b = 5 -FROM postgres_local_table -WHERE citus_local_table.a = 3 AND citus_local_table.b = postgres_local_table.b; -NOTICE: executing the command locally: UPDATE citus_local_table_queries.citus_local_table_1509001 citus_local_table SET b = 5 FROM citus_local_table_queries.postgres_local_table WHERE ((citus_local_table.a OPERATOR(pg_catalog.=) 3) AND (citus_local_table.b OPERATOR(pg_catalog.=) postgres_local_table.b)) -DELETE FROM postgres_local_table -USING citus_local_table -WHERE citus_local_table.b = postgres_local_table.b; -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.postgres_local_table USING citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (citus_local_table.b OPERATOR(pg_catalog.=) postgres_local_table.b) -UPDATE postgres_local_table -SET b = 5 -FROM citus_local_table -WHERE citus_local_table.a = 3 AND citus_local_table.b = postgres_local_table.b; -NOTICE: executing the command locally: UPDATE citus_local_table_queries.postgres_local_table SET b = 5 FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE ((citus_local_table.a OPERATOR(pg_catalog.=) 3) AND (citus_local_table.b OPERATOR(pg_catalog.=) postgres_local_table.b)) --- no direct joins supported -UPDATE distributed_table -SET b = 6 -FROM citus_local_table -WHERE citus_local_table.a = distributed_table.a; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -UPDATE reference_table -SET b = 6 -FROM citus_local_table -WHERE citus_local_table.a = reference_table.a; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -NOTICE: executing the command locally: UPDATE citus_local_table_queries.reference_table_1509003 reference_table SET b = 6 FROM (SELECT citus_local_table_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) citus_local_table_1) citus_local_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) --- should not work, add HINT use CTEs -UPDATE citus_local_table -SET b = 6 -FROM distributed_table -WHERE citus_local_table.a = distributed_table.a; -NOTICE: executing the command locally: UPDATE citus_local_table_queries.citus_local_table_1509001 citus_local_table SET b = 6 FROM (SELECT distributed_table_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) distributed_table_1) distributed_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) distributed_table.a) --- should work, add HINT use CTEs -UPDATE citus_local_table -SET b = 6 -FROM reference_table -WHERE citus_local_table.a = reference_table.a; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.reference_table_1509003 reference_table WHERE true -NOTICE: executing the command locally: UPDATE citus_local_table_queries.citus_local_table_1509001 citus_local_table SET b = 6 FROM (SELECT reference_table_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) reference_table_1) reference_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) --- should not work, add HINT use CTEs -DELETE FROM distributed_table -USING citus_local_table -WHERE citus_local_table.a = distributed_table.a; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true --- should not work, add HINT use CTEs -DELETE FROM citus_local_table -USING distributed_table -WHERE citus_local_table.a = distributed_table.a; -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table USING (SELECT distributed_table_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) distributed_table_1) distributed_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) distributed_table.a) -DELETE FROM reference_table -USING citus_local_table -WHERE citus_local_table.a = reference_table.a; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.reference_table_1509003 reference_table USING (SELECT citus_local_table_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) citus_local_table_1) citus_local_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) --- should work, add HINT use CTEs -DELETE FROM citus_local_table -USING reference_table -WHERE citus_local_table.a = reference_table.a; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.reference_table_1509003 reference_table WHERE true -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table USING (SELECT reference_table_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) reference_table_1) reference_table WHERE (citus_local_table.a OPERATOR(pg_catalog.=) reference_table.a) --- just works -DELETE FROM citus_local_table -WHERE citus_local_table.a IN (SELECT a FROM distributed_table); -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer))) --- just works -DELETE FROM citus_local_table -WHERE citus_local_table.a IN (SELECT a FROM reference_table); -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.reference_table_1509003 reference_table -NOTICE: executing the command locally: DELETE FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE (a OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer))) --- just works -WITH distributed_table_cte AS (SELECT * FROM distributed_table) -UPDATE citus_local_table -SET b = 6 -FROM distributed_table_cte -WHERE citus_local_table.a = distributed_table_cte.a; -NOTICE: executing the command locally: UPDATE citus_local_table_queries.citus_local_table_1509001 citus_local_table SET b = 6 FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) distributed_table_cte WHERE (citus_local_table.a OPERATOR(pg_catalog.=) distributed_table_cte.a) -SET citus.log_local_commands to off; --- just works -WITH reference_table_cte AS (SELECT * FROM reference_table) -UPDATE citus_local_table -SET b = 6 -FROM reference_table_cte -WHERE citus_local_table.a = reference_table_cte.a; -set citus.log_local_commands to on; ---------------------------------------------------------------------- ------ VIEW QUERIES ----- ---------------------------------------------------------------------- -CREATE MATERIALIZED VIEW mat_view_4 AS -SELECT count(*) -FROM citus_local_table -JOIN reference_table -USING (a); -NOTICE: executing the command locally: SELECT count(*) AS count FROM (citus_local_table_queries.citus_local_table_1509001 citus_local_table(a, b) JOIN citus_local_table_queries.reference_table_1509003 reference_table(a, b) USING (a)) --- ok -SELECT count(*) FROM mat_view_4; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- should work -SELECT count(*) FROM distributed_table WHERE b in -(SELECT count FROM mat_view_4); - count ---------------------------------------------------------------------- - 1 -(1 row) - -CREATE VIEW view_2 AS -SELECT count(*) -FROM citus_local_table -JOIN citus_local_table_2 USING (a) -JOIN distributed_table USING (a); --- should fail as view contains direct local dist join -SELECT count(*) FROM view_2; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table WHERE true -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_2_1509002 citus_local_table_2 WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) view_2 - count ---------------------------------------------------------------------- - 1 -(1 row) - -CREATE VIEW view_3 -AS SELECT count(*) -FROM citus_local_table_2 -JOIN reference_table -USING (a); --- ok -SELECT count(*) FROM view_3; -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT count(*) AS count FROM (citus_local_table_queries.citus_local_table_2_1509002 citus_local_table_2(a, b) JOIN citus_local_table_queries.reference_table_1509003 reference_table(a, b) USING (a))) view_3 - count ---------------------------------------------------------------------- - 1 -(1 row) - --- view treated as subquery, so should work -SELECT count(*) FROM view_3, distributed_table; -NOTICE: executing the command locally: SELECT a FROM citus_local_table_queries.citus_local_table_2_1509002 citus_local_table_2 WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM ((SELECT citus_local_table_2_1.a, NULL::integer AS b FROM (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) citus_local_table_2_1) citus_local_table_2 JOIN citus_local_table_queries.reference_table_1509003 reference_table(a, b) USING (a)) - count ---------------------------------------------------------------------- - 6 -(1 row) - ---------------------------------------------------------------------- --- Some other tests with subqueries & CTE's -- ---------------------------------------------------------------------- -SELECT clear_and_init_test_tables(); - clear_and_init_test_tables ---------------------------------------------------------------------- - -(1 row) - -SELECT count(*) AS a, count(*) AS b -FROM reference_table -JOIN (SELECT count(*) as a, count(*) as b - FROM citus_local_table_2 - JOIN (SELECT count(*) as a, count(*) as b - FROM postgres_local_table - JOIN (SELECT count(*) as a, count(*) as b - FROM reference_table as table_4677) subquery5108 - USING (a)) subquery7132 - USING (b)) subquery7294 -USING (a); -NOTICE: executing the command locally: SELECT count(*) AS a, count(*) AS b FROM (citus_local_table_queries.reference_table_1509003 reference_table(a, b) JOIN (SELECT count(*) AS a, count(*) AS b FROM (citus_local_table_queries.citus_local_table_2_1509002 citus_local_table_2(a, b) JOIN (SELECT count(*) AS a, count(*) AS b FROM (citus_local_table_queries.postgres_local_table JOIN (SELECT count(*) AS a, count(*) AS b FROM citus_local_table_queries.reference_table_1509003 table_4677) subquery5108 USING (a))) subquery7132 USING (b))) subquery7294 USING (a)) - a | b ---------------------------------------------------------------------- - 1 | 1 -(1 row) - --- direct join inside CTE not supported -WITH cte AS ( -UPDATE citus_local_table lt SET a = mt.a -FROM distributed_table mt WHERE mt.b = lt.b -RETURNING lt.b, lt.a -) SELECT * FROM cte JOIN distributed_table mt ON mt.b = cte.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: UPDATE citus_local_table_queries.citus_local_table_1509001 lt SET a = mt.a FROM (SELECT mt_1.a, mt_1.b FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) mt_1) mt WHERE (mt.b OPERATOR(pg_catalog.=) lt.b) RETURNING lt.b, lt.a - b | a | a | b ---------------------------------------------------------------------- - 0 | 0 | 0 | 0 - 1 | 1 | 1 | 1 - 2 | 2 | 2 | 2 - 3 | 3 | 3 | 3 - 4 | 4 | 4 | 4 - 5 | 5 | 5 | 5 -(6 rows) - --- join with CTE just works -UPDATE citus_local_table -SET a=5 -FROM (SELECT avg(distributed_table.b) as avg_b - FROM distributed_table) as foo -WHERE -foo.avg_b = citus_local_table.b; -NOTICE: executing the command locally: UPDATE citus_local_table_queries.citus_local_table_1509001 citus_local_table SET a = 5 FROM (SELECT intermediate_result.avg_b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(avg_b numeric)) foo WHERE (foo.avg_b OPERATOR(pg_catalog.=) (citus_local_table.b)::numeric) --- should work -UPDATE distributed_table -SET b = avg_a -FROM (SELECT avg(citus_local_table.a) as avg_a FROM citus_local_table) as foo -WHERE foo.avg_a = distributed_table.a -RETURNING distributed_table.*; -NOTICE: executing the command locally: SELECT avg(a) AS avg_a FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table - a | b ---------------------------------------------------------------------- -(0 rows) - --- it is unfortunate that recursive planner cannot detect this --- but expected to not work -UPDATE citus_local_table -SET a=5 -FROM (SELECT b FROM distributed_table) AS foo -WHERE foo.b = citus_local_table.b; -ERROR: local table citus_local_table cannot be joined with these distributed tables ---------------------------------------------------------------------- --- test different execution paths -- ---------------------------------------------------------------------- --- a bit different explain output than for postgres local tables -EXPLAIN (COSTS FALSE) -INSERT INTO citus_local_table -SELECT * FROM distributed_table -ORDER BY distributed_table.* -LIMIT 10; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Limit - -> Sort - Sort Key: remote_scan.worker_column_3 - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Limit - -> Sort - Sort Key: distributed_table.* - -> Seq Scan on distributed_table_1509004 distributed_table -(14 rows) - --- show that we do not pull to coordinator -EXPLAIN (COSTS FALSE) -INSERT INTO citus_local_table -SELECT * FROM citus_local_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Insert on citus_local_table_1509001 citus_table_alias - -> Seq Scan on citus_local_table_1509001 citus_local_table -(7 rows) - -EXPLAIN (COSTS FALSE) -INSERT INTO citus_local_table -SELECT reference_table.* FROM reference_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Insert on citus_local_table_1509001 citus_table_alias - -> Seq Scan on reference_table_1509003 reference_table -(7 rows) - -EXPLAIN (COSTS FALSE) -INSERT INTO citus_local_table -SELECT reference_table.* FROM reference_table, postgres_local_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Nested Loop - -> Seq Scan on reference_table_1509003 reference_table - -> Materialize - -> Seq Scan on postgres_local_table -(11 rows) - --- show that we pull to coordinator when a distributed table is involved -EXPLAIN (COSTS FALSE) -INSERT INTO citus_local_table -SELECT reference_table.* FROM reference_table, distributed_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Nested Loop - -> Seq Scan on distributed_table_1509004 distributed_table - -> Materialize - -> Seq Scan on reference_table_1509003 reference_table -(11 rows) - --- truncate tables & add unique constraints to be able to define foreign keys -TRUNCATE reference_table, citus_local_table, distributed_table; -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.reference_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.citus_local_table_xxxxx CASCADE -ALTER TABLE reference_table ADD CONSTRAINT pkey_ref PRIMARY KEY (a); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1509003, 'citus_local_table_queries', 'ALTER TABLE reference_table ADD CONSTRAINT pkey_ref PRIMARY KEY (a);') -ALTER TABLE citus_local_table ADD CONSTRAINT pkey_c PRIMARY KEY (a); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1509001, 'citus_local_table_queries', 'ALTER TABLE citus_local_table ADD CONSTRAINT pkey_c PRIMARY KEY (a);') --- define a foreign key chain distributed table -> reference table -> citus local table --- to test sequential execution -ALTER TABLE distributed_table ADD CONSTRAINT fkey_dist_to_ref FOREIGN KEY(a) REFERENCES reference_table(a) ON DELETE RESTRICT; -ALTER TABLE reference_table ADD CONSTRAINT fkey_ref_to_local FOREIGN KEY(a) REFERENCES citus_local_table(a) ON DELETE RESTRICT; -NOTICE: executing the command locally: SELECT worker_apply_inter_shard_ddl_command (1509003, 'citus_local_table_queries', 1509001, 'citus_local_table_queries', 'ALTER TABLE reference_table ADD CONSTRAINT fkey_ref_to_local FOREIGN KEY(a) REFERENCES citus_local_table(a) ON DELETE RESTRICT;') -INSERT INTO citus_local_table VALUES (1); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 (a) VALUES (1) -INSERT INTO reference_table VALUES (1); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.reference_table_1509003 (a) VALUES (1) -BEGIN; - INSERT INTO citus_local_table VALUES (1) ON CONFLICT (a) DO NOTHING; -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a) VALUES (1) ON CONFLICT(a) DO NOTHING - INSERT INTO distributed_table VALUES (1); - -- should show sequential as first inserting into citus local table - -- would force the xact block to use sequential execution - show citus.multi_shard_modify_mode; - citus.multi_shard_modify_mode ---------------------------------------------------------------------- - sequential -(1 row) - -ROLLBACK; -BEGIN; - TRUNCATE distributed_table; - -- should error out as we truncated distributed_table via parallel execution - TRUNCATE citus_local_table CASCADE; -NOTICE: truncate cascades to table "reference_table" -NOTICE: truncate cascades to table "distributed_table" -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.citus_local_table_xxxxx CASCADE -ERROR: cannot execute DDL on table "citus_local_table" because there was a parallel DDL access to distributed table "distributed_table" in the same transaction -ROLLBACK; -BEGIN; - SET LOCAL citus.multi_shard_modify_mode TO 'sequential'; - TRUNCATE distributed_table; - -- should work fine as we already switched to sequential execution - -- before parallel truncate - TRUNCATE citus_local_table CASCADE; -NOTICE: truncate cascades to table "reference_table" -NOTICE: truncate cascades to table "distributed_table" -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.citus_local_table_xxxxx CASCADE -NOTICE: truncate cascades to table "reference_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.reference_table_xxxxx CASCADE -ROLLBACK; -ALTER TABLE distributed_table DROP CONSTRAINT fkey_dist_to_ref; -BEGIN; - INSERT INTO citus_local_table VALUES (1) ON CONFLICT (a) DO NOTHING; -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a) VALUES (1) ON CONFLICT(a) DO NOTHING - show citus.multi_shard_modify_mode; - citus.multi_shard_modify_mode ---------------------------------------------------------------------- - sequential -(1 row) - -ROLLBACK; --- remove uniqueness constraint and dependent foreign key constraint for next tests -ALTER TABLE reference_table DROP CONSTRAINT fkey_ref_to_local; -NOTICE: executing the command locally: SELECT worker_apply_inter_shard_ddl_command (1509003, 'citus_local_table_queries', 1509001, 'citus_local_table_queries', 'ALTER TABLE reference_table DROP CONSTRAINT fkey_ref_to_local;') -ALTER TABLE citus_local_table DROP CONSTRAINT pkey_c; -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1509001, 'citus_local_table_queries', 'ALTER TABLE citus_local_table DROP CONSTRAINT pkey_c;') -COPY citus_local_table(a) FROM PROGRAM 'seq 1'; --- should use local execution -BEGIN; - COPY citus_local_table(a) FROM PROGRAM 'seq 1'; -NOTICE: executing the copy locally for shard xxxxx - COPY citus_local_table(a) FROM PROGRAM 'seq 1'; -NOTICE: executing the copy locally for shard xxxxx -COMMIT; -COPY citus_local_table TO STDOUT; -1 \N -1 \N -1 \N -1 \N -COPY (SELECT * FROM citus_local_table) TO STDOUT; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -1 \N -1 \N -1 \N -1 \N -BEGIN; - COPY citus_local_table TO STDOUT; -1 \N -1 \N -1 \N -1 \N -COMMIT; -BEGIN; - COPY (SELECT * FROM citus_local_table) TO STDOUT; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table -1 \N -1 \N -1 \N -1 \N -COMMIT; --- truncate test tables for next test -TRUNCATE citus_local_table, reference_table, distributed_table; -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.citus_local_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE citus_local_table_queries.reference_table_xxxxx CASCADE -BEGIN; - INSERT INTO citus_local_table VALUES (1), (2); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a) VALUES (1), (2) - SAVEPOINT sp1; - INSERT INTO citus_local_table VALUES (3), (4); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a) VALUES (3), (4) - ROLLBACK TO SAVEPOINT sp1; - SELECT * FROM citus_local_table ORDER BY 1,2; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table ORDER BY a, b - a | b ---------------------------------------------------------------------- - 1 | - 2 | -(2 rows) - - SAVEPOINT sp2; - INSERT INTO citus_local_table VALUES (3), (4); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a) VALUES (3), (4) - INSERT INTO distributed_table VALUES (3), (4); - ROLLBACK TO SAVEPOINT sp2; - SELECT * FROM citus_local_table ORDER BY 1,2; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table ORDER BY a, b - a | b ---------------------------------------------------------------------- - 1 | - 2 | -(2 rows) - - SELECT * FROM distributed_table ORDER BY 1,2; - a | b ---------------------------------------------------------------------- -(0 rows) - - SAVEPOINT sp3; - INSERT INTO citus_local_table VALUES (3), (2); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.citus_local_table_1509001 AS citus_table_alias (a) VALUES (3), (2) - INSERT INTO reference_table VALUES (3), (2); -NOTICE: executing the command locally: INSERT INTO citus_local_table_queries.reference_table_1509003 AS citus_table_alias (a) VALUES (3), (2) - ROLLBACK TO SAVEPOINT sp3; - SELECT * FROM citus_local_table ORDER BY 1,2; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.citus_local_table_1509001 citus_local_table ORDER BY a, b - a | b ---------------------------------------------------------------------- - 1 | - 2 | -(2 rows) - - SELECT * FROM reference_table ORDER BY 1,2; -NOTICE: executing the command locally: SELECT a, b FROM citus_local_table_queries.reference_table_1509003 reference_table ORDER BY a, b - a | b ---------------------------------------------------------------------- -(0 rows) - -COMMIT; --- cleanup at exit -DROP SCHEMA citus_local_table_queries CASCADE; -NOTICE: drop cascades to 14 other objects diff --git a/src/test/regress/expected/columnar_pg15.out b/src/test/regress/expected/columnar_pg15.out index 2ad95fcaf..62d2de2dc 100644 --- a/src/test/regress/expected/columnar_pg15.out +++ b/src/test/regress/expected/columnar_pg15.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif CREATE TABLE alter_am(i int); INSERT INTO alter_am SELECT generate_series(1,1000000); SELECT * FROM columnar.options WHERE relation = 'alter_am'::regclass; diff --git a/src/test/regress/expected/columnar_pg15_0.out b/src/test/regress/expected/columnar_pg15_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/columnar_pg15_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/columnar_vacuum_vs_insert.out b/src/test/regress/expected/columnar_vacuum_vs_insert.out index f229c4c71..0d88e8a04 100644 --- a/src/test/regress/expected/columnar_vacuum_vs_insert.out +++ b/src/test/regress/expected/columnar_vacuum_vs_insert.out @@ -55,7 +55,7 @@ step s1-commit: COMMIT; s2: INFO: vacuuming "public.test_vacuum_vs_insert" -s2: INFO: "test_vacuum_vs_insert": found 0 removable, 6 nonremovable row versions in 4 pages +s2: INFO: "public.test_vacuum_vs_insert": found 0 removable, 6 nonremovable row versions in 4 pages DETAIL: 0 dead row versions cannot be removed yet. step s2-vacuum-full: <... completed> step s2-select: diff --git a/src/test/regress/expected/coordinator_shouldhaveshards.out b/src/test/regress/expected/coordinator_shouldhaveshards.out index 047827dd8..6f24614ba 100644 --- a/src/test/regress/expected/coordinator_shouldhaveshards.out +++ b/src/test/regress/expected/coordinator_shouldhaveshards.out @@ -3,17 +3,6 @@ -- -- Test queries on a distributed table with shards on the coordinator -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA coordinator_shouldhaveshards; SET search_path TO coordinator_shouldhaveshards; SET citus.next_shard_id TO 1503000; diff --git a/src/test/regress/expected/coordinator_shouldhaveshards_0.out b/src/test/regress/expected/coordinator_shouldhaveshards_0.out deleted file mode 100644 index 00ccedb15..000000000 --- a/src/test/regress/expected/coordinator_shouldhaveshards_0.out +++ /dev/null @@ -1,1190 +0,0 @@ --- --- COORDINATOR_SHOULDHAVESHARDS --- --- Test queries on a distributed table with shards on the coordinator --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA coordinator_shouldhaveshards; -SET search_path TO coordinator_shouldhaveshards; -SET citus.next_shard_id TO 1503000; -SET citus.next_placement_id TO 1503000; --- idempotently add node to allow this test to run without add_coordinator -SET client_min_messages TO WARNING; -SELECT 1 FROM master_add_node('localhost', :master_port, groupid => 0); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -RESET client_min_messages; -SELECT 1 FROM master_set_node_property('localhost', :master_port, 'shouldhaveshards', true); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -SET citus.shard_replication_factor TO 1; -CREATE TABLE test (x int, y int); -SELECT create_distributed_table('test','x', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT count(*) FROM pg_dist_shard JOIN pg_dist_placement USING (shardid) -WHERE logicalrelid = 'test'::regclass AND groupid = 0; - count ---------------------------------------------------------------------- - 2 -(1 row) - ---- enable logging to see which tasks are executed locally -SET client_min_messages TO LOG; -SET citus.log_local_commands TO ON; --- INSERT..SELECT with COPY under the covers -INSERT INTO test SELECT s,s FROM generate_series(2,100) s; -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx --- router queries execute locally -INSERT INTO test VALUES (1, 1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.test_1503000 (x, y) VALUES (1, 1) -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - --- multi-shard queries connect to localhost -SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 100 -(1 row) - -WITH a AS (SELECT * FROM test) SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 100 -(1 row) - --- multi-shard queries in transaction blocks execute locally -BEGIN; -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -END; -BEGIN; -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -END; --- INSERT..SELECT with re-partitioning after local execution -BEGIN; -INSERT INTO test VALUES (0,1000); -CREATE TABLE repart_test (x int primary key, y int); -SELECT create_distributed_table('repart_test','x', colocate_with := 'none'); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503004, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.repart_test (x integer NOT NULL, y integer) USING heap');SELECT worker_apply_shard_ddl_command (1503004, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.repart_test OWNER TO postgres');SELECT worker_apply_shard_ddl_command (1503004, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.repart_test ADD CONSTRAINT repart_test_pkey PRIMARY KEY (x)') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503007, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.repart_test (x integer NOT NULL, y integer) USING heap');SELECT worker_apply_shard_ddl_command (1503007, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.repart_test OWNER TO postgres');SELECT worker_apply_shard_ddl_command (1503007, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.repart_test ADD CONSTRAINT repart_test_pkey PRIMARY KEY (x)') - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO repart_test (x, y) SELECT y, x FROM test; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503000_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503000_to','SELECT y AS x, x AS y FROM coordinator_shouldhaveshards.test_1503000 test WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503003_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503003_to','SELECT y AS x, x AS y FROM coordinator_shouldhaveshards.test_1503003 test WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.repart_test_1503004 AS citus_table_alias (x, y) SELECT x, y FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1503000_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(x integer, y integer) -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.repart_test_1503007 AS citus_table_alias (x, y) SELECT x, y FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1503003_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(x integer, y integer) -SELECT y FROM repart_test WHERE x = 1000; - y ---------------------------------------------------------------------- - 0 -(1 row) - -INSERT INTO repart_test (x, y) SELECT y, x FROM test ON CONFLICT (x) DO UPDATE SET y = -1; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503000_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503000_to','SELECT y AS x, x AS y FROM coordinator_shouldhaveshards.test_1503000 test WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503003_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503003_to','SELECT y AS x, x AS y FROM coordinator_shouldhaveshards.test_1503003 test WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.repart_test_1503004 AS citus_table_alias (x, y) SELECT x, y FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1503000_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(x integer, y integer) ON CONFLICT(x) DO UPDATE SET y = '-1'::integer -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.repart_test_1503007 AS citus_table_alias (x, y) SELECT x, y FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1503003_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(x integer, y integer) ON CONFLICT(x) DO UPDATE SET y = '-1'::integer -SELECT y FROM repart_test WHERE x = 1000; - y ---------------------------------------------------------------------- - -1 -(1 row) - -ROLLBACK; --- INSERT..SELECT with re-partitioning in EXPLAIN ANALYZE after local execution -BEGIN; -INSERT INTO test VALUES (0,1000); -EXPLAIN (COSTS FALSE, ANALYZE TRUE, TIMING FALSE, SUMMARY FALSE) INSERT INTO test (x, y) SELECT y, x FROM test; -ERROR: EXPLAIN ANALYZE is currently not supported for INSERT ... SELECT commands with repartitioning -ROLLBACK; --- DDL connects to locahost -ALTER TABLE test ADD COLUMN z int; --- DDL after local execution -BEGIN; -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - -ALTER TABLE test DROP COLUMN z; -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503000, 'coordinator_shouldhaveshards', 'ALTER TABLE test DROP COLUMN z;') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503003, 'coordinator_shouldhaveshards', 'ALTER TABLE test DROP COLUMN z;') -ROLLBACK; -BEGIN; -ALTER TABLE test DROP COLUMN z; -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503000, 'coordinator_shouldhaveshards', 'ALTER TABLE test DROP COLUMN z;') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503003, 'coordinator_shouldhaveshards', 'ALTER TABLE test DROP COLUMN z;') -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - -END; -SET citus.shard_count TO 6; -SET citus.log_remote_commands TO OFF; -BEGIN; -SET citus.log_local_commands TO ON; -CREATE TABLE dist_table (a int); -INSERT INTO dist_table SELECT * FROM generate_series(1, 100); --- trigger local execution -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - --- this should be run locally -SELECT create_distributed_table('dist_table', 'a', colocate_with := 'none'); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503008, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503008, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503011, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503011, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table OWNER TO postgres') -NOTICE: executing the copy locally for shard xxxxx -NOTICE: Copying data from local table... -NOTICE: executing the copy locally for shard xxxxx -NOTICE: copying the data has completed -DETAIL: The local data in the table is no longer visible, but is still on disk. -HINT: To remove the local data, run: SELECT truncate_local_data_after_distributing_table($$coordinator_shouldhaveshards.dist_table$$) - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT count(*) FROM dist_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.dist_table_1503008 dist_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.dist_table_1503011 dist_table WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -ROLLBACK; -CREATE TABLE dist_table (a int); -INSERT INTO dist_table SELECT * FROM generate_series(1, 100); -BEGIN; -SET citus.log_local_commands TO ON; --- trigger local execution -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - --- this should be run locally -SELECT create_distributed_table('dist_table', 'a', colocate_with := 'none'); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503014, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503014, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503017, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503017, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table OWNER TO postgres') -NOTICE: executing the copy locally for shard xxxxx -NOTICE: Copying data from local table... -NOTICE: executing the copy locally for shard xxxxx -NOTICE: copying the data has completed -DETAIL: The local data in the table is no longer visible, but is still on disk. -HINT: To remove the local data, run: SELECT truncate_local_data_after_distributing_table($$coordinator_shouldhaveshards.dist_table$$) - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT count(*) FROM dist_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.dist_table_1503014 dist_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.dist_table_1503017 dist_table WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -ROLLBACK; --- repartition queries should work fine -SET citus.enable_repartition_joins TO ON; -SELECT count(*) FROM test t1, test t2 WHERE t1.x = t2.y; - count ---------------------------------------------------------------------- - 100 -(1 row) - -BEGIN; -SET citus.enable_unique_job_ids TO off; -SELECT count(*) FROM test t1, test t2 WHERE t1.x = t2.y; -NOTICE: executing the command locally: SELECT partition_index, 'repartition_26_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_26_1','SELECT x AS column1 FROM coordinator_shouldhaveshards.test_1503000 t1 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_26_4' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_26_4','SELECT x AS column1 FROM coordinator_shouldhaveshards.test_1503003 t1 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_27_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_27_1','SELECT y AS column1 FROM coordinator_shouldhaveshards.test_1503000 t2 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_27_4' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_27_4','SELECT y AS column1 FROM coordinator_shouldhaveshards.test_1503003 t2 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_1_2']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_2_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_3_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_4_2']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_1_2']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_2_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_3_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_4_2']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_1_5']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_2_5']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_3_5']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_26_4_5']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_1_5']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_2_5']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_3_5']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_27_4_5']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_26_1_2,repartition_26_2_2,repartition_26_3_2,repartition_26_4_2}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 integer) JOIN read_intermediate_results('{repartition_27_1_2,repartition_27_2_2,repartition_27_3_2,repartition_27_4_2}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 integer) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_26_1_5,repartition_26_2_5,repartition_26_3_5,repartition_26_4_5}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 integer) JOIN read_intermediate_results('{repartition_27_1_5,repartition_27_2_5,repartition_27_3_5,repartition_27_4_5}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 integer) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -END; -BEGIN; -SET citus.enable_repartition_joins TO ON; --- trigger local execution -SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM test t1, test t2 WHERE t1.x = t2.y; -NOTICE: executing the command locally: SELECT partition_index, 'repartition_30_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_30_1','SELECT x AS column1 FROM coordinator_shouldhaveshards.test_1503000 t1 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_30_4' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_30_4','SELECT x AS column1 FROM coordinator_shouldhaveshards.test_1503003 t1 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_31_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_31_1','SELECT y AS column1 FROM coordinator_shouldhaveshards.test_1503000 t2 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_31_4' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_31_4','SELECT y AS column1 FROM coordinator_shouldhaveshards.test_1503003 t2 WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_1_1']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_2_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_3_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_4_1']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_1_1']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_2_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_3_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_4_1']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_1_4']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_2_4']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_3_4']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_30_4_4']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_1_4']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_2_4']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_3_4']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_31_4_4']::text[],'localhost',57636) bytes -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_30_1_1,repartition_30_2_1,repartition_30_3_1,repartition_30_4_1}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 integer) JOIN read_intermediate_results('{repartition_31_1_1,repartition_31_2_1,repartition_31_3_1,repartition_31_4_1}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 integer) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_30_1_4,repartition_30_2_4,repartition_30_3_4,repartition_30_4_4}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 integer) JOIN read_intermediate_results('{repartition_31_1_4,repartition_31_2_4,repartition_31_3_4,repartition_31_4_4}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 integer) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -ROLLBACK; -CREATE TABLE ref (a int, b int); -SELECT create_reference_table('ref'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE local (x int, y int); -BEGIN; -SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -SELECT * FROM ref JOIN local ON (a = x); -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN coordinator_shouldhaveshards.local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) - a | b | x | y ---------------------------------------------------------------------- -(0 rows) - -TRUNCATE ref; -NOTICE: executing the command locally: TRUNCATE TABLE coordinator_shouldhaveshards.ref_xxxxx CASCADE -ROLLBACK; -BEGIN; -SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -TRUNCATE ref; -NOTICE: executing the command locally: TRUNCATE TABLE coordinator_shouldhaveshards.ref_xxxxx CASCADE -SELECT * FROM ref JOIN local ON (a = x); -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN coordinator_shouldhaveshards.local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) - a | b | x | y ---------------------------------------------------------------------- -(0 rows) - -ROLLBACK; -BEGIN; -SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -INSERT INTO ref VALUES (1,2); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 (a, b) VALUES (1, 2) -INSERT INTO local VALUES (1,2); -SELECT * FROM ref JOIN local ON (a = x); -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN coordinator_shouldhaveshards.local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) - a | b | x | y ---------------------------------------------------------------------- - 1 | 2 | 1 | 2 -(1 row) - -ROLLBACK; -BEGIN; -SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - --- we wont see the modifying cte in this query because we will use local execution and --- in postgres we wouldn't see this modifying cte, so it is consistent with postgres. -WITH a AS (SELECT count(*) FROM test), b AS (INSERT INTO local VALUES (3,2) RETURNING *), c AS (INSERT INTO ref VALUES (3,2) RETURNING *), d AS (SELECT count(*) FROM ref JOIN local ON (a = x)) SELECT * FROM a, b, c, d ORDER BY x,y,a,b; -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 (a, b) VALUES (3, 2) RETURNING a, b -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN (SELECT local_1.x, NULL::integer AS y FROM (SELECT intermediate_result.x FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(x integer)) local_1) local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) -NOTICE: executing the command locally: SELECT a.count, b.x, b.y, c.a, c.b, d.count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) a, (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) b, (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) c, (SELECT intermediate_result.count FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) d ORDER BY b.x, b.y, c.a, c.b - count | x | y | a | b | count ---------------------------------------------------------------------- - 100 | 3 | 2 | 3 | 2 | 0 -(1 row) - -TRUNCATE ref; -NOTICE: executing the command locally: TRUNCATE TABLE coordinator_shouldhaveshards.ref_xxxxx CASCADE -SELECT * FROM ref JOIN local ON (a = x); -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN coordinator_shouldhaveshards.local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) - a | b | x | y ---------------------------------------------------------------------- -(0 rows) - --- we wont see the modifying cte in this query because we will use local execution and --- in postgres we wouldn't see this modifying cte, so it is consistent with postgres. -WITH a AS (SELECT count(*) FROM test), b AS (INSERT INTO local VALUES (3,2) RETURNING *), c AS (INSERT INTO ref VALUES (3,2) RETURNING *), d AS (SELECT count(*) FROM ref JOIN local ON (a = x)) SELECT * FROM a, b, c, d ORDER BY x,y,a,b; -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 (a, b) VALUES (3, 2) RETURNING a, b -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN (SELECT local_1.x, NULL::integer AS y FROM (SELECT intermediate_result.x FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(x integer)) local_1) local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) -NOTICE: executing the command locally: SELECT a.count, b.x, b.y, c.a, c.b, d.count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) a, (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) b, (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) c, (SELECT intermediate_result.count FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) d ORDER BY b.x, b.y, c.a, c.b - count | x | y | a | b | count ---------------------------------------------------------------------- - 100 | 3 | 2 | 3 | 2 | 0 -(1 row) - -ROLLBACK; -BEGIN; --- we wont see the modifying cte in this query because we will use local execution and --- in postgres we wouldn't see this modifying cte, so it is consistent with postgres. -WITH a AS (SELECT count(*) FROM test), b AS (INSERT INTO local VALUES (3,2) RETURNING *), c AS (INSERT INTO ref VALUES (3,2) RETURNING *), d AS (SELECT count(*) FROM ref JOIN local ON (a = x)) SELECT * FROM a, b, c, d ORDER BY x,y,a,b; -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 (a, b) VALUES (3, 2) RETURNING a, b -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN (SELECT local_1.x, NULL::integer AS y FROM (SELECT intermediate_result.x FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(x integer)) local_1) local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) -NOTICE: executing the command locally: SELECT a.count, b.x, b.y, c.a, c.b, d.count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) a, (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) b, (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) c, (SELECT intermediate_result.count FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) d ORDER BY b.x, b.y, c.a, c.b - count | x | y | a | b | count ---------------------------------------------------------------------- - 100 | 3 | 2 | 3 | 2 | 0 -(1 row) - -ROLLBACK; -BEGIN; --- we wont see the modifying cte in this query because we will use local execution and --- in postgres we wouldn't see this modifying cte, so it is consistent with postgres. -WITH a AS (SELECT count(*) FROM test), b AS (INSERT INTO local VALUES (3,2) RETURNING *), c AS (INSERT INTO ref SELECT *,* FROM generate_series(1,10) RETURNING *), d AS (SELECT count(*) FROM ref JOIN local ON (a = x)) SELECT * FROM a, b, c, d ORDER BY x,y,a,b; -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_1503020'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN (SELECT local_1.x, NULL::integer AS y FROM (SELECT intermediate_result.x FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(x integer)) local_1) local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) -NOTICE: executing the command locally: SELECT a.count, b.x, b.y, c.a, c.b, d.count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) a, (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) b, (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) c, (SELECT intermediate_result.count FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) d ORDER BY b.x, b.y, c.a, c.b - count | x | y | a | b | count ---------------------------------------------------------------------- - 100 | 3 | 2 | 1 | 1 | 0 - 100 | 3 | 2 | 2 | 2 | 0 - 100 | 3 | 2 | 3 | 3 | 0 - 100 | 3 | 2 | 4 | 4 | 0 - 100 | 3 | 2 | 5 | 5 | 0 - 100 | 3 | 2 | 6 | 6 | 0 - 100 | 3 | 2 | 7 | 7 | 0 - 100 | 3 | 2 | 8 | 8 | 0 - 100 | 3 | 2 | 9 | 9 | 0 - 100 | 3 | 2 | 10 | 10 | 0 -(10 rows) - -ROLLBACK; --- same local table reference table tests, but outside a transaction block -INSERT INTO ref VALUES (1,2); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 (a, b) VALUES (1, 2) -INSERT INTO local VALUES (1,2); -SELECT * FROM ref JOIN local ON (a = x); -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN coordinator_shouldhaveshards.local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) - a | b | x | y ---------------------------------------------------------------------- - 1 | 2 | 1 | 2 -(1 row) - --- we wont see the modifying cte in this query because we will use local execution and --- in postgres we wouldn't see this modifying cte, so it is consistent with postgres. -WITH a AS (SELECT count(*) FROM test), b AS (INSERT INTO local VALUES (3,2) RETURNING *), c AS (INSERT INTO ref VALUES (3,2) RETURNING *), d AS (SELECT count(*) FROM ref JOIN local ON (a = x)) SELECT * FROM a, b, c, d ORDER BY x,y,a,b; -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.ref_1503020 (a, b) VALUES (3, 2) RETURNING a, b -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.ref_1503020 ref JOIN (SELECT local_1.x, NULL::integer AS y FROM (SELECT intermediate_result.x FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(x integer)) local_1) local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) -NOTICE: executing the command locally: SELECT a.count, b.x, b.y, c.a, c.b, d.count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) a, (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) b, (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) c, (SELECT intermediate_result.count FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) d ORDER BY b.x, b.y, c.a, c.b - count | x | y | a | b | count ---------------------------------------------------------------------- - 100 | 3 | 2 | 3 | 2 | 1 -(1 row) - --- joins between local tables and distributed tables are disallowed -CREATE TABLE dist_table(a int); -ERROR: relation "dist_table" already exists -SELECT create_distributed_table('dist_table', 'a'); -NOTICE: Copying data from local table... -NOTICE: copying the data has completed -DETAIL: The local data in the table is no longer visible, but is still on disk. -HINT: To remove the local data, run: SELECT truncate_local_data_after_distributing_table($$coordinator_shouldhaveshards.dist_table$$) - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO dist_table VALUES(1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.dist_table_1503021 (a) VALUES (1) -SELECT * FROM local JOIN dist_table ON (a = x) ORDER BY 1,2,3; - x | y | a ---------------------------------------------------------------------- - 1 | 2 | 1 - 1 | 2 | 1 - 3 | 2 | 3 -(3 rows) - -SELECT * FROM local JOIN dist_table ON (a = x) WHERE a = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT local.x, local.y, dist_table.a FROM ((SELECT local_1.x, local_1.y FROM (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) local_1) local JOIN coordinator_shouldhaveshards.dist_table_1503021 dist_table ON ((dist_table.a OPERATOR(pg_catalog.=) local.x))) WHERE (dist_table.a OPERATOR(pg_catalog.=) 1) ORDER BY local.x, local.y, dist_table.a - x | y | a ---------------------------------------------------------------------- - 1 | 2 | 1 - 1 | 2 | 1 -(2 rows) - --- intermediate results are allowed -WITH cte_1 AS (SELECT * FROM dist_table ORDER BY 1 LIMIT 1) -SELECT * FROM ref JOIN local ON (a = x) JOIN cte_1 ON (local.x = cte_1.a); -NOTICE: executing the command locally: SELECT a FROM coordinator_shouldhaveshards.dist_table_1503021 dist_table WHERE true ORDER BY a LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT a FROM coordinator_shouldhaveshards.dist_table_1503024 dist_table WHERE true ORDER BY a LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y, cte_1.a FROM ((coordinator_shouldhaveshards.ref_1503020 ref JOIN (SELECT local_1.x, local_1.y FROM (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) local_1) local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) JOIN (SELECT intermediate_result.a FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer)) cte_1 ON ((local.x OPERATOR(pg_catalog.=) cte_1.a))) - a | b | x | y | a ---------------------------------------------------------------------- - 1 | 2 | 1 | 2 | 1 -(1 row) - --- full router query with CTE and local -WITH cte_1 AS (SELECT * FROM ref LIMIT 1) -SELECT * FROM ref JOIN local ON (a = x) JOIN cte_1 ON (local.x = cte_1.a); -NOTICE: executing the command locally: SELECT ref.a, ref.b, local.x, local.y, cte_1.a, cte_1.b FROM ((coordinator_shouldhaveshards.ref_1503020 ref JOIN coordinator_shouldhaveshards.local ON ((ref.a OPERATOR(pg_catalog.=) local.x))) JOIN (SELECT ref_1.a, ref_1.b FROM coordinator_shouldhaveshards.ref_1503020 ref_1 LIMIT 1) cte_1 ON ((local.x OPERATOR(pg_catalog.=) cte_1.a))) - a | b | x | y | a | b ---------------------------------------------------------------------- - 1 | 2 | 1 | 2 | 1 | 2 -(1 row) - -DROP TABLE dist_table; --- issue #3801 -SET citus.shard_replication_factor TO 2; -CREATE TABLE dist_table(a int); -SELECT create_distributed_table('dist_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -BEGIN; --- this will use perPlacementQueryStrings, make sure it works correctly with --- copying task -INSERT INTO dist_table SELECT a + 1 FROM dist_table; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503027_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503027_to','SELECT (a OPERATOR(pg_catalog.+) 1) AS a FROM coordinator_shouldhaveshards.dist_table_1503027 dist_table WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503029_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503029_to','SELECT (a OPERATOR(pg_catalog.+) 1) AS a FROM coordinator_shouldhaveshards.dist_table_1503029 dist_table WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503030_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503030_to','SELECT (a OPERATOR(pg_catalog.+) 1) AS a FROM coordinator_shouldhaveshards.dist_table_1503030 dist_table WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1503032_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1503032_to','SELECT (a OPERATOR(pg_catalog.+) 1) AS a FROM coordinator_shouldhaveshards.dist_table_1503032 dist_table WHERE true',0,'hash','{-2147483648,-1431655766,-715827884,-2,715827880,1431655762}'::text[],'{-1431655767,-715827885,-3,715827879,1431655761,2147483647}'::text[],true) WHERE rows_written > 0 -ROLLBACK; -SET citus.shard_replication_factor TO 1; -BEGIN; -SET citus.shard_replication_factor TO 2; -CREATE TABLE dist_table1(a int); --- this will use queryStringList, make sure it works correctly with --- copying task -SELECT create_distributed_table('dist_table1', 'a'); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503033, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table1 (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503033, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table1 OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503035, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table1 (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503035, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table1 OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503036, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table1 (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503036, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table1 OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (1503038, 'coordinator_shouldhaveshards', 'CREATE TABLE coordinator_shouldhaveshards.dist_table1 (a integer) USING heap');SELECT worker_apply_shard_ddl_command (1503038, 'coordinator_shouldhaveshards', 'ALTER TABLE coordinator_shouldhaveshards.dist_table1 OWNER TO postgres') - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -ROLLBACK; -CREATE table ref_table(x int, y int); --- this will be replicated to the coordinator because of add_coordinator test -SELECT create_reference_table('ref_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -TRUNCATE TABLE test; -BEGIN; -INSERT INTO test SELECT *, * FROM generate_series(1, 100); -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO ref_table SELECT *, * FROM generate_series(1, 100); -NOTICE: executing the copy locally for shard xxxxx -SELECT COUNT(*) FROM test JOIN ref_table USING(x); -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.test_1503000 test JOIN coordinator_shouldhaveshards.ref_table_1503039 ref_table ON ((test.x OPERATOR(pg_catalog.=) ref_table.x))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (coordinator_shouldhaveshards.test_1503003 test JOIN coordinator_shouldhaveshards.ref_table_1503039 ref_table ON ((test.x OPERATOR(pg_catalog.=) ref_table.x))) WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -ROLLBACK; --- writing to local file and remote intermediate files --- at the same time -INSERT INTO ref_table SELECT *, * FROM generate_series(1, 100); -NOTICE: executing the copy locally for shard xxxxx -CREATE UNIQUE INDEX test_x_unique ON test(x); -WITH cte_1 AS ( -INSERT INTO test SELECT sum(x), y FROM test GROUP BY y ON CONFLICT (x) DO UPDATE SET y = EXCLUDED.y + 1 RETURNING *) -SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: SELECT sum(x) AS x, y FROM coordinator_shouldhaveshards.test_1503000 test WHERE true GROUP BY y -NOTICE: executing the command locally: SELECT sum(x) AS x, y FROM coordinator_shouldhaveshards.test_1503003 test WHERE true GROUP BY y -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.x, intermediate_result.y FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer, y integer)) cte_1 - count ---------------------------------------------------------------------- - 0 -(1 row) - -DROP INDEX test_x_unique; --- issue #4237: preventing empty placement creation on coordinator -CREATE TABLE test_append_table(a int); -SELECT create_distributed_table('test_append_table', 'a', 'append'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- this will fail since it will try to create an empty placement in the --- coordinator as well -SET citus.shard_replication_factor TO 3; -SELECT master_create_empty_shard('test_append_table'); -NOTICE: Creating placements for the append partitioned tables on the coordinator is not supported, skipping coordinator ... -ERROR: could only create 2 of 3 of required shard replicas --- this will create an empty shard with replicas in the two worker nodes -SET citus.shard_replication_factor TO 2; -SELECT 1 FROM master_create_empty_shard('test_append_table'); -NOTICE: Creating placements for the append partitioned tables on the coordinator is not supported, skipping coordinator ... - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- verify groupid is not 0 for each placement -SELECT COUNT(*) FROM pg_dist_placement p, pg_dist_shard s WHERE p.shardid = s.shardid AND s.logicalrelid = 'test_append_table'::regclass AND p.groupid > 0; - count ---------------------------------------------------------------------- - 2 -(1 row) - -SET citus.shard_replication_factor TO 1; --- test partitioned index creation with long name -CREATE TABLE test_index_creation1 -( - tenant_id integer NOT NULL, - timeperiod timestamp without time zone NOT NULL, - field1 integer NOT NULL, - inserted_utc timestamp without time zone NOT NULL DEFAULT now(), - PRIMARY KEY(tenant_id, timeperiod) -) PARTITION BY RANGE (timeperiod); -CREATE TABLE test_index_creation1_p2020_09_26 -PARTITION OF test_index_creation1 FOR VALUES FROM ('2020-09-26 00:00:00') TO ('2020-09-27 00:00:00'); -CREATE TABLE test_index_creation1_p2020_09_27 -PARTITION OF test_index_creation1 FOR VALUES FROM ('2020-09-27 00:00:00') TO ('2020-09-28 00:00:00'); -select create_distributed_table('test_index_creation1', 'tenant_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- should be able to create indexes with INCLUDE/WHERE -CREATE INDEX ix_test_index_creation5 ON test_index_creation1 - USING btree(tenant_id, timeperiod) - INCLUDE (field1) WHERE (tenant_id = 100); -NOTICE: executing the command locally: CREATE INDEX ix_test_index_creation5_1503042 ON coordinator_shouldhaveshards.test_index_creation1_1503042 USING btree (tenant_id ,timeperiod ) INCLUDE (field1 ) WHERE (tenant_id = 100) -NOTICE: executing the command locally: CREATE INDEX ix_test_index_creation5_1503045 ON coordinator_shouldhaveshards.test_index_creation1_1503045 USING btree (tenant_id ,timeperiod ) INCLUDE (field1 ) WHERE (tenant_id = 100) -NOTICE: executing the command locally: SELECT pg_catalog.citus_run_local_command($$SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503048', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503048');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503049', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503049');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503050', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503050');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503051', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503051');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503052', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503052');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503053', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503053');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503054', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503054');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503055', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503055');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503056', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503056');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503057', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503057');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503058', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503058');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503042'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503059', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503059')$$) -NOTICE: executing the command locally: SELECT pg_catalog.citus_run_local_command($$SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503048', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503048');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503049', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503049');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503050', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503050');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503051', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503051');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503052', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503052');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_26_1503053', 'test_index_creation1_p2020_09_2_tenant_id_time_6020e8f8_1503053');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503054', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503054');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503055', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503055');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503056', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503056');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503057', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503057');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503058', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503058');SELECT worker_fix_partition_shard_index_names('coordinator_shouldhaveshards.ix_test_index_creation5_1503045'::regclass, 'coordinator_shouldhaveshards.test_index_creation1_p2020_09_27_1503059', 'test_index_creation1_p2020_09__tenant_id_timep_624f7e94_1503059')$$) --- test if indexes are created -SELECT 1 AS created WHERE EXISTS(SELECT * FROM pg_indexes WHERE indexname LIKE '%test_index_creation%'); - created ---------------------------------------------------------------------- - 1 -(1 row) - --- test alter_distributed_table UDF -SET citus.shard_count TO 4; -CREATE TABLE adt_table (a INT, b INT); -CREATE TABLE adt_col (a INT UNIQUE, b INT); -CREATE TABLE adt_ref (a INT REFERENCES adt_col(a)); -SELECT create_distributed_table('adt_table', 'a', colocate_with:='none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('adt_col', 'a', colocate_with:='adt_table'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('adt_ref', 'a', colocate_with:='adt_table'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO adt_table VALUES (1, 2), (3, 4), (5, 6); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.adt_table_1503060 AS citus_table_alias (a, b) VALUES (1,2), (5,6) -INSERT INTO adt_col VALUES (3, 4), (5, 6), (7, 8); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.adt_col_1503064 AS citus_table_alias (a, b) VALUES (5,6) -INSERT INTO adt_ref VALUES (3), (5); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.adt_ref_1503068 AS citus_table_alias (a) VALUES (5) -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text LIKE 'adt%'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_col | distributed | a | 4 - adt_ref | distributed | a | 4 - adt_table | distributed | a | 4 -(3 rows) - -SELECT STRING_AGG(table_name::text, ', ' ORDER BY 1) AS "Colocation Groups" FROM public.citus_tables WHERE table_name::text LIKE 'adt%' GROUP BY colocation_id ORDER BY 1; - Colocation Groups ---------------------------------------------------------------------- - adt_col, adt_ref, adt_table -(1 row) - -SELECT conrelid::regclass::text AS "Referencing Table", pg_get_constraintdef(oid, true) AS "Definition" FROM pg_constraint - WHERE (conrelid::regclass::text = 'adt_col' OR confrelid::regclass::text = 'adt_col') ORDER BY 1; - Referencing Table | Definition ---------------------------------------------------------------------- - adt_col | UNIQUE (a) - adt_ref | FOREIGN KEY (a) REFERENCES adt_col(a) -(2 rows) - -SET client_min_messages TO WARNING; -SELECT alter_distributed_table('adt_table', shard_count:=6, cascade_to_colocated:=true); - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO DEFAULT; -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text LIKE 'adt%'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_col | distributed | a | 6 - adt_ref | distributed | a | 6 - adt_table | distributed | a | 6 -(3 rows) - -SELECT STRING_AGG(table_name::text, ', ' ORDER BY 1) AS "Colocation Groups" FROM public.citus_tables WHERE table_name::text LIKE 'adt%' GROUP BY colocation_id ORDER BY 1; - Colocation Groups ---------------------------------------------------------------------- - adt_col, adt_ref, adt_table -(1 row) - -SELECT conrelid::regclass::text AS "Referencing Table", pg_get_constraintdef(oid, true) AS "Definition" FROM pg_constraint - WHERE (conrelid::regclass::text = 'adt_col' OR confrelid::regclass::text = 'adt_col') ORDER BY 1; - Referencing Table | Definition ---------------------------------------------------------------------- - adt_col | UNIQUE (a) - adt_ref | FOREIGN KEY (a) REFERENCES adt_col(a) -(2 rows) - -SELECT alter_distributed_table('adt_table', distribution_column:='b', colocate_with:='none'); -NOTICE: creating a new table for coordinator_shouldhaveshards.adt_table -NOTICE: moving the data of coordinator_shouldhaveshards.adt_table -NOTICE: dropping the old coordinator_shouldhaveshards.adt_table -NOTICE: renaming the new table to coordinator_shouldhaveshards.adt_table - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text LIKE 'adt%'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_col | distributed | a | 6 - adt_ref | distributed | a | 6 - adt_table | distributed | b | 6 -(3 rows) - -SELECT STRING_AGG(table_name::text, ', ' ORDER BY 1) AS "Colocation Groups" FROM public.citus_tables WHERE table_name::text LIKE 'adt%' GROUP BY colocation_id ORDER BY 1; - Colocation Groups ---------------------------------------------------------------------- - adt_col, adt_ref - adt_table -(2 rows) - -SELECT conrelid::regclass::text AS "Referencing Table", pg_get_constraintdef(oid, true) AS "Definition" FROM pg_constraint - WHERE (conrelid::regclass::text = 'adt_col' OR confrelid::regclass::text = 'adt_col') ORDER BY 1; - Referencing Table | Definition ---------------------------------------------------------------------- - adt_col | UNIQUE (a) - adt_ref | FOREIGN KEY (a) REFERENCES adt_col(a) -(2 rows) - -SELECT * FROM adt_table ORDER BY 1; - a | b ---------------------------------------------------------------------- - 1 | 2 - 3 | 4 - 5 | 6 -(3 rows) - -SELECT * FROM adt_col ORDER BY 1; - a | b ---------------------------------------------------------------------- - 3 | 4 - 5 | 6 - 7 | 8 -(3 rows) - -SELECT * FROM adt_ref ORDER BY 1; - a ---------------------------------------------------------------------- - 3 - 5 -(2 rows) - -SET client_min_messages TO WARNING; -BEGIN; -INSERT INTO adt_table SELECT x, x+1 FROM generate_series(1, 1000) x; -SELECT alter_distributed_table('adt_table', distribution_column:='a'); - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT COUNT(*) FROM adt_table; - count ---------------------------------------------------------------------- - 1003 -(1 row) - -END; -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text = 'adt_table'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_table | distributed | a | 6 -(1 row) - -SET client_min_messages TO DEFAULT; --- issue 4508 table_1 and table_2 are used to test --- some edge cases around intermediate result pruning -CREATE TABLE table_1 (key int, value text); -SELECT create_distributed_table('table_1', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE table_2 (key int, value text); -SELECT create_distributed_table('table_2', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO table_1 VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.table_1_1503102 AS citus_table_alias (key, value) VALUES (1,'1'::text) -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.table_1_1503105 AS citus_table_alias (key, value) VALUES (2,'2'::text) -INSERT INTO table_2 VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'), (5, '5'), (6, '6'); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.table_2_1503106 AS citus_table_alias (key, value) VALUES (1,'1'::text), (5,'5'::text) -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.table_2_1503109 AS citus_table_alias (key, value) VALUES (2,'2'::text) -SET citus.log_intermediate_results TO ON; -SET client_min_messages to debug1; -WITH a AS (SELECT * FROM table_1 ORDER BY 1,2 DESC LIMIT 1) -SELECT count(*), -key -FROM a JOIN table_2 USING (key) -GROUP BY key -HAVING (max(table_2.value) >= (SELECT value FROM a)); -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM coordinator_shouldhaveshards.table_1 ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count, a.key FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN coordinator_shouldhaveshards.table_2 USING (key)) GROUP BY a.key HAVING (max(table_2.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -NOTICE: executing the command locally: SELECT key, value FROM coordinator_shouldhaveshards.table_1_1503102 table_1 WHERE true ORDER BY key, value DESC LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT key, value FROM coordinator_shouldhaveshards.table_1_1503105 table_1 WHERE true ORDER BY key, value DESC LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT count(*) AS count, worker_column_1 AS key, max(worker_column_2) AS worker_column_3 FROM (SELECT a.key AS worker_column_1, table_2.value AS worker_column_2 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN coordinator_shouldhaveshards.table_2_1503106 table_2(key, value) USING (key))) worker_subquery GROUP BY worker_column_1 -NOTICE: executing the command locally: SELECT count(*) AS count, worker_column_1 AS key, max(worker_column_2) AS worker_column_3 FROM (SELECT a.key AS worker_column_1, table_2.value AS worker_column_2 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN coordinator_shouldhaveshards.table_2_1503109 table_2(key, value) USING (key))) worker_subquery GROUP BY worker_column_1 - count | key ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -WITH a AS (SELECT * FROM table_1 ORDER BY 1,2 DESC LIMIT 1) -INSERT INTO table_1 SELECT count(*), -key -FROM a JOIN table_2 USING (key) -GROUP BY key -HAVING (max(table_2.value) >= (SELECT value FROM a)); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM coordinator_shouldhaveshards.table_1 ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: generating subplan XXX_2 for subquery SELECT int4(count(*)) AS auto_coerced_by_citus_0, (a.key)::text AS auto_coerced_by_citus_1 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN coordinator_shouldhaveshards.table_2 USING (key)) GROUP BY a.key HAVING (max(table_2.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT auto_coerced_by_citus_0 AS key, auto_coerced_by_citus_1 AS value FROM (SELECT intermediate_result.auto_coerced_by_citus_0, intermediate_result.auto_coerced_by_citus_1 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(auto_coerced_by_citus_0 integer, auto_coerced_by_citus_1 text)) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -NOTICE: executing the command locally: SELECT key, value FROM coordinator_shouldhaveshards.table_1_1503102 table_1 WHERE true ORDER BY key, value DESC LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT key, value FROM coordinator_shouldhaveshards.table_1_1503105 table_1 WHERE true ORDER BY key, value DESC LIMIT '1'::bigint -DEBUG: Subplan XXX_2 will be written to local file -NOTICE: executing the command locally: SELECT count(*) AS auto_coerced_by_citus_0, (worker_column_1)::text AS auto_coerced_by_citus_1, worker_column_1 AS discarded_target_item_1, max(worker_column_2) AS worker_column_4 FROM (SELECT a.key AS worker_column_1, table_2.value AS worker_column_2 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN coordinator_shouldhaveshards.table_2_1503106 table_2(key, value) USING (key))) worker_subquery GROUP BY worker_column_1 -NOTICE: executing the command locally: SELECT count(*) AS auto_coerced_by_citus_0, (worker_column_1)::text AS auto_coerced_by_citus_1, worker_column_1 AS discarded_target_item_1, max(worker_column_2) AS worker_column_4 FROM (SELECT a.key AS worker_column_1, table_2.value AS worker_column_2 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN coordinator_shouldhaveshards.table_2_1503109 table_2(key, value) USING (key))) worker_subquery GROUP BY worker_column_1 -NOTICE: executing the command locally: SELECT auto_coerced_by_citus_0 AS key, auto_coerced_by_citus_1 AS value FROM (SELECT intermediate_result.auto_coerced_by_citus_0, intermediate_result.auto_coerced_by_citus_1 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(auto_coerced_by_citus_0 integer, auto_coerced_by_citus_1 text)) citus_insert_select_subquery -NOTICE: executing the copy locally for shard xxxxx -WITH stats AS ( - SELECT count(key) m FROM table_1 -), -inserts AS ( - INSERT INTO table_2 - SELECT key, count(*) - FROM table_1 - WHERE key >= (SELECT m FROM stats) - GROUP BY key - HAVING count(*) <= (SELECT m FROM stats) - LIMIT 1 - RETURNING * -) SELECT count(*) FROM inserts; -DEBUG: generating subplan XXX_1 for CTE stats: SELECT count(key) AS m FROM coordinator_shouldhaveshards.table_1 -DEBUG: generating subplan XXX_2 for CTE inserts: INSERT INTO coordinator_shouldhaveshards.table_2 (key, value) SELECT key, count(*) AS count FROM coordinator_shouldhaveshards.table_1 WHERE (key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT 1 RETURNING table_2.key, table_2.value -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -NOTICE: executing the command locally: SELECT count(key) AS m FROM coordinator_shouldhaveshards.table_1_1503102 table_1 WHERE true -NOTICE: executing the command locally: SELECT count(key) AS m FROM coordinator_shouldhaveshards.table_1_1503105 table_1 WHERE true -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Collecting INSERT ... SELECT results on coordinator -NOTICE: executing the command locally: SELECT worker_column_1 AS key, (count(*))::text AS value FROM (SELECT table_1.key AS worker_column_1 FROM coordinator_shouldhaveshards.table_1_1503102 table_1 WHERE (table_1.key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats))) worker_subquery GROUP BY worker_column_1 HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS key, (count(*))::text AS value FROM (SELECT table_1.key AS worker_column_1 FROM coordinator_shouldhaveshards.table_1_1503105 table_1 WHERE (table_1.key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats))) worker_subquery GROUP BY worker_column_1 HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT '1'::bigint -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts - count ---------------------------------------------------------------------- - 0 -(1 row) - --- a helper function which return true if the coordinated --- trannsaction uses 2PC -SET citus.enable_metadata_sync TO OFF; -CREATE OR REPLACE FUNCTION coordinated_transaction_should_use_2PC() -RETURNS BOOL LANGUAGE C STRICT VOLATILE AS 'citus', -$$coordinated_transaction_should_use_2PC$$; -RESET citus.enable_metadata_sync; --- a local SELECT followed by remote SELECTs --- does not trigger 2PC -BEGIN; - SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- -(0 rows) - - WITH cte_1 AS (SELECT y FROM test WHERE x = 1 LIMIT 5) SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - WITH cte_1 as (SELECT * FROM test LIMIT 5) SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; --- remote SELECTs followed by local SELECTs --- does not trigger 2PC -BEGIN; - SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - WITH cte_1 as (SELECT * FROM test LIMIT 5) SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- -(0 rows) - - WITH cte_1 AS (SELECT y FROM test WHERE x = 1 LIMIT 5) SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; --- a local SELECT followed by a remote Modify --- triggers 2PC -BEGIN; - SELECT y FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT y FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - y ---------------------------------------------------------------------- -(0 rows) - - UPDATE test SET y = y +1; -NOTICE: executing the command locally: UPDATE coordinator_shouldhaveshards.test_1503000 test SET y = (y OPERATOR(pg_catalog.+) 1) -NOTICE: executing the command locally: UPDATE coordinator_shouldhaveshards.test_1503003 test SET y = (y OPERATOR(pg_catalog.+) 1) - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; --- a local modify followed by a remote SELECT --- triggers 2PC -BEGIN; - INSERT INTO test VALUES (1,1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.test_1503000 (x, y) VALUES (1, 1) - SELECT count(*) FROM test; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503003 test WHERE true - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; --- a local modify followed by a remote MODIFY --- triggers 2PC -BEGIN; - INSERT INTO test VALUES (1,1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.test_1503000 (x, y) VALUES (1, 1) - UPDATE test SET y = y +1; -NOTICE: executing the command locally: UPDATE coordinator_shouldhaveshards.test_1503000 test SET y = (y OPERATOR(pg_catalog.+) 1) -NOTICE: executing the command locally: UPDATE coordinator_shouldhaveshards.test_1503003 test SET y = (y OPERATOR(pg_catalog.+) 1) - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; --- a local modify followed by a remote single shard MODIFY --- triggers 2PC -BEGIN; - INSERT INTO test VALUES (1,1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.test_1503000 (x, y) VALUES (1, 1) - INSERT INTO test VALUES (3,3); - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; --- a remote single shard modify followed by a local single --- shard MODIFY triggers 2PC -BEGIN; - INSERT INTO test VALUES (3,3); - INSERT INTO test VALUES (1,1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.test_1503000 (x, y) VALUES (1, 1) - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; --- a remote single shard select followed by a local single --- shard MODIFY triggers 2PC. But, the transaction manager --- is smart enough to skip sending 2PC as the remote --- command is read only -BEGIN; - SELECT count(*) FROM test WHERE x = 3; - count ---------------------------------------------------------------------- - 2 -(1 row) - - INSERT INTO test VALUES (1,1); -NOTICE: executing the command locally: INSERT INTO coordinator_shouldhaveshards.test_1503000 (x, y) VALUES (1, 1) - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - - SET LOCAL citus.log_remote_commands TO ON; -COMMIT; -NOTICE: issuing COMMIT -DETAIL: on server postgres@localhost:xxxxx connectionId: xxxxxxx --- a local single shard select followed by a remote single --- shard modify does not trigger 2PC -BEGIN; - SELECT count(*) FROM test WHERE x = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM coordinator_shouldhaveshards.test_1503000 test WHERE (x OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 5 -(1 row) - - INSERT INTO test VALUES (3,3); - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - - SET LOCAL citus.log_remote_commands TO ON; -COMMIT; -NOTICE: issuing COMMIT -DETAIL: on server postgres@localhost:xxxxx connectionId: xxxxxxx -RESET client_min_messages; -\set VERBOSITY terse -DROP TABLE ref_table; -NOTICE: executing the command locally: DROP TABLE IF EXISTS coordinator_shouldhaveshards.ref_table_xxxxx CASCADE -DELETE FROM test; -DROP TABLE test; -DROP TABLE dist_table; -DROP TABLE ref; -NOTICE: executing the command locally: DROP TABLE IF EXISTS coordinator_shouldhaveshards.ref_xxxxx CASCADE -DROP TABLE test_append_table; -DROP SCHEMA coordinator_shouldhaveshards CASCADE; -NOTICE: drop cascades to 20 other objects -SELECT 1 FROM master_set_node_property('localhost', :master_port, 'shouldhaveshards', false); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - diff --git a/src/test/regress/expected/cte_inline.out b/src/test/regress/expected/cte_inline.out index 7af842e29..e558df2e2 100644 --- a/src/test/regress/expected/cte_inline.out +++ b/src/test/regress/expected/cte_inline.out @@ -1,17 +1,6 @@ -- -- CTE_INLINE -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA cte_inline; SET search_path TO cte_inline; SET citus.next_shard_id TO 1960000; diff --git a/src/test/regress/expected/cte_inline_0.out b/src/test/regress/expected/cte_inline_0.out deleted file mode 100644 index e5afa4ee3..000000000 --- a/src/test/regress/expected/cte_inline_0.out +++ /dev/null @@ -1,1489 +0,0 @@ --- --- CTE_INLINE --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA cte_inline; -SET search_path TO cte_inline; -SET citus.next_shard_id TO 1960000; -CREATE TABLE test_table (key int, value text, other_value jsonb); -SELECT create_distributed_table ('test_table', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO test_table SELECT i % 10, 'test' || i, row_to_json(row(i, i*18, 'test' || i)) FROM generate_series (0, 100) i; -SET client_min_messages TO DEBUG; --- Citus should not inline this CTE because otherwise it cannot --- plan the query -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - * -FROM - test_table LEFT JOIN cte_1 USING (value) -ORDER BY 1 DESC LIMIT 3; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test99 | 9 | {"f1": 99, "f2": 1782, "f3": "test99"} | 9 | {"f1": 99, "f2": 1782, "f3": "test99"} - test98 | 8 | {"f1": 98, "f2": 1764, "f3": "test98"} | 8 | {"f1": 98, "f2": 1764, "f3": "test98"} - test97 | 7 | {"f1": 97, "f2": 1746, "f3": "test97"} | 7 | {"f1": 97, "f2": 1746, "f3": "test97"} -(3 rows) - --- Should still not be inlined even if NOT MATERIALIZED is passed -WITH cte_1 AS NOT MATERIALIZED (SELECT * FROM test_table) -SELECT - * -FROM - test_table LEFT JOIN cte_1 USING (value) -ORDER BY 2 DESC LIMIT 1; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.key DESC LIMIT 1 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 1 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test9 | 9 | {"f1": 9, "f2": 162, "f3": "test9"} | 9 | {"f1": 9, "f2": 162, "f3": "test9"} -(1 row) - --- the cte can be inlined because the unsupported --- part of the query (subquery in WHERE clause) --- doesn't access the cte -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte_1 -WHERE - key IN ( - SELECT - (SELECT 1) - FROM - test_table WHERE key = 1 - ); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 -DEBUG: generating subplan XXX_1 for subquery SELECT (SELECT 1) FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1 WHERE (key OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result."?column?" FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result("?column?" integer))) -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 10 -(1 row) - --- a similar query as the above, and this time the planning --- fails, but it fails because the subquery in WHERE clause --- cannot be planned by Citus -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte_1 -WHERE - key IN ( - SELECT - key - FROM - test_table - FOR UPDATE - ); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: SELECT FOR UPDATE with table replication factor > 1 not supported for non-reference tables. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: SELECT FOR UPDATE with table replication factor > 1 not supported for non-reference tables. -ERROR: could not run distributed query with FOR UPDATE/SHARE commands -HINT: Consider using an equality filter on the distributed table's partition column. --- Citus does the inlining, the planning fails --- and retries without inlining, which works --- fine later via recursive planning -WITH cte_1 AS - (SELECT * - FROM test_table) -SELECT *, (SELECT 1) -FROM - (SELECT * - FROM cte_1) AS foo -ORDER BY 2 DESC LIMIT 1; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 1 - key | value | other_value | ?column? ---------------------------------------------------------------------- - 9 | test99 | {"f1": 99, "f2": 1782, "f3": "test99"} | 1 -(1 row) - --- a little more complicated query tree --- Citus does the inlining, the planning fails --- and retries without inlining, which works -WITH top_cte AS - (SELECT * - FROM test_table) -SELECT count(*) -FROM top_cte, - (WITH cte_1 AS - (SELECT * - FROM test_table) SELECT *, (SELECT 1) - FROM - (SELECT * - FROM cte_1) AS foo) AS bar; -DEBUG: CTE top_cte is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value, (SELECT 1) FROM (SELECT cte_1.key, cte_1.value, cte_1.other_value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1) foo -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) top_cte, (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result."?column?" FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, "?column?" integer)) bar(key, value, other_value, "?column?") -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 10201 -(1 row) - --- CTE is used inside a subquery in WHERE clause --- the query wouldn't work by inlining, so Citus --- retries again via recursive planning, which --- works fine -WITH cte_1 AS - (SELECT * - FROM test_table) -SELECT count(*) -FROM test_table -WHERE KEY IN - (SELECT (SELECT 1) - FROM - (SELECT *, - random() - FROM - (SELECT * - FROM cte_1) AS foo) AS bar); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT (SELECT 1) FROM (SELECT foo.key, foo.value, foo.other_value, random() AS random FROM (SELECT cte_1.key, cte_1.value, cte_1.other_value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1) foo) bar -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result."?column?" FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result("?column?" integer))) -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 10 -(1 row) - --- cte_1 is used inside another CTE, but still --- doesn't work when inlined because it is finally --- used in an unsupported query --- but still works fine because recursive planning --- kicks in -WITH cte_1 AS - (SELECT * - FROM test_table) -SELECT (SELECT 1) AS KEY FROM ( - WITH cte_2 AS (SELECT *, random() - FROM (SELECT *,random() FROM cte_1) as foo) -SELECT *, random() FROM cte_2) as bar ORDER BY 1 DESC LIMIT 3; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_2: SELECT key, value, other_value, random, random() AS random FROM (SELECT cte_1.key, cte_1.value, cte_1.other_value, random() AS random FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1) foo -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT (SELECT 1) AS key FROM (SELECT cte_2.key, cte_2.value, cte_2.other_value, cte_2.random, cte_2.random_1 AS random, random() AS random FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result.random, intermediate_result.random_1 AS random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, random double precision, random_1 double precision)) cte_2(key, value, other_value, random, random_1)) bar(key, value, other_value, random, random_1, random_2) ORDER BY (SELECT 1) DESC LIMIT 3 -DEBUG: Creating router plan - key ---------------------------------------------------------------------- - 1 - 1 - 1 -(3 rows) - --- in this example, cte_2 can be inlined, because it is not used --- on any query that Citus cannot plan. However, cte_1 should not be --- inlined, because it is used with a subquery in target list -WITH cte_1 AS (SELECT * FROM test_table), - cte_2 AS (select * from test_table) -SELECT - count(*) -FROM - (SELECT *, (SELECT 1) FROM cte_1) as foo - JOIN - cte_2 - ON (true); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT cte_1.key, cte_1.value, cte_1.other_value, (SELECT 1) FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1) foo(key, value, other_value, "?column?") JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_2 ON (true)) -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 10201 -(1 row) - --- unreferenced CTEs are just ignored --- by Citus/Postgres -WITH a AS (SELECT * FROM test_table) -SELECT - *, row_number() OVER () -FROM - test_table -WHERE - key = 1 -ORDER BY 3 DESC -LIMIT 5; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 - key | value | other_value | row_number ---------------------------------------------------------------------- - 1 | test91 | {"f1": 91, "f2": 1638, "f3": "test91"} | 10 - 1 | test81 | {"f1": 81, "f2": 1458, "f3": "test81"} | 9 - 1 | test71 | {"f1": 71, "f2": 1278, "f3": "test71"} | 8 - 1 | test61 | {"f1": 61, "f2": 1098, "f3": "test61"} | 7 - 1 | test51 | {"f1": 51, "f2": 918, "f3": "test51"} | 6 -(5 rows) - --- router queries are affected by the distributed --- cte inlining -WITH a AS (SELECT * FROM test_table WHERE key = 1) -SELECT - *, (SELECT 1) -FROM - a -WHERE - key = 1 -ORDER BY 1 DESC -LIMIT 5; -DEBUG: CTE a is going to be inlined via distributed planning -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 - key | value | other_value | ?column? ---------------------------------------------------------------------- - 1 | test1 | {"f1": 1, "f2": 18, "f3": "test1"} | 1 - 1 | test11 | {"f1": 11, "f2": 198, "f3": "test11"} | 1 - 1 | test21 | {"f1": 21, "f2": 378, "f3": "test21"} | 1 - 1 | test31 | {"f1": 31, "f2": 558, "f3": "test31"} | 1 - 1 | test41 | {"f1": 41, "f2": 738, "f3": "test41"} | 1 -(5 rows) - --- non router queries are affected by the distributed --- cte inlining as well -WITH a AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - a -WHERE - key = 1; -DEBUG: CTE a is going to be inlined via distributed planning -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 - count ---------------------------------------------------------------------- - 10 -(1 row) - --- explicitely using NOT MATERIALIZED should result in the same -WITH a AS NOT MATERIALIZED (SELECT * FROM test_table) -SELECT - count(*) -FROM - a -WHERE - key = 1; -DEBUG: CTE a is going to be inlined via distributed planning -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 - count ---------------------------------------------------------------------- - 10 -(1 row) - --- using MATERIALIZED should cause inlining not to happen -WITH a AS MATERIALIZED (SELECT * FROM test_table) -SELECT - count(*) -FROM - a -WHERE - key = 1; -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) a WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 10 -(1 row) - --- EXPLAIN should show the difference between materialized an not materialized -EXPLAIN (COSTS OFF) WITH a AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - a -WHERE - key = 1; -DEBUG: CTE a is going to be inlined via distributed planning -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Aggregate - -> Seq Scan on test_table_1960000 test_table - Filter: (key = 1) -(8 rows) - -EXPLAIN (COSTS OFF) WITH a AS MATERIALIZED (SELECT * FROM test_table) -SELECT - count(*) -FROM - a -WHERE - key = 1; -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) a WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: Creating router plan - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on test_table_1960000 test_table - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Aggregate - -> Function Scan on read_intermediate_result intermediate_result - Filter: (key = 1) -(15 rows) - --- citus should not inline the CTE because it is used multiple times -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte_1 as first_entry - JOIN - cte_1 as second_entry - USING (key); -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) first_entry JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) second_entry USING (key)) -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 1021 -(1 row) - --- NOT MATERIALIZED should cause the query to be inlined twice -WITH cte_1 AS NOT MATERIALIZED (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte_1 as first_entry - JOIN - cte_1 as second_entry - USING (key); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [-1073741824,-1] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [0,1073741823] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [1073741824,2147483647] -DEBUG: join prunable for intervals [-1073741824,-1] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [-1073741824,-1] and [0,1073741823] -DEBUG: join prunable for intervals [-1073741824,-1] and [1073741824,2147483647] -DEBUG: join prunable for intervals [0,1073741823] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [0,1073741823] and [-1073741824,-1] -DEBUG: join prunable for intervals [0,1073741823] and [1073741824,2147483647] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-1073741824,-1] -DEBUG: join prunable for intervals [1073741824,2147483647] and [0,1073741823] - count ---------------------------------------------------------------------- - 1021 -(1 row) - --- EXPLAIN should show the differences between MATERIALIZED and NOT MATERIALIZED -\set VERBOSITY terse -SELECT public.coordinator_plan_with_subplans($Q$ -EXPLAIN (COSTS OFF) WITH cte_1 AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte_1 as first_entry - JOIN - cte_1 as second_entry - USING (key); -$Q$); -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) first_entry JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) second_entry USING (key)) -DEBUG: Creating router plan - coordinator_plan_with_subplans ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Task Count: 1 -(5 rows) - -\set VERBOSITY default -EXPLAIN (COSTS OFF) WITH cte_1 AS NOT MATERIALIZED (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte_1 as first_entry - JOIN - cte_1 as second_entry - USING (key); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [-1073741824,-1] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [0,1073741823] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [1073741824,2147483647] -DEBUG: join prunable for intervals [-1073741824,-1] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [-1073741824,-1] and [0,1073741823] -DEBUG: join prunable for intervals [-1073741824,-1] and [1073741824,2147483647] -DEBUG: join prunable for intervals [0,1073741823] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [0,1073741823] and [-1073741824,-1] -DEBUG: join prunable for intervals [0,1073741823] and [1073741824,2147483647] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-1073741824,-1] -DEBUG: join prunable for intervals [1073741824,2147483647] and [0,1073741823] - QUERY PLAN ---------------------------------------------------------------------- - Aggregate - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Aggregate - -> Hash Join - Hash Cond: (test_table.key = test_table_1.key) - -> Seq Scan on test_table_1960000 test_table - -> Hash - -> Seq Scan on test_table_1960000 test_table_1 -(12 rows) - --- ctes with volatile functions are not --- inlined -WITH cte_1 AS (SELECT *, random() FROM test_table) -SELECT - key, value -FROM - cte_1 -ORDER BY 2 DESC LIMIT 1; -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value, random() AS random FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, random double precision)) cte_1 ORDER BY value DESC LIMIT 1 -DEBUG: Creating router plan - key | value ---------------------------------------------------------------------- - 9 | test99 -(1 row) - --- even with NOT MATERIALIZED volatile functions should not be inlined -WITH cte_1 AS NOT MATERIALIZED (SELECT *, random() FROM test_table) -SELECT - count(*) -FROM - cte_1; -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value, random() AS random FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, random double precision)) cte_1 -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 101 -(1 row) - --- cte_1 should be able to inlined even if --- it is used one level below -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - count(*) -FROM -( - WITH ct2 AS (SELECT * FROM cte_1) - SELECT * FROM ct2 -) as foo; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE ct2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 101 -(1 row) - --- a similar query, but there is also --- one more cte, which relies on the previous --- CTE -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - count(DISTINCT key) -FROM -( - WITH cte_2 AS (SELECT * FROM cte_1), - cte_3 AS (SELECT * FROM cte_2) - SELECT * FROM cte_3 -) as foo; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: CTE cte_3 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 10 -(1 row) - --- inlined CTE contains a reference to outer query --- should be fine (because we pushdown the whole query) -SELECT count(*) - FROM - (SELECT * - FROM test_table) AS test_table_cte - JOIN LATERAL - (WITH bar AS (SELECT * - FROM test_table - WHERE key = test_table_cte.key) - SELECT * - FROM - bar - LEFT JOIN test_table u2 ON u2.key = bar.key) AS foo ON TRUE; -DEBUG: CTE bar is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 10331 -(1 row) - --- inlined CTE contains a reference to outer query --- should be fine (even if the recursive planning fails --- to recursively plan the query) -SELECT count(*) - FROM - (SELECT * - FROM test_table) AS test_table_cte - JOIN LATERAL - (WITH bar AS (SELECT * - FROM test_table - WHERE key = test_table_cte.key) - SELECT * - FROM - bar - LEFT JOIN test_table u2 ON u2.key = bar.value::int) AS foo ON TRUE; -DEBUG: CTE bar is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: skipping recursive planning for the subquery since it contains references to outer queries -DEBUG: skipping recursive planning for the subquery since it contains references to outer queries -DEBUG: skipping recursive planning for the subquery since it contains references to outer queries -DEBUG: Router planner cannot handle multi-shard select queries -ERROR: CTEs that refer to other subqueries are not supported in multi-shard queries --- inlined CTE can recursively planned later, that's the decision --- recursive planning makes --- LIMIT 5 in cte2 triggers recusrive planning, after cte inlining -WITH cte_1 AS (SELECT * FROM test_table) -SELECT - * -FROM -( - WITH ct2 AS (SELECT * FROM cte_1 ORDER BY 1, 2, 3 LIMIT 5) - SELECT * FROM ct2 -) as foo ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 5; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE ct2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1 ORDER BY key, value, other_value LIMIT 5 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value, other_value FROM (SELECT ct2.key, ct2.value, ct2.other_value FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) ct2) foo ORDER BY key DESC, value DESC, other_value DESC LIMIT 5 -DEBUG: Creating router plan - key | value | other_value ---------------------------------------------------------------------- - 0 | test30 | {"f1": 30, "f2": 540, "f3": "test30"} - 0 | test20 | {"f1": 20, "f2": 360, "f3": "test20"} - 0 | test100 | {"f1": 100, "f2": 1800, "f3": "test100"} - 0 | test10 | {"f1": 10, "f2": 180, "f3": "test10"} - 0 | test0 | {"f1": 0, "f2": 0, "f3": "test0"} -(5 rows) - --- all nested CTEs can be inlinied -WITH cte_1 AS ( - WITH cte_1 AS ( - WITH cte_1 AS ( - WITH cte_1 AS ( - WITH cte_1 AS ( - WITH cte_1 AS ( - WITH cte_1 AS (SELECT count(*), key FROM test_table GROUP BY key) - SELECT * FROM cte_1) - SELECT * FROM cte_1 WHERE key >= 1) - SELECT * FROM cte_1 WHERE key >= 2) - SELECT * FROM cte_1 WHERE key >= 3) - SELECT * FROM cte_1 WHERE key >= 4) - SELECT * FROM cte_1 WHERE key >= 5) -SELECT * FROM cte_1 WHERE key = 1; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 - count | key ---------------------------------------------------------------------- -(0 rows) - --- ctes can be inlined even if they are used --- in set operations -WITH cte_1 AS (SELECT * FROM test_table), - cte_2 AS (SELECT * FROM test_table) -SELECT count(*) FROM ( -(SELECT * FROM cte_1 EXCEPT SELECT * FROM test_table) -UNION -(SELECT * FROM cte_2)) as foo; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_3 for subquery SELECT key, value, other_value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_2 -DEBUG: Creating router plan -DEBUG: generating subplan XXX_4 for subquery (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb) EXCEPT SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) UNION SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) foo -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 101 -(1 row) - --- cte_1 is going to be inlined even inside another set operation -WITH cte_1 AS (SELECT * FROM test_table), - cte_2 AS (SELECT * FROM test_table ORDER BY 1 DESC LIMIT 3) -(SELECT *, (SELECT 1) FROM cte_1 EXCEPT SELECT *, 1 FROM test_table) -UNION -(SELECT *, 1 FROM cte_2) -ORDER BY 1,2; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table ORDER BY key DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for subquery SELECT key, value, other_value, (SELECT 1) FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_3 for subquery SELECT key, value, other_value, 1 FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result."?column?" FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, "?column?" integer) EXCEPT SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result."?column?" FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, "?column?" integer)) UNION SELECT cte_2.key, cte_2.value, cte_2.other_value, 1 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_2 ORDER BY 1, 2 -DEBUG: Creating router plan - key | value | other_value | ?column? ---------------------------------------------------------------------- - 9 | test19 | {"f1": 19, "f2": 342, "f3": "test19"} | 1 - 9 | test29 | {"f1": 29, "f2": 522, "f3": "test29"} | 1 - 9 | test9 | {"f1": 9, "f2": 162, "f3": "test9"} | 1 -(3 rows) - --- cte_1 is safe to inline, even if because after inlining --- it'd be in a query tree where there is a query that is --- not supported by Citus unless recursively planned --- cte_2 is on another queryTree, should be fine -WITH cte_1 AS (SELECT * FROM test_table), - cte_2 AS (SELECT * FROM test_table) -(SELECT *, (SELECT key FROM cte_1) FROM test_table) -UNION -(SELECT *, 1 FROM cte_2); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_3 for subquery SELECT key, value, other_value, (SELECT cte_1.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1) AS key FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value, intermediate_result.key_1 AS key FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb, key_1 integer) UNION SELECT cte_2.key, cte_2.value, cte_2.other_value, 1 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_2 -DEBUG: Creating router plan -ERROR: more than one row returned by a subquery used as an expression -CONTEXT: while executing command on localhost:xxxxx --- after inlining CTEs, the query becomes --- subquery pushdown with set operations -WITH cte_1 AS (SELECT * FROM test_table), - cte_2 AS (SELECT * FROM test_table) -SELECT max(key) FROM -( - SELECT * FROM cte_1 - UNION - SELECT * FROM cte_2 -) as bar; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - max ---------------------------------------------------------------------- - 9 -(1 row) - --- cte LEFT JOIN subquery should only work --- when CTE is inlined, as Citus currently --- doesn't know how to handle intermediate --- results in the outer parts of outer --- queries -WITH cte AS (SELECT * FROM test_table) -SELECT - count(*) -FROM - cte LEFT JOIN test_table USING (key); -DEBUG: CTE cte is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 1021 -(1 row) - --- the CTEs are very simple, so postgres --- can pull-up the subqueries after inlining --- the CTEs, and the query that we send to workers --- becomes a join between two tables -WITH cte_1 AS (SELECT key FROM test_table), - cte_2 AS (SELECT key FROM test_table) -SELECT - count(*) -FROM - cte_1 JOIN cte_2 USING (key); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [-1073741824,-1] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [0,1073741823] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [1073741824,2147483647] -DEBUG: join prunable for intervals [-1073741824,-1] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [-1073741824,-1] and [0,1073741823] -DEBUG: join prunable for intervals [-1073741824,-1] and [1073741824,2147483647] -DEBUG: join prunable for intervals [0,1073741823] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [0,1073741823] and [-1073741824,-1] -DEBUG: join prunable for intervals [0,1073741823] and [1073741824,2147483647] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-1073741824,-1] -DEBUG: join prunable for intervals [1073741824,2147483647] and [0,1073741823] - count ---------------------------------------------------------------------- - 1021 -(1 row) - --- the following query is kind of interesting --- During INSERT .. SELECT via coordinator, --- Citus moves the CTEs into SELECT part, and plans/execute --- the SELECT separately. Thus, fist_table_cte can be inlined --- by Citus -- but not by Postgres -WITH fist_table_cte AS - (SELECT * FROM test_table) -INSERT INTO test_table - (key, value) - SELECT - key, value - FROM - fist_table_cte; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: CTE fist_table_cte is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'key' -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960000 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1960000_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer, value text) -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960001 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1960001_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer, value text) -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960002 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1960002_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer, value text) -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960003 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1960003_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer, value text) --- the following INSERT..SELECT is even more interesting --- the CTE becomes pushdownable -INSERT INTO test_table -WITH fist_table_cte AS - (SELECT * FROM test_table) - SELECT - key, value - FROM - fist_table_cte; -DEBUG: CTE fist_table_cte is going to be inlined via distributed planning -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960000 AS citus_table_alias (key, value) SELECT key, value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table_1960000 test_table) fist_table_cte WHERE (key IS NOT NULL) -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960001 AS citus_table_alias (key, value) SELECT key, value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table_1960001 test_table) fist_table_cte WHERE (key IS NOT NULL) -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960002 AS citus_table_alias (key, value) SELECT key, value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table_1960002 test_table) fist_table_cte WHERE (key IS NOT NULL) -DEBUG: distributed statement: INSERT INTO cte_inline.test_table_1960003 AS citus_table_alias (key, value) SELECT key, value FROM (SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table_1960003 test_table) fist_table_cte WHERE (key IS NOT NULL) --- update/delete/modifying ctes --- we don't support any cte inlining in modifications --- queries and modifying CTEs -WITH cte_1 AS (SELECT * FROM test_table) - DELETE FROM test_table WHERE key NOT IN (SELECT key FROM cte_1); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: DELETE FROM cte_inline.test_table WHERE (NOT (key OPERATOR(pg_catalog.=) ANY (SELECT cte_1.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1))) -DEBUG: Creating router plan --- NOT MATERIALIZED should not CTEs that are used in a modifying query, because --- we de still don't support it -WITH cte_1 AS NOT MATERIALIZED (SELECT * FROM test_table) - DELETE FROM test_table WHERE key NOT IN (SELECT key FROM cte_1); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: DELETE FROM cte_inline.test_table WHERE (NOT (key OPERATOR(pg_catalog.=) ANY (SELECT cte_1.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1))) -DEBUG: Creating router plan --- we don't inline CTEs if they are modifying CTEs -WITH cte_1 AS (DELETE FROM test_table WHERE key % 3 = 1 RETURNING key) -SELECT * FROM cte_1 ORDER BY 1 DESC LIMIT 3; -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: DELETE FROM cte_inline.test_table WHERE ((key OPERATOR(pg_catalog.%) 3) OPERATOR(pg_catalog.=) 1) RETURNING key -DEBUG: Creating router plan -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_1 ORDER BY key DESC LIMIT 3 -DEBUG: Creating router plan - key ---------------------------------------------------------------------- - 7 - 7 - 7 -(3 rows) - --- NOT MATERIALIZED should not affect modifying CTEs -WITH cte_1 AS NOT MATERIALIZED (DELETE FROM test_table WHERE key % 3 = 0 RETURNING key) -SELECT count(*) FROM cte_1; -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_1: DELETE FROM cte_inline.test_table WHERE ((key OPERATOR(pg_catalog.%) 3) OPERATOR(pg_catalog.=) 0) RETURNING key -DEBUG: Creating router plan -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_1 -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 164 -(1 row) - --- cte with column aliases -SELECT * FROM test_table, -(WITH cte_1 (x,y) AS (SELECT * FROM test_table), - cte_2 (z,y) AS (SELECT value, other_value, key FROM test_table), - cte_3 (t,m) AS (SELECT z, y, key as cte_2_key FROM cte_2) - SELECT * FROM cte_2, cte_3) as bar -ORDER BY value, other_value, z, y, t, m, cte_2_key -LIMIT 5; -DEBUG: CTE cte_3 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE cte_2: SELECT value, other_value, key FROM cte_inline.test_table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.key, test_table.value, test_table.other_value, bar.z, bar.y, bar.key, bar.t, bar.m, bar.cte_2_key FROM cte_inline.test_table, (SELECT cte_2.z, cte_2.y, cte_2.key, cte_3.t, cte_3.m, cte_3.cte_2_key FROM (SELECT intermediate_result.value AS z, intermediate_result.other_value AS y, intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text, other_value jsonb, key integer)) cte_2, (SELECT cte_2_1.z AS t, cte_2_1.y AS m, cte_2_1.key AS cte_2_key FROM (SELECT intermediate_result.value AS z, intermediate_result.other_value AS y, intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text, other_value jsonb, key integer)) cte_2_1) cte_3) bar ORDER BY test_table.value, test_table.other_value, bar.z, bar.y, bar.t, bar.m, bar.cte_2_key LIMIT 5 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 5 - key | value | other_value | z | y | key | t | m | cte_2_key ---------------------------------------------------------------------- - 2 | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | 2 | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | 2 - 2 | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | 2 | test12 | | 2 - 2 | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | 2 | test12 | | 2 - 2 | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | 2 | test12 | | 2 - 2 | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | test12 | {"f1": 12, "f2": 216, "f3": "test12"} | 2 | test15 | {"f1": 15, "f2": 270, "f3": "test15"} | 5 -(5 rows) - --- cte used in HAVING subquery just works fine --- even if it is inlined -WITH cte_1 AS (SELECT max(key) as max FROM test_table) -SELECT - key, count(*) -FROM - test_table -GROUP BY - key -HAVING - (count(*) > (SELECT max FROM cte_1)) -ORDER BY 2 DESC, 1 DESC -LIMIT 5; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT max(key) AS max FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, count(*) AS count FROM cte_inline.test_table GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.>) (SELECT cte_1.max FROM (SELECT intermediate_result.max FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(max integer)) cte_1)) ORDER BY (count(*)) DESC, key DESC LIMIT 5 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 5 - key | count ---------------------------------------------------------------------- - 8 | 40 - 5 | 40 - 2 | 40 -(3 rows) - --- cte used in ORDER BY just works fine --- even if it is inlined -WITH cte_1 AS (SELECT max(key) as max FROM test_table) -SELECT - key -FROM - test_table JOIN cte_1 ON (key = max) -ORDER BY - cte_1.max -LIMIT 3; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT max(key) AS max FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.key FROM (cte_inline.test_table JOIN (SELECT intermediate_result.max FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(max integer)) cte_1 ON ((test_table.key OPERATOR(pg_catalog.=) cte_1.max))) ORDER BY cte_1.max LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - key ---------------------------------------------------------------------- - 8 - 8 - 8 -(3 rows) - -PREPARE inlined_cte_without_params AS - WITH cte_1 AS (SELECT count(*) FROM test_table GROUP BY key) - SELECT * FROM cte_1 ORDER BY 1 DESC LIMIT 3; -PREPARE non_inlined_cte_without_params AS - WITH cte_1 AS (SELECT * FROM test_table) - SELECT - * - FROM - test_table LEFT JOIN cte_1 USING (value) ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 3; -PREPARE inlined_cte_has_parameter_on_non_dist_key(text) AS - WITH cte_1 AS (SELECT count(*) FROM test_table WHERE value = $1 GROUP BY key) - SELECT * FROM cte_1 ORDER BY 1 DESC LIMIT 3; -PREPARE inlined_cte_has_parameter_on_dist_key(int) AS - WITH cte_1 AS (SELECT count(*) FROM test_table WHERE key > $1 GROUP BY key) - SELECT * FROM cte_1 ORDER BY 1 DESC LIMIT 3; -PREPARE non_inlined_cte_has_parameter_on_dist_key(int) AS - WITH cte_1 AS (SELECT * FROM test_table where key > $1) - SELECT - * - FROM - test_table LEFT JOIN cte_1 USING (value) ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 3; -PREPARE retry_planning(int) AS - WITH cte_1 AS (SELECT * FROM test_table WHERE key > $1) - SELECT json_object_agg(DISTINCT key, value) FROM cte_1 ORDER BY max(key), min(value) DESC LIMIT 3; -EXECUTE inlined_cte_without_params; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE inlined_cte_without_params; - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE inlined_cte_without_params; - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE inlined_cte_without_params; - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE inlined_cte_without_params; - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE inlined_cte_without_params; - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE non_inlined_cte_without_params; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_without_params; - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_without_params; - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_without_params; - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_without_params; - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_without_params; - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE inlined_cte_has_parameter_on_non_dist_key('test1'); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- -(0 rows) - -EXECUTE inlined_cte_has_parameter_on_non_dist_key('test2'); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 4 -(1 row) - -EXECUTE inlined_cte_has_parameter_on_non_dist_key('test3'); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- -(0 rows) - -EXECUTE inlined_cte_has_parameter_on_non_dist_key('test4'); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- -(0 rows) - -EXECUTE inlined_cte_has_parameter_on_non_dist_key('test5'); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 4 -(1 row) - -EXECUTE inlined_cte_has_parameter_on_non_dist_key('test6'); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- -(0 rows) - -EXECUTE inlined_cte_has_parameter_on_dist_key(1); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 - 40 - 40 -(3 rows) - -EXECUTE inlined_cte_has_parameter_on_dist_key(2); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 - 40 -(2 rows) - -EXECUTE inlined_cte_has_parameter_on_dist_key(3); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 - 40 -(2 rows) - -EXECUTE inlined_cte_has_parameter_on_dist_key(4); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 - 40 -(2 rows) - -EXECUTE inlined_cte_has_parameter_on_dist_key(5); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 -(1 row) - -EXECUTE inlined_cte_has_parameter_on_dist_key(6); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - count ---------------------------------------------------------------------- - 40 -(1 row) - -EXECUTE non_inlined_cte_has_parameter_on_dist_key(1); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_has_parameter_on_dist_key(2); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 2) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_has_parameter_on_dist_key(3); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 3) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_has_parameter_on_dist_key(4); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 4) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_has_parameter_on_dist_key(5); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 5) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE non_inlined_cte_has_parameter_on_dist_key(6); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 6) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT test_table.value, test_table.key, test_table.other_value, cte_1.key, cte_1.other_value FROM (cte_inline.test_table LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_1 USING (value)) ORDER BY test_table.value DESC, test_table.key DESC, test_table.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - value | key | other_value | key | other_value ---------------------------------------------------------------------- - test98 | 8 | | 8 | - test98 | 8 | | 8 | - test98 | 8 | | 8 | -(3 rows) - -EXECUTE retry_planning(1); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "2" : "test12", "2" : "test2", "2" : "test22", "2" : "test32", "2" : "test42", "2" : "test52", "2" : "test62", "2" : "test72", "2" : "test82", "2" : "test92", "5" : "test15", "5" : "test25", "5" : "test35", "5" : "test45", "5" : "test5", "5" : "test55", "5" : "test65", "5" : "test75", "5" : "test85", "5" : "test95", "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - -EXECUTE retry_planning(2); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "5" : "test15", "5" : "test25", "5" : "test35", "5" : "test45", "5" : "test5", "5" : "test55", "5" : "test65", "5" : "test75", "5" : "test85", "5" : "test95", "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - -EXECUTE retry_planning(3); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "5" : "test15", "5" : "test25", "5" : "test35", "5" : "test45", "5" : "test5", "5" : "test55", "5" : "test65", "5" : "test75", "5" : "test85", "5" : "test95", "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - -EXECUTE retry_planning(4); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "5" : "test15", "5" : "test25", "5" : "test35", "5" : "test45", "5" : "test5", "5" : "test55", "5" : "test65", "5" : "test75", "5" : "test85", "5" : "test95", "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - -EXECUTE retry_planning(5); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - -EXECUTE retry_planning(6); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - -WITH b AS (SELECT * FROM test_table) -SELECT count(*) FROM (SELECT key as x FROM test_table OFFSET 0) as ref LEFT JOIN b ON (ref.x = b.key); -DEBUG: CTE b is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key AS x FROM cte_inline.test_table OFFSET 0 -DEBUG: recursively planning right side of the left join since the outer side is a recurring rel -DEBUG: recursively planning the distributed subquery since it is part of a distributed join node that is outer joined with a recurring rel -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.x FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(x integer)) ref LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) b ON ((ref.x OPERATOR(pg_catalog.=) b.key))) -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 4800 -(1 row) - --- this becomes a non-colocated subquery join --- because after the CTEs are inlined the joins --- become a non-colocated subquery join -WITH a AS (SELECT * FROM test_table), -b AS (SELECT * FROM test_table) -SELECT count(*) FROM a LEFT JOIN b ON (a.value = b.value); -DEBUG: CTE a is going to be inlined via distributed planning -DEBUG: CTE b is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) a LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) b ON ((a.value OPERATOR(pg_catalog.=) b.value))) -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 480 -(1 row) - -WITH a AS (SELECT * FROM test_table OFFSET 0), -b AS (SELECT * FROM test_table) -SELECT min(a.key) FROM a LEFT JOIN b ON (a.value = b.value); -DEBUG: CTE a is going to be inlined via distributed planning -DEBUG: CTE b is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table OFFSET 0 -DEBUG: recursively planning right side of the left join since the outer side is a recurring rel -DEBUG: recursively planning the distributed subquery since it is part of a distributed join node that is outer joined with a recurring rel -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT min(a.key) AS min FROM ((SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) a LEFT JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) b ON ((a.value OPERATOR(pg_catalog.=) b.value))) -DEBUG: Creating router plan - min ---------------------------------------------------------------------- - 2 -(1 row) - --- after both CTEs are inlined, this becomes non-colocated subquery join -WITH cte_1 AS (SELECT * FROM test_table), -cte_2 AS (SELECT * FROM test_table) -SELECT * FROM cte_1 JOIN cte_2 ON (cte_1.value > cte_2.value) ORDER BY 1,2,3,4,5,6 DESC LIMIT 3;; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT key, value, other_value FROM cte_inline.test_table -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT cte_1.key, cte_1.value, cte_1.other_value, cte_2.key, cte_2.value, cte_2.other_value FROM ((SELECT test_table.key, test_table.value, test_table.other_value FROM cte_inline.test_table) cte_1 JOIN (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.other_value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, other_value jsonb)) cte_2 ON ((cte_1.value OPERATOR(pg_catalog.>) cte_2.value))) ORDER BY cte_1.key, cte_1.value, cte_1.other_value, cte_2.key, cte_2.value, cte_2.other_value DESC LIMIT 3 -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: push down of limit count: 3 - key | value | other_value | key | value | other_value ---------------------------------------------------------------------- - 2 | test2 | {"f1": 2, "f2": 36, "f3": "test2"} | 2 | test12 | - 2 | test2 | {"f1": 2, "f2": 36, "f3": "test2"} | 2 | test12 | - 2 | test2 | {"f1": 2, "f2": 36, "f3": "test2"} | 2 | test12 | -(3 rows) - --- full join is only supported when both sides are --- recursively planned -WITH cte_1 AS (SELECT value FROM test_table WHERE key > 1), - cte_2 AS (SELECT value FROM test_table WHERE key > 3) -SELECT * FROM cte_1 FULL JOIN cte_2 USING (value) ORDER BY 1 DESC LIMIT 3;; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 3) -DEBUG: recursively planning left side of the full join since the other side is a recurring rel -DEBUG: recursively planning the distributed subquery since it is part of a distributed join node that is outer joined with a recurring rel -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for subquery SELECT value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT value FROM ((SELECT intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(value text)) cte_1 FULL JOIN (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) cte_2 USING (value)) ORDER BY value DESC LIMIT 3 -DEBUG: Creating router plan - value ---------------------------------------------------------------------- - test98 - test98 - test98 -(3 rows) - --- an unsupported agg. for multi-shard queries --- so CTE has to be recursively planned -WITH cte_1 AS (SELECT * FROM test_table WHERE key > 1) -SELECT json_object_agg(DISTINCT key, value) FROM cte_1; -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries - json_object_agg ---------------------------------------------------------------------- - { "2" : "test12", "2" : "test2", "2" : "test22", "2" : "test32", "2" : "test42", "2" : "test52", "2" : "test62", "2" : "test72", "2" : "test82", "2" : "test92", "5" : "test15", "5" : "test25", "5" : "test35", "5" : "test45", "5" : "test5", "5" : "test55", "5" : "test65", "5" : "test75", "5" : "test85", "5" : "test95", "8" : "test18", "8" : "test28", "8" : "test38", "8" : "test48", "8" : "test58", "8" : "test68", "8" : "test78", "8" : "test8", "8" : "test88", "8" : "test98" } -(1 row) - --- both cte_1 and cte_2 are going to be inlined. --- later, cte_2 is recursively planned since it doesn't have --- GROUP BY but aggragate in a subquery. --- this is an important example of being able to recursively plan --- "some" of the CTEs -WITH cte_1 AS (SELECT value FROM test_table WHERE key > 1), - cte_2 AS (SELECT max(value) as value FROM test_table WHERE key > 3) -SELECT count(*) FROM cte_1 JOIN cte_2 USING (value); -DEBUG: CTE cte_1 is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT max(value) AS value FROM cte_inline.test_table WHERE (key OPERATOR(pg_catalog.>) 3) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT test_table.value FROM cte_inline.test_table WHERE (test_table.key OPERATOR(pg_catalog.>) 1)) cte_1 JOIN (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) cte_2 USING (value)) -DEBUG: Router planner cannot handle multi-shard select queries - count ---------------------------------------------------------------------- - 4 -(1 row) - --- prevent DROP CASCADE to give notices -SET client_min_messages TO ERROR; -DROP SCHEMA cte_inline CASCADE; diff --git a/src/test/regress/expected/detect_conn_close.out b/src/test/regress/expected/detect_conn_close.out index 60973de76..41f98ac6e 100644 --- a/src/test/regress/expected/detect_conn_close.out +++ b/src/test/regress/expected/detect_conn_close.out @@ -1,13 +1,6 @@ -- -- PG15+ test as WL_SOCKET_CLOSED exposed for PG15+ -- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif CREATE SCHEMA socket_close; SET search_path TO socket_close; CREATE OR REPLACE FUNCTION kill_all_cached_internal_conns(gpid bigint) diff --git a/src/test/regress/expected/detect_conn_close_0.out b/src/test/regress/expected/detect_conn_close_0.out deleted file mode 100644 index 27e9787c6..000000000 --- a/src/test/regress/expected/detect_conn_close_0.out +++ /dev/null @@ -1,9 +0,0 @@ --- --- PG15+ test as WL_SOCKET_CLOSED exposed for PG15+ --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/grant_on_schema_propagation.out b/src/test/regress/expected/grant_on_schema_propagation.out index 77447c2dd..fc34ab416 100644 --- a/src/test/regress/expected/grant_on_schema_propagation.out +++ b/src/test/regress/expected/grant_on_schema_propagation.out @@ -1,16 +1,6 @@ -- -- GRANT_ON_SCHEMA_PROPAGATION -- --- this test has different output for PG14 compared to PG15 --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - -- test grants are propagated when the schema is CREATE SCHEMA dist_schema; CREATE TABLE dist_schema.dist_table (id int); diff --git a/src/test/regress/expected/grant_on_schema_propagation_0.out b/src/test/regress/expected/grant_on_schema_propagation_0.out deleted file mode 100644 index 9806a0dbd..000000000 --- a/src/test/regress/expected/grant_on_schema_propagation_0.out +++ /dev/null @@ -1,400 +0,0 @@ --- --- GRANT_ON_SCHEMA_PROPAGATION --- --- this test has different output for PG14 compared to PG15 --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - --- test grants are propagated when the schema is -CREATE SCHEMA dist_schema; -CREATE TABLE dist_schema.dist_table (id int); -CREATE SCHEMA another_dist_schema; -CREATE TABLE another_dist_schema.dist_table (id int); -SET citus.enable_ddl_propagation TO off; -CREATE SCHEMA non_dist_schema; -SET citus.enable_ddl_propagation TO on; --- create roles on all nodes -CREATE USER role_1; -CREATE USER role_2; -CREATE USER role_3; --- do some varying grants -GRANT USAGE, CREATE ON SCHEMA dist_schema TO role_1 WITH GRANT OPTION; -GRANT USAGE ON SCHEMA dist_schema TO role_2; -SET ROLE role_1; -GRANT USAGE ON SCHEMA dist_schema TO role_3 WITH GRANT OPTION; -GRANT CREATE ON SCHEMA dist_schema TO role_3; -GRANT CREATE, USAGE ON SCHEMA dist_schema TO PUBLIC; -RESET ROLE; -GRANT USAGE ON SCHEMA dist_schema TO PUBLIC; -SELECT create_distributed_table('dist_schema.dist_table', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('another_dist_schema.dist_table', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'dist_schema'; - nspname | nspacl ---------------------------------------------------------------------- - dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U/postgres,role_3=U*C/role_1,=UC/role_1,=U/postgres} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'dist_schema'; - nspname | nspacl ---------------------------------------------------------------------- - dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U/postgres,role_3=U*C/role_1,=UC/role_1,=U/postgres} -(1 row) - -\c - - - :master_port --- grant all permissions -GRANT ALL ON SCHEMA dist_schema, another_dist_schema, non_dist_schema TO role_1, role_2, role_3 WITH GRANT OPTION; -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/postgres,role_3=U*C*/postgres} - dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/postgres,role_3=U*C/role_1,=UC/role_1,=U/postgres,role_3=U*C*/postgres} - non_dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/postgres,role_3=U*C*/postgres} -(3 rows) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/postgres,role_3=U*C*/postgres} - dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/postgres,role_3=U*C/role_1,=UC/role_1,=U/postgres,role_3=U*C*/postgres} -(2 rows) - -\c - - - :master_port --- revoke all permissions -REVOKE ALL ON SCHEMA dist_schema, another_dist_schema, non_dist_schema FROM role_1, role_2, role_3, PUBLIC CASCADE; -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres} - dist_schema | {postgres=UC/postgres} - non_dist_schema | {postgres=UC/postgres} -(3 rows) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres} - dist_schema | {postgres=UC/postgres} -(2 rows) - -\c - - - :master_port --- grant with multiple permissions, roles and schemas -GRANT USAGE, CREATE ON SCHEMA dist_schema, another_dist_schema, non_dist_schema TO role_1, role_2, role_3; -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_1=UC/postgres,role_2=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_1=UC/postgres,role_2=UC/postgres,role_3=UC/postgres} - non_dist_schema | {postgres=UC/postgres,role_1=UC/postgres,role_2=UC/postgres,role_3=UC/postgres} -(3 rows) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_1=UC/postgres,role_2=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_1=UC/postgres,role_2=UC/postgres,role_3=UC/postgres} -(2 rows) - -\c - - - :master_port --- revoke with multiple permissions, roles and schemas -REVOKE USAGE, CREATE ON SCHEMA dist_schema, another_dist_schema, non_dist_schema FROM role_1, role_2; -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_3=UC/postgres} - non_dist_schema | {postgres=UC/postgres,role_3=UC/postgres} -(3 rows) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_3=UC/postgres} -(2 rows) - -\c - - - :master_port --- grant with grant option -GRANT USAGE ON SCHEMA dist_schema TO role_1, role_3 WITH GRANT OPTION; -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_3=U*C/postgres,role_1=U*/postgres} -(2 rows) - -\c - - - :master_port --- revoke grant option for -REVOKE GRANT OPTION FOR USAGE ON SCHEMA dist_schema FROM role_3; -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_3=UC/postgres,role_1=U*/postgres} -(2 rows) - -\c - - - :master_port --- test current_user -SET citus.enable_alter_role_propagation TO ON; -ALTER ROLE role_1 SUPERUSER; -SET citus.enable_alter_role_propagation TO OFF; -SET ROLE role_1; --- this is only supported on citus enterprise where multiple users can be managed --- The output of the nspname select below will indicate if the create has been granted -GRANT CREATE ON SCHEMA dist_schema TO CURRENT_USER; -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname IN ('dist_schema', 'another_dist_schema', 'non_dist_schema') ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - another_dist_schema | {postgres=UC/postgres,role_3=UC/postgres} - dist_schema | {postgres=UC/postgres,role_3=UC/postgres,role_1=U*C/postgres} -(2 rows) - -\c - - - :master_port -RESET ROLE; -SET citus.enable_alter_role_propagation TO ON; -ALTER ROLE role_1 NOSUPERUSER; -SET citus.enable_alter_role_propagation TO OFF; -DROP TABLE dist_schema.dist_table, another_dist_schema.dist_table; -DROP SCHEMA dist_schema; -DROP SCHEMA another_dist_schema; -DROP SCHEMA non_dist_schema; --- test if the grantors are propagated correctly --- first remove one of the worker nodes -SET citus.shard_replication_factor TO 1; -SELECT master_remove_node('localhost', :worker_2_port); - master_remove_node ---------------------------------------------------------------------- - -(1 row) - --- create a new schema -CREATE SCHEMA grantor_schema; --- give cascading permissions -GRANT USAGE, CREATE ON SCHEMA grantor_schema TO role_1 WITH GRANT OPTION; -GRANT CREATE ON SCHEMA grantor_schema TO PUBLIC; -SET ROLE role_1; -GRANT USAGE ON SCHEMA grantor_schema TO role_2 WITH GRANT OPTION; -GRANT CREATE ON SCHEMA grantor_schema TO role_2; -GRANT USAGE, CREATE ON SCHEMA grantor_schema TO role_3; -GRANT CREATE, USAGE ON SCHEMA grantor_schema TO PUBLIC; -SET ROLE role_2; -GRANT USAGE ON SCHEMA grantor_schema TO role_3; -RESET ROLE; --- distribute the schema -CREATE TABLE grantor_schema.grantor_table (id INT); -SELECT create_distributed_table('grantor_schema.grantor_table', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- check if the grantors are propagated correctly -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=U*C*/postgres,=C/postgres,role_2=U*C/role_1,role_3=UC/role_1,=UC/role_1,role_3=U/role_2} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=U*C*/postgres,=C/postgres,role_2=U*C/role_1,role_3=UC/role_1,=UC/role_1,role_3=U/role_2} -(1 row) - -\c - - - :master_port --- add the previously removed node -SELECT 1 FROM master_add_node('localhost', :worker_2_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- check if the grantors are propagated correctly -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=U*C*/postgres,=C/postgres,role_2=U*C/role_1,role_3=UC/role_1,=UC/role_1,role_3=U/role_2} -(1 row) - -\c - - - :worker_2_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=U*C*/postgres,=C/postgres,role_2=U*C/role_1,role_3=UC/role_1,=UC/role_1,role_3=U/role_2} -(1 row) - -\c - - - :master_port --- revoke one of the permissions -REVOKE USAGE ON SCHEMA grantor_schema FROM role_1 CASCADE; --- check if revoke worked correctly -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=C*/postgres,=C/postgres,role_2=C/role_1,role_3=C/role_1,=C/role_1} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=C*/postgres,=C/postgres,role_2=C/role_1,role_3=C/role_1,=C/role_1} -(1 row) - -\c - - - :master_port --- test if grantor propagates correctly on already distributed schemas -GRANT USAGE ON SCHEMA grantor_schema TO role_1 WITH GRANT OPTION; -SET ROLE role_1; -GRANT USAGE ON SCHEMA grantor_schema TO role_2; -GRANT USAGE ON SCHEMA grantor_schema TO role_3 WITH GRANT OPTION; -SET ROLE role_3; -GRANT USAGE ON SCHEMA grantor_schema TO role_2; -RESET ROLE; --- check the results -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=U*C*/postgres,=C/postgres,role_2=UC/role_1,role_3=U*C/role_1,=C/role_1,role_2=U/role_3} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'grantor_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - grantor_schema | {postgres=UC/postgres,role_1=U*C*/postgres,=C/postgres,role_2=UC/role_1,role_3=U*C/role_1,=C/role_1,role_2=U/role_3} -(1 row) - -\c - - - :master_port -DROP TABLE grantor_schema.grantor_table; -DROP SCHEMA grantor_schema CASCADE; --- test distributing the schema with another user -CREATE SCHEMA dist_schema; -GRANT ALL ON SCHEMA dist_schema TO role_1 WITH GRANT OPTION; -SET ROLE role_1; -GRANT ALL ON SCHEMA dist_schema TO role_2 WITH GRANT OPTION; -CREATE TABLE dist_schema.dist_table (id int); -SELECT create_distributed_table('dist_schema.dist_table', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'dist_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/role_1} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'dist_schema' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - dist_schema | {postgres=UC/postgres,role_1=U*C*/postgres,role_2=U*C*/role_1} -(1 row) - -\c - - - :master_port -DROP TABLE dist_schema.dist_table; -DROP SCHEMA dist_schema CASCADE; --- test grants on public schema --- first remove one of the worker nodes -SET citus.shard_replication_factor TO 1; -SELECT master_remove_node('localhost', :worker_2_port); - master_remove_node ---------------------------------------------------------------------- - -(1 row) - --- to avoid different output in PG15 -GRANT CREATE ON SCHEMA public TO public; --- distribute the public schema (it has to be distributed by now but just in case) -CREATE TABLE public_schema_table (id INT); -SELECT create_distributed_table('public_schema_table', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- give cascading permissions -GRANT USAGE, CREATE ON SCHEMA PUBLIC TO role_1 WITH GRANT OPTION; -SET ROLE role_1; -GRANT USAGE ON SCHEMA PUBLIC TO PUBLIC; -RESET ROLE; --- check if the grants are propagated correctly -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'public' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - public | {postgres=UC/postgres,=UC/postgres,role_1=U*C*/postgres,=U/role_1} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'public' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - public | {postgres=UC/postgres,=UC/postgres,role_1=U*C*/postgres,=U/role_1} -(1 row) - -\c - - - :master_port --- add the previously removed node -SELECT 1 FROM master_add_node('localhost', :worker_2_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- check if the grants are propagated correctly -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'public' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - public | {postgres=UC/postgres,=UC/postgres,role_1=U*C*/postgres,=U/role_1} -(1 row) - -\c - - - :worker_2_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'public' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - public | {postgres=UC/postgres,=UC/postgres,role_1=U*C*/postgres,=U/role_1} -(1 row) - -\c - - - :master_port --- revoke those new permissions -REVOKE CREATE, USAGE ON SCHEMA PUBLIC FROM role_1 CASCADE; --- check if the grants are propagated correctly -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'public' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - public | {postgres=UC/postgres,=UC/postgres} -(1 row) - -\c - - - :worker_1_port -SELECT nspname, nspacl FROM pg_namespace WHERE nspname = 'public' ORDER BY nspname; - nspname | nspacl ---------------------------------------------------------------------- - public | {postgres=UC/postgres,=UC/postgres} -(1 row) - -\c - - - :master_port -DROP TABLE public_schema_table; -DROP ROLE role_1, role_2, role_3; diff --git a/src/test/regress/expected/insert_select_repartition.out b/src/test/regress/expected/insert_select_repartition.out index 476aa8640..fbe85914f 100644 --- a/src/test/regress/expected/insert_select_repartition.out +++ b/src/test/regress/expected/insert_select_repartition.out @@ -1,17 +1,6 @@ -- -- INSERT_SELECT_REPARTITION -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - -- tests behaviour of INSERT INTO ... SELECT with repartitioning CREATE SCHEMA insert_select_repartition; SET search_path TO 'insert_select_repartition'; diff --git a/src/test/regress/expected/insert_select_repartition_0.out b/src/test/regress/expected/insert_select_repartition_0.out deleted file mode 100644 index 904bd215a..000000000 --- a/src/test/regress/expected/insert_select_repartition_0.out +++ /dev/null @@ -1,1334 +0,0 @@ --- --- INSERT_SELECT_REPARTITION --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - --- tests behaviour of INSERT INTO ... SELECT with repartitioning -CREATE SCHEMA insert_select_repartition; -SET search_path TO 'insert_select_repartition'; -SET citus.next_shard_id TO 4213581; -SET citus.shard_replication_factor TO 1; --- 4 shards, hash distributed. --- Negate distribution column value. -SET citus.shard_count TO 4; -CREATE TABLE source_table(a int); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table SELECT * FROM generate_series(1, 10); -CREATE TABLE target_table(a int); -SELECT create_distributed_table('target_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO DEBUG2; -INSERT INTO target_table SELECT -a FROM source_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an operator in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'a' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213585 AS citus_table_alias (a) SELECT a FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213583_to_0,repartitioned_results_xxxxx_from_4213584_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213586 AS citus_table_alias (a) SELECT a FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213582_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213587 AS citus_table_alias (a) SELECT a FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213581_to_2,repartitioned_results_xxxxx_from_4213582_to_2,repartitioned_results_xxxxx_from_4213584_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213588 AS citus_table_alias (a) SELECT a FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213581_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer) -RESET client_min_messages; -SELECT * FROM target_table WHERE a=-1 OR a=-3 OR a=-7 ORDER BY a; - a ---------------------------------------------------------------------- - -7 - -3 - -1 -(3 rows) - -DROP TABLE source_table, target_table; --- --- range partitioning, composite distribution column --- -CREATE TYPE composite_key_type AS (f1 int, f2 text); --- source -CREATE TABLE source_table(f1 int, key composite_key_type, value int, mapped_key composite_key_type); -SELECT create_distributed_table('source_table', 'key', 'range'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CALL public.create_range_partitioned_shards('source_table', '{"(0,a)","(25,a)"}','{"(24,z)","(49,z)"}'); -INSERT INTO source_table VALUES (0, (0, 'a'), 1, (0, 'a')); -INSERT INTO source_table VALUES (1, (1, 'b'), 2, (26, 'b')); -INSERT INTO source_table VALUES (2, (2, 'c'), 3, (3, 'c')); -INSERT INTO source_table VALUES (3, (4, 'd'), 4, (27, 'd')); -INSERT INTO source_table VALUES (4, (30, 'e'), 5, (30, 'e')); -INSERT INTO source_table VALUES (5, (31, 'f'), 6, (31, 'f')); -INSERT INTO source_table VALUES (6, (32, 'g'), 50, (8, 'g')); --- target -CREATE TABLE target_table(f1 int DEFAULT 0, value int, key composite_key_type PRIMARY KEY); -SELECT create_distributed_table('target_table', 'key', 'range'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CALL public.create_range_partitioned_shards('target_table', '{"(0,a)","(25,a)"}','{"(24,z)","(49,z)"}'); -SET client_min_messages TO DEBUG2; -INSERT INTO target_table SELECT f1, value, mapped_key FROM source_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 2 with name 'key' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213591 AS citus_table_alias (f1, value, key) SELECT f1, value, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_0,repartitioned_results_xxxxx_from_4213590_to_0}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, value integer, key insert_select_repartition.composite_key_type) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213592 AS citus_table_alias (f1, value, key) SELECT f1, value, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_1,repartitioned_results_xxxxx_from_4213590_to_1}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, value integer, key insert_select_repartition.composite_key_type) -RESET client_min_messages; -SELECT * FROM target_table ORDER BY key; - f1 | value | key ---------------------------------------------------------------------- - 0 | 1 | (0,a) - 2 | 3 | (3,c) - 6 | 50 | (8,g) - 1 | 2 | (26,b) - 3 | 4 | (27,d) - 4 | 5 | (30,e) - 5 | 6 | (31,f) -(7 rows) - -SELECT * FROM target_table WHERE key = (26, 'b')::composite_key_type; - f1 | value | key ---------------------------------------------------------------------- - 1 | 2 | (26,b) -(1 row) - --- with explicit column names -TRUNCATE target_table; -SET client_min_messages TO DEBUG2; -INSERT INTO target_table(value, key) SELECT value, mapped_key FROM source_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 2 with name 'key' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213591 AS citus_table_alias (f1, value, key) SELECT f1, value, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_0,repartitioned_results_xxxxx_from_4213590_to_0}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, value integer, key insert_select_repartition.composite_key_type) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213592 AS citus_table_alias (f1, value, key) SELECT f1, value, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_1,repartitioned_results_xxxxx_from_4213590_to_1}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, value integer, key insert_select_repartition.composite_key_type) -RESET client_min_messages; -SELECT * FROM target_table ORDER BY key; - f1 | value | key ---------------------------------------------------------------------- - 0 | 1 | (0,a) - 0 | 3 | (3,c) - 0 | 50 | (8,g) - 0 | 2 | (26,b) - 0 | 4 | (27,d) - 0 | 5 | (30,e) - 0 | 6 | (31,f) -(7 rows) - --- missing value for a column -TRUNCATE target_table; -SET client_min_messages TO DEBUG2; -INSERT INTO target_table(key) SELECT mapped_key AS key_renamed FROM source_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 1 with name 'key' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213591 AS citus_table_alias (f1, key) SELECT f1, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_0,repartitioned_results_xxxxx_from_4213590_to_0}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, key insert_select_repartition.composite_key_type) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213592 AS citus_table_alias (f1, key) SELECT f1, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_1,repartitioned_results_xxxxx_from_4213590_to_1}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, key insert_select_repartition.composite_key_type) -RESET client_min_messages; -SELECT * FROM target_table ORDER BY key; - f1 | value | key ---------------------------------------------------------------------- - 0 | | (0,a) - 0 | | (3,c) - 0 | | (8,g) - 0 | | (26,b) - 0 | | (27,d) - 0 | | (30,e) - 0 | | (31,f) -(7 rows) - --- ON CONFLICT -SET client_min_messages TO DEBUG2; -INSERT INTO target_table(key) -SELECT mapped_key AS key_renamed FROM source_table -WHERE (mapped_key).f1 % 2 = 1 -ON CONFLICT (key) DO UPDATE SET f1=1; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 1 with name 'key' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213591 AS citus_table_alias (f1, key) SELECT f1, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_0}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, key insert_select_repartition.composite_key_type) ON CONFLICT(key) DO UPDATE SET f1 = 1 -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213592 AS citus_table_alias (f1, key) SELECT f1, key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213589_to_1,repartitioned_results_xxxxx_from_4213590_to_1}'::text[], 'text'::citus_copy_format) intermediate_result(f1 integer, key insert_select_repartition.composite_key_type) ON CONFLICT(key) DO UPDATE SET f1 = 1 -RESET client_min_messages; -SELECT * FROM target_table ORDER BY key; - f1 | value | key ---------------------------------------------------------------------- - 0 | | (0,a) - 1 | | (3,c) - 0 | | (8,g) - 0 | | (26,b) - 1 | | (27,d) - 0 | | (30,e) - 1 | | (31,f) -(7 rows) - --- missing value for distribution column -INSERT INTO target_table(value) SELECT value FROM source_table; -ERROR: the partition column of table insert_select_repartition.target_table should have a value -DROP TABLE source_table, target_table; --- different column types --- verifies that we add necessary casts, otherwise even shard routing won't --- work correctly and we will see 2 values for the same primary key. -CREATE TABLE target_table(col_1 int primary key, col_2 int); -SELECT create_distributed_table('target_table','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO target_table VALUES (1,2), (2,3), (3,4), (4,5), (5,6); -CREATE TABLE source_table(col_1 numeric, col_2 numeric, col_3 numeric); -SELECT create_distributed_table('source_table','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table VALUES (1,1,1), (3,3,3), (5,5,5); -SET client_min_messages TO DEBUG2; -INSERT INTO target_table -SELECT - col_1, col_2 -FROM - source_table -ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The data type of the target table's partition column should exactly match the data type of the corresponding simple column reference in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'col_1' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213593 AS citus_table_alias (col_1, col_2) SELECT col_1, col_2 FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213597_to_0,repartitioned_results_xxxxx_from_4213600_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer) ON CONFLICT(col_1) DO UPDATE SET col_2 = excluded.col_2 -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213594 AS citus_table_alias (col_1, col_2) SELECT col_1, col_2 FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213599_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer) ON CONFLICT(col_1) DO UPDATE SET col_2 = excluded.col_2 -RESET client_min_messages; -SELECT * FROM target_table ORDER BY 1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 1 - 2 | 3 - 3 | 3 - 4 | 5 - 5 | 5 -(5 rows) - -DROP TABLE source_table, target_table; --- --- array coercion --- -SET citus.shard_count TO 3; -CREATE TABLE source_table(a int, mapped_key int, c float[]); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table VALUES (1, -1, ARRAY[1.1, 2.2, 3.3]), (2, -2, ARRAY[4.5, 5.8]), - (3, -3, ARRAY[]::float[]), (4, -4, ARRAY[3.3]); -SET citus.shard_count TO 2; -CREATE TABLE target_table(a int, b int[]); -SELECT create_distributed_table('target_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO DEBUG1; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: performing repartitioned INSERT ... SELECT -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - --- --- worker queries can have more columns than necessary. ExpandWorkerTargetEntry() --- might add additional columns to the target list. --- -TRUNCATE target_table; -\set VERBOSITY TERSE --- first verify that the SELECT query below fetches 3 projected columns from workers -SET citus.log_remote_commands TO true; SET client_min_messages TO DEBUG; - CREATE TABLE results AS SELECT max(-a), array_agg(mapped_key) FROM source_table GROUP BY a; -DEBUG: Router planner cannot handle multi-shard select queries -NOTICE: issuing SELECT max((OPERATOR(pg_catalog.-) a)) AS max, array_agg(mapped_key) AS array_agg, a AS worker_column_3 FROM insert_select_repartition.source_table_4213601 source_table WHERE true GROUP BY a -NOTICE: issuing SELECT max((OPERATOR(pg_catalog.-) a)) AS max, array_agg(mapped_key) AS array_agg, a AS worker_column_3 FROM insert_select_repartition.source_table_4213602 source_table WHERE true GROUP BY a -NOTICE: issuing SELECT max((OPERATOR(pg_catalog.-) a)) AS max, array_agg(mapped_key) AS array_agg, a AS worker_column_3 FROM insert_select_repartition.source_table_4213603 source_table WHERE true GROUP BY a -RESET citus.log_remote_commands; RESET client_min_messages; -DROP TABLE results; --- now verify that we don't write the extra columns to the intermediate result files and --- insertion to the target works fine. -SET client_min_messages TO DEBUG1; -INSERT INTO target_table SELECT max(-a), array_agg(mapped_key) FROM source_table GROUP BY a; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DEBUG: performing repartitioned INSERT ... SELECT -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {-4} - -3 | {-3} - -2 | {-2} - -1 | {-1} -(4 rows) - --- --- repartitioned INSERT/SELECT followed/preceded by other DML in same transaction --- --- case 1. followed by DELETE -TRUNCATE target_table; -BEGIN; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - -DELETE FROM target_table; -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- -(0 rows) - --- case 2. followed by UPDATE -TRUNCATE target_table; -BEGIN; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - -UPDATE target_table SET b=array_append(b, a); -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3,-4} - -3 | {-3} - -2 | {4,6,-2} - -1 | {1,2,3,-1} -(4 rows) - --- case 3. followed by multi-row INSERT -TRUNCATE target_table; -BEGIN; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - -INSERT INTO target_table VALUES (-5, ARRAY[10,11]), (-6, ARRAY[11,12]), (-7, ARRAY[999]); -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -7 | {999} - -6 | {11,12} - -5 | {10,11} - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(7 rows) - --- case 4. followed by distributed INSERT/SELECT -TRUNCATE target_table; -BEGIN; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - -INSERT INTO target_table SELECT * FROM target_table; -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -4 | {3} - -3 | {} - -3 | {} - -2 | {4,6} - -2 | {4,6} - -1 | {1,2,3} - -1 | {1,2,3} -(8 rows) - --- case 5. preceded by DELETE -TRUNCATE target_table; -BEGIN; -DELETE FROM target_table; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - --- case 6. preceded by UPDATE -TRUNCATE target_table; -BEGIN; -UPDATE target_table SET b=array_append(b, a); -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - --- case 7. preceded by multi-row INSERT -TRUNCATE target_table; -BEGIN; -INSERT INTO target_table VALUES (-5, ARRAY[10,11]), (-6, ARRAY[11,12]), (-7, ARRAY[999]); -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -7 | {999} - -6 | {11,12} - -5 | {10,11} - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(7 rows) - --- case 8. preceded by distributed INSERT/SELECT -TRUNCATE target_table; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -BEGIN; -INSERT INTO target_table SELECT * FROM target_table; -INSERT INTO target_table SELECT mapped_key, c FROM source_table; -END; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -4 | {3} - -4 | {3} - -3 | {} - -3 | {} - -3 | {} - -2 | {4,6} - -2 | {4,6} - -2 | {4,6} - -1 | {1,2,3} - -1 | {1,2,3} - -1 | {1,2,3} -(12 rows) - --- --- repartitioned INSERT/SELECT with RETURNING --- -TRUNCATE target_table; -SET client_min_messages TO DEBUG1; -WITH c AS ( - INSERT INTO target_table - SELECT mapped_key, c FROM source_table - RETURNING *) -SELECT * FROM c ORDER by a; -DEBUG: generating subplan XXX_1 for CTE c: INSERT INTO insert_select_repartition.target_table (a, b) SELECT mapped_key, c FROM insert_select_repartition.source_table RETURNING target_table.a, target_table.b -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT a, b FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer[])) c ORDER BY a -DEBUG: performing repartitioned INSERT ... SELECT - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - -RESET client_min_messages; --- --- in combination with CTEs --- -TRUNCATE target_table; -SET client_min_messages TO DEBUG1; -WITH t AS ( - SELECT mapped_key, a, c FROM source_table - WHERE a > floor(random()) -) -INSERT INTO target_table -SELECT mapped_key, c FROM t NATURAL JOIN source_table; -DEBUG: volatile functions are not allowed in distributed INSERT ... SELECT queries -DEBUG: generating subplan XXX_1 for CTE t: SELECT mapped_key, a, c FROM insert_select_repartition.source_table WHERE ((a)::double precision OPERATOR(pg_catalog.>) floor(random())) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT mapped_key AS a, auto_coerced_by_citus_1 AS b FROM (SELECT t.mapped_key, (t.c)::integer[] AS auto_coerced_by_citus_1 FROM ((SELECT intermediate_result.mapped_key, intermediate_result.a, intermediate_result.c FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(mapped_key integer, a integer, c double precision[])) t JOIN insert_select_repartition.source_table USING (mapped_key, a, c))) citus_insert_select_subquery -DEBUG: performing repartitioned INSERT ... SELECT -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - -4 | {3} - -3 | {} - -2 | {4,6} - -1 | {1,2,3} -(4 rows) - -DROP TABLE source_table, target_table; --- --- The case where select query has a GROUP BY ... --- -SET citus.shard_count TO 4; -CREATE TABLE source_table(a int, b int); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET citus.shard_count TO 3; -CREATE TABLE target_table(a int, b int); -SELECT create_distributed_table('target_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table SELECT floor(i/4), i*i FROM generate_series(1, 20) i; -SET client_min_messages TO DEBUG1; -INSERT INTO target_table SELECT a, max(b) FROM source_table GROUP BY a; -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - 0 | 9 - 1 | 49 - 2 | 121 - 3 | 225 - 4 | 361 - 5 | 400 -(6 rows) - --- --- EXPLAIN output should specify repartitioned INSERT/SELECT --- -EXPLAIN INSERT INTO target_table SELECT a, max(b) FROM source_table GROUP BY a; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) (cost=0.00..0.00 rows=0 width=0) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) (cost=0.00..0.00 rows=100000 width=8) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> HashAggregate (cost=43.90..45.90 rows=200 width=8) - Group Key: a - -> Seq Scan on source_table_4213606 source_table (cost=0.00..32.60 rows=2260 width=8) -(10 rows) - --- --- EXPLAIN ANALYZE is currently not supported --- -EXPLAIN ANALYZE INSERT INTO target_table SELECT a, max(b) FROM source_table GROUP BY a; -ERROR: EXPLAIN ANALYZE is currently not supported for INSERT ... SELECT commands with repartitioning --- --- Duplicate names in target list --- -TRUNCATE target_table; -SET client_min_messages TO DEBUG2; -INSERT INTO target_table - SELECT max(b), max(b) FROM source_table GROUP BY a; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'a' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213610 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213606_to_0,repartitioned_results_xxxxx_from_4213607_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213611 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213607_to_1,repartitioned_results_xxxxx_from_4213609_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213612 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213606_to_2,repartitioned_results_xxxxx_from_4213607_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - 9 | 9 - 49 | 49 - 121 | 121 - 225 | 225 - 361 | 361 - 400 | 400 -(6 rows) - --- --- Prepared INSERT/SELECT --- -TRUNCATE target_table; -PREPARE insert_plan(int, int) AS -INSERT INTO target_table - SELECT a, max(b) FROM source_table - WHERE a BETWEEN $1 AND $2 GROUP BY a; -SET client_min_messages TO DEBUG1; -EXECUTE insert_plan(0, 2); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(0, 2); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(0, 2); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(0, 2); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(0, 2); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(0, 2); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(2, 4); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(2, 4); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(2, 4); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(2, 4); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(2, 4); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan(2, 4); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -RESET client_min_messages; -SELECT a, count(*), count(distinct b) distinct_values FROM target_table GROUP BY a ORDER BY a; - a | count | distinct_values ---------------------------------------------------------------------- - 0 | 6 | 1 - 1 | 6 | 1 - 2 | 12 | 1 - 3 | 6 | 1 - 4 | 6 | 1 -(5 rows) - -DEALLOCATE insert_plan; --- --- Prepared router INSERT/SELECT. We currently use pull to coordinator when the --- distributed query has a single task. --- -TRUNCATE target_table; -PREPARE insert_plan(int) AS -INSERT INTO target_table - SELECT a, max(b) FROM source_table - WHERE a=$1 GROUP BY a; -SET client_min_messages TO DEBUG1; -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -EXECUTE insert_plan(0); -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Collecting INSERT ... SELECT results on coordinator -RESET client_min_messages; -SELECT a, count(*), count(distinct b) distinct_values FROM target_table GROUP BY a ORDER BY a; - a | count | distinct_values ---------------------------------------------------------------------- - 0 | 7 | 1 -(1 row) - -DEALLOCATE insert_plan; --- --- Prepared INSERT/SELECT with no parameters. --- -TRUNCATE target_table; -PREPARE insert_plan AS -INSERT INTO target_table - SELECT a, max(b) FROM source_table - WHERE a BETWEEN 1 AND 2 GROUP BY a; -SELECT public.coordinator_plan($Q$ -EXPLAIN EXECUTE insert_plan; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) (cost=0.00..0.00 rows=0 width=0) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) (cost=0.00..0.00 rows=100000 width=8) - Task Count: 4 -(4 rows) - -SET client_min_messages TO DEBUG1; -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -EXECUTE insert_plan; -DEBUG: performing repartitioned INSERT ... SELECT -RESET client_min_messages; -SELECT a, count(*), count(distinct b) distinct_values FROM target_table GROUP BY a ORDER BY a; - a | count | distinct_values ---------------------------------------------------------------------- - 1 | 7 | 1 - 2 | 7 | 1 -(2 rows) - -DEALLOCATE insert_plan; --- --- INSERT/SELECT in CTE --- -TRUNCATE target_table; -SET client_min_messages TO DEBUG2; -SET citus.enable_non_colocated_router_query_pushdown TO ON; -WITH r AS ( - INSERT INTO target_table SELECT * FROM source_table RETURNING * -) -INSERT INTO target_table SELECT source_table.a, max(source_table.b) FROM source_table NATURAL JOIN r GROUP BY source_table.a; -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: only SELECT, UPDATE, or DELETE common table expressions may be router planned -DEBUG: generating subplan XXX_1 for CTE r: INSERT INTO insert_select_repartition.target_table (a, b) SELECT a, b FROM insert_select_repartition.source_table RETURNING target_table.a, target_table.b -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT a, max AS b FROM (SELECT source_table.a, max(source_table.b) AS max FROM (insert_select_repartition.source_table JOIN (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) r USING (a, b)) GROUP BY source_table.a) citus_insert_select_subquery -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'a' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213610 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213606_to_0,repartitioned_results_xxxxx_from_4213607_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) RETURNING citus_table_alias.a, citus_table_alias.b -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213611 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213607_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) RETURNING citus_table_alias.a, citus_table_alias.b -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213612 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213609_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) RETURNING citus_table_alias.a, citus_table_alias.b -DEBUG: partitioning SELECT query by column index 0 with name 'a' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213610 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213606_to_0,repartitioned_results_xxxxx_from_4213607_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213611 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213607_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213612 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213609_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -RESET citus.enable_non_colocated_router_query_pushdown; -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a, b; - a | b ---------------------------------------------------------------------- - 0 | 1 - 0 | 4 - 0 | 9 - 0 | 9 - 1 | 16 - 1 | 25 - 1 | 36 - 1 | 49 - 1 | 49 - 2 | 64 - 2 | 81 - 2 | 100 - 2 | 121 - 2 | 121 - 3 | 144 - 3 | 169 - 3 | 196 - 3 | 225 - 3 | 225 - 4 | 256 - 4 | 289 - 4 | 324 - 4 | 361 - 4 | 361 - 5 | 400 - 5 | 400 -(26 rows) - -DROP TABLE source_table, target_table; --- --- Constraint failure and rollback --- -SET citus.shard_count TO 4; -CREATE TABLE source_table(a int, b int); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table SELECT i, i * i FROM generate_series(1, 10) i; -UPDATE source_table SET b = NULL where b IN (9, 4); -SET citus.shard_replication_factor TO 2; -CREATE TABLE target_table(a int, b int not null); -SELECT create_distributed_table('target_table', 'a', 'range'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CALL public.create_range_partitioned_shards('target_table', '{0,3,6,9}','{2,5,8,50}'); -INSERT INTO target_table VALUES (11,9), (22,4); -EXPLAIN (costs off) INSERT INTO target_table SELECT * FROM source_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on source_table_4213613 source_table -(8 rows) - -EXPLAIN (costs off) INSERT INTO target_table SELECT * FROM source_table WHERE b IS NOT NULL; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on source_table_4213613 source_table - Filter: (b IS NOT NULL) -(9 rows) - -BEGIN; -SAVEPOINT s1; -INSERT INTO target_table SELECT * FROM source_table; -ERROR: null value in column "b" violates not-null constraint -ROLLBACK TO SAVEPOINT s1; -INSERT INTO target_table SELECT * FROM source_table WHERE b IS NOT NULL; -END; -SELECT * FROM target_table ORDER BY b; - a | b ---------------------------------------------------------------------- - 1 | 1 - 22 | 4 - 11 | 9 - 4 | 16 - 5 | 25 - 6 | 36 - 7 | 49 - 8 | 64 - 9 | 81 - 10 | 100 -(10 rows) - --- verify that values have been replicated to both replicas -SELECT * FROM run_command_on_placements('target_table', 'select count(*) from %s') ORDER BY shardid, nodeport; - nodename | nodeport | shardid | success | result ---------------------------------------------------------------------- - localhost | 57637 | 4213617 | t | 1 - localhost | 57638 | 4213617 | t | 1 - localhost | 57637 | 4213618 | t | 2 - localhost | 57638 | 4213618 | t | 2 - localhost | 57637 | 4213619 | t | 3 - localhost | 57638 | 4213619 | t | 3 - localhost | 57637 | 4213620 | t | 4 - localhost | 57638 | 4213620 | t | 4 -(8 rows) - --- --- Multiple casts in the SELECT query --- -TRUNCATE target_table; -SET client_min_messages TO DEBUG2; -INSERT INTO target_table SELECT 1.12, b::bigint FROM source_table WHERE b IS NOT NULL; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'a' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213617 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213613_to_0,repartitioned_results_xxxxx_from_4213614_to_0,repartitioned_results_xxxxx_from_4213615_to_0,repartitioned_results_xxxxx_from_4213616_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -RESET client_min_messages; -SELECT * FROM target_table ORDER BY a, b; - a | b ---------------------------------------------------------------------- - 1 | 1 - 1 | 16 - 1 | 25 - 1 | 36 - 1 | 49 - 1 | 64 - 1 | 81 - 1 | 100 -(8 rows) - --- --- ROLLBACK after out of range error --- -TRUNCATE target_table; -BEGIN; -INSERT INTO target_table SELECT a * 10, b FROM source_table WHERE b IS NOT NULL; -ERROR: could not find shard for partition column value -END; -SELECT max(result) FROM run_command_on_placements('target_table', 'select count(*) from %s'); - max ---------------------------------------------------------------------- - 0 -(1 row) - -DROP TABLE source_table, target_table; --- --- Range partitioned target's ranges doesn't cover the whole range --- -SET citus.shard_replication_factor TO 2; -SET citus.shard_count TO 4; -CREATE TABLE source_table(a int, b int); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table SELECT i, i * i FROM generate_series(1, 10) i; -SET citus.shard_replication_factor TO 2; -CREATE TABLE target_table(b int not null, a float); -SELECT create_distributed_table('target_table', 'a', 'range'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CALL public.create_range_partitioned_shards('target_table', '{0.0,3.5,6.5,9.5}','{2.9,5.9,8.9,50.0}'); -INSERT INTO target_table SELECT b, a+0.6 FROM source_table; -SELECT * FROM target_table ORDER BY a; - b | a ---------------------------------------------------------------------- - 1 | 1.6 - 4 | 2.6 - 9 | 3.6 - 16 | 4.6 - 25 | 5.6 - 36 | 6.6 - 49 | 7.6 - 64 | 8.6 - 81 | 9.6 - 100 | 10.6 -(10 rows) - --- verify that values have been replicated to both replicas, and that each --- replica has received correct number of rows -SELECT * FROM run_command_on_placements('target_table', 'select count(*) from %s') ORDER BY shardid, nodeport; - nodename | nodeport | shardid | success | result ---------------------------------------------------------------------- - localhost | 57637 | 4213625 | t | 2 - localhost | 57638 | 4213625 | t | 2 - localhost | 57637 | 4213626 | t | 3 - localhost | 57638 | 4213626 | t | 3 - localhost | 57637 | 4213627 | t | 3 - localhost | 57638 | 4213627 | t | 3 - localhost | 57637 | 4213628 | t | 2 - localhost | 57638 | 4213628 | t | 2 -(8 rows) - -DROP TABLE source_table, target_table; --- --- Select column names should be unique --- -SET citus.shard_replication_factor TO 1; -SET citus.shard_count TO 4; -CREATE TABLE source_table(a int, b int); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET citus.shard_count TO 3; -CREATE TABLE target_table(a int, b int, c int, d int, e int, f int); -SELECT create_distributed_table('target_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table SELECT i, i * i FROM generate_series(1, 10) i; -SET client_min_messages TO DEBUG2; -INSERT INTO target_table SELECT a AS aa, b AS aa, 1 AS aa, 2 AS aa FROM source_table; -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'a' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213633 AS citus_table_alias (a, b, c, d) SELECT a, b, c, d FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213629_to_0,repartitioned_results_xxxxx_from_4213630_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer, c integer, d integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213634 AS citus_table_alias (a, b, c, d) SELECT a, b, c, d FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213630_to_1,repartitioned_results_xxxxx_from_4213631_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer, c integer, d integer) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213635 AS citus_table_alias (a, b, c, d) SELECT a, b, c, d FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213632_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer, c integer, d integer) -RESET client_min_messages; -SELECT count(*) FROM target_table; - count ---------------------------------------------------------------------- - 10 -(1 row) - --- --- Disable repartitioned insert/select --- -TRUNCATE target_table; -SET citus.enable_repartitioned_insert_select TO OFF; -EXPLAIN (costs off) INSERT INTO target_table SELECT a AS aa, b AS aa, 1 AS aa, 2 AS aa FROM source_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on source_table_4213629 source_table -(8 rows) - -SET client_min_messages TO DEBUG2; -INSERT INTO target_table SELECT a AS aa, b AS aa, 1 AS aa, 2 AS aa FROM source_table; -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Collecting INSERT ... SELECT results on coordinator -RESET client_min_messages; -SELECT count(*) FROM target_table; - count ---------------------------------------------------------------------- - 10 -(1 row) - -SET citus.enable_repartitioned_insert_select TO ON; -EXPLAIN (costs off) INSERT INTO target_table SELECT a AS aa, b AS aa, 1 AS aa, 2 AS aa FROM source_table; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on source_table_4213629 source_table -(8 rows) - -DROP TABLE source_table, target_table; --- --- Don't use INSERT/SELECT repartition with repartition joins --- -create table test(x int, y int); -select create_distributed_table('test', 'x'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -set citus.enable_repartition_joins to true; -INSERT INTO test SELECT i, i FROM generate_series(1, 10) i; -EXPLAIN (costs off) INSERT INTO test(y, x) SELECT a.x, b.y FROM test a JOIN test b USING (y); - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 - Tasks Shown: None, not supported for re-partition queries - -> MapMergeJob - Map Task Count: 3 - Merge Task Count: 6 - -> MapMergeJob - Map Task Count: 3 - Merge Task Count: 6 -(11 rows) - -SET client_min_messages TO DEBUG1; -INSERT INTO test(y, x) SELECT a.x, b.y FROM test a JOIN test b USING (y); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: Collecting INSERT ... SELECT results on coordinator -RESET client_min_messages; -SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 20 -(1 row) - -TRUNCATE test; -INSERT INTO test SELECT i, i FROM generate_series(1, 10) i; -EXPLAIN (costs off) INSERT INTO test SELECT a.* FROM test a JOIN test b USING (y); - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 - Tasks Shown: None, not supported for re-partition queries - -> MapMergeJob - Map Task Count: 3 - Merge Task Count: 6 - -> MapMergeJob - Map Task Count: 3 - Merge Task Count: 6 -(11 rows) - -SET client_min_messages TO DEBUG1; -INSERT INTO test SELECT a.* FROM test a JOIN test b USING (y); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: Collecting INSERT ... SELECT results on coordinator -RESET client_min_messages; -SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 20 -(1 row) - --- --- In the following case we coerce some columns and move uncoerced versions to the --- end of SELECT list. The following case verifies that we rename those columns so --- we don't get "column reference is ambiguous" errors. --- -CREATE TABLE target_table( - c1 int, - c2 int, - c3 timestamp, - a int, - b int, - c int, - c4 int, - c5 int, - c6 int[], - cardinality int, - sum int, - PRIMARY KEY (c1, c2, c3, c4, c5, c6) -); -SET citus.shard_count TO 5; -SELECT create_distributed_table('target_table', 'c1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE source_table( - c1 int, - c2 int, - c3 date, - c4 int, - cardinality int, - sum int -); -SET citus.shard_count TO 4; -SELECT create_distributed_table('source_table', 'c1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE OR REPLACE FUNCTION dist_func(a int, b int) RETURNS int[] -AS $$ -BEGIN - RETURN array_fill(a, ARRAY[b]); -END; -$$ -LANGUAGE plpgsql STABLE; -SELECT create_distributed_function('dist_func(int, int)'); -NOTICE: procedure insert_select_repartition.dist_func is already distributed - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO DEBUG; -SET citus.enable_unique_job_ids TO off; -INSERT INTO source_table VALUES (1,2, '2020-02-02', 3, 4, 5); -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 -INSERT INTO source_table VALUES (1,2, '2020-02-02', 3, 4, 5); -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 -INSERT INTO source_table VALUES (3,4, '2020-02-02', 3, 4, 5); -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 3 -INSERT INTO target_table AS enriched(c1, c2, c3, c4, c5, c6, cardinality, sum) -SELECT c1, c2, c3, c4, -1::float AS c5, - dist_func(c1, 4) c6, - sum(cardinality), - sum(sum) -FROM source_table -GROUP BY c1, c2, c3, c4, c6 -ON CONFLICT(c1, c2, c3, c4, c5, c6) -DO UPDATE SET - cardinality = enriched.cardinality + excluded.cardinality, - sum = enriched.sum + excluded.sum; -DEBUG: INSERT target relation and all source relations of the SELECT must be colocated in distributed INSERT ... SELECT -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'c1' -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213639 AS enriched (c1, c2, c3, c4, c5, c6, cardinality, sum) SELECT c1, c2, c3, c4, c5, c6, cardinality, sum FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213644_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(c1 integer, c2 integer, c3 timestamp without time zone, c4 integer, c5 integer, c6 integer[], cardinality integer, sum integer) ON CONFLICT(c1, c2, c3, c4, c5, c6) DO UPDATE SET cardinality = (enriched.cardinality OPERATOR(pg_catalog.+) excluded.cardinality), sum = (enriched.sum OPERATOR(pg_catalog.+) excluded.sum) -DEBUG: distributed statement: INSERT INTO insert_select_repartition.target_table_4213641 AS enriched (c1, c2, c3, c4, c5, c6, cardinality, sum) SELECT c1, c2, c3, c4, c5, c6, cardinality, sum FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213645_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(c1 integer, c2 integer, c3 timestamp without time zone, c4 integer, c5 integer, c6 integer[], cardinality integer, sum integer) ON CONFLICT(c1, c2, c3, c4, c5, c6) DO UPDATE SET cardinality = (enriched.cardinality OPERATOR(pg_catalog.+) excluded.cardinality), sum = (enriched.sum OPERATOR(pg_catalog.+) excluded.sum) -RESET client_min_messages; -EXPLAIN (COSTS OFF) INSERT INTO target_table AS enriched(c1, c2, c3, c4, c5, c6, cardinality, sum) -SELECT c1, c2, c3, c4, -1::float AS c5, - dist_func(c1, 4) c6, - sum(cardinality), - sum(sum) -FROM source_table -GROUP BY c1, c2, c3, c4, c6 -ON CONFLICT(c1, c2, c3, c4, c5, c6) -DO UPDATE SET - cardinality = enriched.cardinality + excluded.cardinality, - sum = enriched.sum + excluded.sum; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> HashAggregate - Group Key: c1, c2, c3, c4, insert_select_repartition.dist_func(c1, 4) - -> Seq Scan on source_table_4213644 source_table -(10 rows) - --- verify that we don't report repartitioned insert/select for tables --- with sequences. See https://github.com/citusdata/citus/issues/3936 -create table table_with_sequences (x int, y int, z bigserial); -insert into table_with_sequences values (1,1); -select create_distributed_table('table_with_sequences','x'); -NOTICE: Copying data from local table... -NOTICE: copying the data has completed - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -explain (costs off) insert into table_with_sequences select y, x from table_with_sequences; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on table_with_sequences_4213648 table_with_sequences -(8 rows) - --- verify that we don't report repartitioned insert/select for tables --- with user-defined sequences. -CREATE SEQUENCE user_defined_sequence; -create table table_with_user_sequences (x int, y int, z bigint default nextval('user_defined_sequence')); -insert into table_with_user_sequences values (1,1); -select create_distributed_table('table_with_user_sequences','x'); -NOTICE: Copying data from local table... -NOTICE: copying the data has completed - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -explain (costs off) insert into table_with_user_sequences select y, x from table_with_user_sequences; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on table_with_user_sequences_4213652 table_with_user_sequences -(8 rows) - -CREATE TABLE dist_table_1(id int); -SELECT create_distributed_table('dist_table_1','id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE dist_table_2(id int); -SELECT create_distributed_table('dist_table_2','id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- verify that insert select with union can be repartitioned. We cannot push down the query --- since UNION clause has no FROM clause at top level query. -SELECT public.coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_1(id) SELECT id FROM dist_table_1 UNION SELECT id FROM dist_table_2; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(4 rows) - --- clean-up -SET client_min_messages TO WARNING; -DROP SCHEMA insert_select_repartition CASCADE; diff --git a/src/test/regress/expected/intermediate_result_pruning.out b/src/test/regress/expected/intermediate_result_pruning.out index 5262ebc79..6caeab91b 100644 --- a/src/test/regress/expected/intermediate_result_pruning.out +++ b/src/test/regress/expected/intermediate_result_pruning.out @@ -1,17 +1,6 @@ -- -- INTERMEDIATE_RESULT_PRUNING -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA intermediate_result_pruning; SET search_path TO intermediate_result_pruning; SET citus.log_intermediate_results TO TRUE; diff --git a/src/test/regress/expected/intermediate_result_pruning_0.out b/src/test/regress/expected/intermediate_result_pruning_0.out deleted file mode 100644 index ae1247545..000000000 --- a/src/test/regress/expected/intermediate_result_pruning_0.out +++ /dev/null @@ -1,1077 +0,0 @@ --- --- INTERMEDIATE_RESULT_PRUNING --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA intermediate_result_pruning; -SET search_path TO intermediate_result_pruning; -SET citus.log_intermediate_results TO TRUE; -SET citus.shard_count TO 4; -SET citus.next_shard_id TO 1480000; -SET citus.shard_replication_factor = 1; -CREATE TABLE table_1 (key int, value text); -SELECT create_distributed_table('table_1', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE table_2 (key int, value text); -SELECT create_distributed_table('table_2', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE table_3 (key int, value text); -SELECT create_distributed_table('table_3', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE ref_table (key int, value text); -SELECT create_reference_table('ref_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - --- load some data -INSERT INTO table_1 VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'); -INSERT INTO table_2 VALUES (3, '3'), (4, '4'), (5, '5'), (6, '6'); -INSERT INTO table_3 VALUES (3, '3'), (4, '4'), (5, '5'), (6, '6'); -INSERT INTO ref_table VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'), (5, '5'), (6, '6'); --- see which workers are hit for intermediate results -SET client_min_messages TO DEBUG1; --- a very basic case, where the intermediate result --- should go to both workers -WITH some_values_1 AS MATERIALIZED - (SELECT key FROM table_1 WHERE value IN ('3', '4')) -SELECT - count(*) -FROM - some_values_1 JOIN table_2 USING (key); -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 2 -(1 row) - --- a very basic case, where the intermediate result --- should only go to one worker because the final query is a router --- we use random() to prevent postgres inline the CTE(s) -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')) -SELECT - count(*) -FROM - some_values_1 JOIN table_2 USING (key) WHERE table_2.key = 1; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 1) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- a similar query, but with a reference table now --- given that reference tables are replicated to all nodes --- we have to broadcast to all nodes -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')) -SELECT - count(*) -FROM - some_values_1 JOIN ref_table USING (key); -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.ref_table USING (key)) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 2 -(1 row) - --- a similar query as above, but this time use the CTE inside --- another CTE -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1) -SELECT - count(*) -FROM - some_values_2 JOIN table_2 USING (key) WHERE table_2.key = 1; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT key, random() AS random FROM (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 1) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- the second CTE does a join with a distributed table --- and the final query is a router query -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key)) -SELECT - count(*) -FROM - some_values_2 JOIN table_2 USING (key) WHERE table_2.key = 3; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 3) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 1 -(1 row) - --- the first CTE is used both within second CTE and the final query --- the second CTE does a join with a distributed table --- and the final query is a router query -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key)) -SELECT - count(*) -FROM - (some_values_2 JOIN table_2 USING (key)) JOIN some_values_1 USING (key) WHERE table_2.key = 3; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 3) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 1 -(1 row) - --- the first CTE is used both within second CTE and the final query --- the second CTE does a join with a distributed table but a router query on a worker --- and the final query is another router query on another worker -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE table_2.key = 1) -SELECT - count(*) -FROM - (some_values_2 JOIN table_2 USING (key)) JOIN some_values_1 USING (key) WHERE table_2.key = 3; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 3) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- the first CTE is used both within second CTE and the final query --- the second CTE does a join with a distributed table but a router query on a worker --- and the final query is a router query on the same worker, so the first result is only --- broadcasted to a single node -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE table_2.key = 1) -SELECT - count(*) -FROM - (some_values_2 JOIN table_2 USING (key)) JOIN some_values_1 USING (key) WHERE table_2.key = 1; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 1) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- the same query with the above, but the final query is hitting all shards -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key)) -SELECT - count(*) -FROM - (some_values_2 JOIN table_2 USING (key)) JOIN some_values_1 USING (key) WHERE table_2.key != 3; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.<>) 3) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 1 -(1 row) - --- even if we add a filter on the first query and make it a router query, --- the first intermediate result still hits all workers because of the final --- join is hitting all workers -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE table_2.key = 3) -SELECT - count(*) -FROM - (some_values_2 JOIN table_2 USING (key)) JOIN some_values_1 USING (key) WHERE table_2.key != 3; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 3) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.<>) 3) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- the reference table is joined with a distributed table and an intermediate --- result, but the distributed table hits all shards, so the intermediate --- result is sent to all nodes -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM ref_table WHERE value IN ('3', '4')) -SELECT - count(*) -FROM - (some_values_1 JOIN ref_table USING (key)) JOIN table_2 USING (key); -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.ref_table WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.ref_table USING (key)) JOIN intermediate_result_pruning.table_2 USING (key)) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 2 -(1 row) - --- similar query as above, but this time the whole query is a router --- query, so no intermediate results -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM ref_table WHERE value IN ('3', '4')) -SELECT - count(*) -FROM - (some_values_1 JOIN ref_table USING (key)) JOIN table_2 USING (key) WHERE table_2.key = 1; - count ---------------------------------------------------------------------- - 0 -(1 row) - --- now, the second CTE has a single shard join with a distributed table --- so the first CTE should only be broadcasted to that node --- since the final query doesn't have a join, it should simply be broadcasted --- to one node -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE key = 1) -SELECT - count(*) -FROM - some_values_2; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (some_values_1.key OPERATOR(pg_catalog.=) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- the same query inlined inside a CTE, and the final query has a --- join with a distributed table -WITH top_cte as MATERIALIZED ( - WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE key = 1) - SELECT - DISTINCT key - FROM - some_values_2 -) -SELECT - count(*) -FROM - top_cte JOIN table_2 USING (key); -DEBUG: generating subplan XXX_1 for CTE top_cte: WITH some_values_1 AS MATERIALIZED (SELECT table_1.key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (table_1.value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text]))), some_values_2 AS MATERIALIZED (SELECT some_values_1.key, random() AS random FROM (some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (some_values_1.key OPERATOR(pg_catalog.=) 1)) SELECT DISTINCT key FROM some_values_2 -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (some_values_1.key OPERATOR(pg_catalog.=) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT DISTINCT key FROM (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) top_cte JOIN intermediate_result_pruning.table_2 USING (key)) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- very much the same query, but this time the top query is also a router query --- on a single worker, so all intermediate results only hit a single node -WITH top_cte as MATERIALIZED ( - WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE key = 1) - SELECT - DISTINCT key - FROM - some_values_2 -) -SELECT - count(*) -FROM - top_cte JOIN table_2 USING (key) WHERE table_2.key = 2; -DEBUG: generating subplan XXX_1 for CTE top_cte: WITH some_values_1 AS MATERIALIZED (SELECT table_1.key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (table_1.value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text]))), some_values_2 AS MATERIALIZED (SELECT some_values_1.key, random() AS random FROM (some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (some_values_1.key OPERATOR(pg_catalog.=) 1)) SELECT DISTINCT key FROM some_values_2 -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (some_values_1.key OPERATOR(pg_catalog.=) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT DISTINCT key FROM (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) top_cte JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (table_2.key OPERATOR(pg_catalog.=) 2) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- some_values_1 is first used by a single shard-query, and than with a multi-shard --- CTE, finally a cartesian product join -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1 JOIN table_2 USING (key) WHERE key = 1), - some_values_3 AS MATERIALIZED - (SELECT key FROM (some_values_2 JOIN table_2 USING (key)) JOIN some_values_1 USING (key)) -SELECT * FROM some_values_3 JOIN ref_table ON (true); -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT some_values_1.key, random() AS random FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 JOIN intermediate_result_pruning.table_2 USING (key)) WHERE (some_values_1.key OPERATOR(pg_catalog.=) 1) -DEBUG: generating subplan XXX_3 for CTE some_values_3: SELECT some_values_2.key FROM (((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN intermediate_result_pruning.table_2 USING (key)) JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT some_values_3.key, ref_table.key, ref_table.value FROM ((SELECT intermediate_result.key FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) some_values_3 JOIN intermediate_result_pruning.ref_table ON (true)) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx - key | key | value ---------------------------------------------------------------------- -(0 rows) - --- join on intermediate results, so should only --- go to a single node -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM table_2 WHERE value IN ('3', '4')) -SELECT count(*) FROM some_values_2 JOIN some_values_1 USING (key); -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT key, random() AS random FROM intermediate_result_pruning.table_2 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 2 -(1 row) - --- same query with WHERE false make sure that we're not broken --- for such edge cases -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM table_2 WHERE value IN ('3', '4')) -SELECT count(*) FROM some_values_2 JOIN some_values_1 USING (key) WHERE false; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_2: SELECT key, random() AS random FROM intermediate_result_pruning.table_2 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM ((SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_2 JOIN (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 USING (key)) WHERE false -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- do not use some_values_2 at all, so only 2 intermediate results are --- broadcasted -WITH some_values_1 AS MATERIALIZED - (SELECT key, random() FROM table_1 WHERE value IN ('3', '4')), - some_values_2 AS MATERIALIZED - (SELECT key, random() FROM some_values_1), - some_values_3 AS MATERIALIZED - (SELECT key, random() FROM some_values_1) -SELECT - count(*) -FROM - some_values_3; -DEBUG: generating subplan XXX_1 for CTE some_values_1: SELECT key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (value OPERATOR(pg_catalog.=) ANY (ARRAY['3'::text, '4'::text])) -DEBUG: generating subplan XXX_2 for CTE some_values_3: SELECT key, random() AS random FROM (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) some_values_3 -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 2 -(1 row) - --- lets have some deeper intermediate results --- the inner most two results and the final query (which contains only intermediate results) --- hitting single worker, others hitting all workers --- (see below query where all intermediate results hit a single node) -SELECT count(*) FROM -( - SELECT avg(min::int) FROM - ( - SELECT min(table_1.value) FROM - ( - SELECT avg(value::int) as avg_ev_type FROM - ( - SELECT max(value) as mx_val_1 FROM - ( - SELECT avg(value::int) as avg FROM - ( - SELECT cnt FROM - ( - SELECT count(*) as cnt, value - FROM table_1 - WHERE key = 1 - GROUP BY value - ) as level_1, table_1 - WHERE table_1.key = level_1.cnt AND key = 3 - ) as level_2, table_2 - WHERE table_2.key = level_2.cnt AND key = 5 - GROUP BY level_2.cnt - ) as level_3, table_1 - WHERE value::numeric = level_3.avg AND key = 6 - GROUP BY level_3.avg - ) as level_4, table_2 - WHERE level_4.mx_val_1::int = table_2.key - GROUP BY level_4.mx_val_1 - ) as level_5, table_1 - WHERE level_5.avg_ev_type = table_1.key AND key > 111 - GROUP BY level_5.avg_ev_type - ) as level_6, table_1 WHERE table_1.key::int = level_6.min::int - GROUP BY table_1.value -) as bar; -DEBUG: generating subplan XXX_1 for subquery SELECT count(*) AS cnt, value FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) GROUP BY value -DEBUG: generating subplan XXX_2 for subquery SELECT avg((table_2.value)::integer) AS avg FROM (SELECT level_1.cnt FROM (SELECT intermediate_result.cnt, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(cnt bigint, value text)) level_1, intermediate_result_pruning.table_1 WHERE ((table_1.key OPERATOR(pg_catalog.=) level_1.cnt) AND (table_1.key OPERATOR(pg_catalog.=) 3))) level_2, intermediate_result_pruning.table_2 WHERE ((table_2.key OPERATOR(pg_catalog.=) level_2.cnt) AND (table_2.key OPERATOR(pg_catalog.=) 5)) GROUP BY level_2.cnt -DEBUG: generating subplan XXX_3 for subquery SELECT max(table_1.value) AS mx_val_1 FROM (SELECT intermediate_result.avg FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(avg numeric)) level_3, intermediate_result_pruning.table_1 WHERE (((table_1.value)::numeric OPERATOR(pg_catalog.=) level_3.avg) AND (table_1.key OPERATOR(pg_catalog.=) 6)) GROUP BY level_3.avg -DEBUG: generating subplan XXX_4 for subquery SELECT avg((table_2.value)::integer) AS avg_ev_type FROM (SELECT intermediate_result.mx_val_1 FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(mx_val_1 text)) level_4, intermediate_result_pruning.table_2 WHERE ((level_4.mx_val_1)::integer OPERATOR(pg_catalog.=) table_2.key) GROUP BY level_4.mx_val_1 -DEBUG: generating subplan XXX_5 for subquery SELECT min(table_1.value) AS min FROM (SELECT intermediate_result.avg_ev_type FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(avg_ev_type numeric)) level_5, intermediate_result_pruning.table_1 WHERE ((level_5.avg_ev_type OPERATOR(pg_catalog.=) (table_1.key)::numeric) AND (table_1.key OPERATOR(pg_catalog.>) 111)) GROUP BY level_5.avg_ev_type -DEBUG: generating subplan XXX_6 for subquery SELECT avg((level_6.min)::integer) AS avg FROM (SELECT intermediate_result.min FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(min text)) level_6, intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) (level_6.min)::integer) GROUP BY table_1.value -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.avg FROM read_intermediate_result('XXX_6'::text, 'binary'::citus_copy_format) intermediate_result(avg numeric)) bar -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_4 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_4 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_5 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_5 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_6 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- the same query where all intermediate results hits one --- worker because each and every query is a router query -- but on different nodes -SELECT count(*) FROM -( - SELECT avg(min::int) FROM - ( - SELECT min(table_1.value) FROM - ( - SELECT avg(value::int) as avg_ev_type FROM - ( - SELECT max(value) as mx_val_1 FROM - ( - SELECT avg(value::int) as avg FROM - ( - SELECT cnt FROM - ( - SELECT count(*) as cnt, value - FROM table_1 - WHERE key = 1 - GROUP BY value - ) as level_1, table_1 - WHERE table_1.key = level_1.cnt AND key = 3 - ) as level_2, table_2 - WHERE table_2.key = level_2.cnt AND key = 5 - GROUP BY level_2.cnt - ) as level_3, table_1 - WHERE value::numeric = level_3.avg AND key = 6 - GROUP BY level_3.avg - ) as level_4, table_2 - WHERE level_4.mx_val_1::int = table_2.key AND table_2.key = 1 - GROUP BY level_4.mx_val_1 - ) as level_5, table_1 - WHERE level_5.avg_ev_type = table_1.key AND key = 111 - GROUP BY level_5.avg_ev_type - ) as level_6, table_1 - WHERE table_1.key::int = level_6.min::int AND table_1.key = 4 - GROUP BY table_1.value -) as bar; -DEBUG: generating subplan XXX_1 for subquery SELECT count(*) AS cnt, value FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) GROUP BY value -DEBUG: generating subplan XXX_2 for subquery SELECT avg((table_2.value)::integer) AS avg FROM (SELECT level_1.cnt FROM (SELECT intermediate_result.cnt, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(cnt bigint, value text)) level_1, intermediate_result_pruning.table_1 WHERE ((table_1.key OPERATOR(pg_catalog.=) level_1.cnt) AND (table_1.key OPERATOR(pg_catalog.=) 3))) level_2, intermediate_result_pruning.table_2 WHERE ((table_2.key OPERATOR(pg_catalog.=) level_2.cnt) AND (table_2.key OPERATOR(pg_catalog.=) 5)) GROUP BY level_2.cnt -DEBUG: generating subplan XXX_3 for subquery SELECT max(table_1.value) AS mx_val_1 FROM (SELECT intermediate_result.avg FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(avg numeric)) level_3, intermediate_result_pruning.table_1 WHERE (((table_1.value)::numeric OPERATOR(pg_catalog.=) level_3.avg) AND (table_1.key OPERATOR(pg_catalog.=) 6)) GROUP BY level_3.avg -DEBUG: generating subplan XXX_4 for subquery SELECT avg((table_2.value)::integer) AS avg_ev_type FROM (SELECT intermediate_result.mx_val_1 FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(mx_val_1 text)) level_4, intermediate_result_pruning.table_2 WHERE (((level_4.mx_val_1)::integer OPERATOR(pg_catalog.=) table_2.key) AND (table_2.key OPERATOR(pg_catalog.=) 1)) GROUP BY level_4.mx_val_1 -DEBUG: generating subplan XXX_5 for subquery SELECT min(table_1.value) AS min FROM (SELECT intermediate_result.avg_ev_type FROM read_intermediate_result('XXX_4'::text, 'binary'::citus_copy_format) intermediate_result(avg_ev_type numeric)) level_5, intermediate_result_pruning.table_1 WHERE ((level_5.avg_ev_type OPERATOR(pg_catalog.=) (table_1.key)::numeric) AND (table_1.key OPERATOR(pg_catalog.=) 111)) GROUP BY level_5.avg_ev_type -DEBUG: generating subplan XXX_6 for subquery SELECT avg((level_6.min)::integer) AS avg FROM (SELECT intermediate_result.min FROM read_intermediate_result('XXX_5'::text, 'binary'::citus_copy_format) intermediate_result(min text)) level_6, intermediate_result_pruning.table_1 WHERE ((table_1.key OPERATOR(pg_catalog.=) (level_6.min)::integer) AND (table_1.key OPERATOR(pg_catalog.=) 4)) GROUP BY table_1.value -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.avg FROM read_intermediate_result('XXX_6'::text, 'binary'::citus_copy_format) intermediate_result(avg numeric)) bar -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_4 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_5 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_6 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- sanity checks for set operations --- the intermediate results should just hit a single worker -(SELECT key FROM table_1 WHERE key = 1) -INTERSECT -(SELECT key FROM table_1 WHERE key = 2); -DEBUG: generating subplan XXX_1 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: generating subplan XXX_2 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 2) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer) INTERSECT SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file - key ---------------------------------------------------------------------- -(0 rows) - --- the intermediate results should just hit a single worker -WITH cte_1 AS MATERIALIZED -( - (SELECT key FROM table_1 WHERE key = 1) - INTERSECT - (SELECT key FROM table_1 WHERE key = 2) -), -cte_2 AS MATERIALIZED -( - (SELECT key FROM table_1 WHERE key = 3) - INTERSECT - (SELECT key FROM table_1 WHERE key = 4) -) -SELECT * FROM cte_1 - UNION -SELECT * FROM cte_2; -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 1) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 2) -DEBUG: generating subplan XXX_1 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: generating subplan XXX_2 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 2) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer) INTERSECT SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer) -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 3) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 4) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT cte_1.key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_1 UNION SELECT cte_2.key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_2 -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file - key ---------------------------------------------------------------------- -(0 rows) - --- one final test with SET operations, where --- we join the results with distributed tables --- so cte_1 should hit all workers, but still the --- others should hit single worker each -WITH cte_1 AS MATERIALIZED -( - (SELECT key FROM table_1 WHERE key = 1) - INTERSECT - (SELECT key FROM table_1 WHERE key = 2) -), -cte_2 AS MATERIALIZED -( - SELECT count(*) FROM table_1 JOIN cte_1 USING (key) -) -SELECT * FROM cte_2; -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 1) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 2) -DEBUG: generating subplan XXX_1 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: generating subplan XXX_2 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 2) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer) INTERSECT SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer) -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT count(*) AS count FROM (intermediate_result_pruning.table_1 JOIN (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_1 USING (key)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count FROM (SELECT intermediate_result.count FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(count bigint)) cte_2 -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file - count ---------------------------------------------------------------------- - 0 -(1 row) - --- sanity checks for non-colocated subquery joins --- the recursively planned subquery (bar) should hit all --- nodes -SELECT - count(*) -FROM - (SELECT key, random() FROM table_1) as foo, - (SELECT key, random() FROM table_2) as bar -WHERE - foo.key != bar.key; -DEBUG: generating subplan XXX_1 for subquery SELECT key, random() AS random FROM intermediate_result_pruning.table_2 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT table_1.key, random() AS random FROM intermediate_result_pruning.table_1) foo, (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) bar WHERE (foo.key OPERATOR(pg_catalog.<>) bar.key) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 14 -(1 row) - --- the recursively planned subquery (bar) should hit one --- node because foo goes to a single node -SELECT - count(*) -FROM - (SELECT key, random() FROM table_1 WHERE key = 1) as foo, - (SELECT key, random() FROM table_2) as bar -WHERE - foo.key != bar.key; -DEBUG: generating subplan XXX_1 for subquery SELECT key, random() AS random FROM intermediate_result_pruning.table_2 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT table_1.key, random() AS random FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 1)) foo, (SELECT intermediate_result.key, intermediate_result.random FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, random double precision)) bar WHERE (foo.key OPERATOR(pg_catalog.<>) bar.key) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 4 -(1 row) - --- sanity checks for modification queries --- select_data goes to a single node, because it is used in another subquery --- raw_data is also the final router query, so hits a single shard --- however, the subquery in WHERE clause of the DELETE query is broadcasted to all --- nodes -BEGIN; -WITH select_data AS MATERIALIZED ( - SELECT * FROM table_1 -), -raw_data AS MATERIALIZED ( - DELETE FROM table_2 WHERE key >= (SELECT min(key) FROM select_data WHERE key > 1) RETURNING * -) -SELECT * FROM raw_data; -DEBUG: generating subplan XXX_1 for CTE select_data: SELECT key, value FROM intermediate_result_pruning.table_1 -DEBUG: generating subplan XXX_2 for CTE raw_data: DELETE FROM intermediate_result_pruning.table_2 WHERE (key OPERATOR(pg_catalog.>=) (SELECT min(select_data.key) AS min FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) select_data WHERE (select_data.key OPERATOR(pg_catalog.>) 1))) RETURNING key, value -DEBUG: generating subplan XXX_1 for subquery SELECT min(key) AS min FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) select_data WHERE (key OPERATOR(pg_catalog.>) 1) -DEBUG: Plan XXX query after replacing subqueries and CTEs: DELETE FROM intermediate_result_pruning.table_2 WHERE (key OPERATOR(pg_catalog.>=) (SELECT intermediate_result.min FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(min integer))) RETURNING key, value -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) raw_data -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - key | value ---------------------------------------------------------------------- - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 6 -(4 rows) - -ROLLBACK; --- select_data goes to a single node, because it is used in another subquery --- raw_data is also the final router query, so hits a single shard --- however, the subquery in WHERE clause of the DELETE query is broadcasted to all --- nodes -BEGIN; -WITH select_data AS MATERIALIZED ( - SELECT * FROM table_1 -), -raw_data AS MATERIALIZED ( - DELETE FROM table_2 WHERE value::int >= (SELECT min(key) FROM select_data WHERE key > 1 + random()) RETURNING * -) -SELECT * FROM raw_data; -DEBUG: generating subplan XXX_1 for CTE select_data: SELECT key, value FROM intermediate_result_pruning.table_1 -DEBUG: generating subplan XXX_2 for CTE raw_data: DELETE FROM intermediate_result_pruning.table_2 WHERE ((value)::integer OPERATOR(pg_catalog.>=) (SELECT min(select_data.key) AS min FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) select_data WHERE ((select_data.key)::double precision OPERATOR(pg_catalog.>) ((1)::double precision OPERATOR(pg_catalog.+) random())))) RETURNING key, value -DEBUG: generating subplan XXX_1 for subquery SELECT min(key) AS min FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) select_data WHERE ((key)::double precision OPERATOR(pg_catalog.>) ((1)::double precision OPERATOR(pg_catalog.+) random())) -DEBUG: Plan XXX query after replacing subqueries and CTEs: DELETE FROM intermediate_result_pruning.table_2 WHERE ((value)::integer OPERATOR(pg_catalog.>=) (SELECT intermediate_result.min FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(min integer))) RETURNING key, value -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) raw_data -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - key | value ---------------------------------------------------------------------- - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 6 -(4 rows) - -ROLLBACK; --- now, we need only two intermediate results as the subquery in WHERE clause is --- router plannable -BEGIN; -WITH select_data AS MATERIALIZED ( - SELECT * FROM table_1 -), -raw_data AS MATERIALIZED ( - DELETE FROM table_2 WHERE value::int >= (SELECT min(key) FROM table_1 WHERE key > random()) AND key = 6 RETURNING * -) -SELECT * FROM raw_data; -DEBUG: generating subplan XXX_1 for CTE raw_data: DELETE FROM intermediate_result_pruning.table_2 WHERE (((value)::integer OPERATOR(pg_catalog.>=) (SELECT min(table_1.key) AS min FROM intermediate_result_pruning.table_1 WHERE ((table_1.key)::double precision OPERATOR(pg_catalog.>) random()))) AND (key OPERATOR(pg_catalog.=) 6)) RETURNING key, value -DEBUG: generating subplan XXX_1 for subquery SELECT min(key) AS min FROM intermediate_result_pruning.table_1 WHERE ((key)::double precision OPERATOR(pg_catalog.>) random()) -DEBUG: Plan XXX query after replacing subqueries and CTEs: DELETE FROM intermediate_result_pruning.table_2 WHERE (((value)::integer OPERATOR(pg_catalog.>=) (SELECT intermediate_result.min FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(min integer))) AND (key OPERATOR(pg_catalog.=) 6)) RETURNING key, value -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) raw_data -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - key | value ---------------------------------------------------------------------- - 6 | 6 -(1 row) - -ROLLBACK; --- test with INSERT SELECT via coordinator --- INSERT .. SELECT via coordinator that doesn't have any intermediate results --- We use offset 1 to make sure the result needs to be pulled to the coordinator, offset 0 would be optimized away -INSERT INTO table_1 - SELECT * FROM table_2 OFFSET 1; -DEBUG: cannot push down this subquery -DETAIL: Offset clause is currently unsupported when a subquery references a column from another query -DEBUG: Collecting INSERT ... SELECT results on coordinator --- INSERT .. SELECT via coordinator which has intermediate result, --- and can be pruned to a single worker because the final query is on --- single shard via filter in key -INSERT INTO table_1 - SELECT * FROM table_2 where value IN (SELECT value FROM table_1 WHERE random() > 1) AND key = 1; -DEBUG: volatile functions are not allowed in distributed INSERT ... SELECT queries -DEBUG: generating subplan XXX_1 for subquery SELECT value FROM intermediate_result_pruning.table_1 WHERE (random() OPERATOR(pg_catalog.>) (1)::double precision) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value FROM intermediate_result_pruning.table_2 WHERE ((value OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text))) AND (key OPERATOR(pg_catalog.=) 1)) -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx --- a similar query, with more complex subquery -INSERT INTO table_1 - SELECT * FROM table_2 where key = 1 AND - value::int IN - (WITH cte_1 AS MATERIALIZED - ( - (SELECT key FROM table_1 WHERE key = 1) - INTERSECT - (SELECT key FROM table_1 WHERE key = 2) - ), - cte_2 AS MATERIALIZED - ( - (SELECT key FROM table_1 WHERE key = 3) - INTERSECT - (SELECT key FROM table_1 WHERE key = 4) - ) - SELECT * FROM cte_1 - UNION - SELECT * FROM cte_2); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 1) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 2) -DEBUG: generating subplan XXX_1 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: generating subplan XXX_2 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 2) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer) INTERSECT SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer) -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 3) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 4) -DEBUG: generating subplan XXX_3 for subquery SELECT cte_1.key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_1 UNION SELECT cte_2.key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_2 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT key, value FROM intermediate_result_pruning.table_2 WHERE ((key OPERATOR(pg_catalog.=) 1) AND ((value)::integer OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.key FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(key integer)))) -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx --- same query, cte is on the FROM clause --- and this time the final query (and top-level intermediate result) --- hits all the shards because table_2.key != 1 -INSERT INTO table_1 - SELECT table_2.* FROM table_2, - (WITH cte_1 AS MATERIALIZED - ( - (SELECT key FROM table_1 WHERE key = 1) - INTERSECT - (SELECT key FROM table_1 WHERE key = 2) - ), - cte_2 AS MATERIALIZED - ( - (SELECT key FROM table_1 WHERE key = 3) - INTERSECT - (SELECT key FROM table_1 WHERE key = 4) - ) - SELECT * FROM cte_1 - UNION - SELECT * FROM cte_2 - ) foo - where table_2.key != 1 AND - foo.key = table_2.value::int; -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE cte_1: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 1) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 2) -DEBUG: generating subplan XXX_1 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 1) -DEBUG: generating subplan XXX_2 for subquery SELECT key FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.=) 2) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer) INTERSECT SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer) -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 3) INTERSECT SELECT table_1.key FROM intermediate_result_pruning.table_1 WHERE (table_1.key OPERATOR(pg_catalog.=) 4) -DEBUG: generating subplan XXX_3 for subquery SELECT cte_1.key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_1 UNION SELECT cte_2.key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) cte_2 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT table_2.key, table_2.value FROM intermediate_result_pruning.table_2, (SELECT intermediate_result.key FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) foo WHERE ((table_2.key OPERATOR(pg_catalog.<>) 1) AND (foo.key OPERATOR(pg_catalog.=) (table_2.value)::integer)) -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx --- append partitioned/heap-type --- do not print out 'building index pg_toast_xxxxx_index' messages -SET client_min_messages TO DEFAULT; -CREATE TABLE range_partitioned(range_column text, data int); -SET client_min_messages TO DEBUG1; -SELECT create_distributed_table('range_partitioned', 'range_column', 'range'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT master_create_empty_shard('range_partitioned'); - master_create_empty_shard ---------------------------------------------------------------------- - 1480013 -(1 row) - -SELECT master_create_empty_shard('range_partitioned'); - master_create_empty_shard ---------------------------------------------------------------------- - 1480014 -(1 row) - -SELECT master_create_empty_shard('range_partitioned'); - master_create_empty_shard ---------------------------------------------------------------------- - 1480015 -(1 row) - -SELECT master_create_empty_shard('range_partitioned'); - master_create_empty_shard ---------------------------------------------------------------------- - 1480016 -(1 row) - -SELECT master_create_empty_shard('range_partitioned'); - master_create_empty_shard ---------------------------------------------------------------------- - 1480017 -(1 row) - -UPDATE pg_dist_shard SET shardminvalue = 'A', shardmaxvalue = 'D' WHERE shardid = 1480013; -UPDATE pg_dist_shard SET shardminvalue = 'D', shardmaxvalue = 'G' WHERE shardid = 1480014; -UPDATE pg_dist_shard SET shardminvalue = 'G', shardmaxvalue = 'K' WHERE shardid = 1480015; -UPDATE pg_dist_shard SET shardminvalue = 'K', shardmaxvalue = 'O' WHERE shardid = 1480016; -UPDATE pg_dist_shard SET shardminvalue = 'O', shardmaxvalue = 'Z' WHERE shardid = 1480017; --- final query goes to a single shard -SELECT - count(*) -FROM - range_partitioned -WHERE - range_column = 'A' AND - data IN (SELECT data FROM range_partitioned); -DEBUG: generating subplan XXX_1 for subquery SELECT data FROM intermediate_result_pruning.range_partitioned -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM intermediate_result_pruning.range_partitioned WHERE ((range_column OPERATOR(pg_catalog.=) 'A'::text) AND (data OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.data FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(data integer)))) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- final query goes to three shards, so multiple workers -SELECT - count(*) -FROM - range_partitioned -WHERE - range_column >= 'A' AND range_column <= 'K' AND - data IN (SELECT data FROM range_partitioned); -DEBUG: generating subplan XXX_1 for subquery SELECT data FROM intermediate_result_pruning.range_partitioned -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM intermediate_result_pruning.range_partitioned WHERE ((range_column OPERATOR(pg_catalog.>=) 'A'::text) AND (range_column OPERATOR(pg_catalog.<=) 'K'::text) AND (data OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.data FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(data integer)))) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- two shards, both of which are on the first node -WITH some_data AS ( - SELECT data FROM range_partitioned -) -SELECT - count(*) -FROM - range_partitioned -WHERE - range_column IN ('A', 'E') AND - range_partitioned.data IN (SELECT data FROM some_data); -DEBUG: CTE some_data is going to be inlined via distributed planning -DEBUG: generating subplan XXX_1 for subquery SELECT data FROM (SELECT range_partitioned.data FROM intermediate_result_pruning.range_partitioned) some_data -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM intermediate_result_pruning.range_partitioned WHERE ((range_column OPERATOR(pg_catalog.=) ANY (ARRAY['A'::text, 'E'::text])) AND (data OPERATOR(pg_catalog.=) ANY (SELECT intermediate_result.data FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(data integer)))) -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - --- test case for issue #3556 -CREATE TABLE accounts (id text PRIMARY KEY); -DEBUG: CREATE TABLE / PRIMARY KEY will create implicit index "accounts_pkey" for table "accounts" -CREATE TABLE stats (account_id text PRIMARY KEY, spent int); -DEBUG: CREATE TABLE / PRIMARY KEY will create implicit index "stats_pkey" for table "stats" -SELECT create_distributed_table('accounts', 'id', colocate_with => 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('stats', 'account_id', colocate_with => 'accounts'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO accounts (id) VALUES ('foo'); -INSERT INTO stats (account_id, spent) VALUES ('foo', 100); -SELECT * -FROM -( - WITH accounts_cte AS MATERIALIZED ( - SELECT id AS account_id - FROM accounts - ), - joined_stats_cte_1 AS MATERIALIZED ( - SELECT spent, account_id - FROM stats - INNER JOIN accounts_cte USING (account_id) - ), - joined_stats_cte_2 AS MATERIALIZED ( - SELECT spent, account_id - FROM joined_stats_cte_1 - INNER JOIN accounts_cte USING (account_id) - ) - SELECT SUM(spent) OVER (PARTITION BY coalesce(account_id, NULL)) - FROM accounts_cte - INNER JOIN joined_stats_cte_2 USING (account_id) -) inner_query; -DEBUG: generating subplan XXX_1 for CTE accounts_cte: SELECT id AS account_id FROM intermediate_result_pruning.accounts -DEBUG: generating subplan XXX_2 for CTE joined_stats_cte_1: SELECT stats.spent, stats.account_id FROM (intermediate_result_pruning.stats JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte USING (account_id)) -DEBUG: generating subplan XXX_3 for CTE joined_stats_cte_2: SELECT joined_stats_cte_1.spent, joined_stats_cte_1.account_id FROM ((SELECT intermediate_result.spent, intermediate_result.account_id FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(spent integer, account_id text)) joined_stats_cte_1 JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte USING (account_id)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT sum FROM (SELECT sum(joined_stats_cte_2.spent) OVER (PARTITION BY COALESCE(accounts_cte.account_id, NULL::text)) AS sum FROM ((SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte JOIN (SELECT intermediate_result.spent, intermediate_result.account_id FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(spent integer, account_id text)) joined_stats_cte_2 USING (account_id))) inner_query -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Subplan XXX_3 will be written to local file - sum ---------------------------------------------------------------------- - 100 -(1 row) - --- confirm that the pruning works well when using round-robin as well -SET citus.task_assignment_policy to 'round-robin'; -SELECT * -FROM -( - WITH accounts_cte AS MATERIALIZED ( - SELECT id AS account_id - FROM accounts - ), - joined_stats_cte_1 AS MATERIALIZED ( - SELECT spent, account_id - FROM stats - INNER JOIN accounts_cte USING (account_id) - ), - joined_stats_cte_2 AS MATERIALIZED ( - SELECT spent, account_id - FROM joined_stats_cte_1 - INNER JOIN accounts_cte USING (account_id) - ) - SELECT SUM(spent) OVER (PARTITION BY coalesce(account_id, NULL)) - FROM accounts_cte - INNER JOIN joined_stats_cte_2 USING (account_id) -) inner_query; -DEBUG: generating subplan XXX_1 for CTE accounts_cte: SELECT id AS account_id FROM intermediate_result_pruning.accounts -DEBUG: generating subplan XXX_2 for CTE joined_stats_cte_1: SELECT stats.spent, stats.account_id FROM (intermediate_result_pruning.stats JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte USING (account_id)) -DEBUG: generating subplan XXX_3 for CTE joined_stats_cte_2: SELECT joined_stats_cte_1.spent, joined_stats_cte_1.account_id FROM ((SELECT intermediate_result.spent, intermediate_result.account_id FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(spent integer, account_id text)) joined_stats_cte_1 JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte USING (account_id)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT sum FROM (SELECT sum(joined_stats_cte_2.spent) OVER (PARTITION BY COALESCE(accounts_cte.account_id, NULL::text)) AS sum FROM ((SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte JOIN (SELECT intermediate_result.spent, intermediate_result.account_id FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(spent integer, account_id text)) joined_stats_cte_2 USING (account_id))) inner_query -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_3 will be sent to localhost:xxxxx - sum ---------------------------------------------------------------------- - 100 -(1 row) - -RESET citus.task_assignment_policy; --- Insert..select is planned differently, make sure we have results everywhere. --- We put the insert..select in a CTE here to prevent the CTE from being moved --- into the select, which would follow the regular code path for select. -WITH stats AS MATERIALIZED ( - SELECT count(key) m FROM table_3 -), -inserts AS MATERIALIZED ( - INSERT INTO table_2 - SELECT key, count(*) - FROM table_1 - WHERE key > (SELECT m FROM stats) - GROUP BY key - HAVING count(*) < (SELECT m FROM stats) - LIMIT 1 - RETURNING * -) SELECT count(*) FROM inserts; -DEBUG: generating subplan XXX_1 for CTE stats: SELECT count(key) AS m FROM intermediate_result_pruning.table_3 -DEBUG: generating subplan XXX_2 for CTE inserts: INSERT INTO intermediate_result_pruning.table_2 (key, value) SELECT key, count(*) AS count FROM intermediate_result_pruning.table_1 WHERE (key OPERATOR(pg_catalog.>) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.<) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT 1 RETURNING table_2.key, table_2.value -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Collecting INSERT ... SELECT results on coordinator - count ---------------------------------------------------------------------- - 1 -(1 row) - -SET citus.task_assignment_policy to DEFAULT; -SET client_min_messages TO DEFAULT; -DROP TABLE table_1, table_2, table_3, ref_table, accounts, stats, range_partitioned; -DROP SCHEMA intermediate_result_pruning; diff --git a/src/test/regress/expected/issue_5248.out b/src/test/regress/expected/issue_5248.out index db1ae26c7..d5946089f 100644 --- a/src/test/regress/expected/issue_5248.out +++ b/src/test/regress/expected/issue_5248.out @@ -1,19 +1,11 @@ -- -- ISSUE_5248 -- --- This test file has an alternative output because of the change in the --- backup modes of Postgres. Specifically, there is a renaming --- issue: pg_stop_backup PRE PG15 vs pg_backup_stop PG15+ --- The alternative output can be deleted when we drop support for PG14 --- CREATE SCHEMA issue_5248; SET search_path TO issue_5248; SET citus.shard_count TO 4; SET citus.shard_replication_factor TO 1; SET citus.next_shard_id TO 3013000; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset create table countries( id serial primary key , name text @@ -219,12 +211,8 @@ FROM ( ( SELECT utc_offset FROM pg_catalog.pg_timezone_names limit 1 offset 4) limit 91) AS subq_3 -\if :server_version_ge_15 WHERE pg_catalog.pg_backup_stop() > cast(NULL AS record) limit 100; ERROR: cannot push down subquery on the target list DETAIL: Subqueries in the SELECT part of the query can only be pushed down if they happen before aggregates and window functions -\else -WHERE pg_catalog.pg_stop_backup() > cast(NULL AS pg_lsn) limit 100; -\endif SET client_min_messages TO WARNING; DROP SCHEMA issue_5248 CASCADE; diff --git a/src/test/regress/expected/issue_5248_0.out b/src/test/regress/expected/issue_5248_0.out deleted file mode 100644 index d7fe8020c..000000000 --- a/src/test/regress/expected/issue_5248_0.out +++ /dev/null @@ -1,230 +0,0 @@ --- --- ISSUE_5248 --- --- This test file has an alternative output because of the change in the --- backup modes of Postgres. Specifically, there is a renaming --- issue: pg_stop_backup PRE PG15 vs pg_backup_stop PG15+ --- The alternative output can be deleted when we drop support for PG14 --- -CREATE SCHEMA issue_5248; -SET search_path TO issue_5248; -SET citus.shard_count TO 4; -SET citus.shard_replication_factor TO 1; -SET citus.next_shard_id TO 3013000; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -create table countries( - id serial primary key - , name text - , code varchar(2) collate "C" unique -); -insert into countries(name, code) select 'country-'||i, i::text from generate_series(10,99) i; -select create_reference_table('countries'); -NOTICE: Copying data from local table... -NOTICE: copying the data has completed -DETAIL: The local data in the table is no longer visible, but is still on disk. -HINT: To remove the local data, run: SELECT truncate_local_data_after_distributing_table($$issue_5248.countries$$) - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -create table orgs ( - id bigserial primary key - , name text - , created_at timestamptz default now() -); -select create_distributed_table('orgs', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -create table users ( - id bigserial - , org_id bigint references orgs(id) - , name text - , created_at timestamptz default now() - , country_id int -- references countries(id) - , score bigint generated always as (id + country_id) stored - , primary key (org_id, id) -); -select create_distributed_table('users', 'org_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -alter table users add constraint fk_user_country foreign key (country_id) references countries(id); -create table orders ( - id bigserial - , org_id bigint references orgs(id) - , user_id bigint - , price int - , info jsonb - , primary key (org_id, id) - , foreign key (org_id, user_id) references users(org_id, id) -); -select create_distributed_table('orders', 'org_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -create table events ( - id bigserial not null - , user_id bigint not null - , org_id bigint not null - , event_time timestamp not null default now() - , event_type int not null default 0 - , payload jsonb - , primary key (user_id, id) -); -create index event_time_idx on events using BRIN (event_time); -create index event_json_idx on events using gin(payload); -select create_distributed_table('events', 'user_id'); -- on purpose don't colocate on correctly on org_id - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -create table local_data( - id bigserial primary key - , val int default ( (random()*100)::int ) -); -insert into orgs(id, name) select i,'org-'||i from generate_series(1,10) i; -insert into users(id, name, org_id, country_id) select i,'user-'||i, i+1, (i%90)+1 from generate_series(1,5) i; -insert into orders(id, org_id, user_id, price) select i, ((i+1))+1 , i+1, i/100 from generate_series(1,2) i; -insert into events(id, org_id, user_id, event_type) select i, ((i+1))+1 , i+1, i/100 from generate_series(1,10) i; -insert into local_data(id) select generate_series(1,10); -/* - * Test that we don't get a crash. See #5248. - */ -SELECT subq_3.c15 AS c0, - subq_3.c0 AS c1, - subq_3.c15 AS c2, - subq_0.c1 AS c3, - pg_catalog.String_agg( Cast( - ( - SELECT tgargs - FROM pg_catalog.pg_trigger limit 1 offset 1) AS BYTEA), Cast( - ( - SELECT minimum_value - FROM columnar.chunk limit 1 offset 5) AS BYTEA)) OVER (partition BY subq_3.c10 ORDER BY subq_3.c12,subq_0.c2) AS c4, - subq_0.c1 AS c5 -FROM ( - SELECT ref_1.address AS c0, - ref_1.error AS c1, - sample_0.NAME AS c2, - sample_2.trftosql AS c3 - FROM pg_catalog.pg_statio_all_sequences AS ref_0 - INNER JOIN pg_catalog.pg_hba_file_rules AS ref_1 - ON (( - SELECT pg_catalog.Max(aggnumdirectargs) - FROM pg_catalog.pg_aggregate) <= ref_0.blks_hit) - INNER JOIN countries AS sample_0 TABLESAMPLE system (6.4) - INNER JOIN local_data AS sample_1 TABLESAMPLE bernoulli (8) - ON (( - true) - OR ( - sample_0.NAME IS NOT NULL)) - INNER JOIN pg_catalog.pg_transform AS sample_2 TABLESAMPLE bernoulli (1.2) - INNER JOIN pg_catalog.pg_language AS ref_2 - ON (( - SELECT shard_cost_function - FROM pg_catalog.pg_dist_rebalance_strategy limit 1 offset 1) IS NULL) - RIGHT JOIN pg_catalog.pg_index AS sample_3 TABLESAMPLE system (0.3) - ON (( - cast(NULL AS bpchar) ~<=~ cast(NULL AS bpchar)) - OR (( - EXISTS - ( - SELECT sample_3.indnkeyatts AS c0, - sample_2.trflang AS c1, - sample_2.trftype AS c2 - FROM pg_catalog.pg_statistic_ext AS sample_4 TABLESAMPLE bernoulli (8.6) - WHERE sample_2.trftype IS NOT NULL)) - AND ( - false))) - ON ( - EXISTS - ( - SELECT sample_0.id AS c0, - sample_3.indisprimary AS c1 - FROM orgs AS sample_5 TABLESAMPLE system (5.3) - WHERE false)) - ON ( - cast(NULL AS float8) > - ( - SELECT pg_catalog.avg(enumsortorder) - FROM pg_catalog.pg_enum) ) - WHERE cast(COALESCE( - CASE - WHEN ref_1.auth_method ~>=~ ref_1.auth_method THEN cast(NULL AS path) - ELSE cast(NULL AS path) - END , cast(NULL AS path)) AS path) = cast(NULL AS path)) AS subq_0, - lateral - ( - SELECT - ( - SELECT pg_catalog.stddev(total_time) - FROM pg_catalog.pg_stat_user_functions) AS c0, - subq_0.c1 AS c1, - subq_2.c0 AS c2, - subq_0.c2 AS c3, - subq_0.c0 AS c4, - cast(COALESCE(subq_2.c0, subq_2.c0) AS text) AS c5, - subq_2.c0 AS c6, - subq_2.c1 AS c7, - subq_2.c1 AS c8, - subq_2.c1 AS c9, - subq_0.c3 AS c10, - pg_catalog.pg_stat_get_db_temp_files( cast( - ( - SELECT objoid - FROM pg_catalog.pg_description limit 1 offset 1) AS oid)) AS c11, - subq_0.c3 AS c12, - subq_2.c1 AS c13, - subq_0.c0 AS c14, - subq_0.c3 AS c15, - subq_0.c3 AS c16, - subq_0.c1 AS c17, - subq_0.c2 AS c18 - FROM ( - SELECT subq_1.c2 AS c0, - subq_0.c3 AS c1 - FROM information_schema.element_types AS ref_3, - lateral - ( - SELECT subq_0.c1 AS c0, - sample_6.info AS c1, - subq_0.c2 AS c2, - subq_0.c3 AS c3, - sample_6.user_id AS c5, - ref_3.collation_name AS c6 - FROM orders AS sample_6 TABLESAMPLE system (3.8) - WHERE sample_6.price = sample_6.org_id limit 58) AS subq_1 - WHERE ( - subq_1.c2 <= subq_0.c2) - AND ( - cast(NULL AS line) ?-| cast(NULL AS line)) limit 59) AS subq_2 - WHERE cast(COALESCE(pg_catalog.age( cast( - ( - SELECT pg_catalog.max(event_time) - FROM events) AS "timestamp")), - ( - SELECT write_lag - FROM pg_catalog.pg_stat_replication limit 1 offset 3) ) AS "interval") > - ( - SELECT utc_offset - FROM pg_catalog.pg_timezone_names limit 1 offset 4) limit 91) AS subq_3 -\if :server_version_ge_15 -WHERE pg_catalog.pg_backup_stop() > cast(NULL AS record) limit 100; -\else -WHERE pg_catalog.pg_stop_backup() > cast(NULL AS pg_lsn) limit 100; -ERROR: cannot push down subquery on the target list -DETAIL: Subqueries in the SELECT part of the query can only be pushed down if they happen before aggregates and window functions -\endif -SET client_min_messages TO WARNING; -DROP SCHEMA issue_5248 CASCADE; diff --git a/src/test/regress/expected/local_shard_execution.out b/src/test/regress/expected/local_shard_execution.out index 58293a2d6..2b1fa3c0b 100644 --- a/src/test/regress/expected/local_shard_execution.out +++ b/src/test/regress/expected/local_shard_execution.out @@ -1,17 +1,6 @@ -- -- LOCAL_SHARD_EXECUTION -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA local_shard_execution; SET search_path TO local_shard_execution; SET citus.shard_count TO 4; diff --git a/src/test/regress/expected/local_shard_execution_0.out b/src/test/regress/expected/local_shard_execution_0.out deleted file mode 100644 index 948941aad..000000000 --- a/src/test/regress/expected/local_shard_execution_0.out +++ /dev/null @@ -1,3302 +0,0 @@ --- --- LOCAL_SHARD_EXECUTION --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA local_shard_execution; -SET search_path TO local_shard_execution; -SET citus.shard_count TO 4; -SET citus.shard_replication_factor TO 1; -SET citus.next_shard_id TO 1470000; -CREATE TABLE reference_table (key int PRIMARY KEY); -SELECT create_reference_table('reference_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE distributed_table (key int PRIMARY KEY , value text, age bigint CHECK (age > 10), FOREIGN KEY (key) REFERENCES reference_table(key) ON DELETE CASCADE); -SELECT create_distributed_table('distributed_table','key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE second_distributed_table (key int PRIMARY KEY , value text, FOREIGN KEY (key) REFERENCES distributed_table(key) ON DELETE CASCADE); -SELECT create_distributed_table('second_distributed_table','key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- ingest some data to enable some tests with data -INSERT INTO reference_table VALUES (1); -INSERT INTO distributed_table VALUES (1, '1', 20); -INSERT INTO second_distributed_table VALUES (1, '1'); --- a simple test for -CREATE TABLE collections_list ( - key bigserial, - ser bigserial, - ts timestamptz, - collection_id integer, - value numeric, - PRIMARY KEY(key, collection_id) -) PARTITION BY LIST (collection_id ); -SELECT create_distributed_table('collections_list', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE collections_list_0 - PARTITION OF collections_list (key, ser, ts, collection_id, value) - FOR VALUES IN ( 0 ); --- create a volatile function that returns the local node id -CREATE OR REPLACE FUNCTION get_local_node_id_volatile() -RETURNS INT AS $$ -DECLARE localGroupId int; -BEGIN - SELECT groupid INTO localGroupId FROM pg_dist_local_group; - RETURN localGroupId; -END; $$ language plpgsql VOLATILE; -SELECT create_distributed_function('get_local_node_id_volatile()'); -NOTICE: procedure local_shard_execution.get_local_node_id_volatile is already distributed -DETAIL: Citus distributes procedures with CREATE [PROCEDURE|FUNCTION|AGGREGATE] commands - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - --- test case for issue #3556 -CREATE TABLE accounts (id text PRIMARY KEY); -CREATE TABLE stats (account_id text PRIMARY KEY, spent int); -SELECT create_distributed_table('accounts', 'id', colocate_with => 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('stats', 'account_id', colocate_with => 'accounts'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO accounts (id) VALUES ('foo'); -INSERT INTO stats (account_id, spent) VALUES ('foo', 100); -CREATE TABLE abcd(a int, b int, c int, d int); -SELECT create_distributed_table('abcd', 'b'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO abcd VALUES (1,2,3,4); -INSERT INTO abcd VALUES (2,3,4,5); -INSERT INTO abcd VALUES (3,4,5,6); -ALTER TABLE abcd DROP COLUMN a; --- connection worker and get ready for the tests -\c - - - :worker_1_port -SET search_path TO local_shard_execution; -SET citus.enable_unique_job_ids TO off; --- returns true of the distribution key filter --- on the distributed tables (e.g., WHERE key = 1), we'll hit a shard --- placement which is local to this not -SET citus.enable_metadata_sync TO OFF; -CREATE OR REPLACE FUNCTION shard_of_distribution_column_is_local(dist_key int) RETURNS bool AS $$ - - DECLARE shard_is_local BOOLEAN := FALSE; - - BEGIN - - WITH local_shard_ids AS (SELECT get_shard_id_for_distribution_column('local_shard_execution.distributed_table', dist_key)), - all_local_shard_ids_on_node AS (SELECT shardid FROM pg_dist_placement WHERE groupid IN (SELECT groupid FROM pg_dist_local_group)) - SELECT - true INTO shard_is_local - FROM - local_shard_ids - WHERE - get_shard_id_for_distribution_column IN (SELECT * FROM all_local_shard_ids_on_node); - - IF shard_is_local IS NULL THEN - shard_is_local = FALSE; - END IF; - - RETURN shard_is_local; - END; -$$ LANGUAGE plpgsql; -RESET citus.enable_metadata_sync; --- test case for issue #3556 -SET citus.log_intermediate_results TO TRUE; -SET client_min_messages TO DEBUG1; -SELECT * -FROM -( - WITH accounts_cte AS ( - SELECT id AS account_id - FROM accounts - ), - joined_stats_cte_1 AS ( - SELECT spent, account_id - FROM stats - INNER JOIN accounts_cte USING (account_id) - ), - joined_stats_cte_2 AS ( - SELECT spent, account_id - FROM joined_stats_cte_1 - INNER JOIN accounts_cte USING (account_id) - ) - SELECT SUM(spent) OVER (PARTITION BY coalesce(account_id, NULL)) - FROM accounts_cte - INNER JOIN joined_stats_cte_2 USING (account_id) -) inner_query; -DEBUG: CTE joined_stats_cte_1 is going to be inlined via distributed planning -DEBUG: CTE joined_stats_cte_2 is going to be inlined via distributed planning -DEBUG: generating subplan XXX_1 for CTE accounts_cte: SELECT id AS account_id FROM local_shard_execution.accounts -DEBUG: generating subplan XXX_2 for subquery SELECT sum(joined_stats_cte_2.spent) OVER (PARTITION BY COALESCE(accounts_cte.account_id, NULL::text)) AS sum FROM ((SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte JOIN (SELECT joined_stats_cte_1.spent, joined_stats_cte_1.account_id FROM ((SELECT stats.spent, stats.account_id FROM (local_shard_execution.stats JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte_2 USING (account_id))) joined_stats_cte_1 JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte_1 USING (account_id))) joined_stats_cte_2 USING (account_id)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT sum FROM (SELECT intermediate_result.sum FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(sum bigint)) inner_query -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file - sum ---------------------------------------------------------------------- - 100 -(1 row) - -SET citus.log_intermediate_results TO DEFAULT; -SET client_min_messages TO DEFAULT; --- pick some example values that reside on the shards locally and remote --- distribution key values of 1,6, 500 and 701 are LOCAL to shards, --- we'll use these values in the tests -SELECT shard_of_distribution_column_is_local(1); - shard_of_distribution_column_is_local ---------------------------------------------------------------------- - t -(1 row) - -SELECT shard_of_distribution_column_is_local(6); - shard_of_distribution_column_is_local ---------------------------------------------------------------------- - t -(1 row) - -SELECT shard_of_distribution_column_is_local(500); - shard_of_distribution_column_is_local ---------------------------------------------------------------------- - t -(1 row) - -SELECT shard_of_distribution_column_is_local(701); - shard_of_distribution_column_is_local ---------------------------------------------------------------------- - t -(1 row) - --- distribution key values of 11 and 12 are REMOTE to shards -SELECT shard_of_distribution_column_is_local(11); - shard_of_distribution_column_is_local ---------------------------------------------------------------------- - f -(1 row) - -SELECT shard_of_distribution_column_is_local(12); - shard_of_distribution_column_is_local ---------------------------------------------------------------------- - f -(1 row) - ---- enable logging to see which tasks are executed locally -SET citus.log_local_commands TO ON; --- first, make sure that local execution works fine --- with simple queries that are not in transcation blocks -SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - --- multiple tasks both of which are local should NOT use local execution --- because local execution means executing the tasks locally, so the executor --- favors parallel execution even if everyting is local to node -SELECT count(*) FROM distributed_table WHERE key IN (1,6); - count ---------------------------------------------------------------------- - 1 -(1 row) - --- queries that hit any remote shards should NOT use local execution -SELECT count(*) FROM distributed_table WHERE key IN (1,11); - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM distributed_table; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- modifications also follow the same rules -INSERT INTO reference_table VALUES (1) ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 AS citus_table_alias (key) VALUES (1) ON CONFLICT DO NOTHING -INSERT INTO distributed_table VALUES (1, '1', 21) ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '1'::text, 21) ON CONFLICT DO NOTHING --- local query -DELETE FROM distributed_table WHERE key = 1 AND age = 21; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((key OPERATOR(pg_catalog.=) 1) AND (age OPERATOR(pg_catalog.=) 21)) --- hitting multiple shards, so should be a distributed execution -DELETE FROM distributed_table WHERE age = 21; --- although both shards are local, the executor choose the parallel execution --- over the wire because as noted above local execution is sequential -DELETE FROM second_distributed_table WHERE key IN (1,6); --- similarly, any multi-shard query just follows distributed execution -DELETE FROM second_distributed_table; --- load some more data for the following tests -INSERT INTO second_distributed_table VALUES (1, '1'); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.second_distributed_table_1470005 (key, value) VALUES (1, '1'::text) --- INSERT .. SELECT hitting a single single (co-located) shard(s) should --- be executed locally -INSERT INTO distributed_table -SELECT - distributed_table.* -FROM - distributed_table, second_distributed_table -WHERE - distributed_table.key = 1 and distributed_table.key=second_distributed_table.key -ON CONFLICT(key) DO UPDATE SET value = '22' -RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution.distributed_table_1470001 distributed_table, local_shard_execution.second_distributed_table_1470005 second_distributed_table WHERE (((distributed_table.key OPERATOR(pg_catalog.=) 1) AND (distributed_table.key OPERATOR(pg_catalog.=) second_distributed_table.key)) AND (distributed_table.key IS NOT NULL)) ON CONFLICT(key) DO UPDATE SET value = '22'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 22 | 20 -(1 row) - --- INSERT .. SELECT hitting multi-shards should go thourgh distributed execution -INSERT INTO distributed_table -SELECT - distributed_table.* -FROM - distributed_table, second_distributed_table -WHERE - distributed_table.key != 1 and distributed_table.key=second_distributed_table.key -ON CONFLICT(key) DO UPDATE SET value = '22' -RETURNING *; - key | value | age ---------------------------------------------------------------------- -(0 rows) - --- INSERT..SELECT via coordinator consists of two steps, select + COPY --- that's why it is disallowed to use local execution even if the SELECT --- can be executed locally -INSERT INTO distributed_table SELECT sum(key), value FROM distributed_table WHERE key = 1 GROUP BY value ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: SELECT int4(sum(key)) AS key, value FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) GROUP BY value -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_result('insert_select_XXX_1470001'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text) ON CONFLICT DO NOTHING -INSERT INTO distributed_table SELECT 1, '1',15 FROM distributed_table WHERE key = 2 LIMIT 1 ON CONFLICT DO NOTHING; --- sanity check: multi-shard INSERT..SELECT pushdown goes through distributed execution -INSERT INTO distributed_table SELECT * FROM distributed_table ON CONFLICT DO NOTHING; --- Ensure tuple data in explain analyze output is the same on all PG versions -SET citus.enable_binary_protocol = TRUE; --- EXPLAIN for local execution just works fine --- though going through distributed execution -EXPLAIN (COSTS OFF) SELECT * FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Index Scan using distributed_table_pkey_1470001 on distributed_table_1470001 distributed_table - Index Cond: (key = 1) - Filter: (age = 20) -(8 rows) - -EXPLAIN (ANALYZE, COSTS OFF, SUMMARY OFF, TIMING OFF) SELECT * FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=1 loops=1) - Task Count: 1 - Tuple data received from nodes: 14 bytes - Tasks Shown: All - -> Task - Tuple data received from node: 14 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Index Scan using distributed_table_pkey_1470001 on distributed_table_1470001 distributed_table (actual rows=1 loops=1) - Index Cond: (key = 1) - Filter: (age = 20) -(10 rows) - -EXPLAIN (ANALYZE ON, COSTS OFF, SUMMARY OFF, TIMING OFF) -WITH r AS ( SELECT GREATEST(random(), 2) z,* FROM distributed_table) -SELECT 1 FROM r WHERE z < 3; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=1 loops=1) - -> Distributed Subplan XXX_1 - Intermediate Data Size: 40 bytes - Result destination: Write locally - -> Custom Scan (Citus Adaptive) (actual rows=1 loops=1) - Task Count: 4 - Tuple data received from nodes: 22 bytes - Tasks Shown: One of 4 - -> Task - Tuple data received from node: 22 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on distributed_table_1470001 distributed_table (actual rows=1 loops=1) - Task Count: 1 - Tuple data received from nodes: 4 bytes - Tasks Shown: All - -> Task - Tuple data received from node: 4 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Function Scan on read_intermediate_result intermediate_result (actual rows=1 loops=1) - Filter: (z < '3'::double precision) -(20 rows) - -EXPLAIN (COSTS OFF) DELETE FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Delete on distributed_table_1470001 distributed_table - -> Index Scan using distributed_table_pkey_1470001 on distributed_table_1470001 distributed_table - Index Cond: (key = 1) - Filter: (age = 20) -(9 rows) - -EXPLAIN (ANALYZE, COSTS OFF, SUMMARY OFF, TIMING OFF) DELETE FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=0 loops=1) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Delete on distributed_table_1470001 distributed_table (actual rows=0 loops=1) - -> Index Scan using distributed_table_pkey_1470001 on distributed_table_1470001 distributed_table (actual rows=1 loops=1) - Index Cond: (key = 1) - Filter: (age = 20) - Trigger for constraint second_distributed_table_key_fkey_1470005: calls=1 -(10 rows) - --- show that EXPLAIN ANALYZE deleted the row and cascades deletes -SELECT * FROM distributed_table WHERE key = 1 AND age = 20 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((key OPERATOR(pg_catalog.=) 1) AND (age OPERATOR(pg_catalog.=) 20)) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- -(0 rows) - -SELECT * FROM second_distributed_table WHERE key = 1 ORDER BY 1,2; -NOTICE: executing the command locally: SELECT key, value FROM local_shard_execution.second_distributed_table_1470005 second_distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value - key | value ---------------------------------------------------------------------- -(0 rows) - --- Put rows back for other tests -INSERT INTO distributed_table VALUES (1, '22', 20); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 (key, value, age) VALUES (1, '22'::text, 20) -INSERT INTO second_distributed_table VALUES (1, '1'); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.second_distributed_table_1470005 (key, value) VALUES (1, '1'::text) -SET citus.enable_ddl_propagation TO OFF; -CREATE VIEW abcd_view AS SELECT * FROM abcd; -RESET citus.enable_ddl_propagation; -SELECT * FROM abcd first join abcd second on first.b = second.b ORDER BY 1,2,3,4; - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -BEGIN; -SELECT * FROM abcd first join abcd second on first.b = second.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.b, second.c, second.d FROM (local_shard_execution.abcd_1470025 first JOIN local_shard_execution.abcd_1470025 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.b, second.c, second.d FROM (local_shard_execution.abcd_1470027 first JOIN local_shard_execution.abcd_1470027 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd_view first join abcd_view second on first.b = second.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT abcd.b, abcd.c, abcd.d, abcd_1.b, abcd_1.c, abcd_1.d FROM (local_shard_execution.abcd_1470025 abcd JOIN local_shard_execution.abcd_1470025 abcd_1 ON ((abcd.b OPERATOR(pg_catalog.=) abcd_1.b))) WHERE true -NOTICE: executing the command locally: SELECT abcd.b, abcd.c, abcd.d, abcd_1.b, abcd_1.c, abcd_1.d FROM (local_shard_execution.abcd_1470027 abcd JOIN local_shard_execution.abcd_1470027 abcd_1 ON ((abcd.b OPERATOR(pg_catalog.=) abcd_1.b))) WHERE true - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd first full join abcd second on first.b = second.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT worker_column_1 AS b, worker_column_2 AS c, worker_column_3 AS d, worker_column_4 AS b, worker_column_5 AS c, worker_column_6 AS d FROM (SELECT first.b AS worker_column_1, first.c AS worker_column_2, first.d AS worker_column_3, second.b AS worker_column_4, second.c AS worker_column_5, second.d AS worker_column_6 FROM (local_shard_execution.abcd_1470025 first FULL JOIN local_shard_execution.abcd_1470025 second ON ((first.b OPERATOR(pg_catalog.=) second.b)))) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS b, worker_column_2 AS c, worker_column_3 AS d, worker_column_4 AS b, worker_column_5 AS c, worker_column_6 AS d FROM (SELECT first.b AS worker_column_1, first.c AS worker_column_2, first.d AS worker_column_3, second.b AS worker_column_4, second.c AS worker_column_5, second.d AS worker_column_6 FROM (local_shard_execution.abcd_1470027 first FULL JOIN local_shard_execution.abcd_1470027 second ON ((first.b OPERATOR(pg_catalog.=) second.b)))) worker_subquery - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd first join abcd second USING(b) ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d FROM (local_shard_execution.abcd_1470025 first JOIN local_shard_execution.abcd_1470025 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d FROM (local_shard_execution.abcd_1470027 first JOIN local_shard_execution.abcd_1470027 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true - b | c | d | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 3 | 4 - 3 | 4 | 5 | 4 | 5 - 4 | 5 | 6 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd first join abcd second USING(b) join abcd third on first.b=third.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d, third.b, third.c, third.d FROM ((local_shard_execution.abcd_1470025 first JOIN local_shard_execution.abcd_1470025 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) JOIN local_shard_execution.abcd_1470025 third ON ((first.b OPERATOR(pg_catalog.=) third.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d, third.b, third.c, third.d FROM ((local_shard_execution.abcd_1470027 first JOIN local_shard_execution.abcd_1470027 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) JOIN local_shard_execution.abcd_1470027 third ON ((first.b OPERATOR(pg_catalog.=) third.b))) WHERE true - b | c | d | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; --- copy always happens via distributed execution irrespective of the --- shards that are accessed -COPY reference_table FROM STDIN; -COPY distributed_table FROM STDIN WITH CSV; -COPY second_distributed_table FROM STDIN WITH CSV; --- the behaviour in transaction blocks is the following: - -- (a) Unless the first query is a local query, always use distributed execution. - -- (b) If the executor has used local execution, it has to use local execution - -- for the remaining of the transaction block. If that's not possible, the - -- executor has to error out --- rollback should be able to rollback local execution -BEGIN; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 29 | 20 -(1 row) - - SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 29 | 20 -(1 row) - -ROLLBACK; --- make sure that the value is rollbacked -SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 22 | 20 -(1 row) - --- rollback should be able to rollback both the local and distributed executions -BEGIN; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 29 | 20 -(1 row) - - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table - -- DELETE should cascade, and we should not see any rows - SELECT count(*) FROM second_distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.second_distributed_table_1470005 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.second_distributed_table_1470007 second_distributed_table WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - -ROLLBACK; --- make sure that everything is rollbacked -SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 22 | 20 -(1 row) - -SELECT count(*) FROM second_distributed_table; - count ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT * FROM second_distributed_table ORDER BY 1; - key | value ---------------------------------------------------------------------- - 1 | 1 - 6 | '6' -(2 rows) - --- very simple examples, an SELECTs should see the modifications --- that has done before -BEGIN; - -- INSERT is executed locally - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '23' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '23'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 23 | 20 -(1 row) - - -- since the INSERT is executed locally, the SELECT should also be - -- executed locally and see the changes - SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 23 | 20 -(1 row) - - -- multi-shard SELECTs are now forced to use local execution on - -- the shards that reside on this node - SELECT * FROM distributed_table WHERE value = '23' ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) - key | value | age ---------------------------------------------------------------------- - 1 | 23 | 20 -(1 row) - - -- similarly, multi-shard modifications should use local exection - -- on the shards that reside on this node - DELETE FROM distributed_table WHERE value = '23'; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) - -- make sure that the value is deleted - SELECT * FROM distributed_table WHERE value = '23' ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) - key | value | age ---------------------------------------------------------------------- -(0 rows) - -COMMIT; --- make sure that we've committed everything -SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- -(0 rows) - --- if we start with a distributed execution, we should keep --- using that and never switch back to local execution -BEGIN; - DELETE FROM distributed_table WHERE value = '11'; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '11'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '11'::text) - -- although this command could have been executed - -- locally, it is not going to be executed locally - SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- -(0 rows) - - -- but we can still execute parallel queries, even if - -- they are utility commands - TRUNCATE distributed_table CASCADE; -NOTICE: truncate cascades to table "second_distributed_table" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE - -- TRUNCATE cascaded into second_distributed_table - SELECT count(*) FROM second_distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.second_distributed_table_1470005 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.second_distributed_table_1470007 second_distributed_table WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - -ROLLBACK; --- load some data so that foreign keys won't complain with the next tests -INSERT INTO reference_table SELECT i FROM generate_series(500, 600) i; -NOTICE: executing the copy locally for shard xxxxx --- show that cascading foreign keys just works fine with local execution -BEGIN; - INSERT INTO reference_table VALUES (701); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (701) - INSERT INTO distributed_table VALUES (701, '701', 701); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 (key, value, age) VALUES (701, '701'::text, 701) - INSERT INTO second_distributed_table VALUES (701, '701'); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.second_distributed_table_1470005 (key, value) VALUES (701, '701'::text) - DELETE FROM reference_table WHERE key = 701; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.reference_table_1470000 reference_table WHERE (key OPERATOR(pg_catalog.=) 701) - SELECT count(*) FROM distributed_table WHERE key = 701; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 701) - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT count(*) FROM second_distributed_table WHERE key = 701; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.second_distributed_table_1470005 second_distributed_table WHERE (key OPERATOR(pg_catalog.=) 701) - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- multi-shard commands should also see the changes - SELECT count(*) FROM distributed_table WHERE key > 700; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.>) 700) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.>) 700) - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- we can still do multi-shard commands - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table -ROLLBACK; --- multiple queries hitting different shards can be executed locally -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT count(*) FROM distributed_table WHERE key = 6; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT count(*) FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - count ---------------------------------------------------------------------- - 0 -(1 row) - -ROLLBACK; --- a local query followed by TRUNCATE command can be executed locally -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - - TRUNCATE distributed_table CASCADE; -NOTICE: truncate cascades to table "second_distributed_table" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -ROLLBACK; --- a local query is followed by an INSERT..SELECT via the coordinator -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - - INSERT INTO distributed_table (key) SELECT i FROM generate_series(1,1) i; -NOTICE: executing the copy locally for shard xxxxx -ROLLBACK; -BEGIN; -SET citus.enable_repartition_joins TO ON; -SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT count(*) FROM distributed_table d1 join distributed_table d2 using(age); -NOTICE: executing the command locally: SELECT partition_index, 'repartition_70_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_70_1','SELECT age AS column1 FROM local_shard_execution.distributed_table_1470001 d1 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_70_3' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_70_3','SELECT age AS column1 FROM local_shard_execution.distributed_table_1470003 d1 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_71_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_71_1','SELECT age AS column1 FROM local_shard_execution.distributed_table_1470001 d2 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_71_3' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_71_3','SELECT age AS column1 FROM local_shard_execution.distributed_table_1470003 d2 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_1_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_2_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_3_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_4_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_1_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_2_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_3_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_4_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_1_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_2_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_3_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_4_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_1_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_2_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_3_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_71_4_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_70_1_0,repartition_70_2_0,repartition_70_3_0,repartition_70_4_0}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_71_1_0,repartition_71_2_0,repartition_71_3_0,repartition_71_4_0}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_70_1_1,repartition_70_2_1,repartition_70_3_1,repartition_70_4_1}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_71_1_1,repartition_71_2_1,repartition_71_3_1,repartition_71_4_1}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_70_1_2,repartition_70_2_2,repartition_70_3_2,repartition_70_4_2}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_71_1_2,repartition_71_2_2,repartition_71_3_2,repartition_71_4_2}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_70_1_3,repartition_70_2_3,repartition_70_3_3,repartition_70_4_3}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_71_1_3,repartition_71_2_3,repartition_71_3_3,repartition_71_4_3}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - -ROLLBACK; --- a local query is followed by an INSERT..SELECT with re-partitioning -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 6; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 1 -(1 row) - - INSERT INTO reference_table (key) SELECT -key FROM distributed_table; -NOTICE: executing the command locally: SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true -NOTICE: executing the copy locally for shard xxxxx - INSERT INTO distributed_table (key) SELECT -key FROM distributed_table; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1470001_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1470001_to','SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1470003_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1470003_to','SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key) SELECT key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1470003_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer) - SELECT count(*) FROM distributed_table WHERE key = -6; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) '-6'::integer) - count ---------------------------------------------------------------------- - 1 -(1 row) - -ROLLBACK; -INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 11 | 21 -(1 row) - -BEGIN; - DELETE FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - EXPLAIN ANALYZE DELETE FROM distributed_table WHERE key = 1; -ERROR: cannot execute command because a local execution has accessed a placement in the transaction -DETAIL: Some parallel commands cannot be executed if a previous command has already been executed locally -HINT: Try re-running the transaction with "SET LOCAL citus.enable_local_execution TO OFF;" -ROLLBACK; -BEGIN; - INSERT INTO distributed_table VALUES (11, '111',29) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; - key | value | age ---------------------------------------------------------------------- - 11 | 29 | 121 -(1 row) - - -- this is already disallowed on the nodes, adding it in case we - -- support DDLs from the worker nodes in the future - ALTER TABLE distributed_table ADD COLUMN x INT; -ERROR: operation is not allowed on this node -HINT: Connect to the coordinator and run it again. -ROLLBACK; -BEGIN; - INSERT INTO distributed_table VALUES (11, '111',29) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; - key | value | age ---------------------------------------------------------------------- - 11 | 29 | 121 -(1 row) - - -- this is already disallowed because VACUUM cannot be executed in tx block - -- adding in case this is supported some day - VACUUM second_distributed_table; -ERROR: VACUUM cannot run inside a transaction block -ROLLBACK; --- make sure that functions can use local execution -SET citus.enable_metadata_sync TO OFF; -CREATE OR REPLACE PROCEDURE only_local_execution() AS $$ - DECLARE cnt INT; - BEGIN - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; - SELECT count(*) INTO cnt FROM distributed_table WHERE key = 1; - DELETE FROM distributed_table WHERE key = 1; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution(); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text -CONTEXT: SQL statement "INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'" -PL/pgSQL function only_local_execution() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table WHERE key = 1" -PL/pgSQL function only_local_execution() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "DELETE FROM distributed_table WHERE key = 1" -PL/pgSQL function only_local_execution() line XX at SQL statement --- insert a row that we need in the next tests -INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text --- make sure that functions can use local execution -CREATE OR REPLACE PROCEDURE only_local_execution_with_function_evaluation() AS $$ - DECLARE nodeId INT; - BEGIN - -- fast path router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table WHERE key = 1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - - -- regular router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = 1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution_with_function_evaluation(); -NOTICE: executing the command locally: SELECT local_shard_execution.get_local_node_id_volatile() AS get_local_node_id_volatile FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table WHERE key = 1" -PL/pgSQL function only_local_execution_with_function_evaluation() line XX at SQL statement -NOTICE: executing the command locally: SELECT local_shard_execution.get_local_node_id_volatile() AS get_local_node_id_volatile FROM (local_shard_execution.distributed_table_1470001 d1(key, value, age) JOIN local_shard_execution.distributed_table_1470001 d2(key, value, age) USING (key)) WHERE (d1.key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = 1" -PL/pgSQL function only_local_execution_with_function_evaluation() line XX at SQL statement -CREATE OR REPLACE PROCEDURE only_local_execution_with_params(int) AS $$ - DECLARE cnt INT; - BEGIN - INSERT INTO distributed_table VALUES ($1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; - SELECT count(*) INTO cnt FROM distributed_table WHERE key = $1; - DELETE FROM distributed_table WHERE key = $1; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution_with_params(1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '29'::text -CONTEXT: SQL statement "INSERT INTO distributed_table VALUES ($1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'" -PL/pgSQL function only_local_execution_with_params(integer) line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table WHERE key = $1" -PL/pgSQL function only_local_execution_with_params(integer) line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "DELETE FROM distributed_table WHERE key = $1" -PL/pgSQL function only_local_execution_with_params(integer) line XX at SQL statement -CREATE OR REPLACE PROCEDURE only_local_execution_with_function_evaluation_param(int) AS $$ - DECLARE nodeId INT; - BEGIN - -- fast path router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table WHERE key = $1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - - -- regular router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = $1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution_with_function_evaluation_param(1); -NOTICE: executing the command locally: SELECT local_shard_execution.get_local_node_id_volatile() AS get_local_node_id_volatile FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table WHERE key = $1" -PL/pgSQL function only_local_execution_with_function_evaluation_param(integer) line XX at SQL statement -NOTICE: executing the command locally: SELECT local_shard_execution.get_local_node_id_volatile() AS get_local_node_id_volatile FROM (local_shard_execution.distributed_table_1470001 d1(key, value, age) JOIN local_shard_execution.distributed_table_1470001 d2(key, value, age) USING (key)) WHERE (d1.key OPERATOR(pg_catalog.=) $1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = $1" -PL/pgSQL function only_local_execution_with_function_evaluation_param(integer) line XX at SQL statement -CREATE OR REPLACE PROCEDURE local_execution_followed_by_dist() AS $$ - DECLARE cnt INT; - BEGIN - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; - SELECT count(*) INTO cnt FROM distributed_table WHERE key = 1; - DELETE FROM distributed_table; - SELECT count(*) INTO cnt FROM distributed_table; - END; -$$ LANGUAGE plpgsql; -RESET citus.enable_metadata_sync; -CALL local_execution_followed_by_dist(); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text -CONTEXT: SQL statement "INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table WHERE key = 1" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table -CONTEXT: SQL statement "DELETE FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table -CONTEXT: SQL statement "DELETE FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement --- test CTEs, including modifying CTEs -WITH local_insert AS (INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *), -distributed_local_mixed AS (SELECT * FROM reference_table WHERE key IN (SELECT key FROM local_insert)) -SELECT * FROM local_insert, distributed_local_mixed; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -NOTICE: executing the command locally: SELECT key FROM local_shard_execution.reference_table_1470000 reference_table WHERE (key OPERATOR(pg_catalog.=) ANY (SELECT local_insert.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert)) -NOTICE: executing the command locally: SELECT local_insert.key, local_insert.value, local_insert.age, distributed_local_mixed.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) distributed_local_mixed - key | value | age | key ---------------------------------------------------------------------- - 1 | 11 | 21 | 1 -(1 row) - --- since we start with parallel execution, we do not switch back to local execution in the --- latter CTEs -WITH distributed_local_mixed AS (SELECT * FROM distributed_table), -local_insert AS (INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *) -SELECT * FROM local_insert, distributed_local_mixed ORDER BY 1,2,3,4,5; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -NOTICE: executing the command locally: SELECT worker_column_1 AS key, worker_column_2 AS value, worker_column_3 AS age, worker_column_4 AS key, worker_column_5 AS value, worker_column_6 AS age FROM (SELECT local_insert.key AS worker_column_1, local_insert.value AS worker_column_2, local_insert.age AS worker_column_3, distributed_local_mixed.key AS worker_column_4, distributed_local_mixed.value AS worker_column_5, distributed_local_mixed.age AS worker_column_6 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution.distributed_table_1470001 distributed_table) distributed_local_mixed) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS key, worker_column_2 AS value, worker_column_3 AS age, worker_column_4 AS key, worker_column_5 AS value, worker_column_6 AS age FROM (SELECT local_insert.key AS worker_column_1, local_insert.value AS worker_column_2, local_insert.age AS worker_column_3, distributed_local_mixed.key AS worker_column_4, distributed_local_mixed.value AS worker_column_5, distributed_local_mixed.age AS worker_column_6 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution.distributed_table_1470003 distributed_table) distributed_local_mixed) worker_subquery - key | value | age | key | value | age ---------------------------------------------------------------------- - 1 | 29 | 21 | 1 | 11 | 21 -(1 row) - --- router CTE pushdown -WITH all_data AS (SELECT * FROM distributed_table WHERE key = 1) -SELECT - count(*) -FROM - distributed_table, all_data -WHERE - distributed_table.key = all_data.key AND distributed_table.key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table, (SELECT distributed_table_1.key, distributed_table_1.value, distributed_table_1.age FROM local_shard_execution.distributed_table_1470001 distributed_table_1 WHERE (distributed_table_1.key OPERATOR(pg_catalog.=) 1)) all_data WHERE ((distributed_table.key OPERATOR(pg_catalog.=) all_data.key) AND (distributed_table.key OPERATOR(pg_catalog.=) 1)) - count ---------------------------------------------------------------------- - 1 -(1 row) - -INSERT INTO reference_table VALUES (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (2) -INSERT INTO distributed_table VALUES (2, '29', 29); -INSERT INTO second_distributed_table VALUES (2, '29'); --- single shard that is not a local query followed by a local query -WITH all_data AS (SELECT * FROM second_distributed_table WHERE key = 2) -SELECT - distributed_table.key -FROM - distributed_table, all_data -WHERE - distributed_table.value = all_data.value AND distributed_table.key = 1 -ORDER BY - 1 DESC; -NOTICE: executing the command locally: SELECT distributed_table.key FROM local_shard_execution.distributed_table_1470001 distributed_table, (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) all_data WHERE ((distributed_table.value OPERATOR(pg_catalog.=) all_data.value) AND (distributed_table.key OPERATOR(pg_catalog.=) 1)) ORDER BY distributed_table.key DESC - key ---------------------------------------------------------------------- - 1 -(1 row) - --- multi-shard CTE is followed by a query which could be executed locally, but --- since the query started with a parallel query, it doesn't use local execution --- note that if we allow Postgres to inline the CTE (e.g., not have the EXISTS --- subquery), then it'd pushdown the filters and the query becomes single-shard, --- locally executable query -WITH all_data AS (SELECT * FROM distributed_table) -SELECT - count(*) -FROM - distributed_table, all_data -WHERE - distributed_table.key = all_data.key AND distributed_table.key = 1 - AND EXISTS (SELECT * FROM all_data); -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table, (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) all_data WHERE ((distributed_table.key OPERATOR(pg_catalog.=) all_data.key) AND (distributed_table.key OPERATOR(pg_catalog.=) 1) AND (EXISTS (SELECT all_data_1.key, all_data_1.value, all_data_1.age FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) all_data_1))) - count ---------------------------------------------------------------------- - 1 -(1 row) - --- in pg12, the following CTE can be inlined, still the query becomes --- a subquery that needs to be recursively planned and a parallel --- query, so do not use local execution -WITH all_data AS (SELECT age FROM distributed_table) -SELECT - count(*) -FROM - distributed_table, all_data -WHERE - distributed_table.key = all_data.age AND distributed_table.key = 1; -NOTICE: executing the command locally: SELECT age FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT age FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table, (SELECT intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(age bigint)) all_data WHERE ((distributed_table.key OPERATOR(pg_catalog.=) all_data.age) AND (distributed_table.key OPERATOR(pg_catalog.=) 1)) - count ---------------------------------------------------------------------- - 0 -(1 row) - --- get ready for the next commands -TRUNCATE reference_table, distributed_table, second_distributed_table; -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.reference_table_xxxxx CASCADE -NOTICE: truncate cascades to table "distributed_table_xxxxx" -NOTICE: truncate cascades to table "distributed_table_xxxxx" -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE --- local execution of returning of reference tables -INSERT INTO reference_table VALUES (1),(2),(3),(4),(5),(6) RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 AS citus_table_alias (key) VALUES (1), (2), (3), (4), (5), (6) RETURNING citus_table_alias.key - key ---------------------------------------------------------------------- - 1 - 2 - 3 - 4 - 5 - 6 -(6 rows) - --- local execution of multi-row INSERTs -INSERT INTO distributed_table VALUES (1, '11',21), (5,'55',22) ON CONFLICT(key) DO UPDATE SET value = (EXCLUDED.value::int + 1)::text RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'11'::text,'21'::bigint), (5,'55'::text,'22'::bigint) ON CONFLICT(key) DO UPDATE SET value = (((excluded.value)::integer OPERATOR(pg_catalog.+) 1))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 11 | 21 - 5 | 55 | 22 -(2 rows) - --- distributed execution of multi-rows INSERTs, where executor --- is smart enough to execute local tasks via local execution -INSERT INTO distributed_table VALUES (1, '11',21), (2,'22',22), (3,'33',33), (4,'44',44),(5,'55',55) ON CONFLICT(key) DO UPDATE SET value = (EXCLUDED.value::int + 1)::text RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'11'::text,'21'::bigint), (5,'55'::text,'55'::bigint) ON CONFLICT(key) DO UPDATE SET value = (((excluded.value)::integer OPERATOR(pg_catalog.+) 1))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 12 | 21 - 2 | 22 | 22 - 3 | 33 | 33 - 4 | 44 | 44 - 5 | 56 | 22 -(5 rows) - -PREPARE local_prepare_no_param AS SELECT count(*) FROM distributed_table WHERE key = 1; -PREPARE local_prepare_no_param_subquery AS -SELECT DISTINCT trim(value) FROM ( - SELECT value FROM distributed_table - WHERE - key IN (1, 6, 500, 701) - AND (select 2) > random() - order by 1 - limit 2 - ) t; -PREPARE local_prepare_param (int) AS SELECT count(*) FROM distributed_table WHERE key = $1; -PREPARE remote_prepare_param (int) AS SELECT count(*) FROM distributed_table WHERE key != $1; -BEGIN; - -- 8 local execution without params - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - -- 8 local execution without params and some subqueries - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - -- 8 local executions with params - EXECUTE local_prepare_param(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(5); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 5) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - EXECUTE local_prepare_param(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(5); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 5) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- followed by a non-local execution - EXECUTE remote_prepare_param(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 1) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 1) - count ---------------------------------------------------------------------- - 4 -(1 row) - -COMMIT; -PREPARE local_insert_prepare_no_param AS INSERT INTO distributed_table VALUES (1+0*random(), '11',21::int) ON CONFLICT(key) DO UPDATE SET value = '29' || '28' RETURNING *, key + 1, value || '30', age * 15; -PREPARE local_insert_prepare_param (int) AS INSERT INTO distributed_table VALUES ($1+0*random(), '11',21::int) ON CONFLICT(key) DO UPDATE SET value = '29' || '28' RETURNING *, key + 1, value || '30', age * 15; -BEGIN; - -- 8 local execution without params - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - -- 8 local executions with params - EXECUTE local_insert_prepare_param(1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 5 | 2928 | 22 | 6 | 292830 | 330 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 11 | 21 | 7 | 1130 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 5 | 2928 | 22 | 6 | 292830 | 330 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 2928 | 21 | 7 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 2928 | 21 | 7 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 2928 | 21 | 7 | 292830 | 315 -(1 row) - - -- followed by a non-local execution - EXECUTE remote_prepare_param(2); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 2) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 2) - count ---------------------------------------------------------------------- - 5 -(1 row) - -COMMIT; -PREPARE local_multi_row_insert_prepare_no_param AS - INSERT INTO distributed_table VALUES (1,'55', 21), (5,'15',33) ON CONFLICT (key) WHERE key > 3 and key < 4 DO UPDATE SET value = '88' || EXCLUDED.value; -PREPARE local_multi_row_insert_prepare_no_param_multi_shard AS - INSERT INTO distributed_table VALUES (6,'55', 21), (5,'15',33) ON CONFLICT (key) WHERE key > 3 AND key < 4 DO UPDATE SET value = '88' || EXCLUDED.value;; -PREPARE local_multi_row_insert_prepare_params(int,int) AS - INSERT INTO distributed_table VALUES ($1,'55', 21), ($2,'15',33) ON CONFLICT (key) WHERE key > 3 and key < 4 DO UPDATE SET value = '88' || EXCLUDED.value;; -INSERT INTO reference_table VALUES (11); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (11) -BEGIN; - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(6,5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(5,1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint), (1,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(5,6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(5,1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint), (1,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470003 AS citus_table_alias (key, value, age) VALUES (6,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - -- one task is remote - EXECUTE local_multi_row_insert_prepare_params(5,11); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -ROLLBACK; --- make sure that we still get results if we switch off local execution -PREPARE ref_count_prepare AS SELECT count(*) FROM reference_table; -EXECUTE ref_count_prepare; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.reference_table_1470000 reference_table - count ---------------------------------------------------------------------- - 7 -(1 row) - -EXECUTE ref_count_prepare; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.reference_table_1470000 reference_table - count ---------------------------------------------------------------------- - 7 -(1 row) - -EXECUTE ref_count_prepare; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.reference_table_1470000 reference_table - count ---------------------------------------------------------------------- - 7 -(1 row) - -EXECUTE ref_count_prepare; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.reference_table_1470000 reference_table - count ---------------------------------------------------------------------- - 7 -(1 row) - -EXECUTE ref_count_prepare; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.reference_table_1470000 reference_table - count ---------------------------------------------------------------------- - 7 -(1 row) - -SET citus.enable_local_execution TO off; -EXECUTE ref_count_prepare; - count ---------------------------------------------------------------------- - 7 -(1 row) - -RESET citus.enable_local_execution; --- failures of local execution should rollback both the --- local execution and remote executions --- fail on a local execution -BEGIN; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '100' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '100'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 100 | 21 -(1 row) - - UPDATE distributed_table SET value = '200'; -NOTICE: executing the command locally: UPDATE local_shard_execution.distributed_table_1470001 distributed_table SET value = '200'::text -NOTICE: executing the command locally: UPDATE local_shard_execution.distributed_table_1470003 distributed_table SET value = '200'::text - INSERT INTO distributed_table VALUES (1, '100',21) ON CONFLICT(key) DO UPDATE SET value = (1 / (100.0 - EXCLUDED.value::int))::text RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '100'::text, 21) ON CONFLICT(key) DO UPDATE SET value = (((1)::numeric OPERATOR(pg_catalog./) (100.0 OPERATOR(pg_catalog.-) ((excluded.value)::integer)::numeric)))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -ERROR: division by zero -ROLLBACK; --- we've rollbacked everything -SELECT count(*) FROM distributed_table WHERE value = '200'; - count ---------------------------------------------------------------------- - 0 -(1 row) - --- RETURNING should just work fine for reference tables -INSERT INTO reference_table VALUES (500) RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (500) RETURNING key - key ---------------------------------------------------------------------- - 500 -(1 row) - -DELETE FROM reference_table WHERE key = 500 RETURNING *; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.reference_table_1470000 reference_table WHERE (key OPERATOR(pg_catalog.=) 500) RETURNING key - key ---------------------------------------------------------------------- - 500 -(1 row) - --- should be able to skip local execution even if in a sequential mode of execution -BEGIN; - SET LOCAL citus.multi_shard_modify_mode TO sequential ; - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '100' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '100'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 11 | 21 -(1 row) - -ROLLBACK; --- sequential execution should just work fine after a local execution -BEGIN; - SET citus.multi_shard_modify_mode TO sequential ; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '100' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '100'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 100 | 21 -(1 row) - - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table -ROLLBACK; --- load some data so that foreign keys won't complain with the next tests -TRUNCATE reference_table CASCADE; -NOTICE: truncate cascades to table "distributed_table" -NOTICE: truncate cascades to table "second_distributed_table" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.reference_table_xxxxx CASCADE -NOTICE: truncate cascades to table "distributed_table_xxxxx" -NOTICE: truncate cascades to table "distributed_table_xxxxx" -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -INSERT INTO reference_table SELECT i FROM generate_series(500, 600) i; -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO distributed_table SELECT i, i::text, i % 10 + 25 FROM generate_series(500, 600) i; -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx --- show that both local, and mixed local-distributed executions --- calculate rows processed correctly -BEGIN; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - DELETE FROM distributed_table WHERE value != '123123213123213'; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE (value OPERATOR(pg_catalog.<>) '123123213123213'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (value OPERATOR(pg_catalog.<>) '123123213123213'::text) -ROLLBACK; -BEGIN; - DELETE FROM reference_table WHERE key = 500 RETURNING *; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.reference_table_1470000 reference_table WHERE (key OPERATOR(pg_catalog.=) 500) RETURNING key - key ---------------------------------------------------------------------- - 500 -(1 row) - - DELETE FROM reference_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.reference_table_1470000 reference_table -ROLLBACK; -BEGIN; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - -ROLLBACK; -BEGIN; - SET LOCAL client_min_messages TO INFO; - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true - count ---------------------------------------------------------------------- - 101 -(1 row) - - SET LOCAL client_min_messages TO LOG; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) -ROLLBACK; --- probably not a realistic case since views are not very --- well supported with MX -SET citus.enable_ddl_propagation TO OFF; -CREATE VIEW v_local_query_execution AS -SELECT * FROM distributed_table WHERE key = 500; -RESET citus.enable_ddl_propagation; -SELECT * FROM v_local_query_execution; -NOTICE: executing the command locally: SELECT key, value, age FROM (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (distributed_table.key OPERATOR(pg_catalog.=) 500)) v_local_query_execution - key | value | age ---------------------------------------------------------------------- - 500 | 500 | 25 -(1 row) - --- similar test, but this time the view itself is a non-local --- query, but the query on the view is local -SET citus.enable_ddl_propagation TO OFF; -CREATE VIEW v_local_query_execution_2 AS -SELECT * FROM distributed_table; -RESET citus.enable_ddl_propagation; -SELECT * FROM v_local_query_execution_2 WHERE key = 500; -NOTICE: executing the command locally: SELECT key, value, age FROM (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution.distributed_table_1470003 distributed_table) v_local_query_execution_2 WHERE (key OPERATOR(pg_catalog.=) 500) - key | value | age ---------------------------------------------------------------------- - 500 | 500 | 25 -(1 row) - --- even if we switch from remote execution -> local execution, --- we are able to use remote execution after rollback -BEGIN; - SAVEPOINT my_savepoint; - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true - count ---------------------------------------------------------------------- - 101 -(1 row) - - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - ROLLBACK TO SAVEPOINT my_savepoint; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) -COMMIT; --- even if we switch from local execution -> remote execution, --- we are able to use local execution after rollback -BEGIN; - SAVEPOINT my_savepoint; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE true - count ---------------------------------------------------------------------- - 100 -(1 row) - - ROLLBACK TO SAVEPOINT my_savepoint; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) -COMMIT; --- sanity check: local execution on partitions -INSERT INTO collections_list (collection_id) VALUES (0) RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470011 (key, ser, collection_id) VALUES ('3940649673949185'::bigint, '3940649673949185'::bigint, 0) RETURNING key, ser, ts, collection_id, value - key | ser | ts | collection_id | value ---------------------------------------------------------------------- - 3940649673949185 | 3940649673949185 | | 0 | -(1 row) - -BEGIN; - INSERT INTO collections_list (key, collection_id) VALUES (1,0); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470009 (key, ser, collection_id) VALUES ('1'::bigint, '3940649673949186'::bigint, 0) - SELECT count(*) FROM collections_list_0 WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.collections_list_0_1470013 collections_list_0 WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT count(*) FROM collections_list; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.collections_list_1470009 collections_list WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.collections_list_1470011 collections_list WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - - SELECT * FROM collections_list ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT key, ser, ts, collection_id, value FROM local_shard_execution.collections_list_1470009 collections_list WHERE true -NOTICE: executing the command locally: SELECT key, ser, ts, collection_id, value FROM local_shard_execution.collections_list_1470011 collections_list WHERE true - key | ser | ts | collection_id | value ---------------------------------------------------------------------- - 1 | 3940649673949186 | | 0 | - 3940649673949185 | 3940649673949185 | | 0 | -(2 rows) - -COMMIT; -TRUNCATE collections_list; --- make sure that even if local execution is used, the sequence values --- are generated locally -SET citus.enable_ddl_propagation TO OFF; -ALTER SEQUENCE collections_list_key_seq NO MINVALUE NO MAXVALUE; -RESET citus.enable_ddl_propagation; -PREPARE serial_prepared_local AS INSERT INTO collections_list (collection_id) VALUES (0) RETURNING key, ser; -SELECT setval('collections_list_key_seq', 4); - setval ---------------------------------------------------------------------- - 4 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470009 (key, ser, collection_id) VALUES ('5'::bigint, '3940649673949187'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 5 | 3940649673949187 -(1 row) - -SELECT setval('collections_list_key_seq', 5); - setval ---------------------------------------------------------------------- - 5 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470011 (key, ser, collection_id) VALUES ('6'::bigint, '3940649673949188'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 6 | 3940649673949188 -(1 row) - -SELECT setval('collections_list_key_seq', 499); - setval ---------------------------------------------------------------------- - 499 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470011 (key, ser, collection_id) VALUES ('500'::bigint, '3940649673949189'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 500 | 3940649673949189 -(1 row) - -SELECT setval('collections_list_key_seq', 700); - setval ---------------------------------------------------------------------- - 700 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470009 (key, ser, collection_id) VALUES ('701'::bigint, '3940649673949190'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 701 | 3940649673949190 -(1 row) - -SELECT setval('collections_list_key_seq', 708); - setval ---------------------------------------------------------------------- - 708 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470011 (key, ser, collection_id) VALUES ('709'::bigint, '3940649673949191'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 709 | 3940649673949191 -(1 row) - -SELECT setval('collections_list_key_seq', 709); - setval ---------------------------------------------------------------------- - 709 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470009 (key, ser, collection_id) VALUES ('710'::bigint, '3940649673949192'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 710 | 3940649673949192 -(1 row) - --- get ready for the next executions -DELETE FROM collections_list WHERE key IN (5,6); -SELECT setval('collections_list_key_seq', 4); - setval ---------------------------------------------------------------------- - 4 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470009 (key, ser, collection_id) VALUES ('5'::bigint, '3940649673949193'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 5 | 3940649673949193 -(1 row) - -SELECT setval('collections_list_key_seq', 5); - setval ---------------------------------------------------------------------- - 5 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.collections_list_1470011 (key, ser, collection_id) VALUES ('6'::bigint, '3940649673949194'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 6 | 3940649673949194 -(1 row) - --- and, one remote test -SELECT setval('collections_list_key_seq', 10); - setval ---------------------------------------------------------------------- - 10 -(1 row) - -EXECUTE serial_prepared_local; - key | ser ---------------------------------------------------------------------- - 11 | 3940649673949195 -(1 row) - --- the final queries for the following CTEs are going to happen on the intermediate results only --- one of them will be executed remotely, and the other is locally --- Citus currently doesn't allow using task_assignment_policy for intermediate results -WITH distributed_local_mixed AS (INSERT INTO reference_table VALUES (1000) RETURNING *) SELECT * FROM distributed_local_mixed; -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (1000) RETURNING key -NOTICE: executing the command locally: SELECT key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) distributed_local_mixed - key ---------------------------------------------------------------------- - 1000 -(1 row) - --- clean the table for the next tests -SET search_path TO local_shard_execution; -TRUNCATE distributed_table CASCADE; -NOTICE: truncate cascades to table "second_distributed_table" --- load some data on a remote shard -INSERT INTO reference_table (key) VALUES (1), (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 AS citus_table_alias (key) VALUES (1), (2) -INSERT INTO distributed_table (key) VALUES (2); -BEGIN; - -- local execution followed by a distributed query - INSERT INTO distributed_table (key) VALUES (1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.distributed_table_1470001 (key) VALUES (1) - DELETE FROM distributed_table RETURNING key; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470001 distributed_table RETURNING key -NOTICE: executing the command locally: DELETE FROM local_shard_execution.distributed_table_1470003 distributed_table RETURNING key - key ---------------------------------------------------------------------- - 1 - 2 -(2 rows) - -COMMIT; --- a similar test with a reference table -TRUNCATE reference_table CASCADE; -NOTICE: truncate cascades to table "distributed_table" -NOTICE: truncate cascades to table "second_distributed_table" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.reference_table_xxxxx CASCADE -NOTICE: truncate cascades to table "distributed_table_xxxxx" -NOTICE: truncate cascades to table "distributed_table_xxxxx" -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.distributed_table_xxxxx CASCADE -NOTICE: truncate cascades to table "second_distributed_table_xxxxx" -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution.second_distributed_table_xxxxx CASCADE --- load some data on a remote shard -INSERT INTO reference_table (key) VALUES (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (2) -BEGIN; - -- local execution followed by a distributed query - INSERT INTO reference_table (key) VALUES (1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution.reference_table_1470000 (key) VALUES (1) - DELETE FROM reference_table RETURNING key; -NOTICE: executing the command locally: DELETE FROM local_shard_execution.reference_table_1470000 reference_table RETURNING key - key ---------------------------------------------------------------------- - 1 - 2 -(2 rows) - -COMMIT; --- however complex the query, local execution can handle -SET client_min_messages TO LOG; -SET citus.log_local_commands TO ON; -WITH cte_1 AS - (SELECT * - FROM - (WITH cte_1 AS - (SELECT * - FROM distributed_table - WHERE key = 1) SELECT * - FROM cte_1) AS foo) -SELECT count(*) -FROM cte_1 -JOIN distributed_table USING (key) -WHERE distributed_table.key = 1 - AND distributed_table.key IN - (SELECT key - FROM distributed_table - WHERE key = 1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM ((SELECT foo.key, foo.value, foo.age FROM (SELECT cte_1_1.key, cte_1_1.value, cte_1_1.age FROM (SELECT distributed_table_1.key, distributed_table_1.value, distributed_table_1.age FROM local_shard_execution.distributed_table_1470001 distributed_table_1 WHERE (distributed_table_1.key OPERATOR(pg_catalog.=) 1)) cte_1_1) foo) cte_1 JOIN local_shard_execution.distributed_table_1470001 distributed_table(key, value, age) USING (key)) WHERE ((distributed_table.key OPERATOR(pg_catalog.=) 1) AND (distributed_table.key OPERATOR(pg_catalog.=) ANY (SELECT distributed_table_1.key FROM local_shard_execution.distributed_table_1470001 distributed_table_1 WHERE (distributed_table_1.key OPERATOR(pg_catalog.=) 1)))) - count ---------------------------------------------------------------------- - 0 -(1 row) - -RESET client_min_messages; -RESET citus.log_local_commands; -\c - - - :master_port -SET search_path TO local_shard_execution; -SET citus.next_shard_id TO 1480000; --- test both local and remote execution with custom type -SET citus.shard_replication_factor TO 1; -CREATE TYPE invite_resp AS ENUM ('yes', 'no', 'maybe'); -CREATE TABLE event_responses ( - event_id int, - user_id int, - response invite_resp, - primary key (event_id, user_id) -); -SELECT create_distributed_table('event_responses', 'event_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO event_responses VALUES (1, 1, 'yes'), (2, 2, 'yes'), (3, 3, 'no'), (4, 4, 'no'); -CREATE TABLE event_responses_no_pkey ( - event_id int, - user_id int, - response invite_resp -); -SELECT create_distributed_table('event_responses_no_pkey', 'event_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE OR REPLACE FUNCTION regular_func(p invite_resp) -RETURNS int AS $$ -DECLARE - q1Result INT; - q2Result INT; - q3Result INT; -BEGIN -SELECT count(*) INTO q1Result FROM event_responses WHERE response = $1; -SELECT count(*) INTO q2Result FROM event_responses e1 LEFT JOIN event_responses e2 USING (event_id) WHERE e2.response = $1; -SELECT count(*) INTO q3Result FROM (SELECT * FROM event_responses WHERE response = $1 LIMIT 5) as foo; -RETURN q3Result+q2Result+q1Result; -END; -$$ LANGUAGE plpgsql; -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -CREATE OR REPLACE PROCEDURE regular_procedure(p invite_resp) -AS $$ -BEGIN -PERFORM * FROM event_responses WHERE response = $1 ORDER BY 1 DESC, 2 DESC, 3 DESC; -PERFORM * FROM event_responses e1 LEFT JOIN event_responses e2 USING (event_id) WHERE e2.response = $1 ORDER BY 1 DESC, 2 DESC, 3 DESC, 4 DESC; -PERFORM * FROM (SELECT * FROM event_responses WHERE response = $1 LIMIT 5) as foo ORDER BY 1 DESC, 2 DESC, 3 DESC; -END; -$$ LANGUAGE plpgsql; -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -PREPARE multi_shard_no_dist_key(invite_resp) AS select * from event_responses where response = $1::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 1; -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -PREPARE multi_shard_with_dist_key(int, invite_resp) AS select * from event_responses where event_id > $1 AND response = $2::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 1; -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -PREPARE query_pushdown_no_dist_key(invite_resp) AS select * from event_responses e1 LEFT JOIN event_responses e2 USING(event_id) where e1.response = $1::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC, 4 DESC LIMIT 1; -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -PREPARE insert_select_via_coord(invite_resp) AS INSERT INTO event_responses SELECT * FROM event_responses where response = $1::invite_resp LIMIT 1 ON CONFLICT (event_id, user_id) DO NOTHING ; -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -PREPARE insert_select_pushdown(invite_resp) AS INSERT INTO event_responses SELECT * FROM event_responses where response = $1::invite_resp ON CONFLICT (event_id, user_id) DO NOTHING; -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -PREPARE router_select_with_no_dist_key_filter(invite_resp) AS select * from event_responses where event_id = 1 AND response = $1::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 1; -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - --- rest of the tests assume the table is empty -TRUNCATE event_responses; -CREATE OR REPLACE PROCEDURE register_for_event(p_event_id int, p_user_id int, p_choice invite_resp) -LANGUAGE plpgsql -SET search_path TO local_shard_execution -AS $fn$ -BEGIN - INSERT INTO event_responses VALUES (p_event_id, p_user_id, p_choice) - ON CONFLICT (event_id, user_id) - DO UPDATE SET response = EXCLUDED.response; - - PERFORM count(*) FROM event_responses WHERE event_id = p_event_id; - - PERFORM count(*) FROM event_responses WHERE event_id = p_event_id AND false; - - UPDATE event_responses SET response = p_choice WHERE event_id = p_event_id; - -END; -$fn$; -SELECT create_distributed_function('register_for_event(int,int,invite_resp)', 'p_event_id', 'event_responses'); - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - --- call 8 times to make sure it works after the 5th time(postgres binds values after the 5th time and Citus 2nd time) --- after 6th, the local execution caches the local plans and uses it --- execute it both locally and remotely -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -\c - - - :worker_2_port -SET search_path TO local_shard_execution; -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); --- values 16, 17 and 19 hits the same --- shard, so we're re-using the same cached --- plans per statement across different distribution --- key values -CALL register_for_event(17, 1, 'yes'); -CALL register_for_event(19, 1, 'yes'); -CALL register_for_event(17, 1, 'yes'); -CALL register_for_event(19, 1, 'yes'); --- should work fine if the logs are enabled -\set VERBOSITY terse -SET citus.log_local_commands TO ON; -SET client_min_messages TO DEBUG2; -CALL register_for_event(19, 1, 'yes'); -DEBUG: not pushing down procedure to the same node -NOTICE: executing the command locally: INSERT INTO local_shard_execution.event_responses_1480001 AS citus_table_alias (event_id, user_id, response) VALUES (19, 1, 'yes'::local_shard_execution.invite_resp) ON CONFLICT(event_id, user_id) DO UPDATE SET response = excluded.response -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.event_responses_1480001 event_responses WHERE (event_id OPERATOR(pg_catalog.=) 19) -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT NULL::integer AS event_id, NULL::integer AS user_id, NULL::local_shard_execution.invite_resp AS response WHERE false) event_responses(event_id, user_id, response) WHERE ((event_id OPERATOR(pg_catalog.=) 19) AND false) -NOTICE: executing the command locally: UPDATE local_shard_execution.event_responses_1480001 event_responses SET response = 'yes'::local_shard_execution.invite_resp WHERE (event_id OPERATOR(pg_catalog.=) 19) --- should be fine even if no parameters exists in the query -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.event_responses_1480001 event_responses WHERE (event_id OPERATOR(pg_catalog.=) 16) - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution.event_responses_1480001 event_responses WHERE (event_id OPERATOR(pg_catalog.=) 16) - count ---------------------------------------------------------------------- - 1 -(1 row) - -UPDATE event_responses SET response = 'no' WHERE event_id = 16; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: UPDATE local_shard_execution.event_responses_1480001 event_responses SET response = 'no'::local_shard_execution.invite_resp WHERE (event_id OPERATOR(pg_catalog.=) 16) -INSERT INTO event_responses VALUES (16, 666, 'maybe') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: INSERT INTO local_shard_execution.event_responses_1480001 AS citus_table_alias (event_id, user_id, response) VALUES (16, 666, 'maybe'::local_shard_execution.invite_resp) ON CONFLICT(event_id, user_id) DO UPDATE SET response = excluded.response RETURNING citus_table_alias.event_id, citus_table_alias.user_id, citus_table_alias.response - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe -(1 row) - --- multi row INSERTs hitting the same shard -INSERT INTO event_responses VALUES (16, 666, 'maybe'), (17, 777, 'no') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan -NOTICE: executing the command locally: INSERT INTO local_shard_execution.event_responses_1480001 AS citus_table_alias (event_id, user_id, response) VALUES (16,666,'maybe'::local_shard_execution.invite_resp), (17,777,'no'::local_shard_execution.invite_resp) ON CONFLICT(event_id, user_id) DO UPDATE SET response = excluded.response RETURNING citus_table_alias.event_id, citus_table_alias.user_id, citus_table_alias.response - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe - 17 | 777 | no -(2 rows) - --- now, similar tests with some settings changed -SET citus.enable_local_execution TO false; -SET citus.enable_fast_path_router_planner TO false; -CALL register_for_event(19, 1, 'yes'); -DEBUG: not pushing down procedure to the same node --- should be fine even if no parameters exists in the query -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 - count ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 - count ---------------------------------------------------------------------- - 2 -(1 row) - -UPDATE event_responses SET response = 'no' WHERE event_id = 16; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -INSERT INTO event_responses VALUES (16, 666, 'maybe') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe -(1 row) - --- multi row INSERTs hitting the same shard -INSERT INTO event_responses VALUES (16, 666, 'maybe'), (17, 777, 'no') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe - 17 | 777 | no -(2 rows) - --- set back to sane settings -RESET citus.enable_local_execution; -RESET citus.enable_fast_path_router_planner; --- we'll test some 2PC states -SET citus.enable_metadata_sync TO OFF; --- coordinated_transaction_should_use_2PC prints the internal --- state for 2PC decision on Citus. However, even if 2PC is decided, --- we may not necessarily use 2PC over a connection unless it does --- a modification -CREATE OR REPLACE FUNCTION coordinated_transaction_should_use_2PC() -RETURNS BOOL LANGUAGE C STRICT VOLATILE AS 'citus', -$$coordinated_transaction_should_use_2PC$$; --- make tests consistent -SET citus.max_adaptive_executor_pool_size TO 1; -RESET citus.enable_metadata_sync; -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - -SET citus.log_remote_commands TO ON; --- we use event_id = 2 for local execution and event_id = 1 for reemote execution ---show it here, if anything changes here, all the tests below might be broken --- we prefer this to avoid excessive logging below -SELECT * FROM event_responses_no_pkey WHERE event_id = 2; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 2 -NOTICE: executing the command locally: SELECT event_id, user_id, response FROM local_shard_execution.event_responses_no_pkey_1480007 event_responses_no_pkey WHERE (event_id OPERATOR(pg_catalog.=) 2) - event_id | user_id | response ---------------------------------------------------------------------- -(0 rows) - -SELECT * FROM event_responses_no_pkey WHERE event_id = 1; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 1 -NOTICE: issuing SELECT event_id, user_id, response FROM local_shard_execution.event_responses_no_pkey_1480004 event_responses_no_pkey WHERE (event_id OPERATOR(pg_catalog.=) 1) - event_id | user_id | response ---------------------------------------------------------------------- -(0 rows) - -RESET citus.log_remote_commands; -RESET citus.log_local_commands; -RESET client_min_messages; --- single shard local command without transaction block does set the --- internal state for 2PC, but does not require any actual entries -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *) -SELECT coordinated_transaction_should_use_2PC() FROM cte_1; - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- two local commands without transaction block set the internal 2PC state --- but does not use remotely -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *), - cte_2 AS (INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - t -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local modification followed by another single shard --- local modification sets the 2PC state, but does not use remotely -BEGIN; - INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - - INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local modification followed by a single shard --- remote modification uses 2PC because multiple nodes involved --- in the modification -BEGIN; - INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - - INSERT INTO event_responses_no_pkey VALUES (1, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 2 | yes -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local modification followed by a single shard --- remote modification uses 2PC even if it is not in an explicit --- tx block as multiple nodes involved in the modification -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *), - cte_2 AS (INSERT INTO event_responses_no_pkey VALUES (1, 1, 'yes') RETURNING *) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - t -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard remote modification followed by a single shard --- local modification uses 2PC as multiple nodes involved --- in the modification -BEGIN; - INSERT INTO event_responses_no_pkey VALUES (1, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 2 | yes -(1 row) - - INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard remote modification followed by a single shard --- local modification uses 2PC even if it is not in an explicit --- tx block -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (1, 1, 'yes') RETURNING *), - cte_2 AS (INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - t -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local SELECT command without transaction block does not set the --- internal state for 2PC -WITH cte_1 AS (SELECT * FROM event_responses_no_pkey WHERE event_id = 2) -SELECT coordinated_transaction_should_use_2PC() FROM cte_1; -ERROR: The transaction is not a coordinated transaction -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- two local SELECT commands without transaction block does not set the internal 2PC state --- and does not use remotely -WITH cte_1 AS (SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2), - cte_2 AS (SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2) -SELECT count(*) FROM cte_1, cte_2; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- two local SELECT commands without transaction block does not set the internal 2PC state --- and does not use remotely -BEGIN; - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 9 -(1 row) - - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 9 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- a local SELECT followed by a remote SELECT does not require to --- use actual 2PC -BEGIN; - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 9 -(1 row) - - SELECT count(*) FROM event_responses_no_pkey; - count ---------------------------------------------------------------------- - 13 -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local SELECT followed by a single shard --- remote modification does not use 2PC, because only a single --- machine involved in the modification -BEGIN; - SELECT * FROM event_responses_no_pkey WHERE event_id = 2; - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes - 2 | 2 | yes -(9 rows) - - INSERT INTO event_responses_no_pkey VALUES (1, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 2 | yes -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local SELECT followed by a single shard --- remote modification does not use 2PC, because only a single --- machine involved in the modification -WITH cte_1 AS (SELECT * FROM event_responses_no_pkey WHERE event_id = 2), - cte_2 AS (INSERT INTO event_responses_no_pkey VALUES (1, 1, 'yes') RETURNING *) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - f -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard remote modification followed by a single shard --- local SELECT does not use 2PC, because only a single --- machine involved in the modification -BEGIN; - INSERT INTO event_responses_no_pkey VALUES (1, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 2 | yes -(1 row) - - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 9 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard remote modification followed by a single shard --- local SELECT does not use 2PC, because only a single --- machine involved in the modification -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (1, 1, 'yes') RETURNING *), - cte_2 AS (SELECT * FROM event_responses_no_pkey WHERE event_id = 2) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - f -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- multi shard local SELECT command without transaction block does not set the --- internal state for 2PC -WITH cte_1 AS (SELECT count(*) FROM event_responses_no_pkey) -SELECT coordinated_transaction_should_use_2PC() FROM cte_1; - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- two multi-shard SELECT commands without transaction block does not set the internal 2PC state --- and does not use remotely -WITH cte_1 AS (SELECT count(*) FROM event_responses_no_pkey), - cte_2 AS (SELECT count(*) FROM event_responses_no_pkey) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - f -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- two multi-shard SELECT commands without transaction block does not set the internal 2PC state --- and does not use remotely -BEGIN; - SELECT count(*) FROM event_responses_no_pkey; - count ---------------------------------------------------------------------- - 17 -(1 row) - - SELECT count(*) FROM event_responses_no_pkey; - count ---------------------------------------------------------------------- - 17 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- multi-shard shard SELECT followed by a single shard --- remote modification does not use 2PC, because only a single --- machine involved in the modification -BEGIN; - SELECT count(*) FROM event_responses_no_pkey; - count ---------------------------------------------------------------------- - 17 -(1 row) - - INSERT INTO event_responses_no_pkey VALUES (1, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 2 | yes -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- multi shard SELECT followed by a single shard --- remote single shard modification does not use 2PC, because only a single --- machine involved in the modification -WITH cte_1 AS (SELECT count(*) FROM event_responses_no_pkey), - cte_2 AS (INSERT INTO event_responses_no_pkey VALUES (1, 1, 'yes') RETURNING *) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - f -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard remote modification followed by a multi shard --- SELECT does not use 2PC, because only a single --- machine involved in the modification -BEGIN; - INSERT INTO event_responses_no_pkey VALUES (1, 2, 'yes') RETURNING *; - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 2 | yes -(1 row) - - SELECT count(*) FROM event_responses_no_pkey; - count ---------------------------------------------------------------------- - 20 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard remote modification followed by a multi shard --- SELECT does not use 2PC, because only a single --- machine involved in the modification -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (1, 1, 'yes') RETURNING *), - cte_2 AS (SELECT count(*) FROM event_responses_no_pkey) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - f -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- single shard local modification followed by remote multi-shard --- modification uses 2PC as multiple nodes are involved in modifications -WITH cte_1 AS (INSERT INTO event_responses_no_pkey VALUES (2, 2, 'yes') RETURNING *), - cte_2 AS (UPDATE event_responses_no_pkey SET user_id = 1000 RETURNING *) -SELECT bool_or(coordinated_transaction_should_use_2PC()) FROM cte_1, cte_2; - bool_or ---------------------------------------------------------------------- - t -(1 row) - -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- a local SELECT followed by a remote multi-shard UPDATE requires to --- use actual 2PC as multiple nodes are involved in modifications -BEGIN; - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 10 -(1 row) - - UPDATE event_responses_no_pkey SET user_id = 1; -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- a local SELECT followed by a remote single-shard UPDATE does not require to --- use actual 2PC. This is because a single node is involved in modification -BEGIN; - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 10 -(1 row) - - UPDATE event_responses_no_pkey SET user_id = 1 WHERE event_id = 1; -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - --- a remote single-shard UPDATE followed by a local single shard SELECT --- does not require to use actual 2PC. This is because a single node --- is involved in modification -BEGIN; - UPDATE event_responses_no_pkey SET user_id = 1 WHERE event_id = 1; - SELECT count(*) FROM event_responses_no_pkey WHERE event_id = 2; - count ---------------------------------------------------------------------- - 10 -(1 row) - -COMMIT; -SELECT count(*) FROM pg_dist_transaction; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 0 -(1 row) - -\c - - - :master_port -SET search_path TO local_shard_execution; --- verify the local_hostname guc is used for local executions that should connect to the --- local host -ALTER SYSTEM SET citus.local_hostname TO 'foobar'; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(0.1); -- wait to make sure the config has changed before running the GUC - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -SET citus.enable_local_execution TO false; -- force a connection to the dummy placements --- run queries that use dummy placements for local execution -SELECT * FROM event_responses WHERE FALSE; -ERROR: connection to the remote node postgres@foobar:57636 failed with the following error: could not translate host name "foobar" to address: -WITH cte_1 AS (SELECT * FROM event_responses LIMIT 1) SELECT count(*) FROM cte_1; -ERROR: connection to the remote node postgres@foobar:57636 failed with the following error: could not translate host name "foobar" to address: -ALTER SYSTEM RESET citus.local_hostname; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(.1); -- wait to make sure the config has changed before running the GUC - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO ERROR; -SET search_path TO public; -DROP SCHEMA local_shard_execution CASCADE; diff --git a/src/test/regress/expected/local_shard_execution_replicated.out b/src/test/regress/expected/local_shard_execution_replicated.out index d0593db4a..b086d7a84 100644 --- a/src/test/regress/expected/local_shard_execution_replicated.out +++ b/src/test/regress/expected/local_shard_execution_replicated.out @@ -1,17 +1,6 @@ -- -- LOCAL_SHARD_EXECUTION_REPLICATED -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA local_shard_execution_replicated; SET search_path TO local_shard_execution_replicated; SET citus.shard_count TO 4; diff --git a/src/test/regress/expected/local_shard_execution_replicated_0.out b/src/test/regress/expected/local_shard_execution_replicated_0.out deleted file mode 100644 index 992ff6b81..000000000 --- a/src/test/regress/expected/local_shard_execution_replicated_0.out +++ /dev/null @@ -1,2462 +0,0 @@ --- --- LOCAL_SHARD_EXECUTION_REPLICATED --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA local_shard_execution_replicated; -SET search_path TO local_shard_execution_replicated; -SET citus.shard_count TO 4; -SET citus.shard_replication_factor TO 2; -SET citus.next_shard_id TO 1500000; -CREATE TABLE reference_table (key int PRIMARY KEY); -SELECT create_reference_table('reference_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE distributed_table (key int PRIMARY KEY , value text, age bigint CHECK (age > 10)); -SELECT create_distributed_table('distributed_table','key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE second_distributed_table (key int PRIMARY KEY , value text); -SELECT create_distributed_table('second_distributed_table','key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- ingest some data to enable some tests with data -INSERT INTO distributed_table VALUES (1, '1', 20); --- This GUC prevents to acquire the remote lock for replicated --- tables -BEGIN; - SET LOCAL citus.allow_modifications_from_workers_to_replicated_tables TO false; - INSERT INTO second_distributed_table VALUES (1, '1'); - INSERT INTO reference_table VALUES (1); -COMMIT; --- a simple test for -CREATE TABLE collections_list ( - key bigserial, - ser bigserial, - ts timestamptz, - collection_id integer, - value numeric, - PRIMARY KEY(key, collection_id) -) PARTITION BY LIST (collection_id ); -SELECT create_distributed_table('collections_list', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE collections_list_0 - PARTITION OF collections_list (key, ser, ts, collection_id, value) - FOR VALUES IN ( 0 ); --- create a volatile function that returns the local node id -CREATE OR REPLACE FUNCTION get_local_node_id_volatile() -RETURNS INT AS $$ -DECLARE localGroupId int; -BEGIN - SELECT groupid INTO localGroupId FROM pg_dist_local_group; - RETURN localGroupId; -END; $$ language plpgsql VOLATILE; -SELECT create_distributed_function('get_local_node_id_volatile()'); -NOTICE: procedure local_shard_execution_replicated.get_local_node_id_volatile is already distributed -DETAIL: Citus distributes procedures with CREATE [PROCEDURE|FUNCTION|AGGREGATE] commands - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - --- test case for issue #3556 -CREATE TABLE accounts (id text PRIMARY KEY); -CREATE TABLE stats (account_id text PRIMARY KEY, spent int); -SELECT create_distributed_table('accounts', 'id', colocate_with => 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('stats', 'account_id', colocate_with => 'accounts'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO accounts (id) VALUES ('foo'); -INSERT INTO stats (account_id, spent) VALUES ('foo', 100); -CREATE TABLE abcd(a int, b int, c int, d int); -SELECT create_distributed_table('abcd', 'b'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO abcd VALUES (1,2,3,4); -INSERT INTO abcd VALUES (2,3,4,5); -INSERT INTO abcd VALUES (3,4,5,6); -ALTER TABLE abcd DROP COLUMN a; --- connection worker and get ready for the tests -\c - - - :worker_1_port -SET search_path TO local_shard_execution_replicated; --- test case for issue #3556 -SET citus.log_intermediate_results TO TRUE; -SET client_min_messages TO DEBUG1; -SELECT * -FROM -( - WITH accounts_cte AS ( - SELECT id AS account_id - FROM accounts - ), - joined_stats_cte_1 AS ( - SELECT spent, account_id - FROM stats - INNER JOIN accounts_cte USING (account_id) - ), - joined_stats_cte_2 AS ( - SELECT spent, account_id - FROM joined_stats_cte_1 - INNER JOIN accounts_cte USING (account_id) - ) - SELECT SUM(spent) OVER (PARTITION BY coalesce(account_id, NULL)) - FROM accounts_cte - INNER JOIN joined_stats_cte_2 USING (account_id) -) inner_query; -DEBUG: CTE joined_stats_cte_1 is going to be inlined via distributed planning -DEBUG: CTE joined_stats_cte_2 is going to be inlined via distributed planning -DEBUG: generating subplan XXX_1 for CTE accounts_cte: SELECT id AS account_id FROM local_shard_execution_replicated.accounts -DEBUG: generating subplan XXX_2 for subquery SELECT sum(joined_stats_cte_2.spent) OVER (PARTITION BY COALESCE(accounts_cte.account_id, NULL::text)) AS sum FROM ((SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte JOIN (SELECT joined_stats_cte_1.spent, joined_stats_cte_1.account_id FROM ((SELECT stats.spent, stats.account_id FROM (local_shard_execution_replicated.stats JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte_2 USING (account_id))) joined_stats_cte_1 JOIN (SELECT intermediate_result.account_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(account_id text)) accounts_cte_1 USING (account_id))) joined_stats_cte_2 USING (account_id)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT sum FROM (SELECT intermediate_result.sum FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(sum bigint)) inner_query -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file - sum ---------------------------------------------------------------------- - 100 -(1 row) - -SET citus.log_intermediate_results TO DEFAULT; -SET client_min_messages TO DEFAULT; ---- enable logging to see which tasks are executed locally -SET citus.log_local_commands TO ON; --- first, make sure that local execution works fine --- with simple queries that are not in transcation blocks -SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - --- multiple tasks both of which are local should NOT use local execution --- because local execution means executing the tasks locally, so the executor --- favors parallel execution even if everyting is local to node -SELECT count(*) FROM distributed_table WHERE key IN (1,6); - count ---------------------------------------------------------------------- - 1 -(1 row) - --- queries that hit any remote shards should NOT use local execution -SELECT count(*) FROM distributed_table WHERE key IN (1,11); - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM distributed_table; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- modifications also follow the same rules -INSERT INTO reference_table VALUES (1) ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 AS citus_table_alias (key) VALUES (1) ON CONFLICT DO NOTHING -INSERT INTO distributed_table VALUES (1, '1', 21) ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '1'::text, 21) ON CONFLICT DO NOTHING --- local query -DELETE FROM distributed_table WHERE key = 1 AND age = 21; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((key OPERATOR(pg_catalog.=) 1) AND (age OPERATOR(pg_catalog.=) 21)) --- hitting multiple shards, so should be a distributed execution -DELETE FROM distributed_table WHERE age = 21; --- although both shards are local, the executor choose the parallel execution --- over the wire because as noted above local execution is sequential -DELETE FROM second_distributed_table WHERE key IN (1,6); --- similarly, any multi-shard query just follows distributed execution -DELETE FROM second_distributed_table; --- load some more data for the following tests -INSERT INTO second_distributed_table VALUES (1, '1'); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.second_distributed_table_1500005 (key, value) VALUES (1, '1'::text) --- INSERT .. SELECT hitting a single single (co-located) shard(s) should --- be executed locally -INSERT INTO distributed_table -SELECT - distributed_table.* -FROM - distributed_table, second_distributed_table -WHERE - distributed_table.key = 1 and distributed_table.key=second_distributed_table.key -ON CONFLICT(key) DO UPDATE SET value = '22' -RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table, local_shard_execution_replicated.second_distributed_table_1500005 second_distributed_table WHERE (((distributed_table.key OPERATOR(pg_catalog.=) 1) AND (distributed_table.key OPERATOR(pg_catalog.=) second_distributed_table.key)) AND (distributed_table.key IS NOT NULL)) ON CONFLICT(key) DO UPDATE SET value = '22'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 22 | 20 -(1 row) - --- INSERT .. SELECT hitting multi-shards should go thourgh distributed execution -INSERT INTO distributed_table -SELECT - distributed_table.* -FROM - distributed_table, second_distributed_table -WHERE - distributed_table.key != 1 and distributed_table.key=second_distributed_table.key -ON CONFLICT(key) DO UPDATE SET value = '22' -RETURNING *; - key | value | age ---------------------------------------------------------------------- -(0 rows) - --- INSERT..SELECT via coordinator consists of two steps, select + COPY --- that's why it is disallowed to use local execution even if the SELECT --- can be executed locally -INSERT INTO distributed_table SELECT sum(key), value, max(age) FROM distributed_table WHERE key = 1 GROUP BY value ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: SELECT int4(sum(key)) AS key, value, max(age) AS age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) GROUP BY value -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) SELECT key, value, age FROM read_intermediate_result('insert_select_XXX_1500001'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint) ON CONFLICT DO NOTHING -INSERT INTO distributed_table SELECT 1, '1',15 FROM distributed_table WHERE key = 2 LIMIT 1 ON CONFLICT DO NOTHING; -NOTICE: executing the command locally: SELECT 1 AS key, '1'::text AS value, int8(15) AS age FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (key OPERATOR(pg_catalog.=) 2) LIMIT 1 --- sanity check: multi-shard INSERT..SELECT pushdown goes through distributed execution -INSERT INTO distributed_table SELECT * FROM distributed_table ON CONFLICT DO NOTHING; --- Ensure tuple data in explain analyze output is the same on all PG versions -SET citus.enable_binary_protocol = TRUE; --- EXPLAIN for local execution just works fine --- though going through distributed execution -EXPLAIN (COSTS OFF) SELECT * FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Index Scan using distributed_table_pkey_1500001 on distributed_table_1500001 distributed_table - Index Cond: (key = 1) - Filter: (age = 20) -(8 rows) - -EXPLAIN (ANALYZE, COSTS OFF, SUMMARY OFF, TIMING OFF) SELECT * FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=1 loops=1) - Task Count: 1 - Tuple data received from nodes: 14 bytes - Tasks Shown: All - -> Task - Tuple data received from node: 14 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Index Scan using distributed_table_pkey_1500001 on distributed_table_1500001 distributed_table (actual rows=1 loops=1) - Index Cond: (key = 1) - Filter: (age = 20) -(10 rows) - -EXPLAIN (ANALYZE ON, COSTS OFF, SUMMARY OFF, TIMING OFF) -WITH r AS ( SELECT GREATEST(random(), 2) z,* FROM distributed_table) -SELECT 1 FROM r WHERE z < 3; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=1 loops=1) - -> Distributed Subplan XXX_1 - Intermediate Data Size: 40 bytes - Result destination: Write locally - -> Custom Scan (Citus Adaptive) (actual rows=1 loops=1) - Task Count: 4 - Tuple data received from nodes: 22 bytes - Tasks Shown: One of 4 - -> Task - Tuple data received from node: 22 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on distributed_table_1500001 distributed_table (actual rows=1 loops=1) - Task Count: 1 - Tuple data received from nodes: 4 bytes - Tasks Shown: All - -> Task - Tuple data received from node: 4 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Function Scan on read_intermediate_result intermediate_result (actual rows=1 loops=1) - Filter: (z < '3'::double precision) -(20 rows) - -EXPLAIN (COSTS OFF) DELETE FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Delete on distributed_table_1500001 distributed_table - -> Index Scan using distributed_table_pkey_1500001 on distributed_table_1500001 distributed_table - Index Cond: (key = 1) - Filter: (age = 20) -(9 rows) - -EXPLAIN (ANALYZE, COSTS OFF, SUMMARY OFF, TIMING OFF) DELETE FROM distributed_table WHERE key = 1 AND age = 20; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=0 loops=1) - Task Count: 1 - Tasks Shown: All - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> Delete on distributed_table_1500001 distributed_table (actual rows=0 loops=1) - -> Index Scan using distributed_table_pkey_1500001 on distributed_table_1500001 distributed_table (actual rows=1 loops=1) - Index Cond: (key = 1) - Filter: (age = 20) -(9 rows) - --- show that EXPLAIN ANALYZE deleted the row -SELECT * FROM distributed_table WHERE key = 1 AND age = 20 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((key OPERATOR(pg_catalog.=) 1) AND (age OPERATOR(pg_catalog.=) 20)) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- -(0 rows) - -SELECT * FROM second_distributed_table WHERE key = 1 ORDER BY 1,2; -NOTICE: executing the command locally: SELECT key, value FROM local_shard_execution_replicated.second_distributed_table_1500005 second_distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value - key | value ---------------------------------------------------------------------- - 1 | 1 -(1 row) - --- Put row back for other tests -INSERT INTO distributed_table VALUES (1, '22', 20); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 (key, value, age) VALUES (1, '22'::text, 20) -SET citus.enable_ddl_propagation TO OFF; -CREATE VIEW abcd_view AS SELECT * FROM abcd; -RESET citus.enable_ddl_propagation; -SELECT * FROM abcd first join abcd second on first.b = second.b ORDER BY 1,2,3,4; - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -BEGIN; -SELECT * FROM abcd first join abcd second on first.b = second.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.b, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500025 first JOIN local_shard_execution_replicated.abcd_1500025 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.b, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500026 first JOIN local_shard_execution_replicated.abcd_1500026 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.b, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500027 first JOIN local_shard_execution_replicated.abcd_1500027 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.b, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500028 first JOIN local_shard_execution_replicated.abcd_1500028 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd_view first join abcd_view second on first.b = second.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT abcd.b, abcd.c, abcd.d, abcd_1.b, abcd_1.c, abcd_1.d FROM (local_shard_execution_replicated.abcd_1500025 abcd JOIN local_shard_execution_replicated.abcd_1500025 abcd_1 ON ((abcd.b OPERATOR(pg_catalog.=) abcd_1.b))) WHERE true -NOTICE: executing the command locally: SELECT abcd.b, abcd.c, abcd.d, abcd_1.b, abcd_1.c, abcd_1.d FROM (local_shard_execution_replicated.abcd_1500026 abcd JOIN local_shard_execution_replicated.abcd_1500026 abcd_1 ON ((abcd.b OPERATOR(pg_catalog.=) abcd_1.b))) WHERE true -NOTICE: executing the command locally: SELECT abcd.b, abcd.c, abcd.d, abcd_1.b, abcd_1.c, abcd_1.d FROM (local_shard_execution_replicated.abcd_1500027 abcd JOIN local_shard_execution_replicated.abcd_1500027 abcd_1 ON ((abcd.b OPERATOR(pg_catalog.=) abcd_1.b))) WHERE true -NOTICE: executing the command locally: SELECT abcd.b, abcd.c, abcd.d, abcd_1.b, abcd_1.c, abcd_1.d FROM (local_shard_execution_replicated.abcd_1500028 abcd JOIN local_shard_execution_replicated.abcd_1500028 abcd_1 ON ((abcd.b OPERATOR(pg_catalog.=) abcd_1.b))) WHERE true - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd first full join abcd second on first.b = second.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT worker_column_1 AS b, worker_column_2 AS c, worker_column_3 AS d, worker_column_4 AS b, worker_column_5 AS c, worker_column_6 AS d FROM (SELECT first.b AS worker_column_1, first.c AS worker_column_2, first.d AS worker_column_3, second.b AS worker_column_4, second.c AS worker_column_5, second.d AS worker_column_6 FROM (local_shard_execution_replicated.abcd_1500025 first FULL JOIN local_shard_execution_replicated.abcd_1500025 second ON ((first.b OPERATOR(pg_catalog.=) second.b)))) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS b, worker_column_2 AS c, worker_column_3 AS d, worker_column_4 AS b, worker_column_5 AS c, worker_column_6 AS d FROM (SELECT first.b AS worker_column_1, first.c AS worker_column_2, first.d AS worker_column_3, second.b AS worker_column_4, second.c AS worker_column_5, second.d AS worker_column_6 FROM (local_shard_execution_replicated.abcd_1500026 first FULL JOIN local_shard_execution_replicated.abcd_1500026 second ON ((first.b OPERATOR(pg_catalog.=) second.b)))) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS b, worker_column_2 AS c, worker_column_3 AS d, worker_column_4 AS b, worker_column_5 AS c, worker_column_6 AS d FROM (SELECT first.b AS worker_column_1, first.c AS worker_column_2, first.d AS worker_column_3, second.b AS worker_column_4, second.c AS worker_column_5, second.d AS worker_column_6 FROM (local_shard_execution_replicated.abcd_1500027 first FULL JOIN local_shard_execution_replicated.abcd_1500027 second ON ((first.b OPERATOR(pg_catalog.=) second.b)))) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS b, worker_column_2 AS c, worker_column_3 AS d, worker_column_4 AS b, worker_column_5 AS c, worker_column_6 AS d FROM (SELECT first.b AS worker_column_1, first.c AS worker_column_2, first.d AS worker_column_3, second.b AS worker_column_4, second.c AS worker_column_5, second.d AS worker_column_6 FROM (local_shard_execution_replicated.abcd_1500028 first FULL JOIN local_shard_execution_replicated.abcd_1500028 second ON ((first.b OPERATOR(pg_catalog.=) second.b)))) worker_subquery - b | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd first join abcd second USING(b) ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500025 first JOIN local_shard_execution_replicated.abcd_1500025 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500026 first JOIN local_shard_execution_replicated.abcd_1500026 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500027 first JOIN local_shard_execution_replicated.abcd_1500027 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d FROM (local_shard_execution_replicated.abcd_1500028 first JOIN local_shard_execution_replicated.abcd_1500028 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) WHERE true - b | c | d | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 3 | 4 - 3 | 4 | 5 | 4 | 5 - 4 | 5 | 6 | 5 | 6 -(3 rows) - -END; -BEGIN; -SELECT * FROM abcd first join abcd second USING(b) join abcd third on first.b=third.b ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d, third.b, third.c, third.d FROM ((local_shard_execution_replicated.abcd_1500025 first JOIN local_shard_execution_replicated.abcd_1500025 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) JOIN local_shard_execution_replicated.abcd_1500025 third ON ((first.b OPERATOR(pg_catalog.=) third.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d, third.b, third.c, third.d FROM ((local_shard_execution_replicated.abcd_1500026 first JOIN local_shard_execution_replicated.abcd_1500026 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) JOIN local_shard_execution_replicated.abcd_1500026 third ON ((first.b OPERATOR(pg_catalog.=) third.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d, third.b, third.c, third.d FROM ((local_shard_execution_replicated.abcd_1500027 first JOIN local_shard_execution_replicated.abcd_1500027 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) JOIN local_shard_execution_replicated.abcd_1500027 third ON ((first.b OPERATOR(pg_catalog.=) third.b))) WHERE true -NOTICE: executing the command locally: SELECT first.b, first.c, first.d, second.c, second.d, third.b, third.c, third.d FROM ((local_shard_execution_replicated.abcd_1500028 first JOIN local_shard_execution_replicated.abcd_1500028 second ON ((first.b OPERATOR(pg_catalog.=) second.b))) JOIN local_shard_execution_replicated.abcd_1500028 third ON ((first.b OPERATOR(pg_catalog.=) third.b))) WHERE true - b | c | d | c | d | b | c | d ---------------------------------------------------------------------- - 2 | 3 | 4 | 3 | 4 | 2 | 3 | 4 - 3 | 4 | 5 | 4 | 5 | 3 | 4 | 5 - 4 | 5 | 6 | 5 | 6 | 4 | 5 | 6 -(3 rows) - -END; --- copy always happens via distributed execution irrespective of the --- shards that are accessed -COPY reference_table FROM STDIN; -COPY distributed_table FROM STDIN WITH CSV; -COPY second_distributed_table FROM STDIN WITH CSV; --- the behaviour in transaction blocks is the following: - -- (a) Unless the first query is a local query, always use distributed execution. - -- (b) If the executor has used local execution, it has to use local execution - -- for the remaining of the transaction block. If that's not possible, the - -- executor has to error out --- rollback should be able to rollback local execution -BEGIN; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 29 | 20 -(1 row) - - SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 29 | 20 -(1 row) - -ROLLBACK; --- make sure that the value is rollbacked -SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 22 | 20 -(1 row) - --- rollback should be able to rollback both the local and distributed executions -BEGIN; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 29 | 20 -(1 row) - - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table - SELECT count(*) FROM second_distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500005 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500006 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500007 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500008 second_distributed_table WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - -ROLLBACK; --- make sure that everything is rollbacked -SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 22 | 20 -(1 row) - -SELECT count(*) FROM second_distributed_table; - count ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT * FROM second_distributed_table ORDER BY 1; - key | value ---------------------------------------------------------------------- - 1 | 1 - 6 | '6' -(2 rows) - --- very simple examples, an SELECTs should see the modifications --- that has done before -BEGIN; - -- INSERT is executed locally - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '23' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '23'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 23 | 20 -(1 row) - - -- since the INSERT is executed locally, the SELECT should also be - -- executed locally and see the changes - SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- - 1 | 23 | 20 -(1 row) - - -- multi-shard SELECTs are now forced to use local execution on - -- the shards that reside on this node - SELECT * FROM distributed_table WHERE value = '23' ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) - key | value | age ---------------------------------------------------------------------- - 1 | 23 | 20 -(1 row) - - -- similarly, multi-shard modifications should use local exection - -- on the shards that reside on this node - DELETE FROM distributed_table WHERE value = '23'; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) - -- make sure that the value is deleted - SELECT * FROM distributed_table WHERE value = '23' ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (value OPERATOR(pg_catalog.=) '23'::text) - key | value | age ---------------------------------------------------------------------- -(0 rows) - -COMMIT; --- make sure that we've committed everything -SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- -(0 rows) - --- if we start with a distributed execution, we should keep --- using that and never switch back to local execution -BEGIN; - DELETE FROM distributed_table WHERE value = '11'; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (value OPERATOR(pg_catalog.=) '11'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (value OPERATOR(pg_catalog.=) '11'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (value OPERATOR(pg_catalog.=) '11'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (value OPERATOR(pg_catalog.=) '11'::text) - -- although this command could have been executed - -- locally, it is not going to be executed locally - SELECT * FROM distributed_table WHERE key = 1 ORDER BY 1,2,3; -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) ORDER BY key, value, age - key | value | age ---------------------------------------------------------------------- -(0 rows) - - -- but we can still execute parallel queries, even if - -- they are utility commands - TRUNCATE distributed_table CASCADE; -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE - -- TRUNCATE didn't cascade into second_distributed_table - SELECT count(*) FROM second_distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500005 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500006 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500007 second_distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500008 second_distributed_table WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - -ROLLBACK; --- load some data -INSERT INTO reference_table SELECT i FROM generate_series(500, 600) i; -NOTICE: executing the copy locally for shard xxxxx --- show that complex tx blocks work fine -BEGIN; - INSERT INTO reference_table VALUES (701); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (701) - INSERT INTO distributed_table VALUES (701, '701', 701); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 (key, value, age) VALUES (701, '701'::text, 701) - INSERT INTO second_distributed_table VALUES (701, '701'); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.second_distributed_table_1500005 (key, value) VALUES (701, '701'::text) - DELETE FROM reference_table WHERE key = 701; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.reference_table_1500000 reference_table WHERE (key OPERATOR(pg_catalog.=) 701) - SELECT count(*) FROM distributed_table WHERE key = 701; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 701) - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT count(*) FROM second_distributed_table WHERE key = 701; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.second_distributed_table_1500005 second_distributed_table WHERE (key OPERATOR(pg_catalog.=) 701) - count ---------------------------------------------------------------------- - 1 -(1 row) - - -- multi-shard commands should also see the changes - SELECT count(*) FROM distributed_table WHERE key > 700; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.>) 700) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (key OPERATOR(pg_catalog.>) 700) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.>) 700) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (key OPERATOR(pg_catalog.>) 700) - count ---------------------------------------------------------------------- - 1 -(1 row) - - -- we can still do multi-shard commands - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table -ROLLBACK; --- multiple queries hitting different shards can be executed locally -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - - SELECT count(*) FROM distributed_table WHERE key = 6; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT count(*) FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - count ---------------------------------------------------------------------- - 0 -(1 row) - -ROLLBACK; --- a local query followed by TRUNCATE command can be executed locally -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - - TRUNCATE distributed_table CASCADE; -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -ROLLBACK; --- a local query is followed by an INSERT..SELECT via the coordinator -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - - INSERT INTO distributed_table (key) SELECT i FROM generate_series(1,1) i; -NOTICE: executing the copy locally for shard xxxxx -ROLLBACK; -BEGIN; -SET citus.enable_repartition_joins TO ON; -SET citus.enable_unique_job_ids TO off; -SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT count(*) FROM distributed_table d1 join distributed_table d2 using(age); -NOTICE: executing the command locally: SELECT partition_index, 'repartition_69_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_69_1','SELECT age AS column1 FROM local_shard_execution_replicated.distributed_table_1500001 d1 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_69_3' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_69_3','SELECT age AS column1 FROM local_shard_execution_replicated.distributed_table_1500003 d1 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_70_1' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_70_1','SELECT age AS column1 FROM local_shard_execution_replicated.distributed_table_1500001 d2 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartition_70_3' || '_' || partition_index::text , rows_written FROM pg_catalog.worker_partition_query_result('repartition_70_3','SELECT age AS column1 FROM local_shard_execution_replicated.distributed_table_1500003 d2 WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true,true,true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_1_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_2_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_3_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_4_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_0']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_1_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_2_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_3_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_4_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_1']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_1']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_1_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_2_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_3_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_4_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_2']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_2']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_1_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_2_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_3_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_69_4_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_1_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_2_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_3_3']::text[],'localhost',57637) bytes -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartition_70_4_3']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_69_1_0,repartition_69_2_0,repartition_69_3_0,repartition_69_4_0}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_70_1_0,repartition_70_2_0,repartition_70_3_0,repartition_70_4_0}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_69_1_1,repartition_69_2_1,repartition_69_3_1,repartition_69_4_1}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_70_1_1,repartition_70_2_1,repartition_70_3_1,repartition_70_4_1}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_69_1_2,repartition_69_2_2,repartition_69_3_2,repartition_69_4_2}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_70_1_2,repartition_70_2_2,repartition_70_3_2,repartition_70_4_2}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM (read_intermediate_results('{repartition_69_1_3,repartition_69_2_3,repartition_69_3_3,repartition_69_4_3}'::text[], 'binary'::citus_copy_format) intermediate_result(column1 bigint) JOIN read_intermediate_results('{repartition_70_1_3,repartition_70_2_3,repartition_70_3_3,repartition_70_4_3}'::text[], 'binary'::citus_copy_format) intermediate_result_1(column1 bigint) ON ((intermediate_result.column1 OPERATOR(pg_catalog.=) intermediate_result_1.column1))) WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - -ROLLBACK; --- a local query is followed by an INSERT..SELECT with re-partitioning -BEGIN; - SELECT count(*) FROM distributed_table WHERE key = 6; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 1 -(1 row) - - INSERT INTO reference_table (key) SELECT -key FROM distributed_table; -NOTICE: executing the command locally: SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true -NOTICE: executing the copy locally for shard xxxxx - INSERT INTO distributed_table (key) SELECT -key FROM distributed_table; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1500001_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1500001_to','SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1500002_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1500002_to','SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1500003_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1500003_to','SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_1500004_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_1500004_to','SELECT (OPERATOR(pg_catalog.-) key) AS key FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key) SELECT key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1500003_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 AS citus_table_alias (key) SELECT key FROM read_intermediate_results('{repartitioned_results_xxxxx_from_1500004_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(key integer) - SELECT count(*) FROM distributed_table WHERE key = -6; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) '-6'::integer) - count ---------------------------------------------------------------------- - 1 -(1 row) - -ROLLBACK; -INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 11 | 21 -(1 row) - -BEGIN; - DELETE FROM distributed_table WHERE key = 1; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - EXPLAIN ANALYZE DELETE FROM distributed_table WHERE key = 1; -ERROR: cannot execute command because a local execution has accessed a placement in the transaction -DETAIL: Some parallel commands cannot be executed if a previous command has already been executed locally -HINT: Try re-running the transaction with "SET LOCAL citus.enable_local_execution TO OFF;" -ROLLBACK; -BEGIN; - INSERT INTO distributed_table VALUES (11, '111',29) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 AS citus_table_alias (key, value, age) VALUES (11, '111'::text, 29) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 11 | 29 | 121 -(1 row) - - -- this is already disallowed on the nodes, adding it in case we - -- support DDLs from the worker nodes in the future - ALTER TABLE distributed_table ADD COLUMN x INT; -ERROR: operation is not allowed on this node -HINT: Connect to the coordinator and run it again. -ROLLBACK; -BEGIN; - INSERT INTO distributed_table VALUES (11, '111',29) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 AS citus_table_alias (key, value, age) VALUES (11, '111'::text, 29) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 11 | 29 | 121 -(1 row) - - -- this is already disallowed because VACUUM cannot be executed in tx block - -- adding in case this is supported some day - VACUUM second_distributed_table; -ERROR: VACUUM cannot run inside a transaction block -ROLLBACK; --- make sure that functions can use local execution -SET citus.enable_metadata_sync TO OFF; -CREATE OR REPLACE PROCEDURE only_local_execution() AS $$ - DECLARE cnt INT; - BEGIN - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; - SELECT count(*) INTO cnt FROM distributed_table WHERE key = 1; - DELETE FROM distributed_table WHERE key = 1; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution(); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text -CONTEXT: SQL statement "INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'" -PL/pgSQL function only_local_execution() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table WHERE key = 1" -PL/pgSQL function only_local_execution() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "DELETE FROM distributed_table WHERE key = 1" -PL/pgSQL function only_local_execution() line XX at SQL statement --- insert a row that we need in the next tests -INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text --- make sure that functions can use local execution -CREATE OR REPLACE PROCEDURE only_local_execution_with_function_evaluation() AS $$ - DECLARE nodeId INT; - BEGIN - -- fast path router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table WHERE key = 1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - - -- regular router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = 1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution_with_function_evaluation(); -NOTICE: executing the command locally: SELECT local_shard_execution_replicated.get_local_node_id_volatile() AS get_local_node_id_volatile FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table WHERE key = 1" -PL/pgSQL function only_local_execution_with_function_evaluation() line XX at SQL statement -NOTICE: executing the command locally: SELECT local_shard_execution_replicated.get_local_node_id_volatile() AS get_local_node_id_volatile FROM (local_shard_execution_replicated.distributed_table_1500001 d1(key, value, age) JOIN local_shard_execution_replicated.distributed_table_1500001 d2(key, value, age) USING (key)) WHERE (d1.key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = 1" -PL/pgSQL function only_local_execution_with_function_evaluation() line XX at SQL statement -CREATE OR REPLACE PROCEDURE only_local_execution_with_params(int) AS $$ - DECLARE cnt INT; - BEGIN - INSERT INTO distributed_table VALUES ($1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; - SELECT count(*) INTO cnt FROM distributed_table WHERE key = $1; - DELETE FROM distributed_table WHERE key = $1; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution_with_params(1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '29'::text -CONTEXT: SQL statement "INSERT INTO distributed_table VALUES ($1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'" -PL/pgSQL function only_local_execution_with_params(integer) line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table WHERE key = $1" -PL/pgSQL function only_local_execution_with_params(integer) line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "DELETE FROM distributed_table WHERE key = $1" -PL/pgSQL function only_local_execution_with_params(integer) line XX at SQL statement -CREATE OR REPLACE PROCEDURE only_local_execution_with_function_evaluation_param(int) AS $$ - DECLARE nodeId INT; - BEGIN - -- fast path router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table WHERE key = $1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - - -- regular router - SELECT get_local_node_id_volatile() INTO nodeId FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = $1; - IF nodeId <= 0 THEN - RAISE NOTICE 'unexpected node id'; - END IF; - END; -$$ LANGUAGE plpgsql; -CALL only_local_execution_with_function_evaluation_param(1); -NOTICE: executing the command locally: SELECT local_shard_execution_replicated.get_local_node_id_volatile() AS get_local_node_id_volatile FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table WHERE key = $1" -PL/pgSQL function only_local_execution_with_function_evaluation_param(integer) line XX at SQL statement -NOTICE: executing the command locally: SELECT local_shard_execution_replicated.get_local_node_id_volatile() AS get_local_node_id_volatile FROM (local_shard_execution_replicated.distributed_table_1500001 d1(key, value, age) JOIN local_shard_execution_replicated.distributed_table_1500001 d2(key, value, age) USING (key)) WHERE (d1.key OPERATOR(pg_catalog.=) $1) -CONTEXT: SQL statement "SELECT get_local_node_id_volatile() FROM distributed_table d1 JOIN distributed_table d2 USING (key) WHERE d1.key = $1" -PL/pgSQL function only_local_execution_with_function_evaluation_param(integer) line XX at SQL statement -CREATE OR REPLACE PROCEDURE local_execution_followed_by_dist() AS $$ - DECLARE cnt INT; - BEGIN - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'; - SELECT count(*) INTO cnt FROM distributed_table WHERE key = 1; - DELETE FROM distributed_table; - SELECT count(*) INTO cnt FROM distributed_table; - END; -$$ LANGUAGE plpgsql; -RESET citus.enable_metadata_sync; -CALL local_execution_followed_by_dist(); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text -CONTEXT: SQL statement "INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29'" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table WHERE key = 1" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table -CONTEXT: SQL statement "DELETE FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table -CONTEXT: SQL statement "DELETE FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table -CONTEXT: SQL statement "DELETE FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table -CONTEXT: SQL statement "DELETE FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true -CONTEXT: SQL statement "SELECT count(*) FROM distributed_table" -PL/pgSQL function local_execution_followed_by_dist() line XX at SQL statement --- test CTEs, including modifying CTEs -WITH local_insert AS (INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *), -distributed_local_mixed AS (SELECT * FROM reference_table WHERE key IN (SELECT key FROM local_insert)) -SELECT * FROM local_insert, distributed_local_mixed; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -NOTICE: executing the command locally: SELECT key FROM local_shard_execution_replicated.reference_table_1500000 reference_table WHERE (key OPERATOR(pg_catalog.=) ANY (SELECT local_insert.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert)) -NOTICE: executing the command locally: SELECT local_insert.key, local_insert.value, local_insert.age, distributed_local_mixed.key FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT intermediate_result.key FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) distributed_local_mixed - key | value | age | key ---------------------------------------------------------------------- - 1 | 11 | 21 | 1 -(1 row) - --- since we start with parallel execution, we do not switch back to local execution in the --- latter CTEs -WITH distributed_local_mixed AS (SELECT * FROM distributed_table), -local_insert AS (INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '29' RETURNING *) -SELECT * FROM local_insert, distributed_local_mixed ORDER BY 1,2,3,4,5; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '29'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -NOTICE: executing the command locally: SELECT worker_column_1 AS key, worker_column_2 AS value, worker_column_3 AS age, worker_column_4 AS key, worker_column_5 AS value, worker_column_6 AS age FROM (SELECT local_insert.key AS worker_column_1, local_insert.value AS worker_column_2, local_insert.age AS worker_column_3, distributed_local_mixed.key AS worker_column_4, distributed_local_mixed.value AS worker_column_5, distributed_local_mixed.age AS worker_column_6 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table) distributed_local_mixed) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS key, worker_column_2 AS value, worker_column_3 AS age, worker_column_4 AS key, worker_column_5 AS value, worker_column_6 AS age FROM (SELECT local_insert.key AS worker_column_1, local_insert.value AS worker_column_2, local_insert.age AS worker_column_3, distributed_local_mixed.key AS worker_column_4, distributed_local_mixed.value AS worker_column_5, distributed_local_mixed.age AS worker_column_6 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table) distributed_local_mixed) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS key, worker_column_2 AS value, worker_column_3 AS age, worker_column_4 AS key, worker_column_5 AS value, worker_column_6 AS age FROM (SELECT local_insert.key AS worker_column_1, local_insert.value AS worker_column_2, local_insert.age AS worker_column_3, distributed_local_mixed.key AS worker_column_4, distributed_local_mixed.value AS worker_column_5, distributed_local_mixed.age AS worker_column_6 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table) distributed_local_mixed) worker_subquery -NOTICE: executing the command locally: SELECT worker_column_1 AS key, worker_column_2 AS value, worker_column_3 AS age, worker_column_4 AS key, worker_column_5 AS value, worker_column_6 AS age FROM (SELECT local_insert.key AS worker_column_1, local_insert.value AS worker_column_2, local_insert.age AS worker_column_3, distributed_local_mixed.key AS worker_column_4, distributed_local_mixed.value AS worker_column_5, distributed_local_mixed.age AS worker_column_6 FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) local_insert, (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table) distributed_local_mixed) worker_subquery - key | value | age | key | value | age ---------------------------------------------------------------------- - 1 | 29 | 21 | 1 | 11 | 21 -(1 row) - --- router CTE pushdown -WITH all_data AS (SELECT * FROM distributed_table WHERE key = 1) -SELECT - count(*) -FROM - distributed_table, all_data -WHERE - distributed_table.key = all_data.key AND distributed_table.key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table, (SELECT distributed_table_1.key, distributed_table_1.value, distributed_table_1.age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table_1 WHERE (distributed_table_1.key OPERATOR(pg_catalog.=) 1)) all_data WHERE ((distributed_table.key OPERATOR(pg_catalog.=) all_data.key) AND (distributed_table.key OPERATOR(pg_catalog.=) 1)) - count ---------------------------------------------------------------------- - 1 -(1 row) - -INSERT INTO reference_table VALUES (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (2) -INSERT INTO distributed_table VALUES (2, '29', 29); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 (key, value, age) VALUES (2, '29'::text, 29) -INSERT INTO second_distributed_table VALUES (2, '29'); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.second_distributed_table_1500008 (key, value) VALUES (2, '29'::text) --- single shard that is not a local query followed by a local query -WITH all_data AS (SELECT * FROM second_distributed_table WHERE key = 2) -SELECT - distributed_table.key -FROM - distributed_table, all_data -WHERE - distributed_table.value = all_data.value AND distributed_table.key = 1 -ORDER BY - 1 DESC; -NOTICE: executing the command locally: SELECT key, value FROM local_shard_execution_replicated.second_distributed_table_1500008 second_distributed_table WHERE (key OPERATOR(pg_catalog.=) 2) -NOTICE: executing the command locally: SELECT distributed_table.key FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table, (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) all_data WHERE ((distributed_table.value OPERATOR(pg_catalog.=) all_data.value) AND (distributed_table.key OPERATOR(pg_catalog.=) 1)) ORDER BY distributed_table.key DESC - key ---------------------------------------------------------------------- - 1 -(1 row) - --- multi-shard CTE is followed by a query which could be executed locally, but --- since the query started with a parallel query, it doesn't use local execution --- note that if we allow Postgres to inline the CTE (e.g., not have the EXISTS --- subquery), then it'd pushdown the filters and the query becomes single-shard, --- locally executable query -WITH all_data AS (SELECT * FROM distributed_table) -SELECT - count(*) -FROM - distributed_table, all_data -WHERE - distributed_table.key = all_data.key AND distributed_table.key = 1 - AND EXISTS (SELECT * FROM all_data); -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT key, value, age FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table, (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) all_data WHERE ((distributed_table.key OPERATOR(pg_catalog.=) all_data.key) AND (distributed_table.key OPERATOR(pg_catalog.=) 1) AND (EXISTS (SELECT all_data_1.key, all_data_1.value, all_data_1.age FROM (SELECT intermediate_result.key, intermediate_result.value, intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text, age bigint)) all_data_1))) - count ---------------------------------------------------------------------- - 1 -(1 row) - --- in pg12, the following CTE can be inlined, still the query becomes --- a subquery that needs to be recursively planned and a parallel --- query, so do not use local execution -WITH all_data AS (SELECT age FROM distributed_table) -SELECT - count(*) -FROM - distributed_table, all_data -WHERE - distributed_table.key = all_data.age AND distributed_table.key = 1; -NOTICE: executing the command locally: SELECT age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT age FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT age FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table, (SELECT intermediate_result.age FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(age bigint)) all_data WHERE ((distributed_table.key OPERATOR(pg_catalog.=) all_data.age) AND (distributed_table.key OPERATOR(pg_catalog.=) 1)) - count ---------------------------------------------------------------------- - 0 -(1 row) - --- get ready for the next commands -TRUNCATE reference_table, distributed_table, second_distributed_table; -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.reference_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.second_distributed_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.second_distributed_table_xxxxx CASCADE --- local execution of returning of reference tables -INSERT INTO reference_table VALUES (1),(2),(3),(4),(5),(6) RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 AS citus_table_alias (key) VALUES (1), (2), (3), (4), (5), (6) RETURNING citus_table_alias.key - key ---------------------------------------------------------------------- - 1 - 2 - 3 - 4 - 5 - 6 -(6 rows) - --- local execution of multi-row INSERTs -INSERT INTO distributed_table VALUES (1, '11',21), (5,'55',22) ON CONFLICT(key) DO UPDATE SET value = (EXCLUDED.value::int + 1)::text RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'11'::text,'21'::bigint), (5,'55'::text,'22'::bigint) ON CONFLICT(key) DO UPDATE SET value = (((excluded.value)::integer OPERATOR(pg_catalog.+) 1))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 11 | 21 - 5 | 55 | 22 -(2 rows) - --- distributed execution of multi-rows INSERTs, where executor --- is smart enough to execute local tasks via local execution -INSERT INTO distributed_table VALUES (1, '11',21), (2,'22',22), (3,'33',33), (4,'44',44),(5,'55',55) ON CONFLICT(key) DO UPDATE SET value = (EXCLUDED.value::int + 1)::text RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'11'::text,'21'::bigint), (5,'55'::text,'55'::bigint) ON CONFLICT(key) DO UPDATE SET value = (((excluded.value)::integer OPERATOR(pg_catalog.+) 1))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500002 AS citus_table_alias (key, value, age) VALUES (3,'33'::text,'33'::bigint), (4,'44'::text,'44'::bigint) ON CONFLICT(key) DO UPDATE SET value = (((excluded.value)::integer OPERATOR(pg_catalog.+) 1))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 AS citus_table_alias (key, value, age) VALUES (2,'22'::text,'22'::bigint) ON CONFLICT(key) DO UPDATE SET value = (((excluded.value)::integer OPERATOR(pg_catalog.+) 1))::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 12 | 21 - 2 | 22 | 22 - 3 | 33 | 33 - 4 | 44 | 44 - 5 | 56 | 22 -(5 rows) - -PREPARE local_prepare_no_param AS SELECT count(*) FROM distributed_table WHERE key = 1; -PREPARE local_prepare_no_param_subquery AS -SELECT DISTINCT trim(value) FROM ( - SELECT value FROM distributed_table - WHERE - key IN (1, 6, 500, 701) - AND (select 2) > random() - order by 1 - limit 2 - ) t; -PREPARE local_prepare_param (int) AS SELECT count(*) FROM distributed_table WHERE key = $1; -PREPARE remote_prepare_param (int) AS SELECT count(*) FROM distributed_table WHERE key != $1; -BEGIN; - -- 8 local execution without params - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_no_param; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - -- 8 local execution without params and some subqueries - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - EXECUTE local_prepare_no_param_subquery; -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT worker_column_1 AS value FROM (SELECT distributed_table.value AS worker_column_1 FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE ((distributed_table.key OPERATOR(pg_catalog.=) ANY (ARRAY[1, 6, 500, 701])) AND (((SELECT 2))::double precision OPERATOR(pg_catalog.>) random()))) worker_subquery ORDER BY worker_column_1 LIMIT '2'::bigint -NOTICE: executing the command locally: SELECT DISTINCT TRIM(BOTH FROM value) AS btrim FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(value text)) t - btrim ---------------------------------------------------------------------- - 12 -(1 row) - - -- 8 local executions with params - EXECUTE local_prepare_param(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(5); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 5) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - EXECUTE local_prepare_param(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(5); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.=) 5) - count ---------------------------------------------------------------------- - 1 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - EXECUTE local_prepare_param(6); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 6) - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- followed by a non-local execution - EXECUTE remote_prepare_param(1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 1) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 1) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 1) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 1) - count ---------------------------------------------------------------------- - 4 -(1 row) - -COMMIT; -PREPARE local_insert_prepare_no_param AS INSERT INTO distributed_table VALUES (1+0*random(), '11',21::int) ON CONFLICT(key) DO UPDATE SET value = '29' || '28' RETURNING *, key + 1, value || '30', age * 15; -PREPARE local_insert_prepare_param (int) AS INSERT INTO distributed_table VALUES ($1+0*random(), '11',21::int) ON CONFLICT(key) DO UPDATE SET value = '29' || '28' RETURNING *, key + 1, value || '30', age * 15; -BEGIN; - -- 8 local execution without params - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - -- 8 local executions with params - EXECUTE local_insert_prepare_param(1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 5 | 2928 | 22 | 6 | 292830 | 330 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 11 | 21 | 7 | 1130 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 1 | 2928 | 21 | 2 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 5 | 2928 | 22 | 6 | 292830 | 330 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 2928 | 21 | 7 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 2928 | 21 | 7 | 292830 | 315 -(1 row) - - EXECUTE local_insert_prepare_param(6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6, '11'::text, '21'::bigint) ON CONFLICT(key) DO UPDATE SET value = '2928'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age, (citus_table_alias.key OPERATOR(pg_catalog.+) 1), (citus_table_alias.value OPERATOR(pg_catalog.||) '30'::text), (citus_table_alias.age OPERATOR(pg_catalog.*) 15) - key | value | age | ?column? | ?column? | ?column? ---------------------------------------------------------------------- - 6 | 2928 | 21 | 7 | 292830 | 315 -(1 row) - - -- followed by a non-local execution - EXECUTE remote_prepare_param(2); -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 2) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 2) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 2) -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (key OPERATOR(pg_catalog.<>) 2) - count ---------------------------------------------------------------------- - 5 -(1 row) - -COMMIT; -PREPARE local_multi_row_insert_prepare_no_param AS - INSERT INTO distributed_table VALUES (1,'55', 21), (5,'15',33) ON CONFLICT (key) WHERE key > 3 and key < 4 DO UPDATE SET value = '88' || EXCLUDED.value; -PREPARE local_multi_row_insert_prepare_no_param_multi_shard AS - INSERT INTO distributed_table VALUES (6,'55', 21), (5,'15',33) ON CONFLICT (key) WHERE key > 3 AND key < 4 DO UPDATE SET value = '88' || EXCLUDED.value;; -PREPARE local_multi_row_insert_prepare_params(int,int) AS - INSERT INTO distributed_table VALUES ($1,'55', 21), ($2,'15',33) ON CONFLICT (key) WHERE key > 3 and key < 4 DO UPDATE SET value = '88' || EXCLUDED.value;; -INSERT INTO reference_table VALUES (11); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (11) -BEGIN; - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_no_param_multi_shard; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(6,5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(5,1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint), (1,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(5,6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(5,1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint), (1,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,6); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500003 AS citus_table_alias (key, value, age) VALUES (6,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - EXECUTE local_multi_row_insert_prepare_params(1,5); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1,'55'::text,'21'::bigint), (5,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) - -- one task is remote - EXECUTE local_multi_row_insert_prepare_params(5,11); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (5,'55'::text,'21'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 AS citus_table_alias (key, value, age) VALUES (11,'15'::text,'33'::bigint) ON CONFLICT(key) WHERE ((key OPERATOR(pg_catalog.>) 3) AND (key OPERATOR(pg_catalog.<) 4)) DO UPDATE SET value = ('88'::text OPERATOR(pg_catalog.||) excluded.value) -ROLLBACK; --- failures of local execution should rollback both the --- local execution and remote executions --- fail on a local execution -BEGIN; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '100' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '100'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 100 | 21 -(1 row) - - UPDATE distributed_table SET value = '200'; -NOTICE: executing the command locally: UPDATE local_shard_execution_replicated.distributed_table_1500001 distributed_table SET value = '200'::text -NOTICE: executing the command locally: UPDATE local_shard_execution_replicated.distributed_table_1500002 distributed_table SET value = '200'::text -NOTICE: executing the command locally: UPDATE local_shard_execution_replicated.distributed_table_1500003 distributed_table SET value = '200'::text -NOTICE: executing the command locally: UPDATE local_shard_execution_replicated.distributed_table_1500004 distributed_table SET value = '200'::text - INSERT INTO distributed_table VALUES (1, '100',21) ON CONFLICT(key) DO UPDATE SET value = (1 / (100.0 - EXCLUDED.value::int))::text RETURNING *; -ERROR: division by zero -CONTEXT: while executing command on localhost:xxxxx -ROLLBACK; --- we've rollbacked everything -SELECT count(*) FROM distributed_table WHERE value = '200'; - count ---------------------------------------------------------------------- - 0 -(1 row) - --- RETURNING should just work fine for reference tables -INSERT INTO reference_table VALUES (500) RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (500) RETURNING key - key ---------------------------------------------------------------------- - 500 -(1 row) - -DELETE FROM reference_table WHERE key = 500 RETURNING *; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.reference_table_1500000 reference_table WHERE (key OPERATOR(pg_catalog.=) 500) RETURNING key - key ---------------------------------------------------------------------- - 500 -(1 row) - --- should be able to skip local execution even if in a sequential mode of execution -BEGIN; - SET LOCAL citus.multi_shard_modify_mode TO sequential ; - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '100' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '100'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 11 | 21 -(1 row) - -ROLLBACK; --- sequential execution should just work fine after a local execution -BEGIN; - SET citus.multi_shard_modify_mode TO sequential ; - INSERT INTO distributed_table VALUES (1, '11',21) ON CONFLICT(key) DO UPDATE SET value = '100' RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 AS citus_table_alias (key, value, age) VALUES (1, '11'::text, 21) ON CONFLICT(key) DO UPDATE SET value = '100'::text RETURNING citus_table_alias.key, citus_table_alias.value, citus_table_alias.age - key | value | age ---------------------------------------------------------------------- - 1 | 100 | 21 -(1 row) - - DELETE FROM distributed_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table -ROLLBACK; --- load some data so that foreign keys won't complain with the next tests -TRUNCATE reference_table CASCADE; -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.reference_table_xxxxx CASCADE -INSERT INTO reference_table SELECT i FROM generate_series(500, 600) i; -NOTICE: executing the copy locally for shard xxxxx -INSERT INTO distributed_table SELECT i, i::text, i % 10 + 25 FROM generate_series(500, 600) i; -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx --- show that both local, and mixed local-distributed executions --- calculate rows processed correctly -BEGIN; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - DELETE FROM distributed_table WHERE value != '123123213123213'; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE (value OPERATOR(pg_catalog.<>) '123123213123213'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE (value OPERATOR(pg_catalog.<>) '123123213123213'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (value OPERATOR(pg_catalog.<>) '123123213123213'::text) -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE (value OPERATOR(pg_catalog.<>) '123123213123213'::text) -ROLLBACK; -BEGIN; - DELETE FROM reference_table WHERE key = 500 RETURNING *; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.reference_table_1500000 reference_table WHERE (key OPERATOR(pg_catalog.=) 500) RETURNING key - key ---------------------------------------------------------------------- - 500 -(1 row) - - DELETE FROM reference_table; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.reference_table_1500000 reference_table -ROLLBACK; -BEGIN; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true - count ---------------------------------------------------------------------- - 106 -(1 row) - -ROLLBACK; -BEGIN; - SET LOCAL client_min_messages TO INFO; - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true - count ---------------------------------------------------------------------- - 107 -(1 row) - - SET LOCAL client_min_messages TO LOG; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) -ROLLBACK; --- probably not a realistic case since views are not very --- well supported with MX -SET citus.enable_ddl_propagation TO OFF; -CREATE VIEW v_local_query_execution AS -SELECT * FROM distributed_table WHERE key = 500; -RESET citus.enable_ddl_propagation; -SELECT * FROM v_local_query_execution; -NOTICE: executing the command locally: SELECT key, value, age FROM (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (distributed_table.key OPERATOR(pg_catalog.=) 500)) v_local_query_execution - key | value | age ---------------------------------------------------------------------- - 500 | 500 | 25 -(1 row) - --- similar test, but this time the view itself is a non-local --- query, but the query on the view is local -SET citus.enable_ddl_propagation TO OFF; -CREATE VIEW v_local_query_execution_2 AS -SELECT * FROM distributed_table; -RESET citus.enable_ddl_propagation; -SELECT * FROM v_local_query_execution_2 WHERE key = 500; -NOTICE: executing the command locally: SELECT key, value, age FROM (SELECT distributed_table.key, distributed_table.value, distributed_table.age FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table) v_local_query_execution_2 WHERE (key OPERATOR(pg_catalog.=) 500) - key | value | age ---------------------------------------------------------------------- - 500 | 500 | 25 -(1 row) - --- even if we switch from remote execution -> local execution, --- we are able to use remote execution after rollback -BEGIN; - SAVEPOINT my_savepoint; - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true - count ---------------------------------------------------------------------- - 107 -(1 row) - - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - ROLLBACK TO SAVEPOINT my_savepoint; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) -COMMIT; --- even if we switch from local execution -> remote execution, --- we are able to use local execution after rollback -BEGIN; - SAVEPOINT my_savepoint; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) - SELECT count(*) FROM distributed_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table WHERE true - count ---------------------------------------------------------------------- - 106 -(1 row) - - ROLLBACK TO SAVEPOINT my_savepoint; - DELETE FROM distributed_table WHERE key = 500; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table WHERE (key OPERATOR(pg_catalog.=) 500) -COMMIT; --- sanity check: local execution on partitions -INSERT INTO collections_list (collection_id) VALUES (0) RETURNING *; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500011 (key, ser, collection_id) VALUES ('3940649673949185'::bigint, '3940649673949185'::bigint, 0) RETURNING key, ser, ts, collection_id, value - key | ser | ts | collection_id | value ---------------------------------------------------------------------- - 3940649673949185 | 3940649673949185 | | 0 | -(1 row) - -BEGIN; - INSERT INTO collections_list (key, collection_id) VALUES (1,0); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500009 (key, ser, collection_id) VALUES ('1'::bigint, '3940649673949186'::bigint, 0) - SELECT count(*) FROM collections_list_0 WHERE key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.collections_list_0_1500013 collections_list_0 WHERE (key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT count(*) FROM collections_list; -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.collections_list_1500009 collections_list WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.collections_list_1500010 collections_list WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.collections_list_1500011 collections_list WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.collections_list_1500012 collections_list WHERE true - count ---------------------------------------------------------------------- - 2 -(1 row) - - SELECT * FROM collections_list ORDER BY 1,2,3,4; -NOTICE: executing the command locally: SELECT key, ser, ts, collection_id, value FROM local_shard_execution_replicated.collections_list_1500009 collections_list WHERE true -NOTICE: executing the command locally: SELECT key, ser, ts, collection_id, value FROM local_shard_execution_replicated.collections_list_1500010 collections_list WHERE true -NOTICE: executing the command locally: SELECT key, ser, ts, collection_id, value FROM local_shard_execution_replicated.collections_list_1500011 collections_list WHERE true -NOTICE: executing the command locally: SELECT key, ser, ts, collection_id, value FROM local_shard_execution_replicated.collections_list_1500012 collections_list WHERE true - key | ser | ts | collection_id | value ---------------------------------------------------------------------- - 1 | 3940649673949186 | | 0 | - 3940649673949185 | 3940649673949185 | | 0 | -(2 rows) - -COMMIT; -TRUNCATE collections_list; --- make sure that even if local execution is used, the sequence values --- are generated locally -SET citus.enable_ddl_propagation TO OFF; -ALTER SEQUENCE collections_list_key_seq NO MINVALUE NO MAXVALUE; -RESET citus.enable_ddl_propagation; -PREPARE serial_prepared_local AS INSERT INTO collections_list (collection_id) VALUES (0) RETURNING key, ser; -SELECT setval('collections_list_key_seq', 4); - setval ---------------------------------------------------------------------- - 4 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500009 (key, ser, collection_id) VALUES ('5'::bigint, '3940649673949187'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 5 | 3940649673949187 -(1 row) - -SELECT setval('collections_list_key_seq', 5); - setval ---------------------------------------------------------------------- - 5 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500011 (key, ser, collection_id) VALUES ('6'::bigint, '3940649673949188'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 6 | 3940649673949188 -(1 row) - -SELECT setval('collections_list_key_seq', 499); - setval ---------------------------------------------------------------------- - 499 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500011 (key, ser, collection_id) VALUES ('500'::bigint, '3940649673949189'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 500 | 3940649673949189 -(1 row) - -SELECT setval('collections_list_key_seq', 700); - setval ---------------------------------------------------------------------- - 700 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500009 (key, ser, collection_id) VALUES ('701'::bigint, '3940649673949190'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 701 | 3940649673949190 -(1 row) - -SELECT setval('collections_list_key_seq', 708); - setval ---------------------------------------------------------------------- - 708 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500011 (key, ser, collection_id) VALUES ('709'::bigint, '3940649673949191'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 709 | 3940649673949191 -(1 row) - -SELECT setval('collections_list_key_seq', 709); - setval ---------------------------------------------------------------------- - 709 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500009 (key, ser, collection_id) VALUES ('710'::bigint, '3940649673949192'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 710 | 3940649673949192 -(1 row) - --- get ready for the next executions -DELETE FROM collections_list WHERE key IN (5,6); -SELECT setval('collections_list_key_seq', 4); - setval ---------------------------------------------------------------------- - 4 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500009 (key, ser, collection_id) VALUES ('5'::bigint, '3940649673949193'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 5 | 3940649673949193 -(1 row) - -SELECT setval('collections_list_key_seq', 5); - setval ---------------------------------------------------------------------- - 5 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500011 (key, ser, collection_id) VALUES ('6'::bigint, '3940649673949194'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 6 | 3940649673949194 -(1 row) - --- and, one remote test -SELECT setval('collections_list_key_seq', 10); - setval ---------------------------------------------------------------------- - 10 -(1 row) - -EXECUTE serial_prepared_local; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.collections_list_1500012 (key, ser, collection_id) VALUES ('11'::bigint, '3940649673949195'::bigint, 0) RETURNING key, ser - key | ser ---------------------------------------------------------------------- - 11 | 3940649673949195 -(1 row) - --- the final queries for the following CTEs are going to happen on the intermediate results only --- one of them will be executed remotely, and the other is locally --- Citus currently doesn't allow using task_assignment_policy for intermediate results -WITH distributed_local_mixed AS (INSERT INTO reference_table VALUES (1000) RETURNING *) SELECT * FROM distributed_local_mixed; -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (1000) RETURNING key -NOTICE: executing the command locally: SELECT key FROM (SELECT intermediate_result.key FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer)) distributed_local_mixed - key ---------------------------------------------------------------------- - 1000 -(1 row) - --- clean the table for the next tests -SET search_path TO local_shard_execution_replicated; -TRUNCATE distributed_table CASCADE; --- load some data on a remote shard -INSERT INTO reference_table (key) VALUES (1), (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 AS citus_table_alias (key) VALUES (1), (2) -INSERT INTO distributed_table (key) VALUES (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500004 (key) VALUES (2) -BEGIN; - -- local execution followed by a distributed query - INSERT INTO distributed_table (key) VALUES (1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.distributed_table_1500001 (key) VALUES (1) - DELETE FROM distributed_table RETURNING key; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table RETURNING key -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500002 distributed_table RETURNING key -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500003 distributed_table RETURNING key -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.distributed_table_1500004 distributed_table RETURNING key - key ---------------------------------------------------------------------- - 1 - 2 -(2 rows) - -COMMIT; --- a similar test with a reference table -TRUNCATE reference_table CASCADE; -NOTICE: executing the command locally: TRUNCATE TABLE local_shard_execution_replicated.reference_table_xxxxx CASCADE --- load some data on a remote shard -INSERT INTO reference_table (key) VALUES (2); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (2) -BEGIN; - -- local execution followed by a distributed query - INSERT INTO reference_table (key) VALUES (1); -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.reference_table_1500000 (key) VALUES (1) - DELETE FROM reference_table RETURNING key; -NOTICE: executing the command locally: DELETE FROM local_shard_execution_replicated.reference_table_1500000 reference_table RETURNING key - key ---------------------------------------------------------------------- - 1 - 2 -(2 rows) - -COMMIT; --- however complex the query, local execution can handle -SET client_min_messages TO LOG; -SET citus.log_local_commands TO ON; -WITH cte_1 AS - (SELECT * - FROM - (WITH cte_1 AS - (SELECT * - FROM distributed_table - WHERE key = 1) SELECT * - FROM cte_1) AS foo) -SELECT count(*) -FROM cte_1 -JOIN distributed_table USING (key) -WHERE distributed_table.key = 1 - AND distributed_table.key IN - (SELECT key - FROM distributed_table - WHERE key = 1); -NOTICE: executing the command locally: SELECT count(*) AS count FROM ((SELECT foo.key, foo.value, foo.age FROM (SELECT cte_1_1.key, cte_1_1.value, cte_1_1.age FROM (SELECT distributed_table_1.key, distributed_table_1.value, distributed_table_1.age FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table_1 WHERE (distributed_table_1.key OPERATOR(pg_catalog.=) 1)) cte_1_1) foo) cte_1 JOIN local_shard_execution_replicated.distributed_table_1500001 distributed_table(key, value, age) USING (key)) WHERE ((distributed_table.key OPERATOR(pg_catalog.=) 1) AND (distributed_table.key OPERATOR(pg_catalog.=) ANY (SELECT distributed_table_1.key FROM local_shard_execution_replicated.distributed_table_1500001 distributed_table_1 WHERE (distributed_table_1.key OPERATOR(pg_catalog.=) 1)))) - count ---------------------------------------------------------------------- - 0 -(1 row) - -RESET client_min_messages; -RESET citus.log_local_commands; -\c - - - :master_port -SET citus.next_shard_id TO 1501000; --- test both local and remote execution with custom type -SET citus.shard_replication_factor TO 2; -SET search_path TO local_shard_execution_replicated; -CREATE TYPE invite_resp AS ENUM ('yes', 'no', 'maybe'); -CREATE TABLE event_responses ( - event_id int, - user_id int, - response invite_resp, - primary key (event_id, user_id) -); -SELECT create_distributed_table('event_responses', 'event_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO event_responses VALUES (1, 1, 'yes'), (2, 2, 'yes'), (3, 3, 'no'), (4, 4, 'no'); -CREATE OR REPLACE FUNCTION regular_func(p invite_resp) -RETURNS int AS $$ -DECLARE - q1Result INT; - q2Result INT; - q3Result INT; -BEGIN -SELECT count(*) INTO q1Result FROM event_responses WHERE response = $1; -SELECT count(*) INTO q2Result FROM event_responses e1 LEFT JOIN event_responses e2 USING (event_id) WHERE e2.response = $1; -SELECT count(*) INTO q3Result FROM (SELECT * FROM event_responses WHERE response = $1 LIMIT 5) as foo; -RETURN q3Result+q2Result+q1Result; -END; -$$ LANGUAGE plpgsql; -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -SELECT regular_func('yes'); - regular_func ---------------------------------------------------------------------- - 6 -(1 row) - -CREATE OR REPLACE PROCEDURE regular_procedure(p invite_resp) -AS $$ -BEGIN -PERFORM * FROM event_responses WHERE response = $1 ORDER BY 1 DESC, 2 DESC, 3 DESC; -PERFORM * FROM event_responses e1 LEFT JOIN event_responses e2 USING (event_id) WHERE e2.response = $1 ORDER BY 1 DESC, 2 DESC, 3 DESC, 4 DESC; -PERFORM * FROM (SELECT * FROM event_responses WHERE response = $1 LIMIT 5) as foo ORDER BY 1 DESC, 2 DESC, 3 DESC; -END; -$$ LANGUAGE plpgsql; -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -CALL regular_procedure('no'); -PREPARE multi_shard_no_dist_key(invite_resp) AS select * from event_responses where response = $1::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 1; -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_no_dist_key('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -PREPARE multi_shard_with_dist_key(int, invite_resp) AS select * from event_responses where event_id > $1 AND response = $2::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 1; -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -EXECUTE multi_shard_with_dist_key(1, 'yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes -(1 row) - -PREPARE query_pushdown_no_dist_key(invite_resp) AS select * from event_responses e1 LEFT JOIN event_responses e2 USING(event_id) where e1.response = $1::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC, 4 DESC LIMIT 1; -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -EXECUTE query_pushdown_no_dist_key('yes'); - event_id | user_id | response | user_id | response ---------------------------------------------------------------------- - 2 | 2 | yes | 2 | yes -(1 row) - -PREPARE insert_select_via_coord(invite_resp) AS INSERT INTO event_responses SELECT * FROM event_responses where response = $1::invite_resp LIMIT 1 ON CONFLICT (event_id, user_id) DO NOTHING ; -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -EXECUTE insert_select_via_coord('yes'); -PREPARE insert_select_pushdown(invite_resp) AS INSERT INTO event_responses SELECT * FROM event_responses where response = $1::invite_resp ON CONFLICT (event_id, user_id) DO NOTHING; -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -EXECUTE insert_select_pushdown('yes'); -PREPARE router_select_with_no_dist_key_filter(invite_resp) AS select * from event_responses where event_id = 1 AND response = $1::invite_resp ORDER BY 1 DESC, 2 DESC, 3 DESC LIMIT 1; -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - -EXECUTE router_select_with_no_dist_key_filter('yes'); - event_id | user_id | response ---------------------------------------------------------------------- - 1 | 1 | yes -(1 row) - --- rest of the tests assume the table is empty -TRUNCATE event_responses; -CREATE OR REPLACE PROCEDURE register_for_event(p_event_id int, p_user_id int, p_choice invite_resp) -LANGUAGE plpgsql AS $fn$ -BEGIN - INSERT INTO local_shard_execution_replicated.event_responses VALUES (p_event_id, p_user_id, p_choice) - ON CONFLICT (event_id, user_id) - DO UPDATE SET response = EXCLUDED.response; - - PERFORM count(*) FROM local_shard_execution_replicated.event_responses WHERE event_id = p_event_id; - - PERFORM count(*) FROM local_shard_execution_replicated.event_responses WHERE event_id = p_event_id AND false; - - UPDATE local_shard_execution_replicated.event_responses SET response = p_choice WHERE event_id = p_event_id; - -END; -$fn$; -SELECT create_distributed_function('register_for_event(int,int,invite_resp)'); -NOTICE: procedure local_shard_execution_replicated.register_for_event is already distributed -DETAIL: Citus distributes procedures with CREATE [PROCEDURE|FUNCTION|AGGREGATE] commands - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - --- call 8 times to make sure it works after the 5th time(postgres binds values after the 5th time and Citus 2nd time) --- after 6th, the local execution caches the local plans and uses it --- execute it both locally and remotely -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -\c - - - :worker_2_port -SET search_path TO local_shard_execution_replicated; -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); -CALL register_for_event(16, 1, 'yes'); --- values 16, 17 and 19 hits the same --- shard, so we're re-using the same cached --- plans per statement across different distribution --- key values -CALL register_for_event(17, 1, 'yes'); -CALL register_for_event(19, 1, 'yes'); -CALL register_for_event(17, 1, 'yes'); -CALL register_for_event(19, 1, 'yes'); --- should work fine if the logs are enabled -\set VERBOSITY terse -SET citus.log_local_commands TO ON; -SET client_min_messages TO DEBUG2; -CALL register_for_event(19, 1, 'yes'); -DEBUG: stored procedure does not have co-located tables -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.event_responses_1501001 AS citus_table_alias (event_id, user_id, response) VALUES (19, 1, 'yes'::local_shard_execution_replicated.invite_resp) ON CONFLICT(event_id, user_id) DO UPDATE SET response = excluded.response -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.event_responses_1501001 event_responses WHERE (event_id OPERATOR(pg_catalog.=) 19) -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT NULL::integer AS event_id, NULL::integer AS user_id, NULL::local_shard_execution_replicated.invite_resp AS response WHERE false) event_responses(event_id, user_id, response) WHERE ((event_id OPERATOR(pg_catalog.=) 19) AND false) -NOTICE: executing the command locally: UPDATE local_shard_execution_replicated.event_responses_1501001 event_responses SET response = 'yes'::local_shard_execution_replicated.invite_resp WHERE (event_id OPERATOR(pg_catalog.=) 19) --- should be fine even if no parameters exists in the query -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.event_responses_1501001 event_responses WHERE (event_id OPERATOR(pg_catalog.=) 16) - count ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: SELECT count(*) AS count FROM local_shard_execution_replicated.event_responses_1501001 event_responses WHERE (event_id OPERATOR(pg_catalog.=) 16) - count ---------------------------------------------------------------------- - 1 -(1 row) - -UPDATE event_responses SET response = 'no' WHERE event_id = 16; -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: UPDATE local_shard_execution_replicated.event_responses_1501001 event_responses SET response = 'no'::local_shard_execution_replicated.invite_resp WHERE (event_id OPERATOR(pg_catalog.=) 16) -INSERT INTO event_responses VALUES (16, 666, 'maybe') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.event_responses_1501001 AS citus_table_alias (event_id, user_id, response) VALUES (16, 666, 'maybe'::local_shard_execution_replicated.invite_resp) ON CONFLICT(event_id, user_id) DO UPDATE SET response = excluded.response RETURNING citus_table_alias.event_id, citus_table_alias.user_id, citus_table_alias.response - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe -(1 row) - --- multi row INSERTs hitting the same shard -INSERT INTO event_responses VALUES (16, 666, 'maybe'), (17, 777, 'no') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan -NOTICE: executing the command locally: INSERT INTO local_shard_execution_replicated.event_responses_1501001 AS citus_table_alias (event_id, user_id, response) VALUES (16,666,'maybe'::local_shard_execution_replicated.invite_resp), (17,777,'no'::local_shard_execution_replicated.invite_resp) ON CONFLICT(event_id, user_id) DO UPDATE SET response = excluded.response RETURNING citus_table_alias.event_id, citus_table_alias.user_id, citus_table_alias.response - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe - 17 | 777 | no -(2 rows) - --- now, similar tests with some settings changed -SET citus.enable_local_execution TO false; -SET citus.enable_fast_path_router_planner TO false; -CALL register_for_event(19, 1, 'yes'); -DEBUG: stored procedure does not have co-located tables --- should be fine even if no parameters exists in the query -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 - count ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT count(*) FROM event_responses WHERE event_id = 16; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 - count ---------------------------------------------------------------------- - 2 -(1 row) - -UPDATE event_responses SET response = 'no' WHERE event_id = 16; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 -INSERT INTO event_responses VALUES (16, 666, 'maybe') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 16 - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe -(1 row) - --- multi row INSERTs hitting the same shard -INSERT INTO event_responses VALUES (16, 666, 'maybe'), (17, 777, 'no') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -DEBUG: Creating router plan - event_id | user_id | response ---------------------------------------------------------------------- - 16 | 666 | maybe - 17 | 777 | no -(2 rows) - --- not allow commands over the workers when user disables -SET citus.allow_modifications_from_workers_to_replicated_tables TO false; -INSERT INTO event_responses VALUES (16, 666, 'maybe'), (17, 777, 'no') -ON CONFLICT (event_id, user_id) -DO UPDATE SET response = EXCLUDED.response RETURNING *; -ERROR: modifications via the worker nodes are not allowed for replicated tables such as reference tables or hash distributed tables with replication factor greater than 1. -\c - - - :master_port -SET client_min_messages TO ERROR; -SET search_path TO public; -DROP SCHEMA local_shard_execution_replicated CASCADE; diff --git a/src/test/regress/expected/merge.out b/src/test/regress/expected/merge.out index 5056ba543..1e5e85242 100644 --- a/src/test/regress/expected/merge.out +++ b/src/test/regress/expected/merge.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- MERGE command performs a join from data_source to target_table_name DROP SCHEMA IF EXISTS merge_schema CASCADE; NOTICE: schema "merge_schema" does not exist, skipping diff --git a/src/test/regress/expected/merge_0.out b/src/test/regress/expected/merge_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_arbitrary.out b/src/test/regress/expected/merge_arbitrary.out index b55306b44..052a9d066 100644 --- a/src/test/regress/expected/merge_arbitrary.out +++ b/src/test/regress/expected/merge_arbitrary.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif SET search_path TO merge_arbitrary_schema; INSERT INTO target_cj VALUES (1, 'target', 0); INSERT INTO target_cj VALUES (2, 'target', 0); diff --git a/src/test/regress/expected/merge_arbitrary_0.out b/src/test/regress/expected/merge_arbitrary_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_arbitrary_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_arbitrary_create.out b/src/test/regress/expected/merge_arbitrary_create.out index aff9ecd97..1d0a25f6a 100644 --- a/src/test/regress/expected/merge_arbitrary_create.out +++ b/src/test/regress/expected/merge_arbitrary_create.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif DROP SCHEMA IF EXISTS merge_arbitrary_schema CASCADE; CREATE SCHEMA merge_arbitrary_schema; SET search_path TO merge_arbitrary_schema; diff --git a/src/test/regress/expected/merge_arbitrary_create_0.out b/src/test/regress/expected/merge_arbitrary_create_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_arbitrary_create_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_partition_tables.out b/src/test/regress/expected/merge_partition_tables.out index 5ac375817..6ca7d6398 100644 --- a/src/test/regress/expected/merge_partition_tables.out +++ b/src/test/regress/expected/merge_partition_tables.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- We create two sets of source and target tables, one set in Postgres and -- the other in Citus distributed. We run the _exact_ MERGE SQL on both sets -- and compare the final results of the target tables in Postgres and Citus. diff --git a/src/test/regress/expected/merge_partition_tables_0.out b/src/test/regress/expected/merge_partition_tables_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_partition_tables_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_repartition1.out b/src/test/regress/expected/merge_repartition1.out index 279358e30..ac718f73c 100644 --- a/src/test/regress/expected/merge_repartition1.out +++ b/src/test/regress/expected/merge_repartition1.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- We create two sets of source and target tables, one set in Postgres and -- the other in Citus distributed. We run the _exact_ MERGE SQL on both sets -- and compare the final results of the target tables in Postgres and Citus. diff --git a/src/test/regress/expected/merge_repartition1_0.out b/src/test/regress/expected/merge_repartition1_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_repartition1_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_repartition2.out b/src/test/regress/expected/merge_repartition2.out index 898b7c77a..524ae84f7 100644 --- a/src/test/regress/expected/merge_repartition2.out +++ b/src/test/regress/expected/merge_repartition2.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- We create two sets of source and target tables, one set in Postgres and -- the other in Citus distributed. We run the _exact_ MERGE SQL on both sets -- and compare the final results of the target tables in Postgres and Citus. diff --git a/src/test/regress/expected/merge_repartition2_0.out b/src/test/regress/expected/merge_repartition2_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_repartition2_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_schema_sharding.out b/src/test/regress/expected/merge_schema_sharding.out index 17f6f6adb..a6fb11998 100644 --- a/src/test/regress/expected/merge_schema_sharding.out +++ b/src/test/regress/expected/merge_schema_sharding.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- MERGE command performs a join from data_source to target_table_name DROP SCHEMA IF EXISTS schema_shard_table1 CASCADE; NOTICE: schema "schema_shard_table1" does not exist, skipping diff --git a/src/test/regress/expected/merge_schema_sharding_0.out b/src/test/regress/expected/merge_schema_sharding_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_schema_sharding_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/merge_vcore.out b/src/test/regress/expected/merge_vcore.out index 0eccb811b..b3b6eb1ff 100644 --- a/src/test/regress/expected/merge_vcore.out +++ b/src/test/regress/expected/merge_vcore.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- MERGE command performs a join from data_source to target_table_name DROP SCHEMA IF EXISTS merge_vcore_schema CASCADE; NOTICE: schema "merge_vcore_schema" does not exist, skipping diff --git a/src/test/regress/expected/merge_vcore_0.out b/src/test/regress/expected/merge_vcore_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/merge_vcore_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/multi_alter_table_add_constraints_without_name.out b/src/test/regress/expected/multi_alter_table_add_constraints_without_name.out index 0c268264d..6a6251f9e 100644 --- a/src/test/regress/expected/multi_alter_table_add_constraints_without_name.out +++ b/src/test/regress/expected/multi_alter_table_add_constraints_without_name.out @@ -214,13 +214,8 @@ SELECT con.conname \c - - :master_host :master_port ALTER TABLE AT_AddConstNoName.products DROP CONSTRAINT products_product_no_key; -- Check "ADD UNIQUE NULLS NOT DISTICT" -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 ALTER TABLE AT_AddConstNoName.products ADD UNIQUE NULLS NOT DISTINCT (product_no, price); ALTER TABLE AT_AddConstNoName.products DROP CONSTRAINT products_product_no_price_key; -\endif -- Check "ADD UNIQUE ... DEFERRABLE" ALTER TABLE AT_AddConstNoName.products ADD UNIQUE(product_no) INCLUDE(price) DEFERRABLE; \c - - :public_worker_1_host :worker_1_port diff --git a/src/test/regress/expected/multi_deparse_shard_query.out b/src/test/regress/expected/multi_deparse_shard_query.out index 4657db10d..407f89b8c 100644 --- a/src/test/regress/expected/multi_deparse_shard_query.out +++ b/src/test/regress/expected/multi_deparse_shard_query.out @@ -1,17 +1,6 @@ -- -- MULTI_DEPARSE_SHARD_QUERY -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA multi_deparse_shard_query; SET search_path TO multi_deparse_shard_query; SET citus.next_shard_id TO 13100000; diff --git a/src/test/regress/expected/multi_deparse_shard_query_0.out b/src/test/regress/expected/multi_deparse_shard_query_0.out deleted file mode 100644 index 4f2ca98b8..000000000 --- a/src/test/regress/expected/multi_deparse_shard_query_0.out +++ /dev/null @@ -1,423 +0,0 @@ --- --- MULTI_DEPARSE_SHARD_QUERY --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA multi_deparse_shard_query; -SET search_path TO multi_deparse_shard_query; -SET citus.next_shard_id TO 13100000; -SET citus.shard_replication_factor TO 1; -CREATE FUNCTION deparse_shard_query_test(text) - RETURNS VOID - AS 'citus' - LANGUAGE C STRICT; --- create the first table -CREATE TABLE raw_events_1 - (tenant_id bigint, - value_1 int, - value_2 int, - value_3 float, - value_4 bigint, - value_5 text, - value_6 int DEfAULT 10, - value_7 int, - event_at date DEfAULT now() - ); -SELECT create_distributed_table('raw_events_1', 'tenant_id', 'hash'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- create the first table -CREATE TABLE raw_events_2 - (tenant_id bigint, - value_1 int, - value_2 int, - value_3 float, - value_4 bigint, - value_5 text, - value_6 float DEfAULT (random()*100)::float, - value_7 int, - event_at date DEfAULT now() - ); -SELECT create_distributed_table('raw_events_2', 'tenant_id', 'hash'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE aggregated_events - (tenant_id bigint, - sum_value_1 bigint, - average_value_2 float, - average_value_3 float, - sum_value_4 bigint, - sum_value_5 float, - average_value_6 int, - rollup_hour date); -SELECT create_distributed_table('aggregated_events', 'tenant_id', 'hash'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- start with very simple examples on a single table -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1 -SELECT * FROM raw_events_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_1, value_2, value_3, value_4, value_5, value_6, value_7, event_at) SELECT tenant_id, value_1, value_2, value_3, value_4, value_5, value_6, value_7, event_at FROM multi_deparse_shard_query.raw_events_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1(tenant_id, value_4) -SELECT - tenant_id, value_4 -FROM - raw_events_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_4, value_6, event_at) SELECT tenant_id, value_4, 10 AS value_6, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- now that shuffle columns a bit on a single table -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1(value_5, value_2, tenant_id, value_4) -SELECT - value_2::text, value_5::int, tenant_id, value_4 -FROM - raw_events_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_2, value_4, value_5, value_6, event_at) SELECT tenant_id, (value_5)::integer AS value_5, value_4, (value_2)::text AS value_2, 10 AS value_6, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- same test on two different tables -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1(value_5, value_2, tenant_id, value_4) -SELECT - value_2::text, value_5::int, tenant_id, value_4 -FROM - raw_events_2; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_2, value_4, value_5, value_6, event_at) SELECT tenant_id, (value_5)::integer AS value_5, value_4, (value_2)::text AS value_2, 10 AS value_6, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_2 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- lets do some simple aggregations -SELECT deparse_shard_query_test(E' -INSERT INTO aggregated_events (tenant_id, rollup_hour, sum_value_1, average_value_3, average_value_6, sum_value_4) -SELECT - tenant_id, date_trunc(\'hour\', event_at) , sum(value_1), avg(value_3), avg(value_6), sum(value_4) -FROM - raw_events_1 -GROUP BY - tenant_id, date_trunc(\'hour\', event_at) -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_1, average_value_3, sum_value_4, average_value_6, rollup_hour) SELECT tenant_id, sum(value_1) AS sum, avg(value_3) AS avg, sum(value_4) AS sum, avg(value_6) AS avg, date_trunc('hour'::text, (event_at)::timestamp with time zone) AS date_trunc FROM multi_deparse_shard_query.raw_events_1 GROUP BY tenant_id, (date_trunc('hour'::text, (event_at)::timestamp with time zone)) - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- also some subqueries, JOINS with a complicated target lists --- a simple JOIN -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1 (value_3, tenant_id) -SELECT - raw_events_2.value_3, raw_events_1.tenant_id -FROM - raw_events_1, raw_events_2 -WHERE - raw_events_1.tenant_id = raw_events_2.tenant_id; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_3, value_6, event_at) SELECT raw_events_1.tenant_id, raw_events_2.value_3, 10 AS value_6, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_1, multi_deparse_shard_query.raw_events_2 WHERE (raw_events_1.tenant_id OPERATOR(pg_catalog.=) raw_events_2.tenant_id) - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- join with group by -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1 (value_3, tenant_id) -SELECT - max(raw_events_2.value_3), avg(raw_events_1.value_3) -FROM - raw_events_1, raw_events_2 -WHERE - raw_events_1.tenant_id = raw_events_2.tenant_id GROUP BY raw_events_1.event_at -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_3, value_6, event_at) SELECT avg(raw_events_1.value_3) AS avg, max(raw_events_2.value_3) AS max, 10 AS value_6, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_1, multi_deparse_shard_query.raw_events_2 WHERE (raw_events_1.tenant_id OPERATOR(pg_catalog.=) raw_events_2.tenant_id) GROUP BY raw_events_1.event_at - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- a more complicated JOIN -SELECT deparse_shard_query_test(' -INSERT INTO aggregated_events (sum_value_4, tenant_id) -SELECT - max(r1.value_4), r3.tenant_id -FROM - raw_events_1 r1, raw_events_2 r2, raw_events_1 r3 -WHERE - r1.tenant_id = r2.tenant_id AND r2.tenant_id = r3.tenant_id -GROUP BY - r1.value_1, r3.tenant_id, r2.event_at -ORDER BY - r2.event_at DESC; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_4) SELECT r3.tenant_id, max(r1.value_4) AS max FROM multi_deparse_shard_query.raw_events_1 r1, multi_deparse_shard_query.raw_events_2 r2, multi_deparse_shard_query.raw_events_1 r3 WHERE ((r1.tenant_id OPERATOR(pg_catalog.=) r2.tenant_id) AND (r2.tenant_id OPERATOR(pg_catalog.=) r3.tenant_id)) GROUP BY r1.value_1, r3.tenant_id, r2.event_at ORDER BY r2.event_at DESC - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- queries with CTEs are supported -SELECT deparse_shard_query_test(' -WITH first_tenant AS (SELECT event_at, value_5, tenant_id FROM raw_events_1) -INSERT INTO aggregated_events (rollup_hour, sum_value_5, tenant_id) -SELECT - event_at, sum(value_5::int), tenant_id -FROM - raw_events_1 -GROUP BY - event_at, tenant_id; -'); -INFO: query: WITH first_tenant AS (SELECT raw_events_1.event_at, raw_events_1.value_5, raw_events_1.tenant_id FROM multi_deparse_shard_query.raw_events_1) INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_5, rollup_hour) SELECT tenant_id, sum((value_5)::integer) AS sum, event_at FROM multi_deparse_shard_query.raw_events_1 GROUP BY event_at, tenant_id - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(' -WITH first_tenant AS (SELECT event_at, value_5, tenant_id FROM raw_events_1) -INSERT INTO aggregated_events (sum_value_5, tenant_id) -SELECT - sum(value_5::int), tenant_id -FROM - raw_events_1 -GROUP BY - event_at, tenant_id; -'); -INFO: query: WITH first_tenant AS (SELECT raw_events_1.event_at, raw_events_1.value_5, raw_events_1.tenant_id FROM multi_deparse_shard_query.raw_events_1) INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_5) SELECT tenant_id, sum((value_5)::integer) AS sum FROM multi_deparse_shard_query.raw_events_1 GROUP BY event_at, tenant_id - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(' -INSERT INTO aggregated_events (sum_value_1, sum_value_5, tenant_id) -WITH RECURSIVE hierarchy as ( - SELECT value_1, 1 AS LEVEL, tenant_id - FROM raw_events_1 - WHERE tenant_id = 1 - UNION - SELECT re.value_2, (h.level+1), re.tenant_id - FROM hierarchy h JOIN raw_events_1 re - ON (h.tenant_id = re.tenant_id AND - h.value_1 = re.value_6)) -SELECT * FROM hierarchy WHERE LEVEL <= 2; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_1, sum_value_5) WITH RECURSIVE hierarchy AS (SELECT raw_events_1.value_1, 1 AS level, raw_events_1.tenant_id FROM multi_deparse_shard_query.raw_events_1 WHERE (raw_events_1.tenant_id OPERATOR(pg_catalog.=) 1) UNION SELECT re.value_2, (h.level OPERATOR(pg_catalog.+) 1), re.tenant_id FROM (hierarchy h JOIN multi_deparse_shard_query.raw_events_1 re ON (((h.tenant_id OPERATOR(pg_catalog.=) re.tenant_id) AND (h.value_1 OPERATOR(pg_catalog.=) re.value_6))))) SELECT tenant_id, value_1, level FROM hierarchy WHERE (level OPERATOR(pg_catalog.<=) 2) - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(' -INSERT INTO aggregated_events (sum_value_1) -SELECT - DISTINCT value_1 -FROM - raw_events_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (sum_value_1) SELECT DISTINCT value_1 FROM multi_deparse_shard_query.raw_events_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- many filters suffled -SELECT deparse_shard_query_test(E' -INSERT INTO aggregated_events (sum_value_5, sum_value_1, tenant_id) -SELECT value_3, value_2, tenant_id - FROM raw_events_1 - WHERE (value_5 like \'%s\' or value_5 like \'%a\') and (tenant_id = 1) and (value_6 < 3000 or value_3 > 8000); -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_1, sum_value_5) SELECT tenant_id, value_2, value_3 FROM multi_deparse_shard_query.raw_events_1 WHERE (((value_5 OPERATOR(pg_catalog.~~) '%s'::text) OR (value_5 OPERATOR(pg_catalog.~~) '%a'::text)) AND (tenant_id OPERATOR(pg_catalog.=) 1) AND ((value_6 OPERATOR(pg_catalog.<) 3000) OR (value_3 OPERATOR(pg_catalog.>) (8000)::double precision))) - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(E' -INSERT INTO aggregated_events (sum_value_5, tenant_id) -SELECT rank() OVER (PARTITION BY tenant_id ORDER BY value_6), tenant_id - FROM raw_events_1 - WHERE event_at = now(); -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_5) SELECT tenant_id, rank() OVER (PARTITION BY tenant_id ORDER BY value_6) AS rank FROM multi_deparse_shard_query.raw_events_1 WHERE (event_at OPERATOR(pg_catalog.=) now()) - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(E' -INSERT INTO aggregated_events (sum_value_5, tenant_id, sum_value_4) -SELECT random(), int4eq(1, max(value_1))::int, value_6 - FROM raw_events_1 - WHERE event_at = now() - GROUP BY event_at, value_7, value_6; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_4, sum_value_5) SELECT (int4eq(1, max(value_1)))::integer AS int4eq, value_6, random() AS random FROM multi_deparse_shard_query.raw_events_1 WHERE (event_at OPERATOR(pg_catalog.=) now()) GROUP BY event_at, value_7, value_6 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(' -INSERT INTO aggregated_events (sum_value_1, tenant_id) -SELECT - count(DISTINCT CASE - WHEN - value_1 > 100 - THEN - tenant_id - ELSE - value_6 - END) as c, - max(tenant_id) - FROM - raw_events_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_1) SELECT max(tenant_id) AS max, count(DISTINCT CASE WHEN (value_1 OPERATOR(pg_catalog.>) 100) THEN tenant_id ELSE (value_6)::bigint END) AS c FROM multi_deparse_shard_query.raw_events_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1(value_7, value_1, tenant_id) -SELECT - value_7, value_1, tenant_id -FROM - (SELECT - tenant_id, value_2 as value_7, value_1 - FROM - raw_events_2 - ) as foo -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_1, value_6, value_7, event_at) SELECT tenant_id, value_1, 10 AS value_6, value_7, (now())::date AS event_at FROM (SELECT raw_events_2.tenant_id, raw_events_2.value_2 AS value_7, raw_events_2.value_1 FROM multi_deparse_shard_query.raw_events_2) foo - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(E' -INSERT INTO aggregated_events(sum_value_1, tenant_id, sum_value_5) -SELECT - sum(value_1), tenant_id, sum(value_5::bigint) -FROM - (SELECT - raw_events_1.event_at, raw_events_2.tenant_id, raw_events_2.value_5, raw_events_1.value_1 - FROM - raw_events_2, raw_events_1 - WHERE - raw_events_1.tenant_id = raw_events_2.tenant_id - ) as foo -GROUP BY - tenant_id, date_trunc(\'hour\', event_at) -'); -INFO: query: INSERT INTO multi_deparse_shard_query.aggregated_events (tenant_id, sum_value_1, sum_value_5) SELECT tenant_id, sum(value_1) AS sum, sum((value_5)::bigint) AS sum FROM (SELECT raw_events_1.event_at, raw_events_2.tenant_id, raw_events_2.value_5, raw_events_1.value_1 FROM multi_deparse_shard_query.raw_events_2, multi_deparse_shard_query.raw_events_1 WHERE (raw_events_1.tenant_id OPERATOR(pg_catalog.=) raw_events_2.tenant_id)) foo GROUP BY tenant_id, (date_trunc('hour'::text, (event_at)::timestamp with time zone)) - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(E' -INSERT INTO raw_events_2(tenant_id, value_1, value_2, value_3, value_4) -SELECT - tenant_id, value_1, value_2, value_3, value_4 -FROM - (SELECT - value_2, value_4, tenant_id, value_1, value_3 - FROM - raw_events_1 - ) as foo -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_2 (tenant_id, value_1, value_2, value_3, value_4, value_6, event_at) SELECT tenant_id, value_1, value_2, value_3, value_4, (random() OPERATOR(pg_catalog.*) (100)::double precision) AS value_6, (now())::date AS event_at FROM (SELECT raw_events_1.value_2, raw_events_1.value_4, raw_events_1.tenant_id, raw_events_1.value_1, raw_events_1.value_3 FROM multi_deparse_shard_query.raw_events_1) foo - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SELECT deparse_shard_query_test(E' -INSERT INTO raw_events_2(tenant_id, value_1, value_4, value_2, value_3) -SELECT - * -FROM - (SELECT - value_2, value_4, tenant_id, value_1, value_3 - FROM - raw_events_1 - ) as foo -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_2 (tenant_id, value_1, value_2, value_3, value_4, value_6, event_at) SELECT value_2, value_4, value_1, value_3, tenant_id, (random() OPERATOR(pg_catalog.*) (100)::double precision) AS value_6, (now())::date AS event_at FROM (SELECT raw_events_1.value_2, raw_events_1.value_4, raw_events_1.tenant_id, raw_events_1.value_1, raw_events_1.value_3 FROM multi_deparse_shard_query.raw_events_1) foo - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- use a column multiple times -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1(tenant_id, value_7, value_4) -SELECT - tenant_id, value_7, value_7 -FROM - raw_events_1 -ORDER BY - value_2, value_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_4, value_6, value_7, event_at) SELECT tenant_id, value_7, 10 AS value_6, value_7, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_1 ORDER BY value_2, value_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - --- test dropped table as well -ALTER TABLE raw_events_1 DROP COLUMN value_5; -SELECT deparse_shard_query_test(' -INSERT INTO raw_events_1(tenant_id, value_7, value_4) -SELECT - tenant_id, value_7, value_4 -FROM - raw_events_1; -'); -INFO: query: INSERT INTO multi_deparse_shard_query.raw_events_1 (tenant_id, value_4, value_6, value_7, event_at) SELECT tenant_id, value_4, 10 AS value_6, value_7, (now())::date AS event_at FROM multi_deparse_shard_query.raw_events_1 - deparse_shard_query_test ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO ERROR; -DROP SCHEMA multi_deparse_shard_query CASCADE; diff --git a/src/test/regress/expected/multi_extension.out b/src/test/regress/expected/multi_extension.out index 2f27722f7..128872df5 100644 --- a/src/test/regress/expected/multi_extension.out +++ b/src/test/regress/expected/multi_extension.out @@ -747,14 +747,8 @@ SELECT * FROM multi_extension.print_extension_changes(); -- recreate public schema, and recreate citus_tables in the public schema by default CREATE SCHEMA public; --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 +-- public schema is owned by pg_database_owner role ALTER SCHEMA public OWNER TO pg_database_owner; -\endif GRANT ALL ON SCHEMA public TO public; ALTER EXTENSION citus UPDATE TO '9.5-1'; ALTER EXTENSION citus UPDATE TO '10.0-4'; diff --git a/src/test/regress/expected/multi_insert_select.out b/src/test/regress/expected/multi_insert_select.out index 26a7dfcf5..58d22583e 100644 --- a/src/test/regress/expected/multi_insert_select.out +++ b/src/test/regress/expected/multi_insert_select.out @@ -1,19 +1,8 @@ -- -- MULTI_INSERT_SELECT -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- CREATE SCHEMA multi_insert_select; SET search_path = multi_insert_select,public; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - SET citus.next_shard_id TO 13300000; SET citus.next_placement_id TO 13300000; -- create co-located tables diff --git a/src/test/regress/expected/multi_insert_select_0.out b/src/test/regress/expected/multi_insert_select_0.out deleted file mode 100644 index 193c869b1..000000000 --- a/src/test/regress/expected/multi_insert_select_0.out +++ /dev/null @@ -1,3507 +0,0 @@ --- --- MULTI_INSERT_SELECT --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -CREATE SCHEMA multi_insert_select; -SET search_path = multi_insert_select,public; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -SET citus.next_shard_id TO 13300000; -SET citus.next_placement_id TO 13300000; --- create co-located tables -SET citus.shard_count = 4; -SET citus.shard_replication_factor = 2; --- order of execution might change in parallel executions --- and the error details might contain the worker node --- so be less verbose with \set VERBOSITY TERSE when necessary -CREATE TABLE raw_events_first (user_id int, time timestamp, value_1 int, value_2 int, value_3 float, value_4 bigint, UNIQUE(user_id, value_1)); -SELECT create_distributed_table('raw_events_first', 'user_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE raw_events_second (user_id int, time timestamp, value_1 int, value_2 int, value_3 float, value_4 bigint, UNIQUE(user_id, value_1)); -SELECT create_distributed_table('raw_events_second', 'user_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE agg_events (user_id int, value_1_agg int, value_2_agg int, value_3_agg float, value_4_agg bigint, agg_time timestamp, UNIQUE(user_id, value_1_agg)); -SELECT create_distributed_table('agg_events', 'user_id');; - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- create the reference table as well -CREATE TABLE reference_table (user_id int); -SELECT create_reference_table('reference_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE insert_select_varchar_test (key varchar, value int); -SELECT create_distributed_table('insert_select_varchar_test', 'key', 'hash'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- set back to the defaults -SET citus.shard_count = DEFAULT; -SET citus.shard_replication_factor = DEFAULT; -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (1, now(), 10, 100, 1000.1, 10000); -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (2, now(), 20, 200, 2000.1, 20000); -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (3, now(), 30, 300, 3000.1, 30000); -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (4, now(), 40, 400, 4000.1, 40000); -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (5, now(), 50, 500, 5000.1, 50000); -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (6, now(), 60, 600, 6000.1, 60000); -SET client_min_messages TO DEBUG2; --- raw table to raw table -INSERT INTO raw_events_second SELECT * FROM raw_events_first; -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) --- see that our first multi shard INSERT...SELECT works expected -SET client_min_messages TO INFO; -SELECT - raw_events_first.user_id -FROM - raw_events_first, raw_events_second -WHERE - raw_events_first.user_id = raw_events_second.user_id -ORDER BY - user_id DESC; - user_id ---------------------------------------------------------------------- - 6 - 5 - 4 - 3 - 2 - 1 -(6 rows) - --- see that we get unique vialitons -\set VERBOSITY TERSE -INSERT INTO raw_events_second SELECT * FROM raw_events_first; -ERROR: duplicate key value violates unique constraint "raw_events_second_user_id_value_1_key_13300004" -\set VERBOSITY DEFAULT --- stable functions should be allowed -INSERT INTO raw_events_second (user_id, time) -SELECT - user_id, now() -FROM - raw_events_first -WHERE - user_id < 0; -INSERT INTO raw_events_second (user_id) -SELECT - user_id -FROM - raw_events_first -WHERE - time > now() + interval '1 day'; --- hide version-dependent PL/pgSQL context messages -\set VERBOSITY terse --- make sure we evaluate stable functions on the master, once -CREATE OR REPLACE FUNCTION evaluate_on_master() -RETURNS int LANGUAGE plpgsql STABLE -AS $function$ -BEGIN - RAISE NOTICE 'evaluating on master'; - RETURN 0; -END; -$function$; -INSERT INTO raw_events_second (user_id, value_1) -SELECT - user_id, evaluate_on_master() -FROM - raw_events_first -WHERE - user_id < 0; -NOTICE: evaluating on master --- make sure we don't evaluate stable functions with column arguments -SET citus.enable_metadata_sync TO OFF; -CREATE OR REPLACE FUNCTION evaluate_on_master(x int) -RETURNS int LANGUAGE plpgsql STABLE -AS $function$ -BEGIN - RAISE NOTICE 'evaluating on master'; - RETURN x; -END; -$function$; -RESET citus.enable_metadata_sync; -INSERT INTO raw_events_second (user_id, value_1) -SELECT - user_id, evaluate_on_master(value_1) -FROM - raw_events_first -WHERE - user_id = 0; -ERROR: function multi_insert_select.evaluate_on_master(integer) does not exist --- add one more row -INSERT INTO raw_events_first (user_id, time) VALUES - (7, now()); --- try a single shard query -SET client_min_messages TO DEBUG2; -INSERT INTO raw_events_second (user_id, time) SELECT user_id, time FROM raw_events_first WHERE user_id = 7; -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300004 since SELECT query for it pruned away -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id, "time") SELECT user_id, "time" FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) 7) AND (user_id IS NOT NULL)) -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300007 since SELECT query for it pruned away -SET client_min_messages TO INFO; --- add one more row -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (8, now(), 80, 800, 8000, 80000); --- reorder columns -SET client_min_messages TO DEBUG2; -INSERT INTO raw_events_second (value_2, value_1, value_3, value_4, user_id, time) -SELECT - value_2, value_1, value_3, value_4, user_id, time -FROM - raw_events_first -WHERE - user_id = 8; -DEBUG: Creating router plan -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) 8) AND (user_id IS NOT NULL)) -DEBUG: Skipping target shard interval 13300005 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300007 since SELECT query for it pruned away --- a zero shard select -INSERT INTO raw_events_second (value_2, value_1, value_3, value_4, user_id, time) -SELECT - value_2, value_1, value_3, value_4, user_id, time -FROM - raw_events_first -WHERE - false; -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300004 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300005 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300007 since SELECT query for it pruned away --- another zero shard select -INSERT INTO raw_events_second (value_2, value_1, value_3, value_4, user_id, time) -SELECT - value_2, value_1, value_3, value_4, user_id, time -FROM - raw_events_first -WHERE - 0 != 0; -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300004 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300005 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300007 since SELECT query for it pruned away --- add one more row -SET client_min_messages TO INFO; -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (9, now(), 90, 900, 9000, 90000); --- show that RETURNING also works -SET client_min_messages TO DEBUG2; -INSERT INTO raw_events_second (user_id, value_1, value_3) -SELECT - user_id, value_1, value_3 -FROM - raw_events_first -WHERE - value_3 = 9000 -RETURNING *; -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id, value_1, value_3) SELECT user_id, value_1, value_3 FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((value_3 OPERATOR(pg_catalog.=) (9000)::double precision) AND (user_id IS NOT NULL)) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id, value_1, value_3) SELECT user_id, value_1, value_3 FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((value_3 OPERATOR(pg_catalog.=) (9000)::double precision) AND (user_id IS NOT NULL)) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id, value_1, value_3) SELECT user_id, value_1, value_3 FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((value_3 OPERATOR(pg_catalog.=) (9000)::double precision) AND (user_id IS NOT NULL)) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id, value_1, value_3) SELECT user_id, value_1, value_3 FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((value_3 OPERATOR(pg_catalog.=) (9000)::double precision) AND (user_id IS NOT NULL)) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 - user_id | time | value_1 | value_2 | value_3 | value_4 ---------------------------------------------------------------------- - 9 | | 90 | | 9000 | -(1 row) - --- hits two shards -\set VERBOSITY TERSE -INSERT INTO raw_events_second (user_id, value_1, value_3) -SELECT - user_id, value_1, value_3 -FROM - raw_events_first -WHERE - user_id = 9 OR user_id = 16 -RETURNING *; -DEBUG: Skipping target shard interval 13300004 since SELECT query for it pruned away -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id, value_1, value_3) SELECT user_id, value_1, value_3 FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (((user_id OPERATOR(pg_catalog.=) 9) OR (user_id OPERATOR(pg_catalog.=) 16)) AND (user_id IS NOT NULL)) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id, value_1, value_3) SELECT user_id, value_1, value_3 FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (((user_id OPERATOR(pg_catalog.=) 9) OR (user_id OPERATOR(pg_catalog.=) 16)) AND (user_id IS NOT NULL)) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -ERROR: duplicate key value violates unique constraint "raw_events_second_user_id_value_1_key_13300007" --- now do some aggregations -INSERT INTO agg_events -SELECT - user_id, sum(value_1), avg(value_2), sum(value_3), count(value_4) -FROM - raw_events_first -GROUP BY - user_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg, value_2_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, avg(value_2) AS avg, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg, value_2_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, avg(value_2) AS avg, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg, value_2_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, avg(value_2) AS avg, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg, value_2_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, avg(value_2) AS avg, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id --- group by column not exists on the SELECT target list -INSERT INTO agg_events (value_3_agg, value_4_agg, value_1_agg, user_id) -SELECT - sum(value_3), count(value_4), sum(value_1), user_id -FROM - raw_events_first -GROUP BY - value_2, user_id -RETURNING *; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY value_2, user_id RETURNING citus_table_alias.user_id, citus_table_alias.value_1_agg, citus_table_alias.value_2_agg, citus_table_alias.value_3_agg, citus_table_alias.value_4_agg, citus_table_alias.agg_time -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY value_2, user_id RETURNING citus_table_alias.user_id, citus_table_alias.value_1_agg, citus_table_alias.value_2_agg, citus_table_alias.value_3_agg, citus_table_alias.value_4_agg, citus_table_alias.agg_time -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY value_2, user_id RETURNING citus_table_alias.user_id, citus_table_alias.value_1_agg, citus_table_alias.value_2_agg, citus_table_alias.value_3_agg, citus_table_alias.value_4_agg, citus_table_alias.agg_time -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg, value_3_agg, value_4_agg) SELECT user_id, sum(value_1) AS sum, sum(value_3) AS sum, count(value_4) AS count FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY value_2, user_id RETURNING citus_table_alias.user_id, citus_table_alias.value_1_agg, citus_table_alias.value_2_agg, citus_table_alias.value_3_agg, citus_table_alias.value_4_agg, citus_table_alias.agg_time -ERROR: duplicate key value violates unique constraint "agg_events_user_id_value_1_agg_key_13300008" --- some subquery tests -INSERT INTO agg_events - (value_1_agg, - user_id) -SELECT SUM(value_1), - id -FROM (SELECT raw_events_second.user_id AS id, - raw_events_second.value_1 - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id) AS foo -GROUP BY id -ORDER BY id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT id, sum(value_1) AS sum FROM (SELECT raw_events_second.user_id AS id, raw_events_second.value_1 FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id)) foo WHERE (id IS NOT NULL) GROUP BY id ORDER BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT id, sum(value_1) AS sum FROM (SELECT raw_events_second.user_id AS id, raw_events_second.value_1 FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id)) foo WHERE (id IS NOT NULL) GROUP BY id ORDER BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT id, sum(value_1) AS sum FROM (SELECT raw_events_second.user_id AS id, raw_events_second.value_1 FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id)) foo WHERE (id IS NOT NULL) GROUP BY id ORDER BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT id, sum(value_1) AS sum FROM (SELECT raw_events_second.user_id AS id, raw_events_second.value_1 FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id)) foo WHERE (id IS NOT NULL) GROUP BY id ORDER BY id -ERROR: duplicate key value violates unique constraint "agg_events_user_id_value_1_agg_key_13300008" --- subquery one more level depth -INSERT INTO agg_events - (value_4_agg, - value_1_agg, - user_id) -SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id) AS foo -ORDER BY id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg, value_4_agg) SELECT id, v1, v4 FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id) foo WHERE (id IS NOT NULL) ORDER BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg, value_4_agg) SELECT id, v1, v4 FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id) foo WHERE (id IS NOT NULL) ORDER BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg, value_4_agg) SELECT id, v1, v4 FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id) foo WHERE (id IS NOT NULL) ORDER BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg, value_4_agg) SELECT id, v1, v4 FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id) foo WHERE (id IS NOT NULL) ORDER BY id -ERROR: duplicate key value violates unique constraint "agg_events_user_id_value_1_agg_key_13300008" -\set VERBOSITY DEFAULT --- join between subqueries -INSERT INTO agg_events - (user_id) -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id); -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f2.id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f2.id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f2.id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f2.id IS NOT NULL) --- add one more level subqueris on top of subquery JOINs -INSERT INTO agg_events - (user_id, value_4_agg) -SELECT - outer_most.id, max(outer_most.value) -FROM -( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f - INNER JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id)) as outer_most -GROUP BY - outer_most.id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id --- subqueries in WHERE clause -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN (SELECT user_id - FROM raw_events_second - WHERE user_id = 2); -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300004 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300005 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) 2))) AND (user_id IS NOT NULL)) -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN (SELECT user_id - FROM raw_events_second - WHERE user_id != 2 AND value_1 = 2000) -ON conflict (user_id, value_1) DO NOTHING; -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300004 raw_events_second WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.<>) 2) AND (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000)))) AND (user_id IS NOT NULL)) ON CONFLICT(user_id, value_1) DO NOTHING -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300005 raw_events_second WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.<>) 2) AND (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000)))) AND (user_id IS NOT NULL)) ON CONFLICT(user_id, value_1) DO NOTHING -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300006 raw_events_second WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.<>) 2) AND (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000)))) AND (user_id IS NOT NULL)) ON CONFLICT(user_id, value_1) DO NOTHING -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300007 raw_events_second WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.<>) 2) AND (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000)))) AND (user_id IS NOT NULL)) ON CONFLICT(user_id, value_1) DO NOTHING -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN (SELECT user_id - FROM raw_events_second WHERE false); -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300004 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300005 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300007 since SELECT query for it pruned away -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN (SELECT user_id - FROM raw_events_second - WHERE value_1 = 1000 OR value_1 = 2000 OR value_1 = 3000); -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300004 raw_events_second WHERE ((raw_events_second.value_1 OPERATOR(pg_catalog.=) 1000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 3000)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300005 raw_events_second WHERE ((raw_events_second.value_1 OPERATOR(pg_catalog.=) 1000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 3000)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300006 raw_events_second WHERE ((raw_events_second.value_1 OPERATOR(pg_catalog.=) 1000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 3000)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300007 raw_events_second WHERE ((raw_events_second.value_1 OPERATOR(pg_catalog.=) 1000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 2000) OR (raw_events_second.value_1 OPERATOR(pg_catalog.=) 3000)))) AND (user_id IS NOT NULL)) --- lets mix subqueries in FROM clause and subqueries in WHERE -INSERT INTO agg_events - (user_id) -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 1000) AS foo2 ) as f2 -ON (f.id = f2.id) -WHERE f.id IN (SELECT user_id - FROM raw_events_second); -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (1000)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE ((f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300004 raw_events_second)) AND (f2.id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (1000)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE ((f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300005 raw_events_second)) AND (f2.id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (1000)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE ((f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300006 raw_events_second)) AND (f2.id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id) SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (1000)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE ((f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300007 raw_events_second)) AND (f2.id IS NOT NULL)) --- some UPSERTS -INSERT INTO agg_events AS ae - ( - user_id, - value_1_agg, - agg_time - ) -SELECT user_id, - value_1, - time -FROM raw_events_first -ON conflict (user_id, value_1_agg) -DO UPDATE - SET agg_time = EXCLUDED.agg_time - WHERE ae.agg_time < EXCLUDED.agg_time; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) --- upserts with returning -INSERT INTO agg_events AS ae - ( - user_id, - value_1_agg, - agg_time - ) -SELECT user_id, - value_1, - time -FROM raw_events_first -ON conflict (user_id, value_1_agg) -DO UPDATE - SET agg_time = EXCLUDED.agg_time - WHERE ae.agg_time < EXCLUDED.agg_time -RETURNING user_id, value_1_agg; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) RETURNING ae.user_id, ae.value_1_agg -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) RETURNING ae.user_id, ae.value_1_agg -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) RETURNING ae.user_id, ae.value_1_agg -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS ae (user_id, value_1_agg, agg_time) SELECT user_id, value_1, "time" FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) ON CONFLICT(user_id, value_1_agg) DO UPDATE SET agg_time = excluded.agg_time WHERE (ae.agg_time OPERATOR(pg_catalog.<) excluded.agg_time) RETURNING ae.user_id, ae.value_1_agg - user_id | value_1_agg ---------------------------------------------------------------------- - 7 | -(1 row) - -INSERT INTO agg_events (user_id, value_1_agg) -SELECT - user_id, sum(value_1 + value_2) -FROM - raw_events_first GROUP BY user_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) AS sum FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) AS sum FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) AS sum FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) AS sum FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id --- FILTER CLAUSE -INSERT INTO agg_events (user_id, value_1_agg) -SELECT - user_id, sum(value_1 + value_2) FILTER (where value_3 = 15) -FROM - raw_events_first GROUP BY user_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) FILTER (WHERE (value_3 OPERATOR(pg_catalog.=) (15)::double precision)) AS sum FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) FILTER (WHERE (value_3 OPERATOR(pg_catalog.=) (15)::double precision)) AS sum FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) FILTER (WHERE (value_3 OPERATOR(pg_catalog.=) (15)::double precision)) AS sum FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, sum((value_1 OPERATOR(pg_catalog.+) value_2)) FILTER (WHERE (value_3 OPERATOR(pg_catalog.=) (15)::double precision)) AS sum FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) GROUP BY user_id --- a test with reference table JOINs -INSERT INTO - agg_events (user_id, value_1_agg) -SELECT - raw_events_first.user_id, sum(value_1) -FROM - reference_table, raw_events_first -WHERE - raw_events_first.user_id = reference_table.user_id -GROUP BY - raw_events_first.user_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT raw_events_first.user_id, sum(raw_events_first.value_1) AS sum FROM multi_insert_select.reference_table_13300012 reference_table, multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id) AND (raw_events_first.user_id IS NOT NULL)) GROUP BY raw_events_first.user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT raw_events_first.user_id, sum(raw_events_first.value_1) AS sum FROM multi_insert_select.reference_table_13300012 reference_table, multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id) AND (raw_events_first.user_id IS NOT NULL)) GROUP BY raw_events_first.user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT raw_events_first.user_id, sum(raw_events_first.value_1) AS sum FROM multi_insert_select.reference_table_13300012 reference_table, multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id) AND (raw_events_first.user_id IS NOT NULL)) GROUP BY raw_events_first.user_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT raw_events_first.user_id, sum(raw_events_first.value_1) AS sum FROM multi_insert_select.reference_table_13300012 reference_table, multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id) AND (raw_events_first.user_id IS NOT NULL)) GROUP BY raw_events_first.user_id --- a note on the outer joins is that --- we filter out outer join results --- where partition column returns --- NULL. Thus, we could INSERT less rows --- than we expect from subquery result. --- see the following tests -SET client_min_messages TO INFO; --- we don't want to see constraint violations, so truncate first -TRUNCATE agg_events; --- add a row to first table to make table contents different -INSERT INTO raw_events_second (user_id, time, value_1, value_2, value_3, value_4) VALUES - (10, now(), 100, 10000, 10000, 100000); -DELETE FROM raw_events_second WHERE user_id = 2; --- we select 11 rows -SELECT t1.user_id AS col1, - t2.user_id AS col2 - FROM raw_events_first t1 - FULL JOIN raw_events_second t2 - ON t1.user_id = t2.user_id - ORDER BY t1.user_id, - t2.user_id; - col1 | col2 ---------------------------------------------------------------------- - 1 | 1 - 2 | - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 6 - 7 | 7 - 8 | 8 - 9 | 9 - | 10 -(10 rows) - -SET client_min_messages TO DEBUG2; --- we insert 10 rows since we filtered out --- NULL partition column values -INSERT INTO agg_events (user_id, value_1_agg) -SELECT t1.user_id AS col1, - t2.user_id AS col2 -FROM raw_events_first t1 - FULL JOIN raw_events_second t2 - ON t1.user_id = t2.user_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT t1.user_id AS col1, t2.user_id AS col2 FROM (multi_insert_select.raw_events_first_13300000 t1 FULL JOIN multi_insert_select.raw_events_second_13300004 t2 ON ((t1.user_id OPERATOR(pg_catalog.=) t2.user_id))) WHERE (t1.user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT t1.user_id AS col1, t2.user_id AS col2 FROM (multi_insert_select.raw_events_first_13300001 t1 FULL JOIN multi_insert_select.raw_events_second_13300005 t2 ON ((t1.user_id OPERATOR(pg_catalog.=) t2.user_id))) WHERE (t1.user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT t1.user_id AS col1, t2.user_id AS col2 FROM (multi_insert_select.raw_events_first_13300002 t1 FULL JOIN multi_insert_select.raw_events_second_13300006 t2 ON ((t1.user_id OPERATOR(pg_catalog.=) t2.user_id))) WHERE (t1.user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT t1.user_id AS col1, t2.user_id AS col2 FROM (multi_insert_select.raw_events_first_13300003 t1 FULL JOIN multi_insert_select.raw_events_second_13300007 t2 ON ((t1.user_id OPERATOR(pg_catalog.=) t2.user_id))) WHERE (t1.user_id IS NOT NULL) -SET client_min_messages TO INFO; --- see that the results are different from the SELECT query -SELECT - user_id, value_1_agg -FROM - agg_events -ORDER BY - user_id, value_1_agg; - user_id | value_1_agg ---------------------------------------------------------------------- - 1 | 1 - 2 | - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 6 - 7 | 7 - 8 | 8 - 9 | 9 -(9 rows) - --- we don't want to see constraint violations, so truncate first -SET client_min_messages TO INFO; -TRUNCATE agg_events; -SET client_min_messages TO DEBUG2; --- DISTINCT clause -INSERT INTO agg_events (value_1_agg, user_id) - SELECT - DISTINCT value_1, user_id - FROM - raw_events_first; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT user_id, value_1 FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT user_id, value_1 FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT user_id, value_1 FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT user_id, value_1 FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) --- we don't want to see constraint violations, so truncate first -SET client_min_messages TO INFO; -truncate agg_events; -SET client_min_messages TO DEBUG2; --- DISTINCT ON clauses are supported --- distinct on(non-partition column) --- values are pulled to master -INSERT INTO agg_events (value_1_agg, user_id) - SELECT - DISTINCT ON (value_1) value_1, user_id - FROM - raw_events_first; -DEBUG: cannot push down this subquery -DETAIL: Distinct on columns without partition column is currently unsupported -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Collecting INSERT ... SELECT results on coordinator -SELECT user_id, value_1_agg FROM agg_events ORDER BY 1,2; -DEBUG: Router planner cannot handle multi-shard select queries - user_id | value_1_agg ---------------------------------------------------------------------- - 1 | 10 - 2 | 20 - 3 | 30 - 4 | 40 - 5 | 50 - 6 | 60 - 7 | - 8 | 80 - 9 | 90 -(9 rows) - --- we don't want to see constraint violations, so truncate first -SET client_min_messages TO INFO; -truncate agg_events; -SET client_min_messages TO DEBUG2; --- distinct on(partition column) --- queries are forwared to workers -INSERT INTO agg_events (value_1_agg, user_id) - SELECT - DISTINCT ON (user_id) value_1, user_id - FROM - raw_events_first; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT ON (user_id) user_id, value_1 FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT ON (user_id) user_id, value_1 FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT ON (user_id) user_id, value_1 FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT DISTINCT ON (user_id) user_id, value_1 FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) -SELECT user_id, value_1_agg FROM agg_events ORDER BY 1,2; -DEBUG: Router planner cannot handle multi-shard select queries - user_id | value_1_agg ---------------------------------------------------------------------- - 1 | 10 - 2 | 20 - 3 | 30 - 4 | 40 - 5 | 50 - 6 | 60 - 7 | - 8 | 80 - 9 | 90 -(9 rows) - --- We support CTEs -BEGIN; -WITH fist_table_agg AS MATERIALIZED - (SELECT max(value_1)+1 as v1_agg, user_id FROM raw_events_first GROUP BY user_id) -INSERT INTO agg_events - (value_1_agg, user_id) - SELECT - v1_agg, user_id - FROM - fist_table_agg; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for CTE fist_table_agg: SELECT (max(value_1) OPERATOR(pg_catalog.+) 1) AS v1_agg, user_id FROM multi_insert_select.raw_events_first GROUP BY user_id -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT user_id, v1_agg AS value_1_agg FROM (SELECT fist_table_agg.user_id, fist_table_agg.v1_agg FROM (SELECT intermediate_result.v1_agg, intermediate_result.user_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(v1_agg integer, user_id integer)) fist_table_agg) citus_insert_select_subquery -DEBUG: Creating router plan -DEBUG: Collecting INSERT ... SELECT results on coordinator -ROLLBACK; --- We do support CTEs that are referenced in the target list -INSERT INTO agg_events - WITH sub_cte AS (SELECT 1) - SELECT - raw_events_first.user_id, (SELECT * FROM sub_cte) - FROM - raw_events_first; -DEBUG: CTE sub_cte is going to be inlined via distributed planning -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, (SELECT sub_cte."?column?" FROM (SELECT 1) sub_cte("?column?")) FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, (SELECT sub_cte."?column?" FROM (SELECT 1) sub_cte("?column?")) FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, (SELECT sub_cte."?column?" FROM (SELECT 1) sub_cte("?column?")) FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_1_agg) SELECT user_id, (SELECT sub_cte."?column?" FROM (SELECT 1) sub_cte("?column?")) FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE (user_id IS NOT NULL) --- We support set operations -BEGIN; -INSERT INTO - raw_events_first(user_id) -SELECT - user_id -FROM - ((SELECT user_id FROM raw_events_first) UNION - (SELECT user_id FROM raw_events_second)) as foo; -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300000 AS citus_table_alias (user_id) SELECT user_id FROM (SELECT raw_events_first.user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first UNION SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300004 raw_events_second) foo WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300001 AS citus_table_alias (user_id) SELECT user_id FROM (SELECT raw_events_first.user_id FROM multi_insert_select.raw_events_first_13300001 raw_events_first UNION SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300005 raw_events_second) foo WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300002 AS citus_table_alias (user_id) SELECT user_id FROM (SELECT raw_events_first.user_id FROM multi_insert_select.raw_events_first_13300002 raw_events_first UNION SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300006 raw_events_second) foo WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300003 AS citus_table_alias (user_id) SELECT user_id FROM (SELECT raw_events_first.user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first UNION SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300007 raw_events_second) foo WHERE (user_id IS NOT NULL) -ROLLBACK; --- We do support set operations through recursive planning -BEGIN; -SET LOCAL client_min_messages TO DEBUG; -INSERT INTO - raw_events_first(user_id) - (SELECT user_id FROM raw_events_first) INTERSECT - (SELECT user_id FROM raw_events_first); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT user_id FROM multi_insert_select.raw_events_first -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_2 for subquery SELECT user_id FROM multi_insert_select.raw_events_first -DEBUG: Creating router plan -DEBUG: generating subplan XXX_3 for subquery SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer) INTERSECT SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT user_id FROM (SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer)) citus_insert_select_subquery -DEBUG: Creating router plan -DEBUG: Collecting INSERT ... SELECT results on coordinator -ROLLBACK; --- If the query is router plannable then it is executed via the coordinator -INSERT INTO - raw_events_first(user_id) -SELECT - user_id -FROM - ((SELECT user_id FROM raw_events_first WHERE user_id = 15) EXCEPT - (SELECT user_id FROM raw_events_second where user_id = 17)) as foo; -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: router planner does not support queries that reference non-colocated distributed tables -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 15 -DEBUG: generating subplan XXX_1 for subquery SELECT user_id FROM multi_insert_select.raw_events_first WHERE (user_id OPERATOR(pg_catalog.=) 15) -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: query has a single distribution column value: 17 -DEBUG: generating subplan XXX_2 for subquery SELECT user_id FROM multi_insert_select.raw_events_second WHERE (user_id OPERATOR(pg_catalog.=) 17) -DEBUG: Creating router plan -DEBUG: generating subplan XXX_3 for subquery SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer) EXCEPT SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT user_id FROM (SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer)) foo -DEBUG: Creating router plan -DEBUG: Collecting INSERT ... SELECT results on coordinator --- some supported LEFT joins - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300000 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300004 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (raw_events_first.user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300001 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300005 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (raw_events_first.user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300002 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300006 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (raw_events_first.user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300003 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300007 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (raw_events_first.user_id IS NOT NULL) - INSERT INTO agg_events (user_id) - SELECT - raw_events_second.user_id - FROM - reference_table LEFT JOIN raw_events_second ON reference_table.user_id = raw_events_second.user_id; -DEBUG: cannot perform a lateral outer join when a distributed subquery references a reference table -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: recursively planning right side of the left join since the outer side is a recurring rel -DEBUG: recursively planning distributed relation "raw_events_second" since it is part of a distributed join node that is outer joined with a recurring rel -DEBUG: Wrapping relation "raw_events_second" to a subquery -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: generating subplan XXX_1 for subquery SELECT user_id FROM multi_insert_select.raw_events_second WHERE true -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT raw_events_second.user_id FROM (multi_insert_select.reference_table LEFT JOIN (SELECT raw_events_second_1.user_id, NULL::timestamp without time zone AS "time", NULL::integer AS value_1, NULL::integer AS value_2, NULL::double precision AS value_3, NULL::bigint AS value_4 FROM (SELECT intermediate_result.user_id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer)) raw_events_second_1) raw_events_second ON ((reference_table.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) -DEBUG: Creating router plan -DEBUG: Collecting INSERT ... SELECT results on coordinator - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id - WHERE raw_events_first.user_id = 10; -DEBUG: Creating router plan -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300000 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300004 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) 10) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: Skipping target shard interval 13300009 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300010 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300011 since SELECT query for it pruned away - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id - WHERE raw_events_second.user_id = 10 OR raw_events_second.user_id = 11; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300000 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300004 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (((raw_events_second.user_id OPERATOR(pg_catalog.=) 10) OR (raw_events_second.user_id OPERATOR(pg_catalog.=) 11)) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300001 raw_events_first LEFT JOIN (SELECT NULL::integer AS user_id, NULL::timestamp without time zone AS "time", NULL::integer AS value_1, NULL::integer AS value_2, NULL::double precision AS value_3, NULL::bigint AS value_4 WHERE false) raw_events_second(user_id, "time", value_1, value_2, value_3, value_4) ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (((raw_events_second.user_id OPERATOR(pg_catalog.=) 10) OR (raw_events_second.user_id OPERATOR(pg_catalog.=) 11)) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300002 raw_events_first LEFT JOIN (SELECT NULL::integer AS user_id, NULL::timestamp without time zone AS "time", NULL::integer AS value_1, NULL::integer AS value_2, NULL::double precision AS value_3, NULL::bigint AS value_4 WHERE false) raw_events_second(user_id, "time", value_1, value_2, value_3, value_4) ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (((raw_events_second.user_id OPERATOR(pg_catalog.=) 10) OR (raw_events_second.user_id OPERATOR(pg_catalog.=) 11)) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300003 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300007 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE (((raw_events_second.user_id OPERATOR(pg_catalog.=) 10) OR (raw_events_second.user_id OPERATOR(pg_catalog.=) 11)) AND (raw_events_first.user_id IS NOT NULL)) - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id - WHERE raw_events_first.user_id = 10 AND raw_events_first.user_id = 20; -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300008 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300009 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300010 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300011 since SELECT query for it pruned away - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id - WHERE raw_events_first.user_id = 10 AND raw_events_second.user_id = 20; -DEBUG: Creating router plan -DEBUG: Skipping target shard interval 13300008 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300009 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300010 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300011 since SELECT query for it pruned away - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id - WHERE raw_events_first.user_id IN (19, 20, 21); -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300000 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300004 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300001 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300005 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300002 raw_events_first LEFT JOIN multi_insert_select.raw_events_second_13300006 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM ((SELECT NULL::integer AS user_id, NULL::timestamp without time zone AS "time", NULL::integer AS value_1, NULL::integer AS value_2, NULL::double precision AS value_3, NULL::bigint AS value_4 WHERE false) raw_events_first(user_id, "time", value_1, value_2, value_3, value_4) LEFT JOIN multi_insert_select.raw_events_second_13300007 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_first.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.user_id - WHERE raw_events_second.user_id IN (19, 20, 21); -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300000 raw_events_first JOIN multi_insert_select.raw_events_second_13300004 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300001 raw_events_first JOIN multi_insert_select.raw_events_second_13300005 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300002 raw_events_first JOIN multi_insert_select.raw_events_second_13300006 raw_events_second ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id) SELECT raw_events_first.user_id FROM (multi_insert_select.raw_events_first_13300003 raw_events_first JOIN (SELECT NULL::integer AS user_id, NULL::timestamp without time zone AS "time", NULL::integer AS value_1, NULL::integer AS value_2, NULL::double precision AS value_3, NULL::bigint AS value_4 WHERE false) raw_events_second(user_id, "time", value_1, value_2, value_3, value_4) ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id))) WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.=) ANY (ARRAY[19, 20, 21])) AND (raw_events_first.user_id IS NOT NULL)) -SET client_min_messages TO WARNING; - -- following query should use repartitioned joins and results should - -- be routed via coordinator - SET citus.enable_repartition_joins TO true; - INSERT INTO agg_events - (user_id) - SELECT raw_events_first.user_id - FROM raw_events_first, - raw_events_second - WHERE raw_events_second.user_id = raw_events_first.value_1 - AND raw_events_first.value_1 = 12; - -- some unsupported LEFT/INNER JOINs - -- JOIN on one table with partition column other is not - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.value_1; -ERROR: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns - -- same as the above with INNER JOIN - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.value_1; - -- a not meaningful query - INSERT INTO agg_events - (user_id) - SELECT raw_events_second.user_id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_first.value_1; -ERROR: cannot perform distributed planning on this query -DETAIL: Cartesian products are currently unsupported - -- both tables joined on non-partition columns - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.value_1 = raw_events_second.value_1; -ERROR: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns - -- same as the above with INNER JOIN - -- we support this with route to coordinator - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.value_1 = raw_events_second.value_1; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - --- EXPLAIN ANALYZE is not supported for INSERT ... SELECT via coordinator -EXPLAIN (costs off, analyze on) - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.value_1 = raw_events_second.value_1; -ERROR: EXPLAIN ANALYZE is currently not supported for INSERT ... SELECT commands via coordinator --- even if there is a filter on the partition key, since the join is not on the partition key we reject --- this query -INSERT INTO agg_events (user_id) -SELECT - raw_events_first.user_id -FROM - raw_events_first LEFT JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.value_1 -WHERE - raw_events_first.user_id = 10; -ERROR: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns - -- same as the above with INNER JOIN - -- we support this with route to coordinator - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.value_1 - WHERE raw_events_first.user_id = 10; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - - -- make things a bit more complicate with IN clauses - -- we support this with route to coordinator - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events (user_id) - SELECT - raw_events_first.user_id - FROM - raw_events_first INNER JOIN raw_events_second ON raw_events_first.user_id = raw_events_second.value_1 - WHERE raw_events_first.value_1 IN (10, 11,12) OR raw_events_second.user_id IN (1,2,3,4); -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - - -- implicit join on non partition column should also not be pushed down, - -- so we fall back to route via coordinator - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events - (user_id) - SELECT raw_events_first.user_id - FROM raw_events_first, - raw_events_second - WHERE raw_events_second.user_id = raw_events_first.value_1; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - -RESET client_min_messages; - -- The following is again a tricky query for Citus. If the given filter was - -- on value_1 as shown in the above, Citus could push it down and use - -- distributed INSERT/SELECT. But we instead fall back to route via coordinator. - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events - (user_id) - SELECT raw_events_first.user_id - FROM raw_events_first, - raw_events_second - WHERE raw_events_second.user_id = raw_events_first.value_1 - AND raw_events_first.value_2 = 12; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - - -- foo is not joined on the partition key so the query is not - -- pushed down. So instead we route via coordinator. - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events - (user_id, value_4_agg) - SELECT - outer_most.id, max(outer_most.value) - FROM - ( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT reference_table.user_id AS id - FROM raw_events_first LEFT JOIN - reference_table - ON (raw_events_first.value_1 = reference_table.user_id)) AS foo) as f - INNER JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 - ON (f.id = f2.id)) as outer_most - GROUP BY - outer_most.id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(8 rows) - - -- if the given filter was on value_1 as shown in the above, Citus could - -- push it down. But here the query falls back to route via coordinator. - SELECT coordinator_plan($Q$ - EXPLAIN (costs off) - INSERT INTO agg_events - (user_id) - SELECT raw_events_first.user_id - FROM raw_events_first, - raw_events_second - WHERE raw_events_second.user_id = raw_events_first.value_1 - AND raw_events_first.value_2 = 12; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - - -- foo is not joined on the partition key so the query is not - -- pushed down, and it falls back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) - INSERT INTO agg_events - (user_id, value_4_agg) - SELECT - outer_most.id, max(outer_most.value) - FROM - ( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT reference_table.user_id AS id - FROM raw_events_first LEFT JOIN - reference_table - ON (raw_events_first.value_1 = reference_table.user_id)) AS foo) as f - INNER JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 - ON (f.id = f2.id)) as outer_most - GROUP BY - outer_most.id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(8 rows) - -INSERT INTO agg_events - (value_4_agg, - value_1_agg, - user_id) -SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id != raw_events_second.user_id - GROUP BY raw_events_second.user_id) AS foo; -ERROR: complex joins are only supported when all distributed tables are joined on their distribution columns with equal operator -SET client_min_messages TO DEBUG2; --- INSERT returns NULL partition key value via coordinator -INSERT INTO agg_events - (value_4_agg, - value_1_agg, - user_id) -SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.value_3 AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.value_3) AS foo; -DEBUG: cannot push down this subquery -DETAIL: Group by list without partition column is currently unsupported when a subquery references a column from another query -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [-1073741824,-1] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [0,1073741823] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [1073741824,2147483647] -DEBUG: join prunable for intervals [-1073741824,-1] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [-1073741824,-1] and [0,1073741823] -DEBUG: join prunable for intervals [-1073741824,-1] and [1073741824,2147483647] -DEBUG: join prunable for intervals [0,1073741823] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [0,1073741823] and [-1073741824,-1] -DEBUG: join prunable for intervals [0,1073741823] and [1073741824,2147483647] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-1073741824,-1] -DEBUG: join prunable for intervals [1073741824,2147483647] and [0,1073741823] -DEBUG: generating subplan XXX_1 for subquery SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.value_3 AS id FROM multi_insert_select.raw_events_first, multi_insert_select.raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.value_3 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT int4(id) AS user_id, int4(v1) AS value_1_agg, int8(v4) AS value_4_agg FROM (SELECT intermediate_result.v4, intermediate_result.v1, intermediate_result.id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(v4 numeric, v1 bigint, id double precision)) foo -DEBUG: Creating router plan -DEBUG: Collecting INSERT ... SELECT results on coordinator -ERROR: the partition column of table multi_insert_select.agg_events cannot be NULL --- error cases --- no part column at all -INSERT INTO raw_events_second - (value_1) -SELECT value_1 -FROM raw_events_first; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: the query doesn't include the target table's partition column -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -ERROR: the partition column of table multi_insert_select.raw_events_second should have a value -INSERT INTO raw_events_second - (value_1) -SELECT user_id -FROM raw_events_first; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: the query doesn't include the target table's partition column -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -ERROR: the partition column of table multi_insert_select.raw_events_second should have a value -INSERT INTO raw_events_second - (user_id) -SELECT value_1 -FROM raw_events_first; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' -ERROR: the partition column value cannot be NULL -CONTEXT: while executing command on localhost:xxxxx -INSERT INTO raw_events_second - (user_id) -SELECT user_id * 2 -FROM raw_events_first; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an operator in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300000_to_0,repartitioned_results_xxxxx_from_13300001_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300000_to_1,repartitioned_results_xxxxx_from_13300001_to_1,repartitioned_results_xxxxx_from_13300003_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300001_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300000_to_3,repartitioned_results_xxxxx_from_13300002_to_3,repartitioned_results_xxxxx_from_13300003_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -INSERT INTO raw_events_second - (user_id) -SELECT user_id :: bigint -FROM raw_events_first; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an explicit cast in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300000_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300001_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300002_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM read_intermediate_results('{repartitioned_results_xxxxx_from_13300003_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(user_id integer) -INSERT INTO agg_events - (value_3_agg, - value_4_agg, - value_1_agg, - value_2_agg, - user_id) -SELECT SUM(value_3), - Count(value_4), - user_id, - SUM(value_1), - Avg(value_2) -FROM raw_events_first -GROUP BY user_id; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an aggregation in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' -ERROR: the partition column value cannot be NULL -CONTEXT: while executing command on localhost:xxxxx -INSERT INTO agg_events - (value_3_agg, - value_4_agg, - value_1_agg, - value_2_agg, - user_id) -SELECT SUM(value_3), - Count(value_4), - user_id, - SUM(value_1), - value_2 -FROM raw_events_first -GROUP BY user_id, - value_2; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' -ERROR: the partition column value cannot be NULL -CONTEXT: while executing command on localhost:xxxxx --- tables should be co-located -INSERT INTO agg_events (user_id) -SELECT - user_id -FROM - reference_table; -DEBUG: Creating router plan -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Distributed planning for a fast-path router query -DEBUG: Creating router plan -DEBUG: Collecting INSERT ... SELECT results on coordinator --- foo2 is recursively planned and INSERT...SELECT is done via coordinator -INSERT INTO agg_events - (user_id) -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - raw_events_second.value_1 AS v1, - SUM(raw_events_second.user_id) AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.value_1 - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [-1073741824,-1] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [0,1073741823] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [1073741824,2147483647] -DEBUG: join prunable for intervals [-1073741824,-1] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [-1073741824,-1] and [0,1073741823] -DEBUG: join prunable for intervals [-1073741824,-1] and [1073741824,2147483647] -DEBUG: join prunable for intervals [0,1073741823] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [0,1073741823] and [-1073741824,-1] -DEBUG: join prunable for intervals [0,1073741823] and [1073741824,2147483647] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-1073741824,-1] -DEBUG: join prunable for intervals [1073741824,2147483647] and [0,1073741823] -DEBUG: generating subplan XXX_1 for subquery SELECT sum(raw_events_second.value_4) AS v4, raw_events_second.value_1 AS v1, sum(raw_events_second.user_id) AS id FROM multi_insert_select.raw_events_first, multi_insert_select.raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.value_1 HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT int4(f2.id) AS user_id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first, multi_insert_select.reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT intermediate_result.v4, intermediate_result.v1, intermediate_result.id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(v4 numeric, v1 integer, id bigint)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' --- the second part of the query is not routable since --- GROUP BY not on the partition column (i.e., value_1) and thus join --- on f.id = f2.id is not on the partition key (instead on the sum of partition key) --- but we still recursively plan foo2 and run the query -INSERT INTO agg_events - (user_id) -SELECT f.id FROM -(SELECT - id -FROM (SELECT raw_events_first.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - raw_events_second.value_1 AS v1, - SUM(raw_events_second.user_id) AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.value_1 - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [-1073741824,-1] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [0,1073741823] -DEBUG: join prunable for intervals [-2147483648,-1073741825] and [1073741824,2147483647] -DEBUG: join prunable for intervals [-1073741824,-1] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [-1073741824,-1] and [0,1073741823] -DEBUG: join prunable for intervals [-1073741824,-1] and [1073741824,2147483647] -DEBUG: join prunable for intervals [0,1073741823] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [0,1073741823] and [-1073741824,-1] -DEBUG: join prunable for intervals [0,1073741823] and [1073741824,2147483647] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-2147483648,-1073741825] -DEBUG: join prunable for intervals [1073741824,2147483647] and [-1073741824,-1] -DEBUG: join prunable for intervals [1073741824,2147483647] and [0,1073741823] -DEBUG: generating subplan XXX_1 for subquery SELECT sum(raw_events_second.value_4) AS v4, raw_events_second.value_1 AS v1, sum(raw_events_second.user_id) AS id FROM multi_insert_select.raw_events_first, multi_insert_select.raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.value_1 HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT f.id AS user_id FROM ((SELECT foo.id FROM (SELECT raw_events_first.user_id AS id FROM multi_insert_select.raw_events_first, multi_insert_select.reference_table WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT intermediate_result.v4, intermediate_result.v1, intermediate_result.id FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(v4 numeric, v1 integer, id bigint)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'user_id' -SET client_min_messages TO WARNING; --- cannot pushdown the query since the JOIN is not equi JOIN --- falls back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events - (user_id, value_4_agg) -SELECT -outer_most.id, max(outer_most.value) - FROM -( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f - INNER JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id != f2.id)) as outer_most -GROUP BY outer_most.id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(8 rows) - --- cannot pushdown since foo2 is not join on partition key --- falls back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events - (user_id, value_4_agg) -SELECT - outer_most.id, max(outer_most.value) -FROM -( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f - INNER JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.value_1 - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id)) as outer_most -GROUP BY - outer_most.id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> HashAggregate - Group Key: remote_scan.id - Filter: (pg_catalog.sum(remote_scan.worker_column_4) > '10'::numeric) - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(11 rows) - --- cannot push down since foo doesn't have en equi join --- falls back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events - (user_id, value_4_agg) -SELECT - outer_most.id, max(outer_most.value) -FROM -( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id != reference_table.user_id ) AS foo) as f - INNER JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id)) as outer_most -GROUP BY - outer_most.id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(8 rows) - --- some unsupported LATERAL JOINs --- join on averages is not on the partition key --- should fall back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events (user_id, value_4_agg) -SELECT - averages.user_id, avg(averages.value_4) -FROM - (SELECT - raw_events_second.user_id - FROM - reference_table JOIN raw_events_second on (reference_table.user_id = raw_events_second.user_id) - ) reference_ids - JOIN LATERAL - (SELECT - user_id, value_4 - FROM - raw_events_first WHERE - value_4 = reference_ids.user_id) as averages ON true - GROUP BY averages.user_id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(6 rows) - --- join among reference_ids and averages is not on the partition key --- should fall back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events (user_id, value_4_agg) -SELECT - averages.user_id, avg(averages.value_4) -FROM - (SELECT - raw_events_second.user_id - FROM - reference_table JOIN raw_events_second on (reference_table.user_id = raw_events_second.user_id) - ) reference_ids - JOIN LATERAL - (SELECT - user_id, value_4 - FROM - raw_events_first) as averages ON averages.value_4 = reference_ids.user_id - GROUP BY averages.user_id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> HashAggregate - Group Key: remote_scan.user_id - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(8 rows) - --- join among the agg_ids and averages is not on the partition key --- should fall back to route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events (user_id, value_4_agg) -SELECT - averages.user_id, avg(averages.value_4) -FROM - (SELECT - raw_events_second.user_id - FROM - reference_table JOIN raw_events_second on (reference_table.user_id = raw_events_second.user_id) - ) reference_ids - JOIN LATERAL - (SELECT - user_id, value_4 - FROM - raw_events_first) as averages ON averages.user_id = reference_ids.user_id -JOIN LATERAL - (SELECT user_id, value_4 FROM agg_events) as agg_ids ON (agg_ids.value_4 = averages.user_id) - GROUP BY averages.user_id; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - --- Selected value in the WHERE is not partition key, so we cannot use distributed --- INSERT/SELECT and falls back route via coordinator -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN (SELECT value_1 - FROM raw_events_second); -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(6 rows) - --- same as above but slightly more complex --- since it also includes subquery in FROM as well -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO agg_events - (user_id) -SELECT f2.id FROM - -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id) -WHERE f.id IN (SELECT value_1 - FROM raw_events_second); -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(6 rows) - --- some more semi-anti join tests -SET client_min_messages TO DEBUG2; --- join in where -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN (SELECT raw_events_second.user_id - FROM raw_events_second, raw_events_first - WHERE raw_events_second.user_id = raw_events_first.user_id AND raw_events_first.user_id = 200); -DEBUG: Creating router plan -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300004 raw_events_second, multi_insert_select.raw_events_first_13300000 raw_events_first_1 WHERE ((raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first_1.user_id) AND (raw_events_first_1.user_id OPERATOR(pg_catalog.=) 200)))) AND (user_id IS NOT NULL)) -DEBUG: Skipping target shard interval 13300005 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300006 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300007 since SELECT query for it pruned away -RESET client_min_messages; --- we cannot push this down since it is NOT IN --- we use repartition insert/select instead -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id NOT IN (SELECT raw_events_second.user_id - FROM raw_events_second, raw_events_first - WHERE raw_events_second.user_id = raw_events_first.user_id AND raw_events_first.user_id = 200); -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 1 -(6 rows) - -SET client_min_messages TO DEBUG2; --- safe to push down -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE EXISTS (SELECT 1 - FROM raw_events_second - WHERE raw_events_second.user_id =raw_events_first.user_id); -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id))) AND (user_id IS NOT NULL)) --- we cannot push down -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE NOT EXISTS (SELECT 1 - FROM raw_events_second - WHERE raw_events_second.user_id =raw_events_first.user_id); -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((NOT (EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((NOT (EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((NOT (EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((NOT (EXISTS (SELECT 1 FROM multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_second.user_id OPERATOR(pg_catalog.=) raw_events_first.user_id)))) AND (user_id IS NOT NULL)) --- more complex LEFT JOINs - INSERT INTO agg_events - (user_id, value_4_agg) - SELECT - outer_most.id, max(outer_most.value) - FROM - ( - SELECT f2.id as id, f2.v4 as value FROM - (SELECT - id - FROM (SELECT raw_events_first.user_id AS id - FROM raw_events_first LEFT JOIN - reference_table - ON (raw_events_first.user_id = reference_table.user_id)) AS foo) as f - LEFT JOIN - (SELECT v4, - v1, - id - FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 - ON (f.id = f2.id)) as outer_most - GROUP BY - outer_most.id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300008 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT raw_events_first.user_id AS id FROM (multi_insert_select.raw_events_first_13300000 raw_events_first LEFT JOIN multi_insert_select.reference_table_13300012 reference_table ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)))) foo) f LEFT JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300009 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT raw_events_first.user_id AS id FROM (multi_insert_select.raw_events_first_13300001 raw_events_first LEFT JOIN multi_insert_select.reference_table_13300012 reference_table ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)))) foo) f LEFT JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300010 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT raw_events_first.user_id AS id FROM (multi_insert_select.raw_events_first_13300002 raw_events_first LEFT JOIN multi_insert_select.reference_table_13300012 reference_table ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)))) foo) f LEFT JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -DEBUG: distributed statement: INSERT INTO multi_insert_select.agg_events_13300011 AS citus_table_alias (user_id, value_4_agg) SELECT id, max(value) AS max FROM (SELECT f2.id, f2.v4 AS value FROM ((SELECT foo.id FROM (SELECT raw_events_first.user_id AS id FROM (multi_insert_select.raw_events_first_13300003 raw_events_first LEFT JOIN multi_insert_select.reference_table_13300012 reference_table ON ((raw_events_first.user_id OPERATOR(pg_catalog.=) reference_table.user_id)))) foo) f LEFT JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id)))) outer_most WHERE (id IS NOT NULL) GROUP BY id -RESET client_min_messages; --- cannot push down since the f.id IN is matched with value_1 --- we use repartition insert/select instead -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN ( -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id) -WHERE f.id IN (SELECT value_1 - FROM raw_events_second)); -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(6 rows) - -SET client_min_messages TO DEBUG2; --- same as above, but this time is it safe to push down since --- f.id IN is matched with user_id -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN ( -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id) -WHERE f.id IN (SELECT user_id - FROM raw_events_second)); -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300004 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300000 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first_1, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first_1.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300000 raw_events_first_1, multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300004 raw_events_second)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300005 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300001 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first_1, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first_1.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300001 raw_events_first_1, multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300005 raw_events_second)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300006 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300002 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first_1, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first_1.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300002 raw_events_first_1, multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300006 raw_events_second)))) AND (user_id IS NOT NULL)) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_second_13300007 AS citus_table_alias (user_id) SELECT user_id FROM multi_insert_select.raw_events_first_13300003 raw_events_first WHERE ((user_id OPERATOR(pg_catalog.=) ANY (SELECT f2.id FROM ((SELECT foo.id FROM (SELECT reference_table.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first_1, multi_insert_select.reference_table_13300012 reference_table WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) reference_table.user_id)) foo) f JOIN (SELECT foo2.v4, foo2.v1, foo2.id FROM (SELECT sum(raw_events_second.value_4) AS v4, sum(raw_events_first_1.value_1) AS v1, raw_events_second.user_id AS id FROM multi_insert_select.raw_events_first_13300003 raw_events_first_1, multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (raw_events_first_1.user_id OPERATOR(pg_catalog.=) raw_events_second.user_id) GROUP BY raw_events_second.user_id HAVING (sum(raw_events_second.value_4) OPERATOR(pg_catalog.>) (10)::numeric)) foo2) f2 ON ((f.id OPERATOR(pg_catalog.=) f2.id))) WHERE (f.id OPERATOR(pg_catalog.=) ANY (SELECT raw_events_second.user_id FROM multi_insert_select.raw_events_second_13300007 raw_events_second)))) AND (user_id IS NOT NULL)) -RESET client_min_messages; --- cannot push down since top level user_id is matched with NOT IN -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id NOT IN ( -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id = f2.id) -WHERE f.id IN (SELECT user_id - FROM raw_events_second)); --- cannot push down since join is not equi join (f.id > f2.id) -INSERT INTO raw_events_second - (user_id) -SELECT user_id -FROM raw_events_first -WHERE user_id IN ( -SELECT f2.id FROM -(SELECT - id -FROM (SELECT reference_table.user_id AS id - FROM raw_events_first, - reference_table - WHERE raw_events_first.user_id = reference_table.user_id ) AS foo) as f -INNER JOIN -(SELECT v4, - v1, - id -FROM (SELECT SUM(raw_events_second.value_4) AS v4, - SUM(raw_events_first.value_1) AS v1, - raw_events_second.user_id AS id - FROM raw_events_first, - raw_events_second - WHERE raw_events_first.user_id = raw_events_second.user_id - GROUP BY raw_events_second.user_id - HAVING SUM(raw_events_second.value_4) > 10) AS foo2 ) as f2 -ON (f.id > f2.id) -WHERE f.id IN (SELECT user_id - FROM raw_events_second)); --- we currently not support grouping sets -INSERT INTO agg_events - (user_id, - value_1_agg, - value_2_agg) -SELECT user_id, - Sum(value_1) AS sum_val1, - Sum(value_2) AS sum_val2 -FROM raw_events_second -GROUP BY grouping sets ( ( user_id ), ( value_1 ), ( user_id, value_1 ), ( ) ); -ERROR: could not run distributed query with GROUPING SETS, CUBE, or ROLLUP -HINT: Consider using an equality filter on the distributed table's partition column. --- set back to INFO -SET client_min_messages TO INFO; --- avoid constraint violations -TRUNCATE raw_events_first; --- we don't support LIMIT for subquery pushdown, but --- we recursively plan the query and run it via coordinator -INSERT INTO agg_events(user_id) -SELECT user_id -FROM users_table -WHERE user_id - IN (SELECT - user_id - FROM ( - ( - SELECT - user_id - FROM - ( - SELECT - e1.user_id - FROM - users_table u1, events_table e1 - WHERE - e1.user_id = u1.user_id LIMIT 3 - ) as f_inner - ) - ) AS f2); --- Altering a table and selecting from it using a multi-shard statement --- in the same transaction is allowed because we will use the same --- connections for all co-located placements. -BEGIN; -ALTER TABLE raw_events_second DROP COLUMN value_4; -INSERT INTO raw_events_first SELECT * FROM raw_events_second; -ROLLBACK; --- Alterating a table and selecting from it using a single-shard statement --- in the same transaction is disallowed because we will use a different --- connection. -BEGIN; -ALTER TABLE raw_events_second DROP COLUMN value_4; -INSERT INTO raw_events_first SELECT * FROM raw_events_second WHERE user_id = 100; -ROLLBACK; --- Altering a reference table and then performing an INSERT ... SELECT which --- joins with the reference table is allowed, since the INSERT ... SELECT --- would read from the reference table over the same connections with the ones --- that performed the parallel DDL. -BEGIN; -ALTER TABLE reference_table ADD COLUMN z int; -INSERT INTO raw_events_first (user_id) -SELECT user_id FROM raw_events_second JOIN reference_table USING (user_id); -ROLLBACK; --- the same test with sequential DDL should work fine -BEGIN; -SET LOCAL citus.multi_shard_modify_mode TO 'sequential'; -ALTER TABLE reference_table ADD COLUMN z int; -INSERT INTO raw_events_first (user_id) -SELECT user_id FROM raw_events_second JOIN reference_table USING (user_id); -ROLLBACK; --- Insert after copy is allowed -BEGIN; -COPY raw_events_second (user_id, value_1) FROM STDIN DELIMITER ','; -INSERT INTO raw_events_first SELECT * FROM raw_events_second; -ROLLBACK; --- Insert after copy is currently allowed for single-shard operation. --- Both insert and copy are rolled back successfully. -BEGIN; -COPY raw_events_second (user_id, value_1) FROM STDIN DELIMITER ','; -INSERT INTO raw_events_first SELECT * FROM raw_events_second WHERE user_id = 101; -SELECT user_id FROM raw_events_first WHERE user_id = 101; - user_id ---------------------------------------------------------------------- - 101 -(1 row) - -ROLLBACK; -BEGIN; -INSERT INTO raw_events_first SELECT * FROM raw_events_second; -COPY raw_events_first (user_id, value_1) FROM STDIN DELIMITER ','; -ROLLBACK; -BEGIN; -INSERT INTO raw_events_first SELECT * FROM raw_events_second WHERE user_id = 100; -COPY raw_events_first (user_id, value_1) FROM STDIN DELIMITER ','; -ROLLBACK; --- Similarly, multi-row INSERTs will take part in transactions and reuse connections... -BEGIN; -INSERT INTO raw_events_first SELECT * FROM raw_events_second WHERE user_id = 100; -COPY raw_events_first (user_id, value_1) FROM STDIN DELIMITER ','; -INSERT INTO raw_events_first (user_id, value_1) VALUES (105, 105), (106, 106); -ROLLBACK; --- selecting from views works -CREATE VIEW test_view AS SELECT * FROM raw_events_first; -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (16, now(), 60, 600, 6000.1, 60000); -SELECT count(*) FROM raw_events_second; - count ---------------------------------------------------------------------- - 45 -(1 row) - -INSERT INTO raw_events_second SELECT * FROM test_view; -INSERT INTO raw_events_first (user_id, time, value_1, value_2, value_3, value_4) VALUES - (17, now(), 60, 600, 6000.1, 60000); -INSERT INTO raw_events_second SELECT * FROM test_view WHERE user_id = 17 GROUP BY 1,2,3,4,5,6; -SELECT count(*) FROM raw_events_second; - count ---------------------------------------------------------------------- - 47 -(1 row) - --- intermediate results (CTEs) should be allowed when doing INSERT...SELECT within a CTE -WITH series AS ( - SELECT s AS val FROM generate_series(60,70) s -), -inserts AS ( - INSERT INTO raw_events_second (user_id) - SELECT - user_id - FROM - raw_events_first JOIN series ON (value_1 = val) - RETURNING - NULL -) -SELECT count(*) FROM inserts; - count ---------------------------------------------------------------------- - 2 -(1 row) - --- we need this in our next test -truncate raw_events_first; -SET client_min_messages TO DEBUG2; --- first show that the query works now -INSERT INTO raw_events_first SELECT * FROM raw_events_second; -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300000 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_second_13300004 raw_events_second WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300001 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_second_13300005 raw_events_second WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300002 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_second_13300006 raw_events_second WHERE (user_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300003 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_second_13300007 raw_events_second WHERE (user_id IS NOT NULL) -SET client_min_messages TO INFO; -truncate raw_events_first; -SET client_min_messages TO DEBUG2; --- now show that it works for a single shard query as well -INSERT INTO raw_events_first SELECT * FROM raw_events_second WHERE user_id = 5; -DEBUG: Creating router plan -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300000 AS citus_table_alias (user_id, "time", value_1, value_2, value_3, value_4) SELECT user_id, "time", value_1, value_2, value_3, value_4 FROM multi_insert_select.raw_events_second_13300004 raw_events_second WHERE ((user_id OPERATOR(pg_catalog.=) 5) AND (user_id IS NOT NULL)) -DEBUG: Skipping target shard interval 13300001 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300002 since SELECT query for it pruned away -DEBUG: Skipping target shard interval 13300003 since SELECT query for it pruned away -SET client_min_messages TO INFO; --- now do some tests with varchars -INSERT INTO insert_select_varchar_test VALUES ('test_1', 10); -INSERT INTO insert_select_varchar_test VALUES ('test_2', 30); -INSERT INTO insert_select_varchar_test (key, value) -SELECT *, 100 -FROM (SELECT f1.key - FROM (SELECT key - FROM insert_select_varchar_test - GROUP BY 1 - HAVING Count(key) < 3) AS f1, - (SELECT key - FROM insert_select_varchar_test - GROUP BY 1 - HAVING Sum(COALESCE(insert_select_varchar_test.value, 0)) > - 20.0) - AS f2 - WHERE f1.key = f2.key - GROUP BY 1) AS foo; -SELECT * FROM insert_select_varchar_test ORDER BY 1 DESC, 2 DESC; - key | value ---------------------------------------------------------------------- - test_2 | 100 - test_2 | 30 - test_1 | 10 -(3 rows) - --- some tests with DEFAULT columns and constant values --- this test is mostly importantly intended for deparsing the query correctly --- but still it is preferable to have this test here instead of multi_deparse_shard_query -CREATE TABLE table_with_defaults -( - store_id int, - first_name text, - default_1 int DEFAULT 1, - last_name text, - default_2 text DEFAULT '2' -); --- we don't need many shards -SET citus.shard_count = 2; -SELECT create_distributed_table('table_with_defaults', 'store_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- let's see the queries -SET client_min_messages TO DEBUG2; --- a very simple query -INSERT INTO table_with_defaults SELECT * FROM table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, first_name, default_1, last_name, default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, first_name, default_1, last_name, default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- see that defaults are filled -INSERT INTO table_with_defaults (store_id, first_name) -SELECT - store_id, first_name -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, first_name, 1 AS default_1, '2'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, first_name, 1 AS default_1, '2'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- shuffle one of the defaults and skip the other -INSERT INTO table_with_defaults (default_2, store_id, first_name) -SELECT - default_2, store_id, first_name -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, first_name, 1 AS default_1, default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, first_name, 1 AS default_1, default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- shuffle both defaults -INSERT INTO table_with_defaults (default_2, store_id, default_1, first_name) -SELECT - default_2, store_id, default_1, first_name -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, first_name, default_1, default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, first_name, default_1, default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- use constants instead of non-default column -INSERT INTO table_with_defaults (default_2, last_name, store_id, first_name) -SELECT - default_2, 'Freund', store_id, 'Andres' -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, 'Andres'::text AS first_name, 1 AS default_1, 'Freund'::text AS last_name, default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, 'Andres'::text AS first_name, 1 AS default_1, 'Freund'::text AS last_name, default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- use constants instead of non-default column and skip both defauls -INSERT INTO table_with_defaults (last_name, store_id, first_name) -SELECT - 'Freund', store_id, 'Andres' -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, 'Andres'::text AS first_name, 1 AS default_1, 'Freund'::text AS last_name, '2'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, 'Andres'::text AS first_name, 1 AS default_1, 'Freund'::text AS last_name, '2'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- use constants instead of default columns -INSERT INTO table_with_defaults (default_2, last_name, store_id, first_name, default_1) -SELECT - 20, last_name, store_id, first_name, 10 -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, first_name, 10, last_name, 20 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, first_name, 10, last_name, 20 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- use constants instead of both default columns and non-default columns -INSERT INTO table_with_defaults (default_2, last_name, store_id, first_name, default_1) -SELECT - 20, 'Freund', store_id, 'Andres', 10 -FROM - table_with_defaults; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, 'Andres'::text AS first_name, 10, 'Freund'::text AS last_name, 20 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, last_name, default_2) SELECT store_id, 'Andres'::text AS first_name, 10, 'Freund'::text AS last_name, 20 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) --- some of the ultimate queries where we have constants, --- defaults and group by entry is not on the target entry -INSERT INTO table_with_defaults (default_2, store_id, first_name) -SELECT - '2000', store_id, 'Andres' -FROM - table_with_defaults -GROUP BY - last_name, store_id; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1 AS default_1, '2000'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1 AS default_1, '2000'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id -INSERT INTO table_with_defaults (default_1, store_id, first_name, default_2) -SELECT - 1000, store_id, 'Andres', '2000' -FROM - table_with_defaults -GROUP BY - last_name, store_id, first_name; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1000, '2000'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id, first_name -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1000, '2000'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id, first_name -INSERT INTO table_with_defaults (default_1, store_id, first_name, default_2) -SELECT - 1000, store_id, 'Andres', '2000' -FROM - table_with_defaults -GROUP BY - last_name, store_id, first_name, default_2; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1000, '2000'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id, first_name, default_2 -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1000, '2000'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id, first_name, default_2 -INSERT INTO table_with_defaults (default_1, store_id, first_name) -SELECT - 1000, store_id, 'Andres' -FROM - table_with_defaults -GROUP BY - last_name, store_id, first_name, default_2; -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300017 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1000, '2'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300017 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id, first_name, default_2 -DEBUG: distributed statement: INSERT INTO multi_insert_select.table_with_defaults_13300018 AS citus_table_alias (store_id, first_name, default_1, default_2) SELECT store_id, 'Andres'::text AS first_name, 1000, '2'::text AS default_2 FROM multi_insert_select.table_with_defaults_13300018 table_with_defaults WHERE (store_id IS NOT NULL) GROUP BY last_name, store_id, first_name, default_2 -RESET client_min_messages; --- Stable function in default should be allowed -ALTER TABLE table_with_defaults ADD COLUMN t timestamptz DEFAULT now(); -INSERT INTO table_with_defaults (store_id, first_name, last_name) -SELECT - store_id, 'first '||store_id, 'last '||store_id -FROM - table_with_defaults -GROUP BY - store_id, first_name, last_name; --- Volatile function in default should be disallowed - SERIAL pseudo-types -CREATE TABLE table_with_serial ( - store_id int, - s bigserial -); -SELECT create_distributed_table('table_with_serial', 'store_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO table_with_serial (store_id) -SELECT - store_id -FROM - table_with_defaults -GROUP BY - store_id; --- Volatile function in default should be disallowed - user-defined sequence -CREATE SEQUENCE user_defined_sequence; -CREATE TABLE table_with_user_sequence ( - store_id int, - s bigint default nextval('user_defined_sequence') -); -SELECT create_distributed_table('table_with_user_sequence', 'store_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO table_with_user_sequence (store_id) -SELECT - store_id -FROM - table_with_defaults -GROUP BY - store_id; --- do some more error/error message checks -SET citus.shard_count TO 4; -SET citus.shard_replication_factor TO 1; -CREATE TABLE text_table (part_col text, val int); -CREATE TABLE char_table (part_col char[], val int); -create table table_with_starts_with_defaults (a int DEFAULT 5, b int, c int); -SELECT create_distributed_table('text_table', 'part_col'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('char_table','part_col'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('table_with_starts_with_defaults', 'c'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO DEBUG; -INSERT INTO text_table (part_col) - SELECT - CASE WHEN part_col = 'onder' THEN 'marco' - END -FROM text_table ; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains a case expression in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT COALESCE(part_col, 'onder') FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains a coalesce expression in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT GREATEST(part_col, 'jason') FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains a min/max expression in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT LEAST(part_col, 'andres') FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains a min/max expression in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT NULLIF(part_col, 'metin') FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an expression that is not a simple column reference in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT part_col isnull FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an expression that is not a simple column reference in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT part_col::text from char_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an explicit coercion in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT (part_col = 'burak') is true FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an expression that is not a simple column reference in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT val FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The data type of the target table's partition column should exactly match the data type of the corresponding simple column reference in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -INSERT INTO text_table (part_col) SELECT val::text FROM text_table; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: Subquery contains an explicit coercion in the same position as the target table's partition column. -HINT: Ensure the target table's partition column has a corresponding simple column reference to a distributed table's partition column in the subquery. -DEBUG: Router planner cannot handle multi-shard select queries -DEBUG: performing repartitioned INSERT ... SELECT -DEBUG: partitioning SELECT query by column index 0 with name 'part_col' -RESET client_min_messages; -insert into table_with_starts_with_defaults (b,c) select b,c FROM table_with_starts_with_defaults; --- Test on partition column without native hash function -CREATE TABLE raw_table -( - id BIGINT, - time DATE -); -CREATE TABLE summary_table -( - time DATE, - count BIGINT -); -SELECT create_distributed_table('raw_table', 'time'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('summary_table', 'time'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO raw_table VALUES(1, '11-11-1980'); -INSERT INTO summary_table SELECT time, COUNT(*) FROM raw_table GROUP BY time; -SELECT * FROM summary_table; - time | count ---------------------------------------------------------------------- - 11-11-1980 | 1 -(1 row) - --- Test INSERT ... SELECT via coordinator --- Select from constants -TRUNCATE raw_events_first; -INSERT INTO raw_events_first (user_id, value_1) -SELECT * FROM (VALUES (1,2), (3,4), (5,6)) AS v(int,int); -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 2 - 3 | 4 - 5 | 6 -(3 rows) - --- Select from local functions -TRUNCATE raw_events_first; -CREATE SEQUENCE insert_select_test_seq; -SET client_min_messages TO DEBUG; -INSERT INTO raw_events_first (user_id, value_1, value_2) -SELECT - s, nextval('insert_select_test_seq'), (random()*10)::int -FROM - generate_series(1, 5) s; -DEBUG: Creating router plan -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; -DEBUG: Router planner cannot handle multi-shard select queries - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- ON CONFLICT is supported -INSERT INTO raw_events_first (user_id, value_1) -SELECT s, nextval('insert_select_test_seq') FROM generate_series(1, 5) s -ON CONFLICT DO NOTHING; -DEBUG: Creating router plan -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300000 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300000'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) ON CONFLICT DO NOTHING -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300001 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300001'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) ON CONFLICT DO NOTHING -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300002 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300002'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) ON CONFLICT DO NOTHING -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300003 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300003'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) ON CONFLICT DO NOTHING --- RETURNING is supported -INSERT INTO raw_events_first (user_id, value_1) -SELECT s, nextval('insert_select_test_seq') FROM generate_series(1, 5) s -RETURNING *; -DEBUG: Creating router plan -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300000 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300000'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300001 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300001'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300002 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300002'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 -DEBUG: distributed statement: INSERT INTO multi_insert_select.raw_events_first_13300003 AS citus_table_alias (user_id, value_1) SELECT user_id, value_1 FROM read_intermediate_result('insert_select_XXX_13300003'::text, 'binary'::citus_copy_format) intermediate_result(user_id integer, value_1 integer) RETURNING citus_table_alias.user_id, citus_table_alias."time", citus_table_alias.value_1, citus_table_alias.value_2, citus_table_alias.value_3, citus_table_alias.value_4 - user_id | time | value_1 | value_2 | value_3 | value_4 ---------------------------------------------------------------------- - 1 | | 11 | | | - 2 | | 12 | | | - 3 | | 13 | | | - 4 | | 14 | | | - 5 | | 15 | | | -(5 rows) - -RESET client_min_messages; --- INSERT ... SELECT and multi-shard SELECT in the same transaction is supported -TRUNCATE raw_events_first; -BEGIN; -INSERT INTO raw_events_first (user_id, value_1) -SELECT s, s FROM generate_series(1, 5) s; -SELECT user_id, value_1 FROM raw_events_first ORDER BY 1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - -ROLLBACK; --- INSERT ... SELECT and single-shard SELECT in the same transaction is supported -TRUNCATE raw_events_first; -BEGIN; -INSERT INTO raw_events_first (user_id, value_1) -SELECT s, s FROM generate_series(1, 5) s; -SELECT user_id, value_1 FROM raw_events_first WHERE user_id = 1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -COMMIT; --- Select from local table -TRUNCATE raw_events_first; -CREATE TEMPORARY TABLE raw_events_first_local AS -SELECT s AS u, 2*s AS v FROM generate_series(1, 5) s; -INSERT INTO raw_events_first (user_id, value_1) -SELECT u, v FROM raw_events_first_local; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 2 - 2 | 4 - 3 | 6 - 4 | 8 - 5 | 10 -(5 rows) - --- Use columns in opposite order -TRUNCATE raw_events_first; -INSERT INTO raw_events_first (value_1, user_id) -SELECT u, v FROM raw_events_first_local; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 2 | 1 - 4 | 2 - 6 | 3 - 8 | 4 - 10 | 5 -(5 rows) - --- Set operations can work with opposite column order -TRUNCATE raw_events_first; -INSERT INTO raw_events_first (value_3, user_id) -( SELECT v, u::bigint FROM raw_events_first_local ) -UNION ALL -( SELECT v, u FROM raw_events_first_local ); -SELECT user_id, value_3 FROM raw_events_first ORDER BY user_id, value_3; - user_id | value_3 ---------------------------------------------------------------------- - 1 | 2 - 1 | 2 - 2 | 4 - 2 | 4 - 3 | 6 - 3 | 6 - 4 | 8 - 4 | 8 - 5 | 10 - 5 | 10 -(10 rows) - --- Select from other distributed table with limit -TRUNCATE raw_events_first; -TRUNCATE raw_events_second; -INSERT INTO raw_events_second (user_id, value_4) -SELECT s, 3*s FROM generate_series (1,5) s; -INSERT INTO raw_events_first (user_id, value_1) -SELECT user_id, value_4 FROM raw_events_second LIMIT 5; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 3 - 2 | 6 - 3 | 9 - 4 | 12 - 5 | 15 -(5 rows) - --- CTEs are supported in local queries -TRUNCATE raw_events_first; -WITH removed_rows AS ( - DELETE FROM raw_events_first_local RETURNING u -) -INSERT INTO raw_events_first (user_id, value_1) -WITH value AS (SELECT 1) -SELECT * FROM removed_rows, value; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 1 - 3 | 1 - 4 | 1 - 5 | 1 -(5 rows) - --- nested CTEs are also supported -TRUNCATE raw_events_first; -INSERT INTO raw_events_first_local SELECT s, 2*s FROM generate_series(0, 10) s; -WITH rows_to_remove AS ( - SELECT u FROM raw_events_first_local WHERE u > 0 -), -removed_rows AS ( - DELETE FROM raw_events_first_local - WHERE u IN (SELECT * FROM rows_to_remove) - RETURNING u, v -) -INSERT INTO raw_events_first (user_id, value_1) -WITH ultra_rows AS ( - WITH numbers AS ( - SELECT s FROM generate_series(1,10) s - ), - super_rows AS ( - SELECT u, v FROM removed_rows JOIN numbers ON (u = s) - ) - SELECT * FROM super_rows LIMIT 5 -) -SELECT u, v FROM ultra_rows; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 2 - 2 | 4 - 3 | 6 - 4 | 8 - 5 | 10 -(5 rows) - --- CTEs with duplicate names are also supported -TRUNCATE raw_events_first; -WITH super_rows AS ( - SELECT u FROM raw_events_first_local -) -INSERT INTO raw_events_first (user_id, value_1) -WITH super_rows AS ( - SELECT * FROM super_rows GROUP BY u -) -SELECT u, 5 FROM super_rows; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 0 | 5 -(1 row) - --- CTEs are supported in router queries -TRUNCATE raw_events_first; -WITH user_two AS ( - SELECT user_id, value_4 FROM raw_events_second WHERE user_id = 2 -) -INSERT INTO raw_events_first (user_id, value_1) -SELECT * FROM user_two; -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 2 | 6 -(1 row) - --- CTEs are supported when there are name collisions -WITH numbers AS ( - SELECT s FROM generate_series(1,10) s -) -INSERT INTO raw_events_first(user_id, value_1) -WITH numbers AS ( - SELECT s, s FROM generate_series(1,5) s -) -SELECT * FROM numbers; --- Select into distributed table with a sequence -CREATE TABLE "CaseSensitiveTable" ("UserID" int, "Value1" int); -SELECT create_distributed_table('"CaseSensitiveTable"', 'UserID'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO "CaseSensitiveTable" -SELECT s, s FROM generate_series(1,10) s; -SELECT * FROM "CaseSensitiveTable" ORDER BY "UserID"; - UserID | Value1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 6 - 7 | 7 - 8 | 8 - 9 | 9 - 10 | 10 -(10 rows) - -DROP TABLE "CaseSensitiveTable"; --- Select into distributed table with a sequence -CREATE TABLE dist_table_with_sequence (user_id serial, value_1 serial); -SELECT create_distributed_table('dist_table_with_sequence', 'user_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- from local query -INSERT INTO dist_table_with_sequence (value_1) -SELECT s FROM generate_series(1,5) s; -SELECT * FROM dist_table_with_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- from a distributed query -INSERT INTO dist_table_with_sequence (value_1) -SELECT value_1 FROM dist_table_with_sequence ORDER BY value_1; -SELECT * FROM dist_table_with_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 1 - 7 | 2 - 8 | 3 - 9 | 4 - 10 | 5 -(10 rows) - -TRUNCATE dist_table_with_sequence; -INSERT INTO dist_table_with_sequence (user_id) -SELECT user_id FROM raw_events_second ORDER BY user_id; -SELECT * FROM dist_table_with_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - -WITH top10 AS ( - SELECT user_id FROM raw_events_second WHERE value_1 IS NOT NULL ORDER BY value_1 LIMIT 10 -) -INSERT INTO dist_table_with_sequence (value_1) -SELECT * FROM top10; -SELECT * FROM dist_table_with_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- router queries become logical planner queries when there is a nextval call -INSERT INTO dist_table_with_sequence (user_id) -SELECT user_id FROM dist_table_with_sequence WHERE user_id = 1; -SELECT * FROM dist_table_with_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 1 | 6 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(6 rows) - -DROP TABLE dist_table_with_sequence; --- Select into distributed table with a user-defined sequence -CREATE SEQUENCE seq1; -CREATE SEQUENCE seq2; -CREATE TABLE dist_table_with_user_sequence (user_id int default nextval('seq1'), value_1 bigint default nextval('seq2')); -SELECT create_distributed_table('dist_table_with_user_sequence', 'user_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- from local query -INSERT INTO dist_table_with_user_sequence (value_1) -SELECT s FROM generate_series(1,5) s; -SELECT * FROM dist_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- from a distributed query -INSERT INTO dist_table_with_user_sequence (value_1) -SELECT value_1 FROM dist_table_with_user_sequence ORDER BY value_1; -SELECT * FROM dist_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 - 6 | 1 - 7 | 2 - 8 | 3 - 9 | 4 - 10 | 5 -(10 rows) - -TRUNCATE dist_table_with_user_sequence; -INSERT INTO dist_table_with_user_sequence (user_id) -SELECT user_id FROM raw_events_second ORDER BY user_id; -SELECT * FROM dist_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - -WITH top10 AS ( - SELECT user_id FROM raw_events_second WHERE value_1 IS NOT NULL ORDER BY value_1 LIMIT 10 -) -INSERT INTO dist_table_with_user_sequence (value_1) -SELECT * FROM top10; -SELECT * FROM dist_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- router queries become logical planner queries when there is a nextval call -INSERT INTO dist_table_with_user_sequence (user_id) -SELECT user_id FROM dist_table_with_user_sequence WHERE user_id = 1; -SELECT * FROM dist_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 1 - 1 | 6 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(6 rows) - -DROP TABLE dist_table_with_user_sequence; -DROP SEQUENCE seq1, seq2; --- Select from distributed table into reference table -CREATE TABLE ref_table (user_id serial, value_1 int); -SELECT create_reference_table('ref_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO ref_table -SELECT user_id, value_1 FROM raw_events_second; -SELECT * FROM ref_table ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | - 2 | - 3 | - 4 | - 5 | -(5 rows) - -INSERT INTO ref_table (value_1) -SELECT value_1 FROM raw_events_second ORDER BY value_1; -SELECT * FROM ref_table ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | - 1 | - 2 | - 2 | - 3 | - 3 | - 4 | - 4 | - 5 | - 5 | -(10 rows) - -INSERT INTO ref_table SELECT * FROM ref_table; -SELECT * FROM ref_table ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | - 1 | - 1 | - 1 | - 2 | - 2 | - 2 | - 2 | - 3 | - 3 | - 3 | - 3 | - 4 | - 4 | - 4 | - 4 | - 5 | - 5 | - 5 | - 5 | -(20 rows) - -DROP TABLE ref_table; --- Select from distributed table into reference table with user-defined sequence -CREATE SEQUENCE seq1; -CREATE TABLE ref_table_with_user_sequence (user_id int default nextval('seq1'), value_1 int); -SELECT create_reference_table('ref_table_with_user_sequence'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO ref_table_with_user_sequence -SELECT user_id, value_1 FROM raw_events_second; -SELECT * FROM ref_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | - 2 | - 3 | - 4 | - 5 | -(5 rows) - -INSERT INTO ref_table_with_user_sequence (value_1) -SELECT value_1 FROM raw_events_second ORDER BY value_1; -SELECT * FROM ref_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | - 1 | - 2 | - 2 | - 3 | - 3 | - 4 | - 4 | - 5 | - 5 | -(10 rows) - -INSERT INTO ref_table_with_user_sequence SELECT * FROM ref_table_with_user_sequence; -SELECT * FROM ref_table_with_user_sequence ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | - 1 | - 1 | - 1 | - 2 | - 2 | - 2 | - 2 | - 3 | - 3 | - 3 | - 3 | - 4 | - 4 | - 4 | - 4 | - 5 | - 5 | - 5 | - 5 | -(20 rows) - -DROP TABLE ref_table_with_user_sequence; -DROP SEQUENCE seq1; --- Select from reference table into reference table -CREATE TABLE ref1 (d timestamptz); -SELECT create_reference_table('ref1'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE ref2 (d date); -SELECT create_reference_table('ref2'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO ref2 VALUES ('2017-10-31'); -INSERT INTO ref1 SELECT * FROM ref2; -SELECT count(*) from ref1; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- also test with now() -INSERT INTO ref1 SELECT now() FROM ref2; -SELECT count(*) from ref1; - count ---------------------------------------------------------------------- - 2 -(1 row) - -DROP TABLE ref1; -DROP TABLE ref2; --- Select into an append-partitioned table is not supported -CREATE TABLE insert_append_table (user_id int, value_4 bigint); -SELECT create_distributed_table('insert_append_table', 'user_id', 'append'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO insert_append_table (user_id, value_4) -SELECT user_id, 1 FROM raw_events_second LIMIT 5; -ERROR: INSERT ... SELECT into an append-distributed table is not supported -DROP TABLE insert_append_table; --- Insert from other distributed table as prepared statement -TRUNCATE raw_events_first; -PREPARE insert_prep(int) AS -INSERT INTO raw_events_first (user_id, value_1) -SELECT $1, value_4 FROM raw_events_second ORDER BY value_4 LIMIT 1; -EXECUTE insert_prep(1); -EXECUTE insert_prep(2); -EXECUTE insert_prep(3); -EXECUTE insert_prep(4); -EXECUTE insert_prep(5); -EXECUTE insert_prep(6); -SELECT user_id, value_1 FROM raw_events_first ORDER BY user_id, value_1; - user_id | value_1 ---------------------------------------------------------------------- - 1 | 3 - 2 | 3 - 3 | 3 - 4 | 3 - 5 | 3 - 6 | 3 -(6 rows) - --- Inserting into views is handled via coordinator -TRUNCATE raw_events_first; -INSERT INTO test_view -SELECT * FROM raw_events_second; -SELECT user_id, value_4 FROM test_view ORDER BY user_id, value_4; - user_id | value_4 ---------------------------------------------------------------------- - 1 | 3 - 2 | 6 - 3 | 9 - 4 | 12 - 5 | 15 -(5 rows) - --- Drop the view now, because the column we are about to drop depends on it -DROP VIEW test_view; --- Make sure we handle dropped columns correctly -CREATE TABLE drop_col_table (col1 text, col2 text, col3 text); -SELECT create_distributed_table('drop_col_table', 'col2'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -ALTER TABLE drop_col_table DROP COLUMN col1; -INSERT INTO drop_col_table (col3, col2) -SELECT value_4, user_id FROM raw_events_second LIMIT 5; -SELECT * FROM drop_col_table ORDER BY col2, col3; - col2 | col3 ---------------------------------------------------------------------- - 1 | 3 - 2 | 6 - 3 | 9 - 4 | 12 - 5 | 15 -(5 rows) - --- make sure the tuple went to the right shard -SELECT * FROM drop_col_table WHERE col2 = '1'; - col2 | col3 ---------------------------------------------------------------------- - 1 | 3 -(1 row) - -RESET client_min_messages; --- make sure casts are handled correctly -CREATE TABLE coerce_events(user_id int, time timestamp, value_1 numeric); -SELECT create_distributed_table('coerce_events', 'user_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE coerce_agg (user_id int, value_1_agg int); -SELECT create_distributed_table('coerce_agg', 'user_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO coerce_events(user_id, value_1) VALUES (1, 1), (2, 2), (10, 10); --- numeric -> int (straight function) -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop -ORDER BY 2 DESC, 1 DESC -LIMIT 5; --- int -> text -ALTER TABLE coerce_agg ALTER COLUMN value_1_agg TYPE text; -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop -LIMIT 5; -SELECT * FROM coerce_agg ORDER BY 1 DESC, 2 DESC; - user_id | value_1_agg ---------------------------------------------------------------------- - 10 | 10 - 10 | 10 - 2 | 2 - 2 | 2 - 1 | 1 - 1 | 1 -(6 rows) - -TRUNCATE coerce_agg; --- int -> char(1) -ALTER TABLE coerce_agg ALTER COLUMN value_1_agg TYPE char(1); -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop -LIMIT 5; -ERROR: value too long for type character(1) -SELECT * FROM coerce_agg ORDER BY 1 DESC, 2 DESC; - user_id | value_1_agg ---------------------------------------------------------------------- -(0 rows) - -TRUNCATE coerce_agg; -TRUNCATE coerce_events; --- char(5) -> char(1) -ALTER TABLE coerce_events ALTER COLUMN value_1 TYPE char(5); -INSERT INTO coerce_events(user_id, value_1) VALUES (1, 'aaaaa'), (2, 'bbbbb'); -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop -LIMIT 5; -ERROR: value too long for type character(1) --- char(1) -> char(5) -ALTER TABLE coerce_events ALTER COLUMN value_1 TYPE char(1) USING value_1::char(1); -ALTER TABLE coerce_agg ALTER COLUMN value_1_agg TYPE char(5); -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop -LIMIT 5; -SELECT * FROM coerce_agg ORDER BY 1 DESC, 2 DESC; - user_id | value_1_agg ---------------------------------------------------------------------- - 2 | b - 1 | a -(2 rows) - -TRUNCATE coerce_agg; -TRUNCATE coerce_events; --- integer -> integer (check VALUE < 5) -ALTER TABLE coerce_events ALTER COLUMN value_1 TYPE integer USING NULL; -ALTER TABLE coerce_agg ALTER COLUMN value_1_agg TYPE integer USING NULL; -ALTER TABLE coerce_agg ADD CONSTRAINT small_number CHECK (value_1_agg < 5); -INSERT INTO coerce_events (user_id, value_1) VALUES (1, 1), (10, 10); -\set VERBOSITY TERSE -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop; -ERROR: new row for relation "coerce_agg_13300067" violates check constraint "small_number_13300067" -\set VERBOSITY DEFAULT -SELECT * FROM coerce_agg ORDER BY 1 DESC, 2 DESC; - user_id | value_1_agg ---------------------------------------------------------------------- -(0 rows) - --- integer[3] -> text[3] -TRUNCATE coerce_events; -ALTER TABLE coerce_events ALTER COLUMN value_1 TYPE integer[3] USING NULL; -INSERT INTO coerce_events(user_id, value_1) VALUES (1, '{1,1,1}'), (2, '{2,2,2}'); -ALTER TABLE coerce_agg DROP COLUMN value_1_agg; -ALTER TABLE coerce_agg ADD COLUMN value_1_agg text[3]; -INSERT INTO coerce_agg(user_id, value_1_agg) -SELECT * -FROM ( - SELECT user_id, value_1 - FROM coerce_events -) AS ftop -LIMIT 5; -SELECT * FROM coerce_agg ORDER BY 1 DESC, 2 DESC; - user_id | value_1_agg ---------------------------------------------------------------------- - 2 | {2,2,2} - 1 | {1,1,1} -(2 rows) - --- INSERT..SELECT + prepared statements + recursive planning -BEGIN; -PREPARE prepared_recursive_insert_select AS -INSERT INTO users_table -SELECT * FROM users_table -WHERE value_1 IN (SELECT value_2 FROM events_table OFFSET 0); -EXECUTE prepared_recursive_insert_select; -EXECUTE prepared_recursive_insert_select; -EXECUTE prepared_recursive_insert_select; -EXECUTE prepared_recursive_insert_select; -EXECUTE prepared_recursive_insert_select; -EXECUTE prepared_recursive_insert_select; -ROLLBACK; --- upsert with on conflict update distribution column is unsupported -INSERT INTO agg_events AS ae - ( - user_id, - value_1_agg, - agg_time - ) -SELECT user_id, - value_1, - time -FROM raw_events_first -ON conflict (user_id, value_1_agg) -DO UPDATE - SET user_id = 42 -RETURNING user_id, value_1_agg; -ERROR: modifying the partition value of rows is not allowed --- test a small citus.remote_copy_flush_threshold -BEGIN; -SET LOCAL citus.remote_copy_flush_threshold TO 1; -INSERT INTO raw_events_first -SELECT * FROM raw_events_first OFFSET 0 -ON CONFLICT DO NOTHING; -ABORT; --- test fix for issue https://github.com/citusdata/citus/issues/5891 -CREATE TABLE dist_table_1( -dist_col integer, -int_col integer, -text_col_1 text, -text_col_2 text -); -SELECT create_distributed_table('dist_table_1', 'dist_col'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO dist_table_1 VALUES (1, 1, 'string', 'string'); -CREATE TABLE dist_table_2( -dist_col integer, -int_col integer -); -SELECT create_distributed_table('dist_table_2', 'dist_col'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO dist_table_2 VALUES (1, 1); -with a as (select random()) INSERT INTO dist_table_1 -SELECT -t1.dist_col, -1, -'string', -'string' -FROM a, dist_table_1 t1 -join dist_table_2 t2 using (dist_col) -limit 1 -returning text_col_1; - text_col_1 ---------------------------------------------------------------------- - string -(1 row) - -CREATE TABLE dist_table_3( -dist_col bigint, -int_col integer -); -SELECT create_distributed_table('dist_table_3', 'dist_col'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- dist_table_2 and dist_table_3 are non-colocated source tables. Repartitioning is also not possible due to --- different types for distribution columns. Citus would not be able to handle this complex insert select. -INSERT INTO dist_table_1 SELECT dist_table_2.dist_col FROM dist_table_2 JOIN dist_table_3 USING(dist_col); -ERROR: complex joins are only supported when all distributed tables are joined on their distribution columns with equal operator -CREATE TABLE dist_table_4( -dist_col integer, -int_col integer -); -SELECT create_distributed_table('dist_table_4', 'dist_col'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- Even if target table distribution column is colocated with dist_table_2's distributed column, source tables dist_table_2 and dist_table_4 --- are non-colocated. Hence, SELECT part of the query should be pulled to coordinator. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_1 SELECT dist_table_2.dist_col FROM dist_table_2 JOIN dist_table_4 ON dist_table_2.dist_col = dist_table_4.int_col; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 6 -(4 rows) - --- For INSERT SELECT, when a lateral query references an outer query, push-down is possible even if limit clause exists in the lateral query. --- It is because subquery with limit does not need to be merged at coordinator as it is a lateral query. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_1 SELECT d1.dist_col FROM dist_table_1 d1 LEFT JOIN LATERAL (SELECT * FROM dist_table_2 d2 WHERE d1.dist_col = d2.dist_col LIMIT 3) dummy USING(dist_col); -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 4 -(2 rows) - --- For INSERT SELECT, when push-down is NOT possible when limit clause exists in a subquery at SELECT part of INSERT SELECT. --- It is because the subquery with limit needs to be merged at coordinator. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_1 SELECT d1.dist_col FROM dist_table_1 d1 LEFT JOIN (SELECT * FROM dist_table_2 LIMIT 3) dummy USING(dist_col); -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Limit - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(7 rows) - -CREATE TABLE dist_table_5(id int, id2 int); -SELECT create_distributed_table('dist_table_5','id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE dist_table_6(id int, id2 int); -SELECT create_distributed_table('dist_table_6','id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- verify that insert select with union can be pushed down since UNION clause has FROM clause at top level query. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5(id) SELECT id FROM (SELECT id FROM dist_table_5 UNION SELECT id FROM dist_table_6) dummy; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 4 -(2 rows) - --- verify that insert select with sublink can be pushed down when tables are colocated. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT id, (SELECT id FROM dist_table_5 WHERE dist_table_5.id = dist_table_6.id) FROM dist_table_6; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 4 -(2 rows) - -CREATE TABLE ref_table_1(id int); -SELECT create_reference_table('ref_table_1'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - --- verify that insert select with sublink cannot be pushed down when from clause does not contain any distributed relation. -INSERT INTO dist_table_5 SELECT id, (SELECT id FROM dist_table_5 WHERE dist_table_5.id = ref_table_1.id) FROM ref_table_1; -ERROR: correlated subqueries are not supported when the FROM clause contains a reference table --- verify that insert select cannot be pushed down when we have recurring range table in from clause. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT id, (SELECT id FROM ref_table_1 WHERE id = 1) FROM ref_table_1; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - Task Count: 1 -(4 rows) - --- verify that insert select cannot be pushed down when we have reference table in outside of outer join. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT a.id FROM dist_table_5 a LEFT JOIN ref_table_1 b ON (true) RIGHT JOIN ref_table_1 c ON (true); -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(6 rows) - --- verify that insert select cannot be pushed down when it has a recurring outer join in a subquery. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT id FROM ref_table_1 LEFT JOIN dist_table_5 USING(id); -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(6 rows) - -CREATE TABLE loc_table_1(id int); --- verify that insert select cannot be pushed down when it contains join between local and distributed tables. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT id FROM dist_table_5 JOIN loc_table_1 USING(id); -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Seq Scan on loc_table_1 - Task Count: 4 -(6 rows) - -CREATE VIEW view_1 AS - SELECT id FROM dist_table_6; -CREATE MATERIALIZED VIEW view_2 AS - SELECT id FROM dist_table_6; --- verify that insert select cannot be pushed down when it contains view. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT * FROM view_1; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 4 -(2 rows) - --- verify that insert select cannot be pushed down when it contains materialized view. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 SELECT * FROM view_2; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Seq Scan on view_2 -(3 rows) - -CREATE TABLE append_table(id integer, data text, int_data int); -SELECT create_distributed_table('append_table', 'id', 'append'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT master_create_empty_shard('append_table'); - master_create_empty_shard ---------------------------------------------------------------------- - 13300096 -(1 row) - --- verify that insert select push down for append tables are not supported. -INSERT INTO append_table SELECT * FROM append_table; -ERROR: INSERT ... SELECT into an append-distributed table is not supported --- verify that CTEs at top level of INSERT SELECT, that can normally be inlined, would not be inlined by INSERT SELECT pushdown planner --- and handled by pull to coordinator. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) WITH cte_1 AS (SELECT id FROM dist_table_5 WHERE id > 5) - INSERT INTO dist_table_5 - SELECT id FROM dist_table_5 JOIN cte_1 USING(id) OFFSET 5; -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Custom Scan (Citus Adaptive) - -> Distributed Subplan XXX_1 - -> Limit - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(7 rows) - --- verify that CTEs at top level of SELECT part, would be inlined by Postgres and pushed down by INSERT SELECT planner. -SELECT coordinator_plan($$ - EXPLAIN (COSTS FALSE) INSERT INTO dist_table_5 - WITH cte_1 AS (SELECT id FROM dist_table_5 WHERE id = 5) - SELECT id FROM dist_table_5 JOIN cte_1 USING(id); -$$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) - Task Count: 1 -(2 rows) - -SET client_min_messages TO ERROR; -DROP SCHEMA multi_insert_select CASCADE; diff --git a/src/test/regress/expected/multi_insert_select_conflict.out b/src/test/regress/expected/multi_insert_select_conflict.out index 5c06719d3..429ff024e 100644 --- a/src/test/regress/expected/multi_insert_select_conflict.out +++ b/src/test/regress/expected/multi_insert_select_conflict.out @@ -1,17 +1,6 @@ -- -- MULTI_INSERT_SELECT_CONFLICT -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA on_conflict; SET search_path TO on_conflict, public; SET citus.next_shard_id TO 1900000; diff --git a/src/test/regress/expected/multi_insert_select_conflict_0.out b/src/test/regress/expected/multi_insert_select_conflict_0.out deleted file mode 100644 index 4c2add1d7..000000000 --- a/src/test/regress/expected/multi_insert_select_conflict_0.out +++ /dev/null @@ -1,600 +0,0 @@ --- --- MULTI_INSERT_SELECT_CONFLICT --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA on_conflict; -SET search_path TO on_conflict, public; -SET citus.next_shard_id TO 1900000; -SET citus.shard_replication_factor TO 1; -CREATE TABLE target_table(col_1 int primary key, col_2 int); -SELECT create_distributed_table('target_table','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO target_table VALUES(1,2),(2,3),(3,4),(4,5),(5,6); -CREATE TABLE source_table_1(col_1 int primary key, col_2 int, col_3 int); -SELECT create_distributed_table('source_table_1','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table_1 VALUES(1,1,1),(2,2,2),(3,3,3),(4,4,4),(5,5,5); -CREATE TABLE source_table_2(col_1 int, col_2 int, col_3 int); -SELECT create_distributed_table('source_table_2','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table_2 VALUES(6,6,6),(7,7,7),(8,8,8),(9,9,9),(10,10,10); -SET client_min_messages to debug1; --- Generate series directly on the coordinator and on conflict do nothing -INSERT INTO target_table (col_1, col_2) -SELECT - s, s -FROM - generate_series(1,10) s -ON CONFLICT DO NOTHING; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator --- Generate series directly on the coordinator and on conflict update the target table -INSERT INTO target_table (col_1, col_2) -SELECT s, s -FROM - generate_series(1,10) s -ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator --- Since partition columns do not match, pull the data to the coordinator --- and do not change conflicted values -INSERT INTO target_table -SELECT - col_2, col_3 -FROM - source_table_1 -ON CONFLICT DO NOTHING; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: performing repartitioned INSERT ... SELECT --- Since partition columns do not match, pull the data to the coordinator --- and update the non-partition column. Query is wrapped by CTE to return --- ordered result. -WITH inserted_table AS ( - INSERT INTO target_table - SELECT - col_2, col_3 - FROM - source_table_1 - ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 RETURNING * -) SELECT * FROM inserted_table ORDER BY 1; -DEBUG: generating subplan XXX_1 for CTE inserted_table: INSERT INTO on_conflict.target_table (col_1, col_2) SELECT col_2, col_3 FROM on_conflict.source_table_1 ON CONFLICT(col_1) DO UPDATE SET col_2 = excluded.col_2 RETURNING target_table.col_1, target_table.col_2 -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The target table's partition column should correspond to a partition column in the subquery. -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) inserted_table ORDER BY col_1 -DEBUG: performing repartitioned INSERT ... SELECT - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- Subquery should be recursively planned due to the limit and do nothing on conflict -INSERT INTO target_table -SELECT - col_1, col_2 -FROM ( - SELECT - col_1, col_2, col_3 - FROM - source_table_1 - LIMIT 5 -) as foo -ON CONFLICT DO NOTHING; -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_1 for subquery SELECT col_1, col_2, col_3 FROM on_conflict.source_table_1 LIMIT 5 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer)) foo -DEBUG: Collecting INSERT ... SELECT results on coordinator --- Subquery should be recursively planned due to the limit and update on conflict --- Query is wrapped by CTE to return ordered result. -WITH inserted_table AS ( - INSERT INTO target_table - SELECT - col_1, col_2 - FROM ( - SELECT - col_1, col_2, col_3 - FROM - source_table_1 - LIMIT 5 - ) as foo - ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 RETURNING * -) SELECT * FROM inserted_table ORDER BY 1; -DEBUG: generating subplan XXX_1 for CTE inserted_table: INSERT INTO on_conflict.target_table (col_1, col_2) SELECT col_1, col_2 FROM (SELECT source_table_1.col_1, source_table_1.col_2, source_table_1.col_3 FROM on_conflict.source_table_1 LIMIT 5) foo ON CONFLICT(col_1) DO UPDATE SET col_2 = excluded.col_2 RETURNING target_table.col_1, target_table.col_2 -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_1 for subquery SELECT col_1, col_2, col_3 FROM on_conflict.source_table_1 LIMIT 5 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer)) foo -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) inserted_table ORDER BY col_1 -DEBUG: Collecting INSERT ... SELECT results on coordinator - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 1 - 2 | 2 - 3 | 3 - 4 | 4 - 5 | 5 -(5 rows) - --- Test with multiple subqueries. Query is wrapped by CTE to return ordered result. -WITH inserted_table AS ( - INSERT INTO target_table - SELECT - col_1, col_2 - FROM ( - (SELECT - col_1, col_2, col_3 - FROM - source_table_1 - LIMIT 5) - UNION - (SELECT - col_1, col_2, col_3 - FROM - source_table_2 - LIMIT 5) - ) as foo - ON CONFLICT(col_1) DO UPDATE SET col_2 = 0 RETURNING * -) SELECT * FROM inserted_table ORDER BY 1; -DEBUG: generating subplan XXX_1 for CTE inserted_table: INSERT INTO on_conflict.target_table (col_1, col_2) SELECT col_1, col_2 FROM ((SELECT source_table_1.col_1, source_table_1.col_2, source_table_1.col_3 FROM on_conflict.source_table_1 LIMIT 5) UNION (SELECT source_table_2.col_1, source_table_2.col_2, source_table_2.col_3 FROM on_conflict.source_table_2 LIMIT 5)) foo ON CONFLICT(col_1) DO UPDATE SET col_2 = 0 RETURNING target_table.col_1, target_table.col_2 -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_1 for subquery SELECT col_1, col_2, col_3 FROM on_conflict.source_table_1 LIMIT 5 -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_2 for subquery SELECT col_1, col_2, col_3 FROM on_conflict.source_table_2 LIMIT 5 -DEBUG: generating subplan XXX_3 for subquery SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer) UNION SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer)) foo -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) inserted_table ORDER BY col_1 -DEBUG: Collecting INSERT ... SELECT results on coordinator - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 0 - 2 | 0 - 3 | 0 - 4 | 0 - 5 | 0 - 6 | 0 - 7 | 0 - 8 | 0 - 9 | 0 - 10 | 0 -(10 rows) - --- Get the select part from cte and do nothing on conflict -WITH cte AS MATERIALIZED ( - SELECT col_1, col_2 FROM source_table_1 -) -INSERT INTO target_table SELECT * FROM cte ON CONFLICT DO NOTHING; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: generating subplan XXX_1 for CTE cte: SELECT col_1, col_2 FROM on_conflict.source_table_1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT cte.col_1, cte.col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) cte) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator --- Get the select part from cte and update on conflict -WITH cte AS MATERIALIZED ( - SELECT col_1, col_2 FROM source_table_1 -) -INSERT INTO target_table SELECT * FROM cte ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: generating subplan XXX_1 for CTE cte: SELECT col_1, col_2 FROM on_conflict.source_table_1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT cte.col_1, cte.col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) cte) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -SELECT * FROM target_table ORDER BY 1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 2 - 2 | 3 - 3 | 4 - 4 | 5 - 5 | 6 - 6 | 0 - 7 | 0 - 8 | 0 - 9 | 0 - 10 | 0 -(10 rows) - --- Test with multiple CTEs -WITH cte AS( - SELECT col_1, col_2 FROM source_table_1 -), cte_2 AS( - SELECT col_1, col_2 FROM source_table_2 -) -INSERT INTO target_table ((SELECT * FROM cte) UNION (SELECT * FROM cte_2)) ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: CTE cte is going to be inlined via distributed planning -DEBUG: CTE cte_2 is going to be inlined via distributed planning -DEBUG: performing repartitioned INSERT ... SELECT -SELECT * FROM target_table ORDER BY 1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 2 - 2 | 3 - 3 | 4 - 4 | 5 - 5 | 6 - 6 | 7 - 7 | 8 - 8 | 9 - 9 | 10 - 10 | 11 -(10 rows) - -WITH inserted_table AS MATERIALIZED ( - WITH cte AS MATERIALIZED ( - SELECT col_1, col_2, col_3 FROM source_table_1 - ), cte_2 AS MATERIALIZED ( - SELECT col_1, col_2 FROM cte - ) - INSERT INTO target_table SELECT * FROM cte_2 ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1 RETURNING * -) SELECT * FROM inserted_table ORDER BY 1; -DEBUG: generating subplan XXX_1 for CTE inserted_table: WITH cte AS MATERIALIZED (SELECT source_table_1.col_1, source_table_1.col_2, source_table_1.col_3 FROM on_conflict.source_table_1), cte_2 AS MATERIALIZED (SELECT cte.col_1, cte.col_2 FROM cte) INSERT INTO on_conflict.target_table (col_1, col_2) SELECT col_1, col_2 FROM cte_2 ON CONFLICT(col_1) DO UPDATE SET col_2 = (excluded.col_2 OPERATOR(pg_catalog.+) 1) RETURNING target_table.col_1, target_table.col_2 -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: generating subplan XXX_1 for CTE cte: SELECT col_1, col_2, col_3 FROM on_conflict.source_table_1 -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer)) cte -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT cte_2.col_1, cte_2.col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) cte_2) citus_insert_select_subquery -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) inserted_table ORDER BY col_1 -DEBUG: Collecting INSERT ... SELECT results on coordinator - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 2 - 2 | 3 - 3 | 4 - 4 | 5 - 5 | 6 -(5 rows) - -WITH cte AS MATERIALIZED ( - WITH basic AS MATERIALIZED ( - SELECT col_1, col_2 FROM source_table_1 - ) - INSERT INTO target_table (SELECT * FROM basic) ON CONFLICT DO NOTHING RETURNING * -) -UPDATE target_table SET col_2 = 4 WHERE col_1 IN (SELECT col_1 FROM cte); -DEBUG: generating subplan XXX_1 for CTE cte: WITH basic AS MATERIALIZED (SELECT source_table_1.col_1, source_table_1.col_2 FROM on_conflict.source_table_1) INSERT INTO on_conflict.target_table (col_1, col_2) SELECT col_1, col_2 FROM basic ON CONFLICT DO NOTHING RETURNING target_table.col_1, target_table.col_2 -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: generating subplan XXX_1 for CTE basic: SELECT col_1, col_2 FROM on_conflict.source_table_1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT basic.col_1, basic.col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) basic) citus_insert_select_subquery -DEBUG: Plan XXX query after replacing subqueries and CTEs: UPDATE on_conflict.target_table SET col_2 = 4 WHERE (col_1 OPERATOR(pg_catalog.=) ANY (SELECT cte.col_1 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) cte)) -DEBUG: Collecting INSERT ... SELECT results on coordinator -RESET client_min_messages; --- Following query is supported by using repartition join for the insert/select -SELECT coordinator_plan($Q$ -EXPLAIN (costs off) -WITH cte AS ( - SELECT - col_1, col_2 - FROM - source_table_1 -) -INSERT INTO target_table -SELECT - source_table_1.col_1, - source_table_1.col_2 -FROM cte, source_table_1 -WHERE cte.col_1 = source_table_1.col_1 ON CONFLICT DO NOTHING; -$Q$); - coordinator_plan ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 -(4 rows) - --- Tests with foreign key to reference table -CREATE TABLE test_ref_table (key int PRIMARY KEY); -SELECT create_reference_table('test_ref_table'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO test_ref_table VALUES (1),(2),(3),(4),(5),(6),(7),(8),(9),(10); -ALTER TABLE target_table ADD CONSTRAINT fkey FOREIGN KEY (col_1) REFERENCES test_ref_table(key) ON DELETE CASCADE; -BEGIN; - TRUNCATE test_ref_table CASCADE; -NOTICE: truncate cascades to table "target_table" - INSERT INTO - target_table - SELECT - col_2, - col_1 - FROM source_table_1 ON CONFLICT (col_1) DO UPDATE SET col_2 = 55 RETURNING *; -ERROR: insert or update on table "target_table_xxxxxxx" violates foreign key constraint "fkey_xxxxxxx" -DETAIL: Key (col_1)=(X) is not present in table "test_ref_table_xxxxxxx". -CONTEXT: while executing command on localhost:xxxxx -ROLLBACK; -BEGIN; - DELETE FROM test_ref_table WHERE key > 10; - WITH r AS ( - INSERT INTO - target_table - SELECT - col_2, - col_1 - FROM source_table_1 ON CONFLICT (col_1) DO UPDATE SET col_2 = 1 RETURNING *) - SELECT * FROM r ORDER BY col_1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 1 - 2 | 1 - 3 | 1 - 4 | 1 - 5 | 1 -(5 rows) - -ROLLBACK; --- Following two queries are supported since we no not modify but only select from --- the target_table after modification on test_ref_table. -BEGIN; - TRUNCATE test_ref_table CASCADE; -NOTICE: truncate cascades to table "target_table" - INSERT INTO - source_table_1 - SELECT - col_2, - col_1 - FROM target_table ON CONFLICT (col_1) DO UPDATE SET col_2 = 55 RETURNING *; - col_1 | col_2 | col_3 ---------------------------------------------------------------------- -(0 rows) - -ROLLBACK; -BEGIN; - DELETE FROM test_ref_table; - INSERT INTO - source_table_1 - SELECT - col_2, - col_1 - FROM target_table ON CONFLICT (col_1) DO UPDATE SET col_2 = 55 RETURNING *; - col_1 | col_2 | col_3 ---------------------------------------------------------------------- -(0 rows) - -ROLLBACK; --- INSERT .. SELECT with different column types -CREATE TABLE source_table_3(col_1 numeric, col_2 numeric, col_3 numeric); -SELECT create_distributed_table('source_table_3','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table_3 VALUES(1,11,1),(2,22,2),(3,33,3),(4,44,4),(5,55,5); -CREATE TABLE source_table_4(id int, arr_val text[]); -SELECT create_distributed_table('source_table_4','id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table_4 VALUES(1, '{"abc","cde","efg"}'), (2, '{"xyz","tvu"}'); -CREATE TABLE target_table_2(id int primary key, arr_val char(10)[]); -SELECT create_distributed_table('target_table_2','id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO target_table_2 VALUES(1, '{"abc","def","gyx"}'); -SET client_min_messages to debug1; -INSERT INTO target_table -SELECT - col_1, col_2 -FROM - source_table_3 -ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2; -DEBUG: cannot perform distributed INSERT INTO ... SELECT because the partition columns in the source table and subquery do not match -DETAIL: The data type of the target table's partition column should exactly match the data type of the corresponding simple column reference in the subquery. -DEBUG: performing repartitioned INSERT ... SELECT -SELECT * FROM target_table ORDER BY 1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 11 - 2 | 22 - 3 | 33 - 4 | 44 - 5 | 55 - 6 | 7 - 7 | 8 - 8 | 9 - 9 | 10 - 10 | 11 -(10 rows) - -INSERT INTO target_table_2 -SELECT - * -FROM - source_table_4 -ON CONFLICT DO NOTHING; -SELECT * FROM target_table_2 ORDER BY 1; - id | arr_val ---------------------------------------------------------------------- - 1 | {"abc ","def ","gyx "} - 2 | {"xyz ","tvu "} -(2 rows) - -RESET client_min_messages; --- Test with shard_replication_factor = 2 -SET citus.shard_replication_factor to 2; -DROP TABLE target_table, source_table_1, source_table_2; -CREATE TABLE target_table(col_1 int primary key, col_2 int); -SELECT create_distributed_table('target_table','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO target_table VALUES(1,2),(2,3),(3,4),(4,5),(5,6); -CREATE TABLE source_table_1(col_1 int, col_2 int, col_3 int); -SELECT create_distributed_table('source_table_1','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table_1 VALUES(1,1,1),(2,2,2),(3,3,3),(4,4,4),(5,5,5); -CREATE TABLE source_table_2(col_1 int, col_2 int, col_3 int); -SELECT create_distributed_table('source_table_2','col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table_2 VALUES(6,6,6),(7,7,7),(8,8,8),(9,9,9),(10,10,10); -SET client_min_messages to debug1; --- Generate series directly on the coordinator and on conflict do nothing -INSERT INTO target_table (col_1, col_2) -SELECT - s, s -FROM - generate_series(1,10) s -ON CONFLICT DO NOTHING; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator --- Test with multiple subqueries -INSERT INTO target_table -SELECT - col_1, col_2 -FROM ( - (SELECT - col_1, col_2, col_3 - FROM - source_table_1 - LIMIT 5) - UNION - (SELECT - col_1, col_2, col_3 - FROM - source_table_2 - LIMIT 5) -) as foo -ON CONFLICT(col_1) DO UPDATE SET col_2 = 0; -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_1 for subquery SELECT col_1, col_2, col_3 FROM on_conflict.source_table_1 LIMIT 5 -DEBUG: push down of limit count: 5 -DEBUG: generating subplan XXX_2 for subquery SELECT col_1, col_2, col_3 FROM on_conflict.source_table_2 LIMIT 5 -DEBUG: generating subplan XXX_3 for subquery SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer) UNION SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_3'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer)) foo -DEBUG: Collecting INSERT ... SELECT results on coordinator -SELECT * FROM target_table ORDER BY 1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 0 - 2 | 0 - 3 | 0 - 4 | 0 - 5 | 0 - 6 | 0 - 7 | 0 - 8 | 0 - 9 | 0 - 10 | 0 -(10 rows) - -WITH cte AS MATERIALIZED( - SELECT col_1, col_2, col_3 FROM source_table_1 -), cte_2 AS MATERIALIZED( - SELECT col_1, col_2 FROM cte -) -INSERT INTO target_table SELECT * FROM cte_2 ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: generating subplan XXX_1 for CTE cte: SELECT col_1, col_2, col_3 FROM on_conflict.source_table_1 -DEBUG: generating subplan XXX_2 for CTE cte_2: SELECT col_1, col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2, intermediate_result.col_3 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer, col_3 integer)) cte -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT col_1, col_2 FROM (SELECT cte_2.col_1, cte_2.col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) cte_2) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -SELECT * FROM target_table ORDER BY 1; - col_1 | col_2 ---------------------------------------------------------------------- - 1 | 2 - 2 | 3 - 3 | 4 - 4 | 5 - 5 | 6 - 6 | 0 - 7 | 0 - 8 | 0 - 9 | 0 - 10 | 0 -(10 rows) - --- make sure that even if COPY switchover happens --- the results are correct -SET citus.copy_switchover_threshold TO 1; -TRUNCATE target_table; --- load some data to make sure copy commands switch over connections -INSERT INTO target_table SELECT i,0 FROM generate_series(0,500)i; -DEBUG: distributed INSERT ... SELECT can only select from distributed tables -DEBUG: Collecting INSERT ... SELECT results on coordinator --- make sure that SELECT only uses 1 connection 1 node --- yet still COPY commands use 1 connection per co-located --- intermediate result file -SET citus.max_adaptive_executor_pool_size TO 1; -INSERT INTO target_table SELECT * FROM target_table LIMIT 10000 ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1; -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 10000 -DEBUG: Collecting INSERT ... SELECT results on coordinator -SELECT DISTINCT col_2 FROM target_table; - col_2 ---------------------------------------------------------------------- - 1 -(1 row) - -WITH cte_1 AS (INSERT INTO target_table SELECT * FROM target_table LIMIT 10000 ON CONFLICT(col_1) DO UPDATE SET col_2 = EXCLUDED.col_2 + 1 RETURNING *) -SELECT DISTINCT col_2 FROM cte_1; -DEBUG: generating subplan XXX_1 for CTE cte_1: INSERT INTO on_conflict.target_table (col_1, col_2) SELECT col_1, col_2 FROM on_conflict.target_table LIMIT 10000 ON CONFLICT(col_1) DO UPDATE SET col_2 = (excluded.col_2 OPERATOR(pg_catalog.+) 1) RETURNING target_table.col_1, target_table.col_2 -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 10000 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT DISTINCT col_2 FROM (SELECT intermediate_result.col_1, intermediate_result.col_2 FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(col_1 integer, col_2 integer)) cte_1 -DEBUG: Collecting INSERT ... SELECT results on coordinator - col_2 ---------------------------------------------------------------------- - 2 -(1 row) - -RESET client_min_messages; -DROP SCHEMA on_conflict CASCADE; -NOTICE: drop cascades to 8 other objects -DETAIL: drop cascades to table test_ref_table -drop cascades to table test_ref_table_1900012 -drop cascades to table source_table_3 -drop cascades to table source_table_4 -drop cascades to table target_table_2 -drop cascades to table target_table -drop cascades to table source_table_1 -drop cascades to table source_table_2 diff --git a/src/test/regress/expected/multi_metadata_sync.out b/src/test/regress/expected/multi_metadata_sync.out index cb8f0c0e1..260c2366c 100644 --- a/src/test/regress/expected/multi_metadata_sync.out +++ b/src/test/regress/expected/multi_metadata_sync.out @@ -1,16 +1,6 @@ -- -- MULTI_METADATA_SYNC -- --- this test has different output for PG14 compared to PG15 --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - -- Tests for metadata snapshot functions, metadata syncing functions and propagation of -- metadata changes to MX tables. -- Turn metadata sync off at first diff --git a/src/test/regress/expected/multi_metadata_sync_0.out b/src/test/regress/expected/multi_metadata_sync_0.out deleted file mode 100644 index c81462e6f..000000000 --- a/src/test/regress/expected/multi_metadata_sync_0.out +++ /dev/null @@ -1,2262 +0,0 @@ --- --- MULTI_METADATA_SYNC --- --- this test has different output for PG14 compared to PG15 --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - --- Tests for metadata snapshot functions, metadata syncing functions and propagation of --- metadata changes to MX tables. --- Turn metadata sync off at first -SELECT stop_metadata_sync_to_node('localhost', :worker_1_port); -NOTICE: dropping metadata on the node (localhost,57637) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT stop_metadata_sync_to_node('localhost', :worker_2_port); -NOTICE: dropping metadata on the node (localhost,57638) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -ALTER SEQUENCE pg_catalog.pg_dist_shardid_seq RESTART 1310000; -ALTER SEQUENCE pg_catalog.pg_dist_colocationid_seq RESTART 2; -SELECT nextval('pg_catalog.pg_dist_placement_placementid_seq') AS last_placement_id -\gset -ALTER SEQUENCE pg_catalog.pg_dist_placement_placementid_seq RESTART 100000; -SELECT nextval('pg_catalog.pg_dist_groupid_seq') AS last_group_id \gset -SELECT nextval('pg_catalog.pg_dist_node_nodeid_seq') AS last_node_id \gset --- Create the necessary test utility function -SET citus.enable_metadata_sync TO OFF; -CREATE FUNCTION activate_node_snapshot() - RETURNS text[] - LANGUAGE C STRICT - AS 'citus'; -RESET citus.enable_metadata_sync; -COMMENT ON FUNCTION activate_node_snapshot() - IS 'commands to activate node snapshot'; --- Show that none of the existing tables are qualified to be MX tables -SELECT * FROM pg_dist_partition WHERE partmethod='h' AND repmodel='s'; - logicalrelid | partmethod | partkey | colocationid | repmodel | autoconverted ---------------------------------------------------------------------- -(0 rows) - --- Since password_encryption default has been changed to sha from md5 with PG14 --- we are updating it manually just for consistent test results between PG versions. -ALTER SYSTEM SET password_encryption TO md5; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(0.1); - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -ALTER ROLE CURRENT_USER WITH PASSWORD 'dummypassword'; --- Show that, with no MX tables, activate node snapshot contains only the delete commands, --- pg_dist_node entries, pg_dist_object entries and roles. -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE),(3, 2, 'localhost', 57638, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; -(33 rows) - --- Create a test table with constraints and SERIAL and default from user defined sequence -CREATE SEQUENCE user_defined_seq; -CREATE TABLE mx_test_table (col_1 int UNIQUE, col_2 text NOT NULL, col_3 BIGSERIAL, col_4 BIGINT DEFAULT nextval('user_defined_seq')); -set citus.shard_count to 8; -set citus.shard_replication_factor to 1; -SELECT create_distributed_table('mx_test_table', 'col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -reset citus.shard_count; --- Set the replication model of the test table to streaming replication so that it is --- considered as an MX table -UPDATE pg_dist_partition SET repmodel='s' WHERE logicalrelid='mx_test_table'::regclass; --- add a single shard table and verify the creation commands are included in the activate node snapshot -CREATE TABLE single_shard_tbl(a int); -SELECT create_distributed_table('single_shard_tbl', null); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO single_shard_tbl VALUES (1); -reset citus.shard_replication_factor; --- Show that the created MX table is and its sequences are included in the activate node snapshot -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - ALTER SEQUENCE public.mx_test_table_col_3_seq OWNER TO postgres - ALTER SEQUENCE public.user_defined_seq OWNER TO postgres - ALTER TABLE public.mx_test_table ADD CONSTRAINT mx_test_table_col_1_key UNIQUE (col_1) - ALTER TABLE public.mx_test_table OWNER TO postgres - ALTER TABLE public.single_shard_tbl OWNER TO postgres - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - CREATE TABLE public.mx_test_table (col_1 integer, col_2 text NOT NULL, col_3 bigint DEFAULT nextval('public.mx_test_table_col_3_seq'::regclass) NOT NULL, col_4 bigint DEFAULT nextval('public.user_defined_seq'::regclass)) USING heap - CREATE TABLE public.single_shard_tbl (a integer) USING heap - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - DROP TABLE IF EXISTS public.mx_test_table CASCADE - DROP TABLE IF EXISTS public.single_shard_tbl CASCADE - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE),(3, 2, 'localhost', 57638, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT citus_internal_add_partition_metadata ('public.mx_test_table'::regclass, 'h', 'col_1', 2, 's') - SELECT citus_internal_add_partition_metadata ('public.single_shard_tbl'::regclass, 'n', NULL, 3, 's') - SELECT pg_catalog.worker_drop_sequence_dependency('public.mx_test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency('public.single_shard_tbl'); - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT pg_catalog.worker_record_sequence_dependency('public.mx_test_table_col_3_seq'::regclass,'public.mx_test_table'::regclass,'col_3') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.mx_test_table_col_3_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.user_defined_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SELECT worker_create_truncate_trigger('public.mx_test_table') - SELECT worker_create_truncate_trigger('public.single_shard_tbl') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (2, 8, 1, 'integer'::regtype, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (3, 1, 1, 0, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'mx_test_table_col_3_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'user_defined_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['public', 'mx_test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['public', 'single_shard_tbl']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310000, 0, 1, 100000), (1310001, 0, 2, 100001), (1310002, 0, 1, 100002), (1310003, 0, 2, 100003), (1310004, 0, 1, 100004), (1310005, 0, 2, 100005), (1310006, 0, 1, 100006), (1310007, 0, 2, 100007)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310008, 0, 2, 100008)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('public.mx_test_table'::regclass, 1310000, 't'::"char", '-2147483648', '-1610612737'), ('public.mx_test_table'::regclass, 1310001, 't'::"char", '-1610612736', '-1073741825'), ('public.mx_test_table'::regclass, 1310002, 't'::"char", '-1073741824', '-536870913'), ('public.mx_test_table'::regclass, 1310003, 't'::"char", '-536870912', '-1'), ('public.mx_test_table'::regclass, 1310004, 't'::"char", '0', '536870911'), ('public.mx_test_table'::regclass, 1310005, 't'::"char", '536870912', '1073741823'), ('public.mx_test_table'::regclass, 1310006, 't'::"char", '1073741824', '1610612735'), ('public.mx_test_table'::regclass, 1310007, 't'::"char", '1610612736', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('public.single_shard_tbl'::regclass, 1310008, 't'::"char", NULL, NULL)) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; -(61 rows) - --- Drop single shard table -DROP TABLE single_shard_tbl; --- Show that CREATE INDEX commands are included in the activate node snapshot -CREATE INDEX mx_index ON mx_test_table(col_2); -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - ALTER SEQUENCE public.mx_test_table_col_3_seq OWNER TO postgres - ALTER SEQUENCE public.user_defined_seq OWNER TO postgres - ALTER TABLE public.mx_test_table ADD CONSTRAINT mx_test_table_col_1_key UNIQUE (col_1) - ALTER TABLE public.mx_test_table OWNER TO postgres - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE INDEX mx_index ON public.mx_test_table USING btree (col_2) - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - CREATE TABLE public.mx_test_table (col_1 integer, col_2 text NOT NULL, col_3 bigint DEFAULT nextval('public.mx_test_table_col_3_seq'::regclass) NOT NULL, col_4 bigint DEFAULT nextval('public.user_defined_seq'::regclass)) USING heap - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - DROP TABLE IF EXISTS public.mx_test_table CASCADE - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE),(3, 2, 'localhost', 57638, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT citus_internal_add_partition_metadata ('public.mx_test_table'::regclass, 'h', 'col_1', 2, 's') - SELECT pg_catalog.worker_drop_sequence_dependency('public.mx_test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT pg_catalog.worker_record_sequence_dependency('public.mx_test_table_col_3_seq'::regclass,'public.mx_test_table'::regclass,'col_3') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.mx_test_table_col_3_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.user_defined_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SELECT worker_create_truncate_trigger('public.mx_test_table') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (2, 8, 1, 'integer'::regtype, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'mx_test_table_col_3_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'user_defined_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['public', 'mx_test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310000, 0, 1, 100000), (1310001, 0, 2, 100001), (1310002, 0, 1, 100002), (1310003, 0, 2, 100003), (1310004, 0, 1, 100004), (1310005, 0, 2, 100005), (1310006, 0, 1, 100006), (1310007, 0, 2, 100007)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('public.mx_test_table'::regclass, 1310000, 't'::"char", '-2147483648', '-1610612737'), ('public.mx_test_table'::regclass, 1310001, 't'::"char", '-1610612736', '-1073741825'), ('public.mx_test_table'::regclass, 1310002, 't'::"char", '-1073741824', '-536870913'), ('public.mx_test_table'::regclass, 1310003, 't'::"char", '-536870912', '-1'), ('public.mx_test_table'::regclass, 1310004, 't'::"char", '0', '536870911'), ('public.mx_test_table'::regclass, 1310005, 't'::"char", '536870912', '1073741823'), ('public.mx_test_table'::regclass, 1310006, 't'::"char", '1073741824', '1610612735'), ('public.mx_test_table'::regclass, 1310007, 't'::"char", '1610612736', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; -(52 rows) - --- Show that schema changes are included in the activate node snapshot -CREATE SCHEMA mx_testing_schema; -ALTER TABLE mx_test_table SET SCHEMA mx_testing_schema; -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - ALTER SEQUENCE mx_testing_schema.mx_test_table_col_3_seq OWNER TO postgres - ALTER SEQUENCE public.user_defined_seq OWNER TO postgres - ALTER TABLE mx_testing_schema.mx_test_table ADD CONSTRAINT mx_test_table_col_1_key UNIQUE (col_1) - ALTER TABLE mx_testing_schema.mx_test_table OWNER TO postgres - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE INDEX mx_index ON mx_testing_schema.mx_test_table USING btree (col_2) - CREATE SCHEMA IF NOT EXISTS mx_testing_schema AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - CREATE TABLE mx_testing_schema.mx_test_table (col_1 integer, col_2 text NOT NULL, col_3 bigint DEFAULT nextval('mx_testing_schema.mx_test_table_col_3_seq'::regclass) NOT NULL, col_4 bigint DEFAULT nextval('public.user_defined_seq'::regclass)) USING heap - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - DROP TABLE IF EXISTS mx_testing_schema.mx_test_table CASCADE - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE),(3, 2, 'localhost', 57638, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT citus_internal_add_partition_metadata ('mx_testing_schema.mx_test_table'::regclass, 'h', 'col_1', 2, 's') - SELECT pg_catalog.worker_drop_sequence_dependency('mx_testing_schema.mx_test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT pg_catalog.worker_record_sequence_dependency('mx_testing_schema.mx_test_table_col_3_seq'::regclass,'mx_testing_schema.mx_test_table'::regclass,'col_3') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS mx_testing_schema.mx_test_table_col_3_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.user_defined_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SELECT worker_create_truncate_trigger('mx_testing_schema.mx_test_table') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (2, 8, 1, 'integer'::regtype, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_testing_schema']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['mx_testing_schema', 'mx_test_table_col_3_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'user_defined_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['mx_testing_schema', 'mx_test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310000, 0, 1, 100000), (1310001, 0, 2, 100001), (1310002, 0, 1, 100002), (1310003, 0, 2, 100003), (1310004, 0, 1, 100004), (1310005, 0, 2, 100005), (1310006, 0, 1, 100006), (1310007, 0, 2, 100007)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('mx_testing_schema.mx_test_table'::regclass, 1310000, 't'::"char", '-2147483648', '-1610612737'), ('mx_testing_schema.mx_test_table'::regclass, 1310001, 't'::"char", '-1610612736', '-1073741825'), ('mx_testing_schema.mx_test_table'::regclass, 1310002, 't'::"char", '-1073741824', '-536870913'), ('mx_testing_schema.mx_test_table'::regclass, 1310003, 't'::"char", '-536870912', '-1'), ('mx_testing_schema.mx_test_table'::regclass, 1310004, 't'::"char", '0', '536870911'), ('mx_testing_schema.mx_test_table'::regclass, 1310005, 't'::"char", '536870912', '1073741823'), ('mx_testing_schema.mx_test_table'::regclass, 1310006, 't'::"char", '1073741824', '1610612735'), ('mx_testing_schema.mx_test_table'::regclass, 1310007, 't'::"char", '1610612736', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; -(54 rows) - --- Show that append distributed tables are not included in the activate node snapshot -CREATE TABLE non_mx_test_table (col_1 int, col_2 text); -SELECT create_distributed_table('non_mx_test_table', 'col_1', 'append'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -UPDATE pg_dist_partition SET repmodel='s' WHERE logicalrelid='non_mx_test_table'::regclass; -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - ALTER SEQUENCE mx_testing_schema.mx_test_table_col_3_seq OWNER TO postgres - ALTER SEQUENCE public.user_defined_seq OWNER TO postgres - ALTER TABLE mx_testing_schema.mx_test_table ADD CONSTRAINT mx_test_table_col_1_key UNIQUE (col_1) - ALTER TABLE mx_testing_schema.mx_test_table OWNER TO postgres - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE INDEX mx_index ON mx_testing_schema.mx_test_table USING btree (col_2) - CREATE SCHEMA IF NOT EXISTS mx_testing_schema AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - CREATE TABLE mx_testing_schema.mx_test_table (col_1 integer, col_2 text NOT NULL, col_3 bigint DEFAULT nextval('mx_testing_schema.mx_test_table_col_3_seq'::regclass) NOT NULL, col_4 bigint DEFAULT nextval('public.user_defined_seq'::regclass)) USING heap - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - DROP TABLE IF EXISTS mx_testing_schema.mx_test_table CASCADE - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE),(3, 2, 'localhost', 57638, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT citus_internal_add_partition_metadata ('mx_testing_schema.mx_test_table'::regclass, 'h', 'col_1', 2, 's') - SELECT pg_catalog.worker_drop_sequence_dependency('mx_testing_schema.mx_test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT pg_catalog.worker_record_sequence_dependency('mx_testing_schema.mx_test_table_col_3_seq'::regclass,'mx_testing_schema.mx_test_table'::regclass,'col_3') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS mx_testing_schema.mx_test_table_col_3_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.user_defined_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SELECT worker_create_truncate_trigger('mx_testing_schema.mx_test_table') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (2, 8, 1, 'integer'::regtype, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_testing_schema']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['mx_testing_schema', 'mx_test_table_col_3_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'user_defined_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['mx_testing_schema', 'mx_test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310000, 0, 1, 100000), (1310001, 0, 2, 100001), (1310002, 0, 1, 100002), (1310003, 0, 2, 100003), (1310004, 0, 1, 100004), (1310005, 0, 2, 100005), (1310006, 0, 1, 100006), (1310007, 0, 2, 100007)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('mx_testing_schema.mx_test_table'::regclass, 1310000, 't'::"char", '-2147483648', '-1610612737'), ('mx_testing_schema.mx_test_table'::regclass, 1310001, 't'::"char", '-1610612736', '-1073741825'), ('mx_testing_schema.mx_test_table'::regclass, 1310002, 't'::"char", '-1073741824', '-536870913'), ('mx_testing_schema.mx_test_table'::regclass, 1310003, 't'::"char", '-536870912', '-1'), ('mx_testing_schema.mx_test_table'::regclass, 1310004, 't'::"char", '0', '536870911'), ('mx_testing_schema.mx_test_table'::regclass, 1310005, 't'::"char", '536870912', '1073741823'), ('mx_testing_schema.mx_test_table'::regclass, 1310006, 't'::"char", '1073741824', '1610612735'), ('mx_testing_schema.mx_test_table'::regclass, 1310007, 't'::"char", '1610612736', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; -(54 rows) - --- Show that range distributed tables are not included in the activate node snapshot -UPDATE pg_dist_partition SET partmethod='r' WHERE logicalrelid='non_mx_test_table'::regclass; -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - ALTER SEQUENCE mx_testing_schema.mx_test_table_col_3_seq OWNER TO postgres - ALTER SEQUENCE public.user_defined_seq OWNER TO postgres - ALTER TABLE mx_testing_schema.mx_test_table ADD CONSTRAINT mx_test_table_col_1_key UNIQUE (col_1) - ALTER TABLE mx_testing_schema.mx_test_table OWNER TO postgres - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE INDEX mx_index ON mx_testing_schema.mx_test_table USING btree (col_2) - CREATE SCHEMA IF NOT EXISTS mx_testing_schema AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - CREATE TABLE mx_testing_schema.mx_test_table (col_1 integer, col_2 text NOT NULL, col_3 bigint DEFAULT nextval('mx_testing_schema.mx_test_table_col_3_seq'::regclass) NOT NULL, col_4 bigint DEFAULT nextval('public.user_defined_seq'::regclass)) USING heap - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - DROP TABLE IF EXISTS mx_testing_schema.mx_test_table CASCADE - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE),(3, 2, 'localhost', 57638, 'default', FALSE, FALSE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT citus_internal_add_partition_metadata ('mx_testing_schema.mx_test_table'::regclass, 'h', 'col_1', 2, 's') - SELECT pg_catalog.worker_drop_sequence_dependency('mx_testing_schema.mx_test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT pg_catalog.worker_record_sequence_dependency('mx_testing_schema.mx_test_table_col_3_seq'::regclass,'mx_testing_schema.mx_test_table'::regclass,'col_3') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS mx_testing_schema.mx_test_table_col_3_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.user_defined_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SELECT worker_create_truncate_trigger('mx_testing_schema.mx_test_table') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (2, 8, 1, 'integer'::regtype, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_testing_schema']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['mx_testing_schema', 'mx_test_table_col_3_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'user_defined_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['mx_testing_schema', 'mx_test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310000, 0, 1, 100000), (1310001, 0, 2, 100001), (1310002, 0, 1, 100002), (1310003, 0, 2, 100003), (1310004, 0, 1, 100004), (1310005, 0, 2, 100005), (1310006, 0, 1, 100006), (1310007, 0, 2, 100007)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('mx_testing_schema.mx_test_table'::regclass, 1310000, 't'::"char", '-2147483648', '-1610612737'), ('mx_testing_schema.mx_test_table'::regclass, 1310001, 't'::"char", '-1610612736', '-1073741825'), ('mx_testing_schema.mx_test_table'::regclass, 1310002, 't'::"char", '-1073741824', '-536870913'), ('mx_testing_schema.mx_test_table'::regclass, 1310003, 't'::"char", '-536870912', '-1'), ('mx_testing_schema.mx_test_table'::regclass, 1310004, 't'::"char", '0', '536870911'), ('mx_testing_schema.mx_test_table'::regclass, 1310005, 't'::"char", '536870912', '1073741823'), ('mx_testing_schema.mx_test_table'::regclass, 1310006, 't'::"char", '1073741824', '1610612735'), ('mx_testing_schema.mx_test_table'::regclass, 1310007, 't'::"char", '1610612736', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; -(54 rows) - --- Test start_metadata_sync_to_node and citus_activate_node UDFs --- Ensure that hasmetadata=false for all nodes except for the coordinator node -SELECT count(*) FROM pg_dist_node WHERE hasmetadata=true; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- Show that metadata can not be synced on secondary node -SELECT groupid AS worker_1_group FROM pg_dist_node WHERE nodeport = :worker_1_port \gset -SELECT master_add_node('localhost', 8888, groupid => :worker_1_group, noderole => 'secondary'); - master_add_node ---------------------------------------------------------------------- - 5 -(1 row) - -SELECT start_metadata_sync_to_node('localhost', 8888); - start_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT hasmetadata FROM pg_dist_node WHERE nodeport = 8888; - hasmetadata ---------------------------------------------------------------------- - f -(1 row) - -SELECT stop_metadata_sync_to_node('localhost', 8888); -NOTICE: (localhost,8888) is a secondary node: to clear the metadata, you should clear metadata from the primary node - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT hasmetadata FROM pg_dist_node WHERE nodeport = 8888; - hasmetadata ---------------------------------------------------------------------- - f -(1 row) - --- Add a node to another cluster to make sure it's also synced -SELECT master_add_secondary_node('localhost', 8889, 'localhost', :worker_1_port, nodecluster => 'second-cluster'); - master_add_secondary_node ---------------------------------------------------------------------- - 6 -(1 row) - -\c - - - :master_port --- Run start_metadata_sync_to_node and citus_activate_node and check that it marked hasmetadata for that worker -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT nodeid, hasmetadata FROM pg_dist_node WHERE nodename='localhost' AND nodeport=:worker_1_port; - nodeid | hasmetadata ---------------------------------------------------------------------- - 2 | t -(1 row) - --- Check that the metadata has been copied to the worker -\c - - - :worker_1_port -SELECT * FROM pg_dist_local_group; - groupid ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT * FROM pg_dist_node ORDER BY nodeid; - nodeid | groupid | nodename | nodeport | noderack | hasmetadata | isactive | noderole | nodecluster | metadatasynced | shouldhaveshards ---------------------------------------------------------------------- - 1 | 0 | localhost | 57636 | default | t | t | primary | default | t | f - 2 | 1 | localhost | 57637 | default | t | t | primary | default | t | t - 3 | 2 | localhost | 57638 | default | f | t | primary | default | f | t - 5 | 1 | localhost | 8888 | default | f | t | secondary | default | f | t - 6 | 1 | localhost | 8889 | default | f | t | secondary | second-cluster | f | t -(5 rows) - -SELECT * FROM pg_dist_partition WHERE logicalrelid::text LIKE 'mx_testing_schema%' ORDER BY logicalrelid::text; - logicalrelid | partmethod | partkey | colocationid | repmodel | autoconverted ---------------------------------------------------------------------- - mx_testing_schema.mx_test_table | h | {VAR :varno 1 :varattno 1 :vartype 23 :vartypmod -1 :varcollid 0 :varnullingrels (b) :varlevelsup 0 :varnosyn 1 :varattnosyn 1 :location -1} | 2 | s | f -(1 row) - -SELECT * FROM pg_dist_shard WHERE logicalrelid::text LIKE 'mx_testing_schema%' ORDER BY shardid; - logicalrelid | shardid | shardstorage | shardminvalue | shardmaxvalue ---------------------------------------------------------------------- - mx_testing_schema.mx_test_table | 1310000 | t | -2147483648 | -1610612737 - mx_testing_schema.mx_test_table | 1310001 | t | -1610612736 | -1073741825 - mx_testing_schema.mx_test_table | 1310002 | t | -1073741824 | -536870913 - mx_testing_schema.mx_test_table | 1310003 | t | -536870912 | -1 - mx_testing_schema.mx_test_table | 1310004 | t | 0 | 536870911 - mx_testing_schema.mx_test_table | 1310005 | t | 536870912 | 1073741823 - mx_testing_schema.mx_test_table | 1310006 | t | 1073741824 | 1610612735 - mx_testing_schema.mx_test_table | 1310007 | t | 1610612736 | 2147483647 -(8 rows) - -SELECT * FROM pg_dist_shard_placement WHERE shardid IN (SELECT shardid FROM pg_dist_shard WHERE logicalrelid::text LIKE 'mx_testing_schema%') ORDER BY shardid, nodename, nodeport; - shardid | shardstate | shardlength | nodename | nodeport | placementid ---------------------------------------------------------------------- - 1310000 | 1 | 0 | localhost | 57637 | 100000 - 1310001 | 1 | 0 | localhost | 57638 | 100001 - 1310002 | 1 | 0 | localhost | 57637 | 100002 - 1310003 | 1 | 0 | localhost | 57638 | 100003 - 1310004 | 1 | 0 | localhost | 57637 | 100004 - 1310005 | 1 | 0 | localhost | 57638 | 100005 - 1310006 | 1 | 0 | localhost | 57637 | 100006 - 1310007 | 1 | 0 | localhost | 57638 | 100007 -(8 rows) - -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_testing_schema.mx_test_table'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col_1 | integer | - col_2 | text | not null - col_3 | bigint | not null default nextval('mx_testing_schema.mx_test_table_col_3_seq'::regclass) - col_4 | bigint | default nextval('user_defined_seq'::regclass) -(4 rows) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_testing_schema.mx_test_table_col_1_key'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col_1 | integer | col_1 -(1 row) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_testing_schema.mx_index'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col_2 | text | col_2 -(1 row) - --- Check that pg_dist_colocation is synced -SELECT * FROM pg_dist_colocation ORDER BY colocationid; - colocationid | shardcount | replicationfactor | distributioncolumntype | distributioncolumncollation ---------------------------------------------------------------------- - 2 | 8 | 1 | 23 | 0 -(1 row) - --- Make sure that truncate trigger has been set for the MX table on worker -SELECT count(*) FROM pg_trigger WHERE tgrelid='mx_testing_schema.mx_test_table'::regclass; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- Make sure that citus_activate_node considers foreign key constraints -\c - - - :master_port --- Since we're superuser, we can set the replication model to 'streaming' to --- create some MX tables -SET citus.shard_replication_factor TO 1; -CREATE SCHEMA mx_testing_schema_2; -CREATE TABLE mx_testing_schema.fk_test_1 (col1 int, col2 text, col3 int, UNIQUE(col1, col3)); -CREATE TABLE mx_testing_schema_2.fk_test_2 (col1 int, col2 int, col3 text, - FOREIGN KEY (col1, col2) REFERENCES mx_testing_schema.fk_test_1 (col1, col3)); -SELECT create_distributed_table('mx_testing_schema.fk_test_1', 'col1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('mx_testing_schema_2.fk_test_2', 'col1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- Check that foreign key metadata exists on the worker -\c - - - :worker_1_port -SELECT "Constraint", "Definition" FROM table_fkeys WHERE relid='mx_testing_schema_2.fk_test_2'::regclass; - Constraint | Definition ---------------------------------------------------------------------- - fk_test_2_col1_col2_fkey | FOREIGN KEY (col1, col2) REFERENCES mx_testing_schema.fk_test_1(col1, col3) -(1 row) - -\c - - - :master_port -DROP TABLE mx_testing_schema_2.fk_test_2; -DROP TABLE mx_testing_schema.fk_test_1; -RESET citus.shard_replication_factor; --- Check that repeated calls to citus_activate_node has no side effects -\c - - - :master_port -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -\c - - - :worker_1_port -SELECT * FROM pg_dist_local_group; - groupid ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT * FROM pg_dist_node ORDER BY nodeid; - nodeid | groupid | nodename | nodeport | noderack | hasmetadata | isactive | noderole | nodecluster | metadatasynced | shouldhaveshards ---------------------------------------------------------------------- - 1 | 0 | localhost | 57636 | default | t | t | primary | default | t | f - 2 | 1 | localhost | 57637 | default | t | t | primary | default | t | t - 3 | 2 | localhost | 57638 | default | f | t | primary | default | f | t - 5 | 1 | localhost | 8888 | default | f | t | secondary | default | f | t - 6 | 1 | localhost | 8889 | default | f | t | secondary | second-cluster | f | t -(5 rows) - -SELECT * FROM pg_dist_partition WHERE logicalrelid::text LIKE 'mx_testing_schema%' ORDER BY logicalrelid::text; - logicalrelid | partmethod | partkey | colocationid | repmodel | autoconverted ---------------------------------------------------------------------- - mx_testing_schema.mx_test_table | h | {VAR :varno 1 :varattno 1 :vartype 23 :vartypmod -1 :varcollid 0 :varnullingrels (b) :varlevelsup 0 :varnosyn 1 :varattnosyn 1 :location -1} | 2 | s | f -(1 row) - -SELECT * FROM pg_dist_shard WHERE logicalrelid::text LIKE 'mx_testing_schema%' ORDER BY shardid; - logicalrelid | shardid | shardstorage | shardminvalue | shardmaxvalue ---------------------------------------------------------------------- - mx_testing_schema.mx_test_table | 1310000 | t | -2147483648 | -1610612737 - mx_testing_schema.mx_test_table | 1310001 | t | -1610612736 | -1073741825 - mx_testing_schema.mx_test_table | 1310002 | t | -1073741824 | -536870913 - mx_testing_schema.mx_test_table | 1310003 | t | -536870912 | -1 - mx_testing_schema.mx_test_table | 1310004 | t | 0 | 536870911 - mx_testing_schema.mx_test_table | 1310005 | t | 536870912 | 1073741823 - mx_testing_schema.mx_test_table | 1310006 | t | 1073741824 | 1610612735 - mx_testing_schema.mx_test_table | 1310007 | t | 1610612736 | 2147483647 -(8 rows) - -SELECT * FROM pg_dist_shard_placement WHERE shardid IN (SELECT shardid FROM pg_dist_shard WHERE logicalrelid::text LIKE 'mx_testing_schema%') ORDER BY shardid, nodename, nodeport; - shardid | shardstate | shardlength | nodename | nodeport | placementid ---------------------------------------------------------------------- - 1310000 | 1 | 0 | localhost | 57637 | 100000 - 1310001 | 1 | 0 | localhost | 57638 | 100001 - 1310002 | 1 | 0 | localhost | 57637 | 100002 - 1310003 | 1 | 0 | localhost | 57638 | 100003 - 1310004 | 1 | 0 | localhost | 57637 | 100004 - 1310005 | 1 | 0 | localhost | 57638 | 100005 - 1310006 | 1 | 0 | localhost | 57637 | 100006 - 1310007 | 1 | 0 | localhost | 57638 | 100007 -(8 rows) - -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_testing_schema.mx_test_table'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col_1 | integer | - col_2 | text | not null - col_3 | bigint | not null default nextval('mx_testing_schema.mx_test_table_col_3_seq'::regclass) - col_4 | bigint | default nextval('user_defined_seq'::regclass) -(4 rows) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_testing_schema.mx_test_table_col_1_key'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col_1 | integer | col_1 -(1 row) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_testing_schema.mx_index'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col_2 | text | col_2 -(1 row) - -SELECT count(*) FROM pg_trigger WHERE tgrelid='mx_testing_schema.mx_test_table'::regclass; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- Make sure that citus_activate_node can be called inside a transaction and rollbacked -\c - - - :master_port -BEGIN; -SELECT 1 FROM citus_activate_node('localhost', :worker_2_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -ROLLBACK; -SELECT hasmetadata FROM pg_dist_node WHERE nodeport=:worker_2_port; - hasmetadata ---------------------------------------------------------------------- - f -(1 row) - --- Check that the distributed table can be queried from the worker -\c - - - :master_port -SET citus.shard_replication_factor TO 1; -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -CREATE TABLE mx_query_test (a int, b text, c int); -SELECT create_distributed_table('mx_query_test', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE single_shard_tbl(a int); -SELECT create_distributed_table('single_shard_tbl', null); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO single_shard_tbl VALUES (1); -SELECT repmodel FROM pg_dist_partition WHERE logicalrelid='mx_query_test'::regclass; - repmodel ---------------------------------------------------------------------- - s -(1 row) - -INSERT INTO mx_query_test VALUES (1, 'one', 1); -INSERT INTO mx_query_test VALUES (2, 'two', 4); -INSERT INTO mx_query_test VALUES (3, 'three', 9); -INSERT INTO mx_query_test VALUES (4, 'four', 16); -INSERT INTO mx_query_test VALUES (5, 'five', 24); -\c - - - :worker_1_port -SELECT * FROM mx_query_test ORDER BY a; - a | b | c ---------------------------------------------------------------------- - 1 | one | 1 - 2 | two | 4 - 3 | three | 9 - 4 | four | 16 - 5 | five | 24 -(5 rows) - -INSERT INTO mx_query_test VALUES (6, 'six', 36); -UPDATE mx_query_test SET c = 25 WHERE a = 5; -SELECT * FROM single_shard_tbl ORDER BY a; - a ---------------------------------------------------------------------- - 1 -(1 row) - -INSERT INTO single_shard_tbl VALUES (2); -\c - - - :master_port -SELECT * FROM mx_query_test ORDER BY a; - a | b | c ---------------------------------------------------------------------- - 1 | one | 1 - 2 | two | 4 - 3 | three | 9 - 4 | four | 16 - 5 | five | 25 - 6 | six | 36 -(6 rows) - -SELECT * FROM single_shard_tbl ORDER BY a; - a ---------------------------------------------------------------------- - 1 - 2 -(2 rows) - -\c - - - :master_port -DROP TABLE mx_query_test; -DROP TABLE single_shard_tbl; --- Check that stop_metadata_sync_to_node function sets hasmetadata of the node to false -\c - - - :master_port -SELECT start_metadata_sync_to_node('localhost', :worker_1_port); - start_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT hasmetadata FROM pg_dist_node WHERE nodeport=:worker_1_port; - hasmetadata ---------------------------------------------------------------------- - t -(1 row) - -SELECT stop_metadata_sync_to_node('localhost', :worker_1_port); -NOTICE: dropping metadata on the node (localhost,57637) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT hasmetadata FROM pg_dist_node WHERE nodeport=:worker_1_port; - hasmetadata ---------------------------------------------------------------------- - f -(1 row) - --- Test DDL propagation in MX tables -SELECT start_metadata_sync_to_node('localhost', :worker_1_port); - start_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SET citus.shard_count = 5; -CREATE SCHEMA mx_test_schema_1; -CREATE SCHEMA mx_test_schema_2; --- Create MX tables -SET citus.shard_replication_factor TO 1; -CREATE TABLE mx_test_schema_1.mx_table_1 (col1 int UNIQUE, col2 text); -CREATE INDEX mx_index_1 ON mx_test_schema_1.mx_table_1 (col1); -CREATE TABLE mx_test_schema_2.mx_table_2 (col1 int, col2 text); -CREATE INDEX mx_index_2 ON mx_test_schema_2.mx_table_2 (col2); -ALTER TABLE mx_test_schema_2.mx_table_2 ADD CONSTRAINT mx_fk_constraint FOREIGN KEY(col1) REFERENCES mx_test_schema_1.mx_table_1(col1); -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_test_schema_1.mx_table_1'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col1 | integer | - col2 | text | -(2 rows) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_test_schema_1.mx_table_1_col1_key'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col1 | integer | col1 -(1 row) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_test_schema_1.mx_index_1'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col1 | integer | col1 -(1 row) - -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_test_schema_2.mx_table_2'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col1 | integer | - col2 | text | -(2 rows) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_test_schema_2.mx_index_2'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col2 | text | col2 -(1 row) - -SELECT "Constraint", "Definition" FROM table_fkeys WHERE relid='mx_test_schema_2.mx_table_2'::regclass; - Constraint | Definition ---------------------------------------------------------------------- - mx_fk_constraint | FOREIGN KEY (col1) REFERENCES mx_test_schema_1.mx_table_1(col1) -(1 row) - -SELECT create_distributed_table('mx_test_schema_1.mx_table_1', 'col1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('mx_test_schema_2.mx_table_2', 'col1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- Check that created tables are marked as streaming replicated tables -SELECT - logicalrelid, repmodel -FROM - pg_dist_partition -WHERE - logicalrelid = 'mx_test_schema_1.mx_table_1'::regclass - OR logicalrelid = 'mx_test_schema_2.mx_table_2'::regclass -ORDER BY - logicalrelid::text; - logicalrelid | repmodel ---------------------------------------------------------------------- - mx_test_schema_1.mx_table_1 | s - mx_test_schema_2.mx_table_2 | s -(2 rows) - --- See the shards and placements of the mx tables -SELECT - logicalrelid, shardid, nodename, nodeport -FROM - pg_dist_shard NATURAL JOIN pg_dist_shard_placement -WHERE - logicalrelid = 'mx_test_schema_1.mx_table_1'::regclass - OR logicalrelid = 'mx_test_schema_2.mx_table_2'::regclass -ORDER BY - logicalrelid::text, shardid; - logicalrelid | shardid | nodename | nodeport ---------------------------------------------------------------------- - mx_test_schema_1.mx_table_1 | 1310022 | localhost | 57637 - mx_test_schema_1.mx_table_1 | 1310023 | localhost | 57638 - mx_test_schema_1.mx_table_1 | 1310024 | localhost | 57637 - mx_test_schema_1.mx_table_1 | 1310025 | localhost | 57638 - mx_test_schema_1.mx_table_1 | 1310026 | localhost | 57637 - mx_test_schema_2.mx_table_2 | 1310027 | localhost | 57637 - mx_test_schema_2.mx_table_2 | 1310028 | localhost | 57638 - mx_test_schema_2.mx_table_2 | 1310029 | localhost | 57637 - mx_test_schema_2.mx_table_2 | 1310030 | localhost | 57638 - mx_test_schema_2.mx_table_2 | 1310031 | localhost | 57637 -(10 rows) - --- Check that metadata of MX tables exist on the metadata worker -\c - - - :worker_1_port --- Check that tables are created -\dt mx_test_schema_?.mx_table_? - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - mx_test_schema_1 | mx_table_1 | table | postgres - mx_test_schema_2 | mx_table_2 | table | postgres -(2 rows) - --- Check that table metadata are created -SELECT - logicalrelid, repmodel -FROM - pg_dist_partition -WHERE - logicalrelid = 'mx_test_schema_1.mx_table_1'::regclass - OR logicalrelid = 'mx_test_schema_2.mx_table_2'::regclass -ORDER BY - logicalrelid::text; - logicalrelid | repmodel ---------------------------------------------------------------------- - mx_test_schema_1.mx_table_1 | s - mx_test_schema_2.mx_table_2 | s -(2 rows) - --- Check that shard and placement data are created -SELECT - logicalrelid, shardid, nodename, nodeport -FROM - pg_dist_shard NATURAL JOIN pg_dist_shard_placement -WHERE - logicalrelid = 'mx_test_schema_1.mx_table_1'::regclass - OR logicalrelid = 'mx_test_schema_2.mx_table_2'::regclass -ORDER BY - logicalrelid::text, shardid; - logicalrelid | shardid | nodename | nodeport ---------------------------------------------------------------------- - mx_test_schema_1.mx_table_1 | 1310022 | localhost | 57637 - mx_test_schema_1.mx_table_1 | 1310023 | localhost | 57638 - mx_test_schema_1.mx_table_1 | 1310024 | localhost | 57637 - mx_test_schema_1.mx_table_1 | 1310025 | localhost | 57638 - mx_test_schema_1.mx_table_1 | 1310026 | localhost | 57637 - mx_test_schema_2.mx_table_2 | 1310027 | localhost | 57637 - mx_test_schema_2.mx_table_2 | 1310028 | localhost | 57638 - mx_test_schema_2.mx_table_2 | 1310029 | localhost | 57637 - mx_test_schema_2.mx_table_2 | 1310030 | localhost | 57638 - mx_test_schema_2.mx_table_2 | 1310031 | localhost | 57637 -(10 rows) - --- Check that metadata of MX tables don't exist on the non-metadata worker -\c - - - :worker_2_port -\d mx_test_schema_1.mx_table_1 -\d mx_test_schema_2.mx_table_2 -SELECT * FROM pg_dist_partition WHERE logicalrelid::text LIKE 'mx_test_schema%'; - logicalrelid | partmethod | partkey | colocationid | repmodel | autoconverted ---------------------------------------------------------------------- -(0 rows) - -SELECT * FROM pg_dist_shard WHERE logicalrelid::text LIKE 'mx_test_schema%'; - logicalrelid | shardid | shardstorage | shardminvalue | shardmaxvalue ---------------------------------------------------------------------- -(0 rows) - -SELECT * FROM pg_dist_shard_placement ORDER BY shardid, nodename, nodeport; - shardid | shardstate | shardlength | nodename | nodeport | placementid ---------------------------------------------------------------------- -(0 rows) - --- Check that CREATE INDEX statement is propagated -\c - - - :master_port -SET client_min_messages TO 'ERROR'; -CREATE INDEX mx_index_3 ON mx_test_schema_2.mx_table_2 USING hash (col1); -ALTER TABLE mx_test_schema_2.mx_table_2 ADD CONSTRAINT mx_table_2_col1_key UNIQUE (col1); -\c - - - :worker_1_port -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_test_schema_2.mx_index_3'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col1 | integer | col1 -(1 row) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_test_schema_2.mx_table_2_col1_key'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col1 | integer | col1 -(1 row) - --- Check that DROP INDEX statement is propagated -\c - - - :master_port -DROP INDEX mx_test_schema_2.mx_index_3; -\c - - - :worker_1_port -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_test_schema_2.mx_index_3'::regclass; -ERROR: relation "mx_test_schema_2.mx_index_3" does not exist --- Check that ALTER TABLE statements are propagated -\c - - - :master_port -ALTER TABLE mx_test_schema_1.mx_table_1 ADD COLUMN col3 NUMERIC; -ALTER TABLE mx_test_schema_1.mx_table_1 ALTER COLUMN col3 SET DATA TYPE INT; -ALTER TABLE - mx_test_schema_1.mx_table_1 -ADD CONSTRAINT - mx_fk_constraint -FOREIGN KEY - (col1) -REFERENCES - mx_test_schema_2.mx_table_2(col1); -\c - - - :worker_1_port -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_test_schema_1.mx_table_1'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col1 | integer | - col2 | text | - col3 | integer | -(3 rows) - -SELECT "Constraint", "Definition" FROM table_fkeys WHERE relid='mx_test_schema_1.mx_table_1'::regclass; - Constraint | Definition ---------------------------------------------------------------------- - mx_fk_constraint | FOREIGN KEY (col1) REFERENCES mx_test_schema_2.mx_table_2(col1) -(1 row) - --- Check that foreign key constraint with NOT VALID works as well -\c - - - :master_port -ALTER TABLE mx_test_schema_1.mx_table_1 DROP CONSTRAINT mx_fk_constraint; -ALTER TABLE - mx_test_schema_1.mx_table_1 -ADD CONSTRAINT - mx_fk_constraint_2 -FOREIGN KEY - (col1) -REFERENCES - mx_test_schema_2.mx_table_2(col1) -NOT VALID; -\c - - - :worker_1_port -SELECT "Constraint", "Definition" FROM table_fkeys WHERE relid='mx_test_schema_1.mx_table_1'::regclass; - Constraint | Definition ---------------------------------------------------------------------- - mx_fk_constraint_2 | FOREIGN KEY (col1) REFERENCES mx_test_schema_2.mx_table_2(col1) -(1 row) - --- Check that update_distributed_table_colocation call propagates the changes to the workers -\c - - - :master_port -SELECT nextval('pg_catalog.pg_dist_colocationid_seq') AS last_colocation_id \gset -ALTER SEQUENCE pg_catalog.pg_dist_colocationid_seq RESTART 10000; -SET citus.shard_count TO 7; -SET citus.shard_replication_factor TO 1; -CREATE TABLE mx_colocation_test_1 (a int); -SELECT create_distributed_table('mx_colocation_test_1', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE mx_colocation_test_2 (a int); -SELECT create_distributed_table('mx_colocation_test_2', 'a', colocate_with:='none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- Reset the colocation IDs of the test tables -DELETE FROM - pg_dist_colocation -WHERE EXISTS ( - SELECT 1 - FROM pg_dist_partition - WHERE - colocationid = pg_dist_partition.colocationid - AND pg_dist_partition.logicalrelid = 'mx_colocation_test_1'::regclass); --- Check the colocation IDs of the created tables -SELECT - logicalrelid, colocationid -FROM - pg_dist_partition -WHERE - logicalrelid = 'mx_colocation_test_1'::regclass - OR logicalrelid = 'mx_colocation_test_2'::regclass -ORDER BY logicalrelid::text; - logicalrelid | colocationid ---------------------------------------------------------------------- - mx_colocation_test_1 | 10000 - mx_colocation_test_2 | 10001 -(2 rows) - --- Update colocation and see the changes on the master and the worker -SELECT update_distributed_table_colocation('mx_colocation_test_1', colocate_with => 'mx_colocation_test_2'); - update_distributed_table_colocation ---------------------------------------------------------------------- - -(1 row) - -SELECT - logicalrelid, colocationid -FROM - pg_dist_partition -WHERE - logicalrelid = 'mx_colocation_test_1'::regclass - OR logicalrelid = 'mx_colocation_test_2'::regclass -ORDER BY - logicalrelid::text; - logicalrelid | colocationid ---------------------------------------------------------------------- - mx_colocation_test_1 | 10001 - mx_colocation_test_2 | 10001 -(2 rows) - -\c - - - :worker_1_port -SELECT - logicalrelid, colocationid -FROM - pg_dist_partition -WHERE - logicalrelid = 'mx_colocation_test_1'::regclass - OR logicalrelid = 'mx_colocation_test_2'::regclass -ORDER BY - logicalrelid::text; - logicalrelid | colocationid ---------------------------------------------------------------------- - mx_colocation_test_1 | 10001 - mx_colocation_test_2 | 10001 -(2 rows) - -\c - - - :master_port --- Check that DROP TABLE on MX tables works -DROP TABLE mx_colocation_test_1; -DROP TABLE mx_colocation_test_2; -\d mx_colocation_test_1 -\d mx_colocation_test_2 -\c - - - :worker_1_port -\d mx_colocation_test_1 -\d mx_colocation_test_2 --- Check that dropped MX table can be recreated again -\c - - - :master_port -SET citus.shard_count TO 7; -SET citus.shard_replication_factor TO 1; -CREATE TABLE mx_temp_drop_test (a int); -SELECT create_distributed_table('mx_temp_drop_test', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT logicalrelid, repmodel FROM pg_dist_partition WHERE logicalrelid = 'mx_temp_drop_test'::regclass; - logicalrelid | repmodel ---------------------------------------------------------------------- - mx_temp_drop_test | s -(1 row) - -DROP TABLE mx_temp_drop_test; -CREATE TABLE mx_temp_drop_test (a int); -SELECT create_distributed_table('mx_temp_drop_test', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT logicalrelid, repmodel FROM pg_dist_partition WHERE logicalrelid = 'mx_temp_drop_test'::regclass; - logicalrelid | repmodel ---------------------------------------------------------------------- - mx_temp_drop_test | s -(1 row) - -DROP TABLE mx_temp_drop_test; --- Check that MX tables can be created with SERIAL columns -\c - - - :master_port -SET citus.shard_count TO 3; -SET citus.shard_replication_factor TO 1; -SELECT stop_metadata_sync_to_node('localhost', :worker_1_port); -NOTICE: dropping metadata on the node (localhost,57637) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT stop_metadata_sync_to_node('localhost', :worker_2_port); -NOTICE: dropping metadata on the node (localhost,57638) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - --- sync table with serial column after create_distributed_table -CREATE TABLE mx_table_with_small_sequence(a int, b SERIAL, c SMALLSERIAL); -SELECT create_distributed_table('mx_table_with_small_sequence', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -DROP TABLE mx_table_with_small_sequence; --- Show that create_distributed_table works with a serial column -CREATE TABLE mx_table_with_small_sequence(a int, b SERIAL, c SMALLSERIAL); -SELECT create_distributed_table('mx_table_with_small_sequence', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO mx_table_with_small_sequence VALUES (0); -\c - - - :worker_1_port --- Insert doesn't work because the defaults are of type int and smallint -INSERT INTO mx_table_with_small_sequence VALUES (1), (3); -ERROR: nextval(sequence) calls in worker nodes are not supported for column defaults of type int or smallint -\c - - - :master_port -SET citus.shard_replication_factor TO 1; --- Create an MX table with (BIGSERIAL) sequences -CREATE TABLE mx_table_with_sequence(a int, b BIGSERIAL, c BIGSERIAL); -SELECT create_distributed_table('mx_table_with_sequence', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO mx_table_with_sequence VALUES (0); -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_table_with_sequence'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - a | integer | - b | bigint | not null default nextval('mx_table_with_sequence_b_seq'::regclass) - c | bigint | not null default nextval('mx_table_with_sequence_c_seq'::regclass) -(3 rows) - -\ds mx_table_with_sequence_b_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_table_with_sequence_b_seq | sequence | postgres -(1 row) - -\ds mx_table_with_sequence_c_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_table_with_sequence_c_seq | sequence | postgres -(1 row) - --- Check that the sequences created on the metadata worker as well -\c - - - :worker_1_port -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_table_with_sequence'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - a | integer | - b | bigint | not null default nextval('mx_table_with_sequence_b_seq'::regclass) - c | bigint | not null default nextval('mx_table_with_sequence_c_seq'::regclass) -(3 rows) - -\ds mx_table_with_sequence_b_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_table_with_sequence_b_seq | sequence | postgres -(1 row) - -\ds mx_table_with_sequence_c_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_table_with_sequence_c_seq | sequence | postgres -(1 row) - --- Insert works because the defaults are of type bigint -INSERT INTO mx_table_with_sequence VALUES (1), (3); --- check that pg_depend records exist on the worker -SELECT refobjsubid FROM pg_depend -WHERE objid = 'mx_table_with_sequence_b_seq'::regclass AND refobjid = 'mx_table_with_sequence'::regclass; - refobjsubid ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT refobjsubid FROM pg_depend -WHERE objid = 'mx_table_with_sequence_c_seq'::regclass AND refobjid = 'mx_table_with_sequence'::regclass; - refobjsubid ---------------------------------------------------------------------- - 3 -(1 row) - --- Check that the sequences on the worker have their own space -SELECT nextval('mx_table_with_sequence_b_seq'); - nextval ---------------------------------------------------------------------- - 281474976710659 -(1 row) - -SELECT nextval('mx_table_with_sequence_c_seq'); - nextval ---------------------------------------------------------------------- - 281474976710659 -(1 row) - --- Check that adding a new metadata node sets the sequence space correctly -\c - - - :master_port -SELECT 1 FROM citus_activate_node('localhost', :worker_2_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -\c - - - :worker_2_port -SELECT groupid FROM pg_dist_local_group; - groupid ---------------------------------------------------------------------- - 2 -(1 row) - -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_table_with_sequence'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - a | integer | - b | bigint | not null default nextval('mx_table_with_sequence_b_seq'::regclass) - c | bigint | not null default nextval('mx_table_with_sequence_c_seq'::regclass) -(3 rows) - -\ds mx_table_with_sequence_b_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_table_with_sequence_b_seq | sequence | postgres -(1 row) - -\ds mx_table_with_sequence_c_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_table_with_sequence_c_seq | sequence | postgres -(1 row) - -SELECT nextval('mx_table_with_sequence_b_seq'); - nextval ---------------------------------------------------------------------- - 562949953421313 -(1 row) - -SELECT nextval('mx_table_with_sequence_c_seq'); - nextval ---------------------------------------------------------------------- - 562949953421313 -(1 row) - --- Insert doesn't work because the defaults are of type int and smallint -INSERT INTO mx_table_with_small_sequence VALUES (2), (4); -ERROR: nextval(sequence) calls in worker nodes are not supported for column defaults of type int or smallint --- Insert works because the defaults are of type bigint -INSERT INTO mx_table_with_sequence VALUES (2), (4); --- Check that dropping the mx table with sequences works as expected -\c - - - :master_port --- check our small sequence values -SELECT a, b, c FROM mx_table_with_small_sequence ORDER BY a,b,c; - a | b | c ---------------------------------------------------------------------- - 0 | 1 | 1 -(1 row) - ---check our bigint sequence values -SELECT a, b, c FROM mx_table_with_sequence ORDER BY a,b,c; - a | b | c ---------------------------------------------------------------------- - 0 | 1 | 1 - 1 | 281474976710657 | 281474976710657 - 2 | 562949953421314 | 562949953421314 - 3 | 281474976710658 | 281474976710658 - 4 | 562949953421315 | 562949953421315 -(5 rows) - --- Check that dropping the mx table with sequences works as expected -DROP TABLE mx_table_with_small_sequence, mx_table_with_sequence; -\d mx_table_with_sequence -\ds mx_table_with_sequence_b_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- -(0 rows) - -\ds mx_table_with_sequence_c_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- -(0 rows) - --- Check that the sequences are dropped from the workers -\c - - - :worker_1_port -\d mx_table_with_sequence -\ds mx_table_with_sequence_b_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- -(0 rows) - -\ds mx_table_with_sequence_c_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- -(0 rows) - --- Check that the sequences are dropped from the workers -\c - - - :worker_2_port -\ds mx_table_with_sequence_b_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- -(0 rows) - -\ds mx_table_with_sequence_c_seq - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- -(0 rows) - --- Check that MX sequences play well with non-super users -\c - - - :master_port --- Remove a node so that shards and sequences won't be created on table creation. Therefore, --- we can test that citus_activate_node can actually create the sequence with proper --- owner -CREATE TABLE pg_dist_placement_temp AS SELECT * FROM pg_dist_placement; -CREATE TABLE pg_dist_partition_temp AS SELECT * FROM pg_dist_partition; -CREATE TABLE pg_dist_object_temp AS SELECT * FROM pg_catalog.pg_dist_object; -DELETE FROM pg_dist_placement; -DELETE FROM pg_dist_partition; -DELETE FROM pg_catalog.pg_dist_object; -SELECT groupid AS old_worker_2_group FROM pg_dist_node WHERE nodeport = :worker_2_port \gset -SELECT master_remove_node('localhost', :worker_2_port); - master_remove_node ---------------------------------------------------------------------- - -(1 row) - - -- the master user needs superuser permissions to change the replication model -CREATE USER mx_user WITH SUPERUSER; -\c - mx_user - :master_port --- Create an mx table as a different user -CREATE TABLE mx_table (a int, b BIGSERIAL); -SET citus.shard_replication_factor TO 1; -SELECT create_distributed_table('mx_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -\c - postgres - :master_port -SELECT master_add_node('localhost', :worker_2_port); - master_add_node ---------------------------------------------------------------------- - 7 -(1 row) - -\c - mx_user - :worker_1_port -SELECT nextval('mx_table_b_seq'); - nextval ---------------------------------------------------------------------- - 281474976710657 -(1 row) - -INSERT INTO mx_table (a) VALUES (37); -INSERT INTO mx_table (a) VALUES (38); -SELECT * FROM mx_table ORDER BY a; - a | b ---------------------------------------------------------------------- - 37 | 281474976710658 - 38 | 281474976710659 -(2 rows) - -\c - mx_user - :worker_2_port -SELECT nextval('mx_table_b_seq'); - nextval ---------------------------------------------------------------------- - 1125899906842625 -(1 row) - -INSERT INTO mx_table (a) VALUES (39); -INSERT INTO mx_table (a) VALUES (40); -SELECT * FROM mx_table ORDER BY a; - a | b ---------------------------------------------------------------------- - 37 | 281474976710658 - 38 | 281474976710659 - 39 | 1125899906842626 - 40 | 1125899906842627 -(4 rows) - -\c - mx_user - :master_port -DROP TABLE mx_table; --- put the metadata back into a consistent state -\c - postgres - :master_port -INSERT INTO pg_dist_placement SELECT * FROM pg_dist_placement_temp; -INSERT INTO pg_dist_partition SELECT * FROM pg_dist_partition_temp; -INSERT INTO pg_catalog.pg_dist_object SELECT * FROM pg_dist_object_temp ON CONFLICT ON CONSTRAINT pg_dist_object_pkey DO NOTHING; -DROP TABLE pg_dist_placement_temp; -DROP TABLE pg_dist_partition_temp; -DROP TABLE pg_dist_object_temp; -UPDATE pg_dist_placement - SET groupid = (SELECT groupid FROM pg_dist_node WHERE nodeport = :worker_2_port) - WHERE groupid = :old_worker_2_group; -\c - - - :worker_1_port -UPDATE pg_dist_placement - SET groupid = (SELECT groupid FROM pg_dist_node WHERE nodeport = :worker_2_port) - WHERE groupid = :old_worker_2_group; -\c - - - :worker_2_port -UPDATE pg_dist_placement - SET groupid = (SELECT groupid FROM pg_dist_node WHERE nodeport = :worker_2_port) - WHERE groupid = :old_worker_2_group; -\c - - - :master_port -SELECT stop_metadata_sync_to_node('localhost', :worker_2_port); -NOTICE: dropping metadata on the node (localhost,57638) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -DROP USER mx_user; --- Check that create_reference_table creates the metadata on workers -\c - - - :master_port -CREATE TABLE mx_ref (col_1 int, col_2 text); -SELECT create_reference_table('mx_ref'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - --- make sure that adding/removing nodes doesn't cause --- multiple colocation entries for reference tables -SELECT count(*) FROM pg_dist_colocation WHERE distributioncolumntype = 0; - count ---------------------------------------------------------------------- - 1 -(1 row) - -\dt mx_ref - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_ref | table | postgres -(1 row) - -\c - - - :worker_1_port -\dt mx_ref - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_ref | table | postgres -(1 row) - -SELECT - logicalrelid, partmethod, repmodel, shardid, placementid, nodename, nodeport -FROM - pg_dist_partition - NATURAL JOIN pg_dist_shard - NATURAL JOIN pg_dist_shard_placement -WHERE - logicalrelid = 'mx_ref'::regclass -ORDER BY - nodeport; - logicalrelid | partmethod | repmodel | shardid | placementid | nodename | nodeport ---------------------------------------------------------------------- - mx_ref | n | t | 1310074 | 100074 | localhost | 57636 - mx_ref | n | t | 1310074 | 100075 | localhost | 57637 - mx_ref | n | t | 1310074 | 100076 | localhost | 57638 -(3 rows) - -SELECT shardid AS ref_table_shardid FROM pg_dist_shard WHERE logicalrelid='mx_ref'::regclass \gset --- make sure we have the pg_dist_colocation record on the worker -SELECT count(*) FROM pg_dist_colocation WHERE distributioncolumntype = 0; - count ---------------------------------------------------------------------- - 1 -(1 row) - --- Check that DDL commands are propagated to reference tables on workers -\c - - - :master_port -ALTER TABLE mx_ref ADD COLUMN col_3 NUMERIC DEFAULT 0; -CREATE INDEX mx_ref_index ON mx_ref(col_1); -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_ref'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col_1 | integer | - col_2 | text | - col_3 | numeric | default 0 -(3 rows) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_ref_index'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col_1 | integer | col_1 -(1 row) - -\c - - - :worker_1_port -SELECT "Column", "Type", "Modifiers" FROM table_desc WHERE relid='mx_ref'::regclass; - Column | Type | Modifiers ---------------------------------------------------------------------- - col_1 | integer | - col_2 | text | - col_3 | numeric | default 0 -(3 rows) - -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_ref_index'::regclass; - Column | Type | Definition ---------------------------------------------------------------------- - col_1 | integer | col_1 -(1 row) - --- Check that metada is cleaned successfully upon drop table -\c - - - :master_port -DROP TABLE mx_ref; -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_ref_index'::regclass; -ERROR: relation "mx_ref_index" does not exist -\c - - - :worker_1_port -SELECT "Column", "Type", "Definition" FROM index_attrs WHERE - relid = 'mx_ref_index'::regclass; -ERROR: relation "mx_ref_index" does not exist -SELECT * FROM pg_dist_shard WHERE shardid=:ref_table_shardid; - logicalrelid | shardid | shardstorage | shardminvalue | shardmaxvalue ---------------------------------------------------------------------- -(0 rows) - -SELECT * FROM pg_dist_shard_placement WHERE shardid=:ref_table_shardid; - shardid | shardstate | shardlength | nodename | nodeport | placementid ---------------------------------------------------------------------- -(0 rows) - --- Check that master_add_node propagates the metadata about new placements of a reference table -\c - - - :master_port -SELECT groupid AS old_worker_2_group - FROM pg_dist_node WHERE nodeport = :worker_2_port \gset -CREATE TABLE tmp_placement AS - SELECT * FROM pg_dist_placement WHERE groupid = :old_worker_2_group; -DELETE FROM pg_dist_placement - WHERE groupid = :old_worker_2_group; -SELECT master_remove_node('localhost', :worker_2_port); -WARNING: could not find any shard placements for shardId 1310001 -WARNING: could not find any shard placements for shardId 1310023 -WARNING: could not find any shard placements for shardId 1310028 - master_remove_node ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE mx_ref (col_1 int, col_2 text); -SELECT create_reference_table('mx_ref'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -SELECT shardid, nodename, nodeport -FROM pg_dist_shard NATURAL JOIN pg_dist_shard_placement -WHERE logicalrelid='mx_ref'::regclass; - shardid | nodename | nodeport ---------------------------------------------------------------------- - 1310075 | localhost | 57636 - 1310075 | localhost | 57637 -(2 rows) - -\c - - - :worker_1_port -SELECT shardid, nodename, nodeport -FROM pg_dist_shard NATURAL JOIN pg_dist_shard_placement -WHERE logicalrelid='mx_ref'::regclass; - shardid | nodename | nodeport ---------------------------------------------------------------------- - 1310075 | localhost | 57636 - 1310075 | localhost | 57637 -(2 rows) - -\c - - - :master_port -SET client_min_messages TO ERROR; -SELECT master_add_node('localhost', :worker_2_port); - master_add_node ---------------------------------------------------------------------- - 8 -(1 row) - -RESET client_min_messages; -SELECT shardid, nodename, nodeport -FROM pg_dist_shard NATURAL JOIN pg_dist_shard_placement -WHERE logicalrelid='mx_ref'::regclass -ORDER BY shardid, nodeport; - shardid | nodename | nodeport ---------------------------------------------------------------------- - 1310075 | localhost | 57636 - 1310075 | localhost | 57637 -(2 rows) - -\c - - - :worker_1_port -SELECT shardid, nodename, nodeport -FROM pg_dist_shard NATURAL JOIN pg_dist_shard_placement -WHERE logicalrelid='mx_ref'::regclass -ORDER BY shardid, nodeport; - shardid | nodename | nodeport ---------------------------------------------------------------------- - 1310075 | localhost | 57636 - 1310075 | localhost | 57637 -(2 rows) - --- Get the metadata back into a consistent state -\c - - - :master_port -INSERT INTO pg_dist_placement (SELECT * FROM tmp_placement); -DROP TABLE tmp_placement; -UPDATE pg_dist_placement - SET groupid = (SELECT groupid FROM pg_dist_node WHERE nodeport = :worker_2_port) - WHERE groupid = :old_worker_2_group; -\c - - - :worker_1_port -UPDATE pg_dist_placement - SET groupid = (SELECT groupid FROM pg_dist_node WHERE nodeport = :worker_2_port) - WHERE groupid = :old_worker_2_group; --- Confirm that shouldhaveshards is 'true' -\c - - - :master_port -select shouldhaveshards from pg_dist_node where nodeport = 8888; - shouldhaveshards ---------------------------------------------------------------------- - t -(1 row) - -\c - postgres - :worker_1_port -select shouldhaveshards from pg_dist_node where nodeport = 8888; - shouldhaveshards ---------------------------------------------------------------------- - t -(1 row) - --- Check that setting shouldhaveshards to false is correctly transferred to other mx nodes -\c - - - :master_port -SELECT * from master_set_node_property('localhost', 8888, 'shouldhaveshards', false); - master_set_node_property ---------------------------------------------------------------------- - -(1 row) - -select shouldhaveshards from pg_dist_node where nodeport = 8888; - shouldhaveshards ---------------------------------------------------------------------- - f -(1 row) - -\c - postgres - :worker_1_port -select shouldhaveshards from pg_dist_node where nodeport = 8888; - shouldhaveshards ---------------------------------------------------------------------- - f -(1 row) - --- Check that setting shouldhaveshards to true is correctly transferred to other mx nodes -\c - postgres - :master_port -SELECT * from master_set_node_property('localhost', 8888, 'shouldhaveshards', true); - master_set_node_property ---------------------------------------------------------------------- - -(1 row) - -select shouldhaveshards from pg_dist_node where nodeport = 8888; - shouldhaveshards ---------------------------------------------------------------------- - t -(1 row) - -\c - postgres - :worker_1_port -select shouldhaveshards from pg_dist_node where nodeport = 8888; - shouldhaveshards ---------------------------------------------------------------------- - t -(1 row) - -\c - - - :master_port --- --- Check that metadata commands error out if any nodes are out-of-sync --- --- increase metadata_sync intervals to avoid metadata sync while we test -ALTER SYSTEM SET citus.metadata_sync_interval TO 300000; -ALTER SYSTEM SET citus.metadata_sync_retry_interval TO 300000; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SET citus.shard_replication_factor TO 1; -CREATE TABLE dist_table_1(a int); -SELECT create_distributed_table('dist_table_1', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -UPDATE pg_dist_node SET metadatasynced=false WHERE nodeport=:worker_1_port; -SELECT hasmetadata, metadatasynced FROM pg_dist_node WHERE nodeport=:worker_1_port; - hasmetadata | metadatasynced ---------------------------------------------------------------------- - t | f -(1 row) - -CREATE TABLE dist_table_2(a int); -SELECT create_distributed_table('dist_table_2', 'a'); -ERROR: localhost:xxxxx is a metadata node, but is out of sync -HINT: If the node is up, wait until metadata gets synced to it and try again. -SELECT create_reference_table('dist_table_2'); -ERROR: localhost:xxxxx is a metadata node, but is out of sync -HINT: If the node is up, wait until metadata gets synced to it and try again. -ALTER TABLE dist_table_1 ADD COLUMN b int; -ERROR: localhost:xxxxx is a metadata node, but is out of sync -HINT: If the node is up, wait until metadata gets synced to it and try again. -SELECT citus_disable_node_and_wait('localhost', :worker_1_port); -ERROR: disabling the first worker node in the metadata is not allowed -DETAIL: Citus uses the first worker node in the metadata for certain internal operations when replicated tables are modified. Synchronous mode ensures that all nodes have the same view of the first worker node, which is used for certain locking operations. -HINT: You can force disabling node, SELECT citus_disable_node('localhost', 57637, synchronous:=true); -CONTEXT: SQL statement "SELECT pg_catalog.citus_disable_node(nodename, nodeport, force)" -PL/pgSQL function citus_disable_node_and_wait(text,integer,boolean) line XX at PERFORM -SELECT citus_disable_node_and_wait('localhost', :worker_2_port); -ERROR: cannot remove or disable the node localhost:xxxxx because because it contains the only shard placement for shard xxxxx -DETAIL: One of the table(s) that prevents the operation complete successfully is mx_testing_schema.mx_test_table -HINT: To proceed, either drop the tables or use undistribute_table() function to convert them to local tables -CONTEXT: SQL statement "SELECT pg_catalog.citus_disable_node(nodename, nodeport, force)" -PL/pgSQL function citus_disable_node_and_wait(text,integer,boolean) line XX at PERFORM -SELECT master_remove_node('localhost', :worker_1_port); -ERROR: cannot remove or disable the node localhost:xxxxx because because it contains the only shard placement for shard xxxxx -DETAIL: One of the table(s) that prevents the operation complete successfully is mx_testing_schema.mx_test_table -HINT: To proceed, either drop the tables or use undistribute_table() function to convert them to local tables -SELECT master_remove_node('localhost', :worker_2_port); -ERROR: cannot remove or disable the node localhost:xxxxx because because it contains the only shard placement for shard xxxxx -DETAIL: One of the table(s) that prevents the operation complete successfully is mx_testing_schema.mx_test_table -HINT: To proceed, either drop the tables or use undistribute_table() function to convert them to local tables --- master_update_node should succeed -SELECT nodeid AS worker_2_nodeid FROM pg_dist_node WHERE nodeport=:worker_2_port \gset -SELECT master_update_node(:worker_2_nodeid, 'localhost', 4444); - master_update_node ---------------------------------------------------------------------- - -(1 row) - -SELECT master_update_node(:worker_2_nodeid, 'localhost', :worker_2_port); - master_update_node ---------------------------------------------------------------------- - -(1 row) - -ALTER SYSTEM SET citus.metadata_sync_interval TO DEFAULT; -ALTER SYSTEM SET citus.metadata_sync_retry_interval TO DEFAULT; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - --- make sure that all the nodes have valid metadata before moving forward -SELECT wait_until_metadata_sync(60000); - wait_until_metadata_sync ---------------------------------------------------------------------- - -(1 row) - -SELECT master_add_node('localhost', :worker_2_port); - master_add_node ---------------------------------------------------------------------- - 8 -(1 row) - -CREATE SEQUENCE mx_test_sequence_0; -CREATE SEQUENCE mx_test_sequence_1; --- test create_distributed_table -CREATE TABLE test_table (id int DEFAULT nextval('mx_test_sequence_0')); -SELECT create_distributed_table('test_table', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- shouldn't work since it's partition column -ALTER TABLE test_table ALTER COLUMN id SET DEFAULT nextval('mx_test_sequence_1'); -ERROR: cannot execute ALTER TABLE command involving partition column --- test different plausible commands -ALTER TABLE test_table ADD COLUMN id2 int DEFAULT nextval('mx_test_sequence_1'); -ALTER TABLE test_table ALTER COLUMN id2 DROP DEFAULT; -ALTER TABLE test_table ALTER COLUMN id2 SET DEFAULT nextval('mx_test_sequence_1'); -SELECT unnest(activate_node_snapshot()) order by 1; - unnest ---------------------------------------------------------------------- - ALTER DATABASE regression OWNER TO postgres; - ALTER SEQUENCE mx_testing_schema.mx_test_table_col_3_seq OWNER TO postgres - ALTER SEQUENCE public.mx_test_sequence_0 OWNER TO postgres - ALTER SEQUENCE public.mx_test_sequence_1 OWNER TO postgres - ALTER SEQUENCE public.user_defined_seq OWNER TO postgres - ALTER TABLE mx_test_schema_1.mx_table_1 ADD CONSTRAINT mx_fk_constraint_2 FOREIGN KEY (col1) REFERENCES mx_test_schema_2.mx_table_2(col1) NOT VALID - ALTER TABLE mx_test_schema_1.mx_table_1 ADD CONSTRAINT mx_table_1_col1_key UNIQUE (col1) - ALTER TABLE mx_test_schema_1.mx_table_1 OWNER TO postgres - ALTER TABLE mx_test_schema_2.mx_table_2 ADD CONSTRAINT mx_fk_constraint FOREIGN KEY (col1) REFERENCES mx_test_schema_1.mx_table_1(col1) - ALTER TABLE mx_test_schema_2.mx_table_2 ADD CONSTRAINT mx_table_2_col1_key UNIQUE (col1) - ALTER TABLE mx_test_schema_2.mx_table_2 OWNER TO postgres - ALTER TABLE mx_testing_schema.mx_test_table ADD CONSTRAINT mx_test_table_col_1_key UNIQUE (col_1) - ALTER TABLE mx_testing_schema.mx_test_table OWNER TO postgres - ALTER TABLE public.dist_table_1 OWNER TO postgres - ALTER TABLE public.mx_ref OWNER TO postgres - ALTER TABLE public.test_table OWNER TO postgres - CALL pg_catalog.worker_drop_all_shell_tables(true) - CREATE INDEX mx_index ON mx_testing_schema.mx_test_table USING btree (col_2) - CREATE INDEX mx_index_1 ON mx_test_schema_1.mx_table_1 USING btree (col1) - CREATE INDEX mx_index_2 ON mx_test_schema_2.mx_table_2 USING btree (col2) - CREATE SCHEMA IF NOT EXISTS mx_test_schema_1 AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS mx_test_schema_2 AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS mx_testing_schema AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS mx_testing_schema_2 AUTHORIZATION postgres - CREATE SCHEMA IF NOT EXISTS public AUTHORIZATION postgres - CREATE TABLE mx_test_schema_1.mx_table_1 (col1 integer, col2 text, col3 integer) USING heap - CREATE TABLE mx_test_schema_2.mx_table_2 (col1 integer, col2 text) USING heap - CREATE TABLE mx_testing_schema.mx_test_table (col_1 integer, col_2 text NOT NULL, col_3 bigint DEFAULT nextval('mx_testing_schema.mx_test_table_col_3_seq'::regclass) NOT NULL, col_4 bigint DEFAULT nextval('public.user_defined_seq'::regclass)) USING heap - CREATE TABLE public.dist_table_1 (a integer) USING heap - CREATE TABLE public.mx_ref (col_1 integer, col_2 text) USING heap - CREATE TABLE public.test_table (id integer DEFAULT worker_nextval('public.mx_test_sequence_0'::regclass), id2 integer DEFAULT worker_nextval('public.mx_test_sequence_1'::regclass)) USING heap - DELETE FROM pg_catalog.pg_dist_colocation - DELETE FROM pg_catalog.pg_dist_object - DELETE FROM pg_catalog.pg_dist_schema - DELETE FROM pg_dist_node - DELETE FROM pg_dist_partition - DELETE FROM pg_dist_placement - DELETE FROM pg_dist_shard - DROP TABLE IF EXISTS mx_test_schema_1.mx_table_1 CASCADE - DROP TABLE IF EXISTS mx_test_schema_2.mx_table_2 CASCADE - DROP TABLE IF EXISTS mx_testing_schema.mx_test_table CASCADE - DROP TABLE IF EXISTS public.dist_table_1 CASCADE - DROP TABLE IF EXISTS public.mx_ref CASCADE - DROP TABLE IF EXISTS public.test_table CASCADE - GRANT CREATE ON SCHEMA public TO PUBLIC; - GRANT CREATE ON SCHEMA public TO postgres; - GRANT USAGE ON SCHEMA public TO PUBLIC; - GRANT USAGE ON SCHEMA public TO postgres; - INSERT INTO pg_dist_node (nodeid, groupid, nodename, nodeport, noderack, hasmetadata, metadatasynced, isactive, noderole, nodecluster, shouldhaveshards) VALUES (5, 1, 'localhost', 8888, 'default', FALSE, FALSE, TRUE, 'secondary'::noderole, 'default', TRUE),(6, 1, 'localhost', 8889, 'default', FALSE, FALSE, TRUE, 'secondary'::noderole, 'second-cluster', TRUE),(1, 0, 'localhost', 57636, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', FALSE),(2, 1, 'localhost', 57637, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', TRUE),(8, 5, 'localhost', 57638, 'default', TRUE, TRUE, TRUE, 'primary'::noderole, 'default', TRUE) - RESET ROLE - RESET ROLE - SELECT alter_role_if_exists('postgres', 'ALTER ROLE postgres SET lc_messages = ''C''') - SELECT citus_internal_add_partition_metadata ('mx_test_schema_1.mx_table_1'::regclass, 'h', 'col1', 7, 's') - SELECT citus_internal_add_partition_metadata ('mx_test_schema_2.mx_table_2'::regclass, 'h', 'col1', 7, 's') - SELECT citus_internal_add_partition_metadata ('mx_testing_schema.mx_test_table'::regclass, 'h', 'col_1', 2, 's') - SELECT citus_internal_add_partition_metadata ('public.dist_table_1'::regclass, 'h', 'a', 10010, 's') - SELECT citus_internal_add_partition_metadata ('public.mx_ref'::regclass, 'n', NULL, 10009, 't') - SELECT citus_internal_add_partition_metadata ('public.test_table'::regclass, 'h', 'id', 10010, 's') - SELECT pg_catalog.worker_drop_sequence_dependency('mx_test_schema_1.mx_table_1'); - SELECT pg_catalog.worker_drop_sequence_dependency('mx_test_schema_2.mx_table_2'); - SELECT pg_catalog.worker_drop_sequence_dependency('mx_testing_schema.mx_test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency('public.dist_table_1'); - SELECT pg_catalog.worker_drop_sequence_dependency('public.mx_ref'); - SELECT pg_catalog.worker_drop_sequence_dependency('public.test_table'); - SELECT pg_catalog.worker_drop_sequence_dependency(logicalrelid::regclass::text) FROM pg_dist_partition - SELECT pg_catalog.worker_record_sequence_dependency('mx_testing_schema.mx_test_table_col_3_seq'::regclass,'mx_testing_schema.mx_test_table'::regclass,'col_3') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS mx_testing_schema.mx_test_table_col_3_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.mx_test_sequence_0 AS integer INCREMENT BY 1 MINVALUE 1 MAXVALUE 2147483647 START WITH 1 CACHE 1 NO CYCLE','integer') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.mx_test_sequence_1 AS integer INCREMENT BY 1 MINVALUE 1 MAXVALUE 2147483647 START WITH 1 CACHE 1 NO CYCLE','integer') - SELECT worker_apply_sequence_command ('CREATE SEQUENCE IF NOT EXISTS public.user_defined_seq AS bigint INCREMENT BY 1 MINVALUE 1 MAXVALUE 9223372036854775807 START WITH 1 CACHE 1 NO CYCLE','bigint') - SELECT worker_create_or_alter_role('postgres', 'CREATE ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''', 'ALTER ROLE postgres SUPERUSER CREATEDB CREATEROLE INHERIT LOGIN REPLICATION BYPASSRLS CONNECTION LIMIT 0 PASSWORD ''md5c53670dddfc3bb4b5675c7872bc2249a'' VALID UNTIL ''2052-05-05 00:00:00-07''') - SELECT worker_create_truncate_trigger('mx_test_schema_1.mx_table_1') - SELECT worker_create_truncate_trigger('mx_test_schema_2.mx_table_2') - SELECT worker_create_truncate_trigger('mx_testing_schema.mx_test_table') - SELECT worker_create_truncate_trigger('public.dist_table_1') - SELECT worker_create_truncate_trigger('public.mx_ref') - SELECT worker_create_truncate_trigger('public.test_table') - SET ROLE postgres - SET ROLE postgres - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'off' - SET citus.enable_ddl_propagation TO 'on' - SET citus.enable_ddl_propagation TO 'on' - UPDATE pg_dist_local_group SET groupid = 1 - UPDATE pg_dist_node SET hasmetadata = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET isactive = TRUE WHERE nodeid = 2 - UPDATE pg_dist_node SET metadatasynced = TRUE WHERE nodeid = 2 - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (10009, 1, -1, 0, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH colocation_group_data (colocationid, shardcount, replicationfactor, distributioncolumntype, distributioncolumncollationname, distributioncolumncollationschema) AS (VALUES (10010, 4, 1, 'integer'::regtype, NULL, NULL)) SELECT pg_catalog.citus_internal_add_colocation_metadata(colocationid, shardcount, replicationfactor, distributioncolumntype, coalesce(c.oid, 0)) FROM colocation_group_data d LEFT JOIN pg_collation c ON (d.distributioncolumncollationname = c.collname AND d.distributioncolumncollationschema::regnamespace = c.collnamespace) - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('database', ARRAY['regression']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('role', ARRAY['postgres']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_test_schema_1']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_test_schema_2']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_testing_schema']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['mx_testing_schema_2']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('schema', ARRAY['public']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['mx_testing_schema', 'mx_test_table_col_3_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'mx_test_sequence_0']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'mx_test_sequence_1']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('sequence', ARRAY['public', 'user_defined_seq']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['mx_test_schema_1', 'mx_table_1']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['mx_test_schema_2', 'mx_table_2']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['mx_testing_schema', 'mx_test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['public', 'dist_table_1']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['public', 'mx_ref']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH distributed_object_data(typetext, objnames, objargs, distargumentindex, colocationid, force_delegation) AS (VALUES ('table', ARRAY['public', 'test_table']::text[], ARRAY[]::text[], -1, 0, false)) SELECT citus_internal_add_object_metadata(typetext, objnames, objargs, distargumentindex::int, colocationid::int, force_delegation::bool) FROM distributed_object_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310000, 0, 1, 100000), (1310001, 0, 5, 100001), (1310002, 0, 1, 100002), (1310003, 0, 5, 100003), (1310004, 0, 1, 100004), (1310005, 0, 5, 100005), (1310006, 0, 1, 100006), (1310007, 0, 5, 100007)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310022, 0, 1, 100022), (1310023, 0, 5, 100023), (1310024, 0, 1, 100024), (1310025, 0, 5, 100025), (1310026, 0, 1, 100026)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310027, 0, 1, 100027), (1310028, 0, 5, 100028), (1310029, 0, 1, 100029), (1310030, 0, 5, 100030), (1310031, 0, 1, 100031)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310075, 0, 0, 100077), (1310075, 0, 1, 100078), (1310075, 0, 5, 100079)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310076, 0, 1, 100080), (1310077, 0, 5, 100081), (1310078, 0, 1, 100082), (1310079, 0, 5, 100083)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH placement_data(shardid, shardlength, groupid, placementid) AS (VALUES (1310085, 0, 1, 100091), (1310086, 0, 5, 100092), (1310087, 0, 1, 100093), (1310088, 0, 5, 100094)) SELECT citus_internal_add_placement_metadata(shardid, shardlength, groupid, placementid) FROM placement_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('mx_test_schema_1.mx_table_1'::regclass, 1310022, 't'::"char", '-2147483648', '-1288490190'), ('mx_test_schema_1.mx_table_1'::regclass, 1310023, 't'::"char", '-1288490189', '-429496731'), ('mx_test_schema_1.mx_table_1'::regclass, 1310024, 't'::"char", '-429496730', '429496728'), ('mx_test_schema_1.mx_table_1'::regclass, 1310025, 't'::"char", '429496729', '1288490187'), ('mx_test_schema_1.mx_table_1'::regclass, 1310026, 't'::"char", '1288490188', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('mx_test_schema_2.mx_table_2'::regclass, 1310027, 't'::"char", '-2147483648', '-1288490190'), ('mx_test_schema_2.mx_table_2'::regclass, 1310028, 't'::"char", '-1288490189', '-429496731'), ('mx_test_schema_2.mx_table_2'::regclass, 1310029, 't'::"char", '-429496730', '429496728'), ('mx_test_schema_2.mx_table_2'::regclass, 1310030, 't'::"char", '429496729', '1288490187'), ('mx_test_schema_2.mx_table_2'::regclass, 1310031, 't'::"char", '1288490188', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('mx_testing_schema.mx_test_table'::regclass, 1310000, 't'::"char", '-2147483648', '-1610612737'), ('mx_testing_schema.mx_test_table'::regclass, 1310001, 't'::"char", '-1610612736', '-1073741825'), ('mx_testing_schema.mx_test_table'::regclass, 1310002, 't'::"char", '-1073741824', '-536870913'), ('mx_testing_schema.mx_test_table'::regclass, 1310003, 't'::"char", '-536870912', '-1'), ('mx_testing_schema.mx_test_table'::regclass, 1310004, 't'::"char", '0', '536870911'), ('mx_testing_schema.mx_test_table'::regclass, 1310005, 't'::"char", '536870912', '1073741823'), ('mx_testing_schema.mx_test_table'::regclass, 1310006, 't'::"char", '1073741824', '1610612735'), ('mx_testing_schema.mx_test_table'::regclass, 1310007, 't'::"char", '1610612736', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('public.dist_table_1'::regclass, 1310076, 't'::"char", '-2147483648', '-1073741825'), ('public.dist_table_1'::regclass, 1310077, 't'::"char", '-1073741824', '-1'), ('public.dist_table_1'::regclass, 1310078, 't'::"char", '0', '1073741823'), ('public.dist_table_1'::regclass, 1310079, 't'::"char", '1073741824', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('public.mx_ref'::regclass, 1310075, 't'::"char", NULL, NULL)) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; - WITH shard_data(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) AS (VALUES ('public.test_table'::regclass, 1310085, 't'::"char", '-2147483648', '-1073741825'), ('public.test_table'::regclass, 1310086, 't'::"char", '-1073741824', '-1'), ('public.test_table'::regclass, 1310087, 't'::"char", '0', '1073741823'), ('public.test_table'::regclass, 1310088, 't'::"char", '1073741824', '2147483647')) SELECT citus_internal_add_shard_metadata(relationname, shardid, storagetype, shardminvalue, shardmaxvalue) FROM shard_data; -(118 rows) - --- shouldn't work since test_table is MX -ALTER TABLE test_table ADD COLUMN id3 bigserial; -ERROR: cannot execute ADD COLUMN commands involving serial pseudotypes when metadata is synchronized to workers --- shouldn't work since the above operations should be the only subcommands -ALTER TABLE test_table ADD COLUMN id4 int DEFAULT nextval('mx_test_sequence_1') CHECK (id4 > 0); -ERROR: cannot execute ADD COLUMN .. DEFAULT nextval('..') command with other subcommands/constraints -HINT: You can issue each subcommand separately -ALTER TABLE test_table ADD COLUMN id4 int, ADD COLUMN id5 int DEFAULT nextval('mx_test_sequence_1'); -ERROR: cannot execute ADD COLUMN .. DEFAULT nextval('..') command with other subcommands/constraints -HINT: You can issue each subcommand separately -ALTER TABLE test_table ALTER COLUMN id1 SET DEFAULT nextval('mx_test_sequence_1'), ALTER COLUMN id2 DROP DEFAULT; -ERROR: cannot execute ALTER COLUMN COLUMN .. SET DEFAULT nextval('..') command with other subcommands -HINT: You can issue each subcommand separately -ALTER TABLE test_table ADD COLUMN id4 bigserial CHECK (id4 > 0); -ERROR: cannot execute ADD COLUMN commands involving serial pseudotypes when metadata is synchronized to workers -\c - - - :worker_1_port -\ds - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_test_sequence_0 | sequence | postgres - public | mx_test_sequence_1 | sequence | postgres - public | mx_test_table_col_3_seq | sequence | postgres - public | sequence_rollback | sequence | postgres - public | sequence_rollback(citus_backup_0) | sequence | postgres - public | user_defined_seq | sequence | postgres -(6 rows) - -\c - - - :master_port -CREATE SEQUENCE local_sequence; --- verify that DROP SEQUENCE will propagate the command to workers for --- the distributed sequences mx_test_sequence_0 and mx_test_sequence_1 -DROP SEQUENCE mx_test_sequence_0, mx_test_sequence_1, local_sequence CASCADE; -NOTICE: drop cascades to 2 other objects -DETAIL: drop cascades to default value for column id2 of table test_table -drop cascades to default value for column id of table test_table -\c - - - :worker_1_port -\ds - List of relations - Schema | Name | Type | Owner ---------------------------------------------------------------------- - public | mx_test_table_col_3_seq | sequence | postgres - public | sequence_rollback | sequence | postgres - public | sequence_rollback(citus_backup_0) | sequence | postgres - public | user_defined_seq | sequence | postgres -(4 rows) - -\c - - - :master_port -DROP TABLE test_table CASCADE; --- Cleanup -SELECT stop_metadata_sync_to_node('localhost', :worker_1_port); -NOTICE: dropping metadata on the node (localhost,57637) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT stop_metadata_sync_to_node('localhost', :worker_2_port); -NOTICE: dropping metadata on the node (localhost,57638) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -DROP TABLE mx_test_schema_2.mx_table_2 CASCADE; -NOTICE: drop cascades to constraint mx_fk_constraint_2 on table mx_test_schema_1.mx_table_1 -DROP TABLE mx_test_schema_1.mx_table_1 CASCADE; -DROP TABLE mx_testing_schema.mx_test_table; -DROP TABLE mx_ref; -DROP TABLE dist_table_1, dist_table_2; -SET client_min_messages TO ERROR; -SET citus.enable_ddl_propagation TO off; -- for enterprise -CREATE USER non_super_metadata_user; -SET citus.enable_ddl_propagation TO on; -RESET client_min_messages; -SELECT run_command_on_workers('CREATE USER non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,"CREATE ROLE") - (localhost,57638,t,"CREATE ROLE") -(2 rows) - -GRANT EXECUTE ON FUNCTION start_metadata_sync_to_node(text,int) TO non_super_metadata_user; -GRANT EXECUTE ON FUNCTION stop_metadata_sync_to_node(text,int,bool) TO non_super_metadata_user; -GRANT ALL ON pg_dist_node TO non_super_metadata_user; -GRANT ALL ON pg_dist_local_group TO non_super_metadata_user; -GRANT ALL ON SCHEMA citus TO non_super_metadata_user; -GRANT INSERT ON ALL TABLES IN SCHEMA citus TO non_super_metadata_user; -GRANT USAGE ON SCHEMA mx_testing_schema TO non_super_metadata_user; -GRANT USAGE ON SCHEMA mx_testing_schema_2 TO non_super_metadata_user; -GRANT USAGE ON SCHEMA mx_test_schema_1 TO non_super_metadata_user; -GRANT USAGE ON SCHEMA mx_test_schema_2 TO non_super_metadata_user; -SELECT run_command_on_workers('GRANT ALL ON pg_dist_node TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('GRANT ALL ON pg_dist_local_group TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('GRANT ALL ON SCHEMA citus TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('ALTER SEQUENCE user_defined_seq OWNER TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,"ALTER SEQUENCE") - (localhost,57638,t,"ALTER SEQUENCE") -(2 rows) - -SELECT run_command_on_workers('GRANT ALL ON ALL TABLES IN SCHEMA citus TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('GRANT USAGE ON SCHEMA mx_testing_schema TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('GRANT USAGE ON SCHEMA mx_testing_schema_2 TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('GRANT USAGE ON SCHEMA mx_test_schema_1 TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SELECT run_command_on_workers('GRANT USAGE ON SCHEMA mx_test_schema_2 TO non_super_metadata_user'); - run_command_on_workers ---------------------------------------------------------------------- - (localhost,57637,t,GRANT) - (localhost,57638,t,GRANT) -(2 rows) - -SET ROLE non_super_metadata_user; --- user must be super user stop/start metadata -SELECT stop_metadata_sync_to_node('localhost', :worker_1_port); -ERROR: operation is not allowed -HINT: Run the command with a superuser. -SELECT start_metadata_sync_to_node('localhost', :worker_1_port); -ERROR: operation is not allowed -HINT: Run the command with a superuser. -RESET ROLE; -SELECT stop_metadata_sync_to_node('localhost', :worker_1_port); -NOTICE: dropping metadata on the node (localhost,57637) - stop_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -SELECT start_metadata_sync_to_node('localhost', :worker_1_port); - start_metadata_sync_to_node ---------------------------------------------------------------------- - -(1 row) - -RESET citus.shard_count; -RESET citus.shard_replication_factor; -ALTER SEQUENCE pg_catalog.pg_dist_groupid_seq RESTART :last_group_id; -ALTER SEQUENCE pg_catalog.pg_dist_node_nodeid_seq RESTART :last_node_id; -ALTER SEQUENCE pg_catalog.pg_dist_colocationid_seq RESTART :last_colocation_id; -ALTER SEQUENCE pg_catalog.pg_dist_placement_placementid_seq RESTART :last_placement_id; --- Activate them at the end -SELECT 1 FROM citus_activate_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT 1 FROM citus_activate_node('localhost', :worker_2_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - diff --git a/src/test/regress/expected/multi_mx_insert_select_repartition.out b/src/test/regress/expected/multi_mx_insert_select_repartition.out index 62f197c30..6be05bacd 100644 --- a/src/test/regress/expected/multi_mx_insert_select_repartition.out +++ b/src/test/regress/expected/multi_mx_insert_select_repartition.out @@ -3,17 +3,6 @@ -- -- Test behaviour of repartitioned INSERT ... SELECT in MX setup -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA multi_mx_insert_select_repartition; SET search_path TO multi_mx_insert_select_repartition; SET citus.next_shard_id TO 4213581; diff --git a/src/test/regress/expected/multi_mx_insert_select_repartition_0.out b/src/test/regress/expected/multi_mx_insert_select_repartition_0.out deleted file mode 100644 index 15deba0c0..000000000 --- a/src/test/regress/expected/multi_mx_insert_select_repartition_0.out +++ /dev/null @@ -1,166 +0,0 @@ --- --- MULTI_MX_INSERT_SELECT_REPARTITION --- --- Test behaviour of repartitioned INSERT ... SELECT in MX setup --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA multi_mx_insert_select_repartition; -SET search_path TO multi_mx_insert_select_repartition; -SET citus.next_shard_id TO 4213581; -SET citus.shard_replication_factor TO 1; -SET citus.shard_count TO 4; -CREATE TABLE source_table(a int, b int); -SELECT create_distributed_table('source_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO source_table SELECT floor(i/4), i*i FROM generate_series(1, 20) i; -SET citus.shard_count TO 3; -CREATE TABLE target_table(a int, b int); -SELECT create_distributed_table('target_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE FUNCTION square(int) RETURNS INT - AS $$ SELECT $1 * $1 $$ - LANGUAGE SQL; -select create_distributed_function('square(int)'); -NOTICE: procedure multi_mx_insert_select_repartition.square is already distributed -DETAIL: Citus distributes procedures with CREATE [PROCEDURE|FUNCTION|AGGREGATE] commands - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - -select public.colocate_proc_with_table('square', 'source_table'::regclass, 0); - colocate_proc_with_table ---------------------------------------------------------------------- - -(1 row) - --- Test along with function delegation --- function delegation only happens for "SELECT f()", and we don't use --- repartitioned INSERT/SELECT when task count is 1, so the following --- should go via coordinator -EXPLAIN (costs off) INSERT INTO target_table(a) SELECT square(4); - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: pull to coordinator - -> Result -(3 rows) - -INSERT INTO target_table(a) SELECT square(4); -SELECT * FROM target_table; - a | b ---------------------------------------------------------------------- - 16 | -(1 row) - -TRUNCATE target_table; --- --- Test repartitioned INSERT/SELECT from MX worker --- -\c - - - :worker_1_port -SET search_path TO multi_mx_insert_select_repartition; -EXPLAIN (costs off) INSERT INTO target_table SELECT a, max(b) FROM source_table GROUP BY a; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus INSERT ... SELECT) - INSERT/SELECT method: repartition - -> Custom Scan (Citus Adaptive) - Task Count: 4 - Tasks Shown: One of 4 - -> Task - Node: host=localhost port=xxxxx dbname=regression - -> HashAggregate - Group Key: a - -> Seq Scan on source_table_4213581 source_table -(10 rows) - -INSERT INTO target_table SELECT a, max(b) FROM source_table GROUP BY a; -SET citus.log_local_commands to on; --- INSERT .. SELECT via repartitioning with local execution -BEGIN; - select count(*) from source_table WHERE a = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM multi_mx_insert_select_repartition.source_table_4213581 source_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 4 -(1 row) - - insert into target_table SELECT a*2 FROM source_table RETURNING a; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_4213581_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_4213581_to','SELECT (a OPERATOR(pg_catalog.*) 2) AS a FROM multi_mx_insert_select_repartition.source_table_4213581 source_table WHERE true',0,'hash','{-2147483648,-715827883,715827882}'::text[],'{-715827884,715827881,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_4213583_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_4213583_to','SELECT (a OPERATOR(pg_catalog.*) 2) AS a FROM multi_mx_insert_select_repartition.source_table_4213583 source_table WHERE true',0,'hash','{-2147483648,-715827883,715827882}'::text[],'{-715827884,715827881,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT bytes FROM fetch_intermediate_results(ARRAY['repartitioned_results_xxxxx_from_4213582_to_0','repartitioned_results_xxxxx_from_4213584_to_0']::text[],'localhost',57638) bytes -NOTICE: executing the command locally: INSERT INTO multi_mx_insert_select_repartition.target_table_4213585 AS citus_table_alias (a) SELECT a FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213581_to_0,repartitioned_results_xxxxx_from_4213582_to_0,repartitioned_results_xxxxx_from_4213584_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer) RETURNING citus_table_alias.a -NOTICE: executing the command locally: INSERT INTO multi_mx_insert_select_repartition.target_table_4213587 AS citus_table_alias (a) SELECT a FROM read_intermediate_results('{repartitioned_results_xxxxx_from_4213581_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer) RETURNING citus_table_alias.a - a ---------------------------------------------------------------------- - 0 - 0 - 0 - 2 - 2 - 2 - 2 - 4 - 4 - 4 - 4 - 6 - 6 - 6 - 6 - 8 - 8 - 8 - 8 - 10 -(20 rows) - -ROLLBACK; -BEGIN; - select count(*) from source_table WHERE a = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM multi_mx_insert_select_repartition.source_table_4213581 source_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 4 -(1 row) - - insert into target_table SELECT a FROM source_table LIMIT 10; -NOTICE: executing the command locally: SELECT a FROM multi_mx_insert_select_repartition.source_table_4213581 source_table WHERE true LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a FROM multi_mx_insert_select_repartition.source_table_4213583 source_table WHERE true LIMIT '10'::bigint -NOTICE: executing the copy locally for shard xxxxx -ROLLBACK; -\c - - - :master_port -SET search_path TO multi_mx_insert_select_repartition; -SELECT * FROM target_table ORDER BY a; - a | b ---------------------------------------------------------------------- - 0 | 9 - 1 | 49 - 2 | 121 - 3 | 225 - 4 | 361 - 5 | 400 -(6 rows) - -RESET client_min_messages; -\set VERBOSITY terse -DROP SCHEMA multi_mx_insert_select_repartition CASCADE; -NOTICE: drop cascades to 3 other objects diff --git a/src/test/regress/expected/mx_coordinator_shouldhaveshards.out b/src/test/regress/expected/mx_coordinator_shouldhaveshards.out index 547300460..b985dd330 100644 --- a/src/test/regress/expected/mx_coordinator_shouldhaveshards.out +++ b/src/test/regress/expected/mx_coordinator_shouldhaveshards.out @@ -1,17 +1,6 @@ -- -- MX_COORDINATOR_SHOULDHAVESHARDS -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA mx_coordinator_shouldhaveshards; SET search_path TO mx_coordinator_shouldhaveshards; SET citus.shard_replication_factor to 1; diff --git a/src/test/regress/expected/mx_coordinator_shouldhaveshards_0.out b/src/test/regress/expected/mx_coordinator_shouldhaveshards_0.out deleted file mode 100644 index 15cd69068..000000000 --- a/src/test/regress/expected/mx_coordinator_shouldhaveshards_0.out +++ /dev/null @@ -1,335 +0,0 @@ --- --- MX_COORDINATOR_SHOULDHAVESHARDS --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA mx_coordinator_shouldhaveshards; -SET search_path TO mx_coordinator_shouldhaveshards; -SET citus.shard_replication_factor to 1; -SET client_min_messages TO WARNING; -SELECT 1 FROM master_add_node('localhost', :master_port, groupid => 0); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -RESET client_min_messages; -SELECT 1 FROM master_set_node_property('localhost', :master_port, 'shouldhaveshards', true); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- issue 4508 table_1 and table_2 are used to test some edge cases --- around intermediate result pruning -CREATE TABLE table_1 (key int, value text); -SELECT create_distributed_table('table_1', 'key', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE table_2 (key int, value text); -SELECT create_distributed_table('table_2', 'key', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO table_1 VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'); -INSERT INTO table_2 VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'), (5, '5'), (6, '6'); -SET citus.shard_replication_factor to 2; -CREATE TABLE table_1_rep (key int, value text); -SELECT create_distributed_table('table_1_rep', 'key', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE table_2_rep (key int, value text); -SELECT create_distributed_table('table_2_rep', 'key', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO table_1_rep VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'); -INSERT INTO table_2_rep VALUES (1, '1'), (2, '2'), (3, '3'), (4, '4'), (5, '5'), (6, '6'); -set citus.log_intermediate_results TO ON; -set client_min_messages to debug1; -WITH a AS (SELECT * FROM table_1 ORDER BY 1,2 DESC LIMIT 1) -SELECT count(*), -key -FROM a JOIN table_2 USING (key) -GROUP BY key -HAVING (max(table_2.value) >= (SELECT value FROM a)); -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1 ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count, a.key FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2 USING (key)) GROUP BY a.key HAVING (max(table_2.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count | key ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -WITH a AS (SELECT * FROM table_1 ORDER BY 1,2 DESC LIMIT 1) -INSERT INTO table_1 SELECT count(*), -key -FROM a JOIN table_2 USING (key) -GROUP BY key -HAVING (max(table_2.value) >= (SELECT value FROM a)); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1 ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: generating subplan XXX_2 for subquery SELECT int4(count(*)) AS auto_coerced_by_citus_0, (a.key)::text AS auto_coerced_by_citus_1 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2 USING (key)) GROUP BY a.key HAVING (max(table_2.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT auto_coerced_by_citus_0 AS key, auto_coerced_by_citus_1 AS value FROM (SELECT intermediate_result.auto_coerced_by_citus_0, intermediate_result.auto_coerced_by_citus_1 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(auto_coerced_by_citus_0 integer, auto_coerced_by_citus_1 text)) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -WITH stats AS ( - SELECT count(key) m FROM table_1 -), -inserts AS ( - INSERT INTO table_2 - SELECT key, count(*) - FROM table_1 - WHERE key >= (SELECT m FROM stats) - GROUP BY key - HAVING count(*) <= (SELECT m FROM stats) - LIMIT 1 - RETURNING * -) SELECT count(*) FROM inserts; -DEBUG: generating subplan XXX_1 for CTE stats: SELECT count(key) AS m FROM mx_coordinator_shouldhaveshards.table_1 -DEBUG: generating subplan XXX_2 for CTE inserts: INSERT INTO mx_coordinator_shouldhaveshards.table_2 (key, value) SELECT key, count(*) AS count FROM mx_coordinator_shouldhaveshards.table_1 WHERE (key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT 1 RETURNING table_2.key, table_2.value -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Collecting INSERT ... SELECT results on coordinator - count ---------------------------------------------------------------------- - 0 -(1 row) - -WITH a AS (SELECT * FROM table_1_rep ORDER BY 1,2 DESC LIMIT 1) -SELECT count(*), -key -FROM a JOIN table_2_rep USING (key) -GROUP BY key -HAVING (max(table_2_rep.value) >= (SELECT value FROM a)); -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1_rep ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count, a.key FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2_rep USING (key)) GROUP BY a.key HAVING (max(table_2_rep.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count | key ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -WITH a AS (SELECT * FROM table_1_rep ORDER BY 1,2 DESC LIMIT 1) -INSERT INTO table_1_rep SELECT count(*), -key -FROM a JOIN table_2_rep USING (key) -GROUP BY key -HAVING (max(table_2_rep.value) >= (SELECT value FROM a)); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1_rep ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: generating subplan XXX_2 for subquery SELECT int4(count(*)) AS auto_coerced_by_citus_0, (a.key)::text AS auto_coerced_by_citus_1 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2_rep USING (key)) GROUP BY a.key HAVING (max(table_2_rep.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT auto_coerced_by_citus_0 AS key, auto_coerced_by_citus_1 AS value FROM (SELECT intermediate_result.auto_coerced_by_citus_0, intermediate_result.auto_coerced_by_citus_1 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(auto_coerced_by_citus_0 integer, auto_coerced_by_citus_1 text)) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -WITH stats AS ( - SELECT count(key) m FROM table_1_rep -), -inserts AS ( - INSERT INTO table_2_rep - SELECT key, count(*) - FROM table_1_rep - WHERE key >= (SELECT m FROM stats) - GROUP BY key - HAVING count(*) <= (SELECT m FROM stats) - LIMIT 1 - RETURNING * -) SELECT count(*) FROM inserts; -DEBUG: generating subplan XXX_1 for CTE stats: SELECT count(key) AS m FROM mx_coordinator_shouldhaveshards.table_1_rep -DEBUG: generating subplan XXX_2 for CTE inserts: INSERT INTO mx_coordinator_shouldhaveshards.table_2_rep (key, value) SELECT key, count(*) AS count FROM mx_coordinator_shouldhaveshards.table_1_rep WHERE (key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT 1 RETURNING table_2_rep.key, table_2_rep.value -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Collecting INSERT ... SELECT results on coordinator - count ---------------------------------------------------------------------- - 0 -(1 row) - -\c - - - :worker_1_port -SET search_path TO mx_coordinator_shouldhaveshards; -set citus.log_intermediate_results TO ON; -set client_min_messages to debug1; -WITH a AS (SELECT * FROM table_1 ORDER BY 1,2 DESC LIMIT 1) -SELECT count(*), -key -FROM a JOIN table_2 USING (key) -GROUP BY key -HAVING (max(table_2.value) >= (SELECT value FROM a)); -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1 ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count, a.key FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2 USING (key)) GROUP BY a.key HAVING (max(table_2.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count | key ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -WITH a AS (SELECT * FROM table_1 ORDER BY 1,2 DESC LIMIT 1) -INSERT INTO table_1 SELECT count(*), -key -FROM a JOIN table_2 USING (key) -GROUP BY key -HAVING (max(table_2.value) >= (SELECT value FROM a)); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1 ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: generating subplan XXX_2 for subquery SELECT int4(count(*)) AS auto_coerced_by_citus_0, (a.key)::text AS auto_coerced_by_citus_1 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2 USING (key)) GROUP BY a.key HAVING (max(table_2.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT auto_coerced_by_citus_0 AS key, auto_coerced_by_citus_1 AS value FROM (SELECT intermediate_result.auto_coerced_by_citus_0, intermediate_result.auto_coerced_by_citus_1 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(auto_coerced_by_citus_0 integer, auto_coerced_by_citus_1 text)) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -WITH stats AS ( - SELECT count(key) m FROM table_1 -), -inserts AS ( - INSERT INTO table_2 - SELECT key, count(*) - FROM table_1 - WHERE key >= (SELECT m FROM stats) - GROUP BY key - HAVING count(*) <= (SELECT m FROM stats) - LIMIT 1 - RETURNING * -) SELECT count(*) FROM inserts; -DEBUG: generating subplan XXX_1 for CTE stats: SELECT count(key) AS m FROM mx_coordinator_shouldhaveshards.table_1 -DEBUG: generating subplan XXX_2 for CTE inserts: INSERT INTO mx_coordinator_shouldhaveshards.table_2 (key, value) SELECT key, count(*) AS count FROM mx_coordinator_shouldhaveshards.table_1 WHERE (key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT 1 RETURNING table_2.key, table_2.value -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Collecting INSERT ... SELECT results on coordinator - count ---------------------------------------------------------------------- - 0 -(1 row) - -WITH a AS (SELECT * FROM table_1_rep ORDER BY 1,2 DESC LIMIT 1) -SELECT count(*), -key -FROM a JOIN table_2_rep USING (key) -GROUP BY key -HAVING (max(table_2_rep.value) >= (SELECT value FROM a)); -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1_rep ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count, a.key FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2_rep USING (key)) GROUP BY a.key HAVING (max(table_2_rep.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx - count | key ---------------------------------------------------------------------- - 1 | 1 -(1 row) - -WITH a AS (SELECT * FROM table_1_rep ORDER BY 1,2 DESC LIMIT 1) -INSERT INTO table_1_rep SELECT count(*), -key -FROM a JOIN table_2_rep USING (key) -GROUP BY key -HAVING (max(table_2_rep.value) >= (SELECT value FROM a)); -DEBUG: complex joins are only supported when all distributed tables are co-located and joined on their distribution columns -DEBUG: generating subplan XXX_1 for CTE a: SELECT key, value FROM mx_coordinator_shouldhaveshards.table_1_rep ORDER BY key, value DESC LIMIT 1 -DEBUG: push down of limit count: 1 -DEBUG: generating subplan XXX_2 for subquery SELECT int4(count(*)) AS auto_coerced_by_citus_0, (a.key)::text AS auto_coerced_by_citus_1 FROM ((SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a JOIN mx_coordinator_shouldhaveshards.table_2_rep USING (key)) GROUP BY a.key HAVING (max(table_2_rep.value) OPERATOR(pg_catalog.>=) (SELECT a_1.value FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) a_1)) -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT auto_coerced_by_citus_0 AS key, auto_coerced_by_citus_1 AS value FROM (SELECT intermediate_result.auto_coerced_by_citus_0, intermediate_result.auto_coerced_by_citus_1 FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(auto_coerced_by_citus_0 integer, auto_coerced_by_citus_1 text)) citus_insert_select_subquery -DEBUG: Collecting INSERT ... SELECT results on coordinator -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -WITH stats AS ( - SELECT count(key) m FROM table_1_rep -), -inserts AS ( - INSERT INTO table_2_rep - SELECT key, count(*) - FROM table_1_rep - WHERE key >= (SELECT m FROM stats) - GROUP BY key - HAVING count(*) <= (SELECT m FROM stats) - LIMIT 1 - RETURNING * -) SELECT count(*) FROM inserts; -DEBUG: generating subplan XXX_1 for CTE stats: SELECT count(key) AS m FROM mx_coordinator_shouldhaveshards.table_1_rep -DEBUG: generating subplan XXX_2 for CTE inserts: INSERT INTO mx_coordinator_shouldhaveshards.table_2_rep (key, value) SELECT key, count(*) AS count FROM mx_coordinator_shouldhaveshards.table_1_rep WHERE (key OPERATOR(pg_catalog.>=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) GROUP BY key HAVING (count(*) OPERATOR(pg_catalog.<=) (SELECT stats.m FROM (SELECT intermediate_result.m FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(m bigint)) stats)) LIMIT 1 RETURNING table_2_rep.key, table_2_rep.value -DEBUG: cannot push down this subquery -DETAIL: Limit clause is currently unsupported when a subquery references a column from another query -DEBUG: push down of limit count: 1 -DEBUG: Plan XXX query after replacing subqueries and CTEs: SELECT count(*) AS count FROM (SELECT intermediate_result.key, intermediate_result.value FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(key integer, value text)) inserts -DEBUG: Subplan XXX_1 will be written to local file -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_1 will be sent to localhost:xxxxx -DEBUG: Subplan XXX_2 will be written to local file -DEBUG: Collecting INSERT ... SELECT results on coordinator - count ---------------------------------------------------------------------- - 0 -(1 row) - -\c - - - :master_port -SELECT 1 FROM master_set_node_property('localhost', :master_port, 'shouldhaveshards', false); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -SET client_min_messages TO ERROR; -DROP SCHEMA mx_coordinator_shouldhaveshards CASCADE; -SELECT master_remove_node('localhost', :master_port); - master_remove_node ---------------------------------------------------------------------- - -(1 row) - diff --git a/src/test/regress/expected/pg15.out b/src/test/regress/expected/pg15.out index d945a07d6..45f6454f5 100644 --- a/src/test/regress/expected/pg15.out +++ b/src/test/regress/expected/pg15.out @@ -1,13 +1,6 @@ -- -- PG15 -- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif CREATE SCHEMA pg15; SET search_path TO pg15; SET citus.next_shard_id TO 960000; diff --git a/src/test/regress/expected/pg15_0.out b/src/test/regress/expected/pg15_0.out deleted file mode 100644 index b1ed9cc5b..000000000 --- a/src/test/regress/expected/pg15_0.out +++ /dev/null @@ -1,9 +0,0 @@ --- --- PG15 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/pg15_jsonpath.out b/src/test/regress/expected/pg15_jsonpath.out index 335a7fbba..a3bdf8a55 100644 --- a/src/test/regress/expected/pg15_jsonpath.out +++ b/src/test/regress/expected/pg15_jsonpath.out @@ -2,13 +2,6 @@ -- PG15 jsonpath tests -- Relevant pg commit: e26114c817b610424010cfbe91a743f591246ff1 -- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif CREATE SCHEMA jsonpath; SET search_path TO jsonpath; CREATE TABLE jsonpath_test (id serial, sample text); diff --git a/src/test/regress/expected/pg15_jsonpath_0.out b/src/test/regress/expected/pg15_jsonpath_0.out deleted file mode 100644 index b496f64dc..000000000 --- a/src/test/regress/expected/pg15_jsonpath_0.out +++ /dev/null @@ -1,10 +0,0 @@ --- --- PG15 jsonpath tests --- Relevant pg commit: e26114c817b610424010cfbe91a743f591246ff1 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/pgmerge.out b/src/test/regress/expected/pgmerge.out index 0c2f9b741..9057cac6b 100644 --- a/src/test/regress/expected/pgmerge.out +++ b/src/test/regress/expected/pgmerge.out @@ -1,10 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif -- -- MERGE test from PG community (adapted to Citus by converting all tables to Citus local) -- diff --git a/src/test/regress/expected/pgmerge_0.out b/src/test/regress/expected/pgmerge_0.out deleted file mode 100644 index a7e3fbf20..000000000 --- a/src/test/regress/expected/pgmerge_0.out +++ /dev/null @@ -1,6 +0,0 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q diff --git a/src/test/regress/expected/publication.out b/src/test/regress/expected/publication.out index c761efb3e..c727cb0d6 100644 --- a/src/test/regress/expected/publication.out +++ b/src/test/regress/expected/publication.out @@ -258,17 +258,6 @@ DROP PUBLICATION "pub-all-insertupdateonly"; DROP PUBLICATION "pub-all"; DROP PUBLICATION pubpartitioned; DROP PUBLICATION pubnotdistributed; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -SET client_min_messages TO ERROR; -DROP SCHEMA publication CASCADE; -DROP SCHEMA "publication-1" CASCADE; -DROP SCHEMA citus_schema_1 CASCADE; -\q -\endif -- recreate a mixed publication CREATE PUBLICATION pubtables FOR TABLE test, "publication-1"."test-pubs", citus_schema_1.test; -- operations on an existing distributed table diff --git a/src/test/regress/expected/publication_0.out b/src/test/regress/expected/publication_0.out deleted file mode 100644 index 14fa94d17..000000000 --- a/src/test/regress/expected/publication_0.out +++ /dev/null @@ -1,270 +0,0 @@ -CREATE SCHEMA publication; -CREATE SCHEMA "publication-1"; -SET search_path TO publication; -SET citus.shard_replication_factor TO 1; -CREATE OR REPLACE FUNCTION activate_node_snapshot() - RETURNS text[] - LANGUAGE C STRICT - AS 'citus'; -COMMENT ON FUNCTION activate_node_snapshot() - IS 'commands to activate node snapshot'; -\c - - - :worker_1_port -SET citus.enable_ddl_propagation TO off; -CREATE OR REPLACE FUNCTION activate_node_snapshot() - RETURNS text[] - LANGUAGE C STRICT - AS 'citus'; -COMMENT ON FUNCTION activate_node_snapshot() - IS 'commands to activate node snapshot'; -\c - - - :worker_2_port -SET citus.enable_ddl_propagation TO off; -CREATE OR REPLACE FUNCTION activate_node_snapshot() - RETURNS text[] - LANGUAGE C STRICT - AS 'citus'; -COMMENT ON FUNCTION activate_node_snapshot() - IS 'commands to activate node snapshot'; --- create some publications with conflicting names on worker node --- publication will be different from coordinator -CREATE PUBLICATION "pub-all"; --- publication will be same as coordinator -CREATE PUBLICATION "pub-all-insertupdateonly" FOR ALL TABLES WITH (publish = 'insert, update');; -\c - - - :master_port -SET search_path TO publication; -SET citus.shard_replication_factor TO 1; --- do not create publications on worker 2 initially -SELECT citus_remove_node('localhost', :worker_2_port); - citus_remove_node ---------------------------------------------------------------------- - -(1 row) - --- create a non-distributed publication -SET citus.enable_ddl_propagation TO off; -CREATE PUBLICATION pubnotdistributed WITH (publish = 'delete'); -RESET citus.enable_ddl_propagation; -ALTER PUBLICATION pubnotdistributed SET (publish = 'truncate'); --- create regular, distributed publications -CREATE PUBLICATION pubempty; -CREATE PUBLICATION pubinsertonly WITH (publish = 'insert'); -CREATE PUBLICATION "pub-all" FOR ALL TABLES; -CREATE PUBLICATION "pub-all-insertupdateonly" FOR ALL TABLES WITH (publish = 'insert, update'); --- add worker 2 with publications -SELECT 1 FROM citus_add_node('localhost', :worker_2_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- Check publications on all the nodes, if we see the same publication name twice then its definition differs --- Note that publications are special in the sense that the coordinator object might differ from --- worker objects due to the presence of regular tables. -SELECT DISTINCT c FROM ( - SELECT unnest(result::text[]) c - FROM run_command_on_workers($$ - SELECT array_agg(c) FROM (SELECT c FROM unnest(activate_node_snapshot()) c WHERE c LIKE '%CREATE PUBLICATION%' ORDER BY 1) s$$) - ORDER BY c) s; - c ---------------------------------------------------------------------- - SELECT worker_create_or_replace_object('CREATE PUBLICATION "pub-all" FOR ALL TABLES WITH (publish_via_partition_root = ''false'', publish = ''insert, update, delete, truncate'')'); - SELECT worker_create_or_replace_object('CREATE PUBLICATION "pub-all-insertupdateonly" FOR ALL TABLES WITH (publish_via_partition_root = ''false'', publish = ''insert, update'')'); - SELECT worker_create_or_replace_object('CREATE PUBLICATION pubempty WITH (publish_via_partition_root = ''false'', publish = ''insert, update, delete, truncate'')'); - SELECT worker_create_or_replace_object('CREATE PUBLICATION pubinsertonly WITH (publish_via_partition_root = ''false'', publish = ''insert'')'); -(4 rows) - -CREATE TABLE test (x int primary key, y int, "column-1" int, doc xml); -CREATE TABLE "test-pubs" (x int primary key, y int, "column-1" int); -CREATE TABLE "publication-1"."test-pubs" (x int primary key, y int, "column-1" int); --- various operations on a publication with only local tables -CREATE PUBLICATION pubtables_orig FOR TABLE test, "test-pubs", "publication-1"."test-pubs" WITH (publish = 'insert, truncate'); -ALTER PUBLICATION pubtables_orig DROP TABLE test; -ALTER PUBLICATION pubtables_orig ADD TABLE test; --- publication will be empty on worker nodes, since all tables are local -SELECT DISTINCT c FROM ( - SELECT unnest(result::text[]) c - FROM run_command_on_workers($$ - SELECT array_agg(c) FROM (SELECT c FROM unnest(activate_node_snapshot()) c WHERE c LIKE '%CREATE PUBLICATION%' AND c LIKE '%pubtables%' ORDER BY 1) s$$) - ORDER BY c) s; - c ---------------------------------------------------------------------- - SELECT worker_create_or_replace_object('CREATE PUBLICATION pubtables_orig WITH (publish_via_partition_root = ''false'', publish = ''insert, truncate'')'); -(1 row) - --- distribute a table and create a tenant schema, creating a mixed publication -SELECT create_distributed_table('test','x', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET citus.enable_schema_based_sharding TO ON; -CREATE SCHEMA citus_schema_1; -CREATE TABLE citus_schema_1.test (x int primary key, y int, "column-1" int, doc xml); -SET citus.enable_schema_based_sharding TO OFF; -ALTER PUBLICATION pubtables_orig ADD TABLE citus_schema_1.test; --- some generic operations -ALTER PUBLICATION pubtables_orig RENAME TO pubtables; -ALTER PUBLICATION pubtables SET (publish = 'insert, update, delete'); -ALTER PUBLICATION pubtables OWNER TO postgres; -ALTER PUBLICATION pubtables SET (publish = 'inert, update, delete'); -ERROR: unrecognized "publish" value: "inert" -ALTER PUBLICATION pubtables ADD TABLE notexist; -ERROR: relation "notexist" does not exist --- operations with a distributed table -ALTER PUBLICATION pubtables DROP TABLE test; -ALTER PUBLICATION pubtables ADD TABLE test; -ALTER PUBLICATION pubtables SET TABLE test, "test-pubs", "publication-1"."test-pubs", citus_schema_1.test; --- operations with a tenant schema table -ALTER PUBLICATION pubtables DROP TABLE citus_schema_1.test; -ALTER PUBLICATION pubtables ADD TABLE citus_schema_1.test; -ALTER PUBLICATION pubtables SET TABLE test, "test-pubs", "publication-1"."test-pubs", citus_schema_1.test; --- operations with a local table in a mixed publication -ALTER PUBLICATION pubtables DROP TABLE "test-pubs"; -ALTER PUBLICATION pubtables ADD TABLE "test-pubs"; -SELECT create_distributed_table('"test-pubs"', 'x'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- test and test-pubs will show up in worker nodes -SELECT DISTINCT c FROM ( - SELECT unnest(result::text[]) c - FROM run_command_on_workers($$ - SELECT array_agg(c) FROM (SELECT c FROM unnest(activate_node_snapshot()) c WHERE c LIKE '%CREATE PUBLICATION%' AND c LIKE '%pubtables%' ORDER BY 1) s$$) - ORDER BY c) s; - c ---------------------------------------------------------------------- - SELECT worker_create_or_replace_object('CREATE PUBLICATION pubtables FOR TABLE publication.test, citus_schema_1.test, publication."test-pubs" WITH (publish_via_partition_root = ''false'', publish = ''insert, update, delete'')'); -(1 row) - --- operations with a strangely named distributed table in a mixed publication -ALTER PUBLICATION pubtables DROP TABLE "test-pubs"; -ALTER PUBLICATION pubtables ADD TABLE "test-pubs"; --- create a publication with distributed and local tables -DROP PUBLICATION pubtables; -CREATE PUBLICATION pubtables FOR TABLE test, "test-pubs", "publication-1"."test-pubs", citus_schema_1.test; --- change distributed tables -SELECT alter_distributed_table('test', shard_count := 5, cascade_to_colocated := true); -NOTICE: creating a new table for publication.test -NOTICE: moving the data of publication.test -NOTICE: dropping the old publication.test -NOTICE: renaming the new table to publication.test -NOTICE: creating a new table for publication."test-pubs" -NOTICE: moving the data of publication."test-pubs" -NOTICE: dropping the old publication."test-pubs" -NOTICE: renaming the new table to publication."test-pubs" - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT undistribute_table('test'); -NOTICE: creating a new table for publication.test -NOTICE: moving the data of publication.test -NOTICE: dropping the old publication.test -NOTICE: renaming the new table to publication.test - undistribute_table ---------------------------------------------------------------------- - -(1 row) - -SELECT citus_add_local_table_to_metadata('test'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table_concurrently('test', 'x'); - create_distributed_table_concurrently ---------------------------------------------------------------------- - -(1 row) - -SELECT undistribute_table('"test-pubs"'); -NOTICE: creating a new table for publication."test-pubs" -NOTICE: moving the data of publication."test-pubs" -NOTICE: dropping the old publication."test-pubs" -NOTICE: renaming the new table to publication."test-pubs" - undistribute_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_reference_table('"test-pubs"'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - --- publications are unchanged despite various tranformations -SELECT DISTINCT c FROM ( - SELECT unnest(result::text[]) c - FROM run_command_on_workers($$ - SELECT array_agg(c) FROM (SELECT c FROM unnest(activate_node_snapshot()) c WHERE c LIKE '%CREATE PUBLICATION%' AND c LIKE '%pubtables%' ORDER BY 1) s$$) - ORDER BY c) s; - c ---------------------------------------------------------------------- - SELECT worker_create_or_replace_object('CREATE PUBLICATION pubtables FOR TABLE citus_schema_1.test, publication.test, publication."test-pubs" WITH (publish_via_partition_root = ''false'', publish = ''insert, update, delete, truncate'')'); -(1 row) - --- partitioned table -CREATE TABLE testpub_partitioned (a int, b text, c text) PARTITION BY RANGE (a); -CREATE TABLE testpub_partitioned_0 PARTITION OF testpub_partitioned FOR VALUES FROM (1) TO (10); -ALTER TABLE testpub_partitioned_0 ADD PRIMARY KEY (a); -ALTER TABLE testpub_partitioned_0 REPLICA IDENTITY USING INDEX testpub_partitioned_0_pkey; -CREATE TABLE testpub_partitioned_1 PARTITION OF testpub_partitioned FOR VALUES FROM (11) TO (20); -ALTER TABLE testpub_partitioned_1 ADD PRIMARY KEY (a); -ALTER TABLE testpub_partitioned_1 REPLICA IDENTITY USING INDEX testpub_partitioned_1_pkey; -CREATE PUBLICATION pubpartitioned FOR TABLE testpub_partitioned WITH (publish_via_partition_root = 'true'); -SELECT create_distributed_table('testpub_partitioned', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT DISTINCT c FROM ( - SELECT unnest(result::text[]) c - FROM run_command_on_workers($$ - SELECT array_agg(c) FROM (SELECT c FROM unnest(activate_node_snapshot()) c WHERE c LIKE '%CREATE PUBLICATION%' AND c LIKE '%pubpartitioned%' ORDER BY 1) s$$) - ORDER BY c) s; - c ---------------------------------------------------------------------- - SELECT worker_create_or_replace_object('CREATE PUBLICATION pubpartitioned FOR TABLE publication.testpub_partitioned WITH (publish_via_partition_root = ''true'', publish = ''insert, update, delete, truncate'')'); -(1 row) - -DROP PUBLICATION pubpartitioned; -CREATE PUBLICATION pubpartitioned FOR TABLE testpub_partitioned WITH (publish_via_partition_root = 'true'); --- add a partition -ALTER PUBLICATION pubpartitioned ADD TABLE testpub_partitioned_1; -SELECT DISTINCT c FROM ( - SELECT unnest(result::text[]) c - FROM run_command_on_workers($$ - SELECT array_agg(c) FROM (SELECT c FROM unnest(activate_node_snapshot()) c WHERE c LIKE '%CREATE PUBLIATION%' AND c LIKE '%pubpartitioned%' ORDER BY 1) s$$) - ORDER BY c) s; -ERROR: malformed array literal: "" -DETAIL: Array value must start with "{" or dimension information. --- make sure we can sync all the publication metadata -SELECT start_metadata_sync_to_all_nodes(); - start_metadata_sync_to_all_nodes ---------------------------------------------------------------------- - t -(1 row) - -DROP PUBLICATION pubempty; -DROP PUBLICATION pubtables; -DROP PUBLICATION pubinsertonly; -DROP PUBLICATION "pub-all-insertupdateonly"; -DROP PUBLICATION "pub-all"; -DROP PUBLICATION pubpartitioned; -DROP PUBLICATION pubnotdistributed; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -SET client_min_messages TO ERROR; -DROP SCHEMA publication CASCADE; -DROP SCHEMA "publication-1" CASCADE; -DROP SCHEMA citus_schema_1 CASCADE; -\q diff --git a/src/test/regress/expected/single_node.out b/src/test/regress/expected/single_node.out index f485763c5..dd8d6fe7b 100644 --- a/src/test/regress/expected/single_node.out +++ b/src/test/regress/expected/single_node.out @@ -1,17 +1,6 @@ -- -- SINGLE_NODE -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - t -(1 row) - CREATE SCHEMA single_node; SET search_path TO single_node; SET citus.shard_count TO 4; diff --git a/src/test/regress/expected/single_node_0.out b/src/test/regress/expected/single_node_0.out deleted file mode 100644 index 321d283f8..000000000 --- a/src/test/regress/expected/single_node_0.out +++ /dev/null @@ -1,2581 +0,0 @@ --- --- SINGLE_NODE --- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; - server_version_ge_15 ---------------------------------------------------------------------- - f -(1 row) - -CREATE SCHEMA single_node; -SET search_path TO single_node; -SET citus.shard_count TO 4; -SET citus.shard_replication_factor TO 1; -SET citus.next_shard_id TO 90630500; --- Ensure tuple data in explain analyze output is the same on all PG versions -SET citus.enable_binary_protocol = TRUE; --- do not cache any connections for now, will enable it back soon -ALTER SYSTEM SET citus.max_cached_conns_per_worker TO 0; --- adding the coordinator as inactive is disallowed -SELECT 1 FROM master_add_inactive_node('localhost', :master_port, groupid => 0); -ERROR: coordinator node cannot be added as inactive node --- before adding a node we are not officially a coordinator -SELECT citus_is_coordinator(); - citus_is_coordinator ---------------------------------------------------------------------- - f -(1 row) - --- idempotently add node to allow this test to run without add_coordinator -SET client_min_messages TO WARNING; -SELECT 1 FROM citus_set_coordinator_host('localhost', :master_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- after adding a node we are officially a coordinator -SELECT citus_is_coordinator(); - citus_is_coordinator ---------------------------------------------------------------------- - t -(1 row) - --- coordinator cannot be disabled -SELECT 1 FROM citus_disable_node('localhost', :master_port); -ERROR: cannot change "isactive" field of the coordinator node -RESET client_min_messages; -SELECT 1 FROM master_remove_node('localhost', :master_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -SELECT count(*) FROM pg_dist_node; - count ---------------------------------------------------------------------- - 0 -(1 row) - --- there are no workers now, but we should still be able to create Citus tables --- force local execution when creating the index -ALTER SYSTEM SET citus.local_shared_pool_size TO -1; --- Postmaster might not ack SIGHUP signal sent by pg_reload_conf() immediately, --- so we need to sleep for some amount of time to do our best to ensure that --- postmaster reflects GUC changes. -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(0.1); - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE failover_to_local (a int); -SELECT create_distributed_table('failover_to_local', 'a', shard_count=>32); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE INDEX CONCURRENTLY ON failover_to_local(a); -WARNING: CONCURRENTLY-enabled index commands can fail partially, leaving behind an INVALID index. - Use DROP INDEX CONCURRENTLY IF EXISTS to remove the invalid index. -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: Consider using a higher value for max_connections --- reset global GUC changes -ALTER SYSTEM RESET citus.local_shared_pool_size; -ALTER SYSTEM RESET citus.max_cached_conns_per_worker; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -CREATE TABLE single_node_nullkey_c1(a int, b int); -SELECT create_distributed_table('single_node_nullkey_c1', null, colocate_with=>'none', distribution_type=>null); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE single_node_nullkey_c2(a int, b int); -SELECT create_distributed_table('single_node_nullkey_c2', null, colocate_with=>'none', distribution_type=>null); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- created on different colocation groups .. -SELECT -( - SELECT colocationid FROM pg_dist_partition - WHERE logicalrelid = 'single_node.single_node_nullkey_c1'::regclass -) -!= -( - SELECT colocationid FROM pg_dist_partition - WHERE logicalrelid = 'single_node.single_node_nullkey_c2'::regclass -); - ?column? ---------------------------------------------------------------------- - t -(1 row) - --- .. but both are associated to coordinator -SELECT groupid = 0 FROM pg_dist_placement -WHERE shardid = ( - SELECT shardid FROM pg_dist_shard - WHERE logicalrelid = 'single_node.single_node_nullkey_c1'::regclass -); - ?column? ---------------------------------------------------------------------- - t -(1 row) - -SELECT groupid = 0 FROM pg_dist_placement -WHERE shardid = ( - SELECT shardid FROM pg_dist_shard - WHERE logicalrelid = 'single_node.single_node_nullkey_c2'::regclass -); - ?column? ---------------------------------------------------------------------- - t -(1 row) - --- try creating a single-shard table from a shard relation -SELECT shardid AS round_robin_test_c1_shard_id FROM pg_dist_shard WHERE logicalrelid = 'single_node.single_node_nullkey_c1'::regclass \gset -SELECT create_distributed_table('single_node_nullkey_c1_' || :round_robin_test_c1_shard_id , null, colocate_with=>'none', distribution_type=>null); -ERROR: relation "single_node_nullkey_c1_90630532" is a shard relation --- create a tenant schema on single node setup -SET citus.enable_schema_based_sharding TO ON; -CREATE SCHEMA tenant_1; -CREATE TABLE tenant_1.tbl_1 (a int); --- verify that we recorded tenant_1 in pg_dist_schema -SELECT COUNT(*)=1 FROM pg_dist_schema WHERE schemaid::regnamespace::text = 'tenant_1'; - ?column? ---------------------------------------------------------------------- - t -(1 row) - --- verify that tenant_1.tbl_1 is recorded in pg_dist_partition, as a single-shard table -SELECT COUNT(*)=1 FROM pg_dist_partition -WHERE logicalrelid = 'tenant_1.tbl_1'::regclass AND - partmethod = 'n' AND repmodel = 's' AND colocationid IS NOT NULL; - ?column? ---------------------------------------------------------------------- - t -(1 row) - -RESET citus.enable_schema_based_sharding; --- Test lazy conversion from Citus local to single-shard tables --- and reference tables, on single node. This means that no shard --- replication should be needed. -CREATE TABLE ref_table_conversion_test ( - a int PRIMARY KEY -); -SELECT citus_add_local_table_to_metadata('ref_table_conversion_test'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - --- save old shardid and placementid -SELECT get_shard_id_for_distribution_column('single_node.ref_table_conversion_test') AS ref_table_conversion_test_old_shard_id \gset -SELECT placementid AS ref_table_conversion_test_old_coord_placement_id FROM pg_dist_placement WHERE shardid = :ref_table_conversion_test_old_shard_id \gset -SELECT create_reference_table('ref_table_conversion_test'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -SELECT public.verify_pg_dist_partition_for_reference_table('single_node.ref_table_conversion_test'); - verify_pg_dist_partition_for_reference_table ---------------------------------------------------------------------- - t -(1 row) - -SELECT public.verify_shard_placements_for_reference_table('single_node.ref_table_conversion_test', - :ref_table_conversion_test_old_shard_id, - :ref_table_conversion_test_old_coord_placement_id); - verify_shard_placements_for_reference_table ---------------------------------------------------------------------- - t -(1 row) - -CREATE TABLE single_shard_conversion_test_1 ( - int_col_1 int PRIMARY KEY, - text_col_1 text UNIQUE, - int_col_2 int -); -SELECT citus_add_local_table_to_metadata('single_shard_conversion_test_1'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - --- save old shardid -SELECT get_shard_id_for_distribution_column('single_node.single_shard_conversion_test_1') AS single_shard_conversion_test_1_old_shard_id \gset -SELECT create_distributed_table('single_shard_conversion_test_1', null, colocate_with=>'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT public.verify_pg_dist_partition_for_single_shard_table('single_node.single_shard_conversion_test_1'); - verify_pg_dist_partition_for_single_shard_table ---------------------------------------------------------------------- - t -(1 row) - -SELECT public.verify_shard_placement_for_single_shard_table('single_node.single_shard_conversion_test_1', :single_shard_conversion_test_1_old_shard_id, true); - verify_shard_placement_for_single_shard_table ---------------------------------------------------------------------- - t -(1 row) - -CREATE TABLE single_shard_conversion_test_2 ( - int_col_1 int -); -SELECT citus_add_local_table_to_metadata('single_shard_conversion_test_2'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - --- save old shardid -SELECT get_shard_id_for_distribution_column('single_node.single_shard_conversion_test_2') AS single_shard_conversion_test_2_old_shard_id \gset -SELECT create_distributed_table('single_shard_conversion_test_2', null, colocate_with=>'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT public.verify_pg_dist_partition_for_single_shard_table('single_node.single_shard_conversion_test_2'); - verify_pg_dist_partition_for_single_shard_table ---------------------------------------------------------------------- - t -(1 row) - -SELECT public.verify_shard_placement_for_single_shard_table('single_node.single_shard_conversion_test_2', :single_shard_conversion_test_2_old_shard_id, true); - verify_shard_placement_for_single_shard_table ---------------------------------------------------------------------- - t -(1 row) - --- make sure that they're created on different colocation groups -SELECT -( - SELECT colocationid FROM pg_dist_partition - WHERE logicalrelid = 'single_node.single_shard_conversion_test_1'::regclass -) -!= -( - SELECT colocationid FROM pg_dist_partition - WHERE logicalrelid = 'single_node.single_shard_conversion_test_2'::regclass -); - ?column? ---------------------------------------------------------------------- - t -(1 row) - -SET client_min_messages TO WARNING; -DROP TABLE failover_to_local, single_node_nullkey_c1, single_node_nullkey_c2, ref_table_conversion_test, single_shard_conversion_test_1, single_shard_conversion_test_2; -DROP SCHEMA tenant_1 CASCADE; -RESET client_min_messages; --- so that we don't have to update rest of the test output -SET citus.next_shard_id TO 90630500; -CREATE TABLE ref(x int, y int); -SELECT create_reference_table('ref'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -SELECT groupid, nodename, nodeport, isactive, shouldhaveshards, hasmetadata, metadatasynced FROM pg_dist_node; - groupid | nodename | nodeport | isactive | shouldhaveshards | hasmetadata | metadatasynced ---------------------------------------------------------------------- - 0 | localhost | 57636 | t | t | t | t -(1 row) - -DROP TABLE ref; --- remove the coordinator to try again with create_reference_table -SELECT master_remove_node(nodename, nodeport) FROM pg_dist_node WHERE groupid = 0; - master_remove_node ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE loc(x int, y int); -SELECT citus_add_local_table_to_metadata('loc'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - -SELECT groupid, nodename, nodeport, isactive, shouldhaveshards, hasmetadata, metadatasynced FROM pg_dist_node; - groupid | nodename | nodeport | isactive | shouldhaveshards | hasmetadata | metadatasynced ---------------------------------------------------------------------- - 0 | localhost | 57636 | t | t | t | t -(1 row) - -DROP TABLE loc; --- remove the coordinator to try again with create_distributed_table -SELECT master_remove_node(nodename, nodeport) FROM pg_dist_node WHERE groupid = 0; - master_remove_node ---------------------------------------------------------------------- - -(1 row) - --- verify the coordinator gets auto added with the localhost guc -ALTER SYSTEM SET citus.local_hostname TO '127.0.0.1'; --although not a hostname, should work for connecting locally -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(.1); -- wait to make sure the config has changed before running the GUC - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE test(x int, y int); -SELECT create_distributed_table('test','x'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT groupid, nodename, nodeport, isactive, shouldhaveshards, hasmetadata, metadatasynced FROM pg_dist_node; - groupid | nodename | nodeport | isactive | shouldhaveshards | hasmetadata | metadatasynced ---------------------------------------------------------------------- - 0 | 127.0.0.1 | 57636 | t | t | t | t -(1 row) - -DROP TABLE test; --- remove the coordinator to try again -SELECT master_remove_node(nodename, nodeport) FROM pg_dist_node WHERE groupid = 0; - master_remove_node ---------------------------------------------------------------------- - -(1 row) - -ALTER SYSTEM RESET citus.local_hostname; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(.1); -- wait to make sure the config has changed before running the GUC - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE test(x int, y int); -SELECT create_distributed_table('test','x'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT groupid, nodename, nodeport, isactive, shouldhaveshards, hasmetadata, metadatasynced FROM pg_dist_node; - groupid | nodename | nodeport | isactive | shouldhaveshards | hasmetadata | metadatasynced ---------------------------------------------------------------------- - 0 | localhost | 57636 | t | t | t | t -(1 row) - -BEGIN; - -- we should not enable MX for this temporary node just because - -- it'd spawn a bg worker targeting this node - -- and that changes the connection count specific tests - -- here - SET LOCAL citus.enable_metadata_sync TO OFF; - -- cannot add workers with specific IP as long as I have a placeholder coordinator record - SELECT 1 FROM master_add_node('127.0.0.1', :worker_1_port); -ERROR: cannot add a worker node when the coordinator hostname is set to localhost -DETAIL: Worker nodes need to be able to connect to the coordinator to transfer data. -HINT: Use SELECT citus_set_coordinator_host('') to configure the coordinator hostname -COMMIT; -BEGIN; - -- we should not enable MX for this temporary node just because - -- it'd spawn a bg worker targeting this node - -- and that changes the connection count specific tests - -- here - SET LOCAL citus.enable_metadata_sync TO OFF; - -- adding localhost workers is ok - SELECT 1 FROM master_add_node('localhost', :worker_1_port); -NOTICE: shards are still on the coordinator after adding the new node -HINT: Use SELECT rebalance_table_shards(); to balance shards data between workers and coordinator or SELECT citus_drain_node('localhost',57636); to permanently move shards away from the coordinator. - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -COMMIT; --- we don't need this node anymore -SELECT 1 FROM master_remove_node('localhost', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- set the coordinator host to something different than localhost -SELECT 1 FROM citus_set_coordinator_host('127.0.0.1'); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -BEGIN; - -- we should not enable MX for this temporary node just because - -- it'd spawn a bg worker targeting this node - -- and that changes the connection count specific tests - -- here - SET LOCAL citus.enable_metadata_sync TO OFF; - -- adding workers with specific IP is ok now - SELECT 1 FROM master_add_node('127.0.0.1', :worker_1_port); -NOTICE: shards are still on the coordinator after adding the new node -HINT: Use SELECT rebalance_table_shards(); to balance shards data between workers and coordinator or SELECT citus_drain_node('127.0.0.1',57636); to permanently move shards away from the coordinator. - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -COMMIT; --- we don't need this node anymore -SELECT 1 FROM master_remove_node('127.0.0.1', :worker_1_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- set the coordinator host back to localhost for the remainder of tests -SELECT 1 FROM citus_set_coordinator_host('localhost'); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- should have shards setting should not really matter for a single node -SELECT 1 FROM master_set_node_property('localhost', :master_port, 'shouldhaveshards', true); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - -CREATE TYPE new_type AS (n int, m text); -CREATE TABLE test_2(x int, y int, z new_type); -SELECT create_distributed_table('test_2','x'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE ref(a int, b int); -SELECT create_reference_table('ref'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE local(c int, d int); -CREATE TABLE public.another_schema_table(a int, b int); -SELECT create_distributed_table('public.another_schema_table', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE non_binary_copy_test (key int PRIMARY KEY, value new_type); -SELECT create_distributed_table('non_binary_copy_test', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO non_binary_copy_test SELECT i, (i, 'citus9.5')::new_type FROM generate_series(0,1000)i; --- Confirm the basics work -INSERT INTO test VALUES (1, 2), (3, 4), (5, 6), (2, 7), (4, 5); -SELECT * FROM test WHERE x = 1; - x | y ---------------------------------------------------------------------- - 1 | 2 -(1 row) - -SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 5 -(1 row) - -SELECT * FROM test ORDER BY x; - x | y ---------------------------------------------------------------------- - 1 | 2 - 2 | 7 - 3 | 4 - 4 | 5 - 5 | 6 -(5 rows) - -UPDATE test SET y = y + 1 RETURNING *; - x | y ---------------------------------------------------------------------- - 1 | 3 - 2 | 8 - 3 | 5 - 4 | 6 - 5 | 7 -(5 rows) - -WITH cte_1 AS (UPDATE test SET y = y - 1 RETURNING *) SELECT * FROM cte_1 ORDER BY 1,2; - x | y ---------------------------------------------------------------------- - 1 | 2 - 2 | 7 - 3 | 4 - 4 | 5 - 5 | 6 -(5 rows) - --- show that we can filter remote commands --- given that citus.grep_remote_commands, we log all commands -SET citus.log_local_commands to true; -SELECT count(*) FROM public.another_schema_table WHERE a = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM public.another_schema_table_90630515 another_schema_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - --- grep matches all commands -SET citus.grep_remote_commands TO "%%"; -SELECT count(*) FROM public.another_schema_table WHERE a = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM public.another_schema_table_90630515 another_schema_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 0 -(1 row) - --- only filter a specific shard for the local execution -BEGIN; - SET LOCAL citus.grep_remote_commands TO "%90630515%"; - SELECT count(*) FROM public.another_schema_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM public.another_schema_table_90630515 another_schema_table WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- match nothing - SET LOCAL citus.grep_remote_commands TO '%nothing%'; - SELECT count(*) FROM public.another_schema_table; - count ---------------------------------------------------------------------- - 0 -(1 row) - -COMMIT; --- only filter a specific shard for the remote execution -BEGIN; - SET LOCAL citus.enable_local_execution TO FALSE; - SET LOCAL citus.grep_remote_commands TO '%90630515%'; - SET LOCAL citus.log_remote_commands TO ON; - SELECT count(*) FROM public.another_schema_table; -NOTICE: issuing SELECT count(*) AS count FROM public.another_schema_table_90630515 another_schema_table WHERE true -DETAIL: on server postgres@localhost:xxxxx connectionId: xxxxxxx - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- match nothing - SET LOCAL citus.grep_remote_commands TO '%nothing%'; - SELECT count(*) FROM public.another_schema_table; - count ---------------------------------------------------------------------- - 0 -(1 row) - -COMMIT; -RESET citus.log_local_commands; -RESET citus.grep_remote_commands; --- Test upsert with constraint -CREATE TABLE upsert_test -( - part_key int UNIQUE, - other_col int, - third_col int -); --- distribute the table -SELECT create_distributed_table('upsert_test', 'part_key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- do a regular insert -INSERT INTO upsert_test (part_key, other_col) VALUES (1, 1), (2, 2) RETURNING *; - part_key | other_col | third_col ---------------------------------------------------------------------- - 1 | 1 | - 2 | 2 | -(2 rows) - -SET citus.log_remote_commands to true; --- observe that there is a conflict and the following query does nothing -INSERT INTO upsert_test (part_key, other_col) VALUES (1, 1) ON CONFLICT DO NOTHING RETURNING *; -NOTICE: executing the command locally: INSERT INTO single_node.upsert_test_90630523 AS citus_table_alias (part_key, other_col) VALUES (1, 1) ON CONFLICT DO NOTHING RETURNING part_key, other_col, third_col - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - --- same as the above with different syntax -INSERT INTO upsert_test (part_key, other_col) VALUES (1, 1) ON CONFLICT (part_key) DO NOTHING RETURNING *; -NOTICE: executing the command locally: INSERT INTO single_node.upsert_test_90630523 AS citus_table_alias (part_key, other_col) VALUES (1, 1) ON CONFLICT(part_key) DO NOTHING RETURNING part_key, other_col, third_col - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - --- again the same query with another syntax -INSERT INTO upsert_test (part_key, other_col) VALUES (1, 1) ON CONFLICT ON CONSTRAINT upsert_test_part_key_key DO NOTHING RETURNING *; -NOTICE: executing the command locally: INSERT INTO single_node.upsert_test_90630523 AS citus_table_alias (part_key, other_col) VALUES (1, 1) ON CONFLICT ON CONSTRAINT upsert_test_part_key_key_90630523 DO NOTHING RETURNING part_key, other_col, third_col - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - -BEGIN; --- force local execution -SELECT count(*) FROM upsert_test WHERE part_key = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.upsert_test_90630523 upsert_test WHERE (part_key OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - -SET citus.log_remote_commands to false; --- multi-shard pushdown query that goes through local execution -INSERT INTO upsert_test (part_key, other_col) SELECT part_key, other_col FROM upsert_test ON CONFLICT ON CONSTRAINT upsert_test_part_key_key DO NOTHING RETURNING *; - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - --- multi-shard pull-to-coordinator query that goes through local execution -INSERT INTO upsert_test (part_key, other_col) SELECT part_key, other_col FROM upsert_test LIMIT 100 ON CONFLICT ON CONSTRAINT upsert_test_part_key_key DO NOTHING RETURNING *; - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - -COMMIT; --- to test citus local tables -select undistribute_table('upsert_test'); -NOTICE: creating a new table for single_node.upsert_test -NOTICE: moving the data of single_node.upsert_test -NOTICE: dropping the old single_node.upsert_test -NOTICE: renaming the new table to single_node.upsert_test - undistribute_table ---------------------------------------------------------------------- - -(1 row) - --- create citus local table -select citus_add_local_table_to_metadata('upsert_test'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - --- test the constraint with local execution -INSERT INTO upsert_test (part_key, other_col) VALUES (1, 1) ON CONFLICT ON CONSTRAINT upsert_test_part_key_key DO NOTHING RETURNING *; - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - -DROP TABLE upsert_test; -CREATE TABLE relation_tracking_table_1(id int, nonid int); -SELECT create_distributed_table('relation_tracking_table_1', 'id', colocate_with := 'none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO relation_tracking_table_1 select generate_series(6, 10000, 1), 0; -CREATE or REPLACE function foo() -returns setof relation_tracking_table_1 -AS $$ -BEGIN -RETURN query select * from relation_tracking_table_1 order by 1 limit 10; -end; -$$ language plpgsql; -CREATE TABLE relation_tracking_table_2 (id int, nonid int); --- use the relation-access in this session -select foo(); - foo ---------------------------------------------------------------------- - (6,0) - (7,0) - (8,0) - (9,0) - (10,0) - (11,0) - (12,0) - (13,0) - (14,0) - (15,0) -(10 rows) - --- we should be able to use sequential mode, as the previous multi-shard --- relation access has been cleaned-up -BEGIN; -SET LOCAL citus.multi_shard_modify_mode TO sequential; -INSERT INTO relation_tracking_table_2 select generate_series(6, 1000, 1), 0; -SELECT create_distributed_table('relation_tracking_table_2', 'id', colocate_with := 'none'); -NOTICE: Copying data from local table... -NOTICE: copying the data has completed -DETAIL: The local data in the table is no longer visible, but is still on disk. -HINT: To remove the local data, run: SELECT truncate_local_data_after_distributing_table($$single_node.relation_tracking_table_2$$) - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT count(*) FROM relation_tracking_table_2; - count ---------------------------------------------------------------------- - 995 -(1 row) - -ROLLBACK; -BEGIN; -INSERT INTO relation_tracking_table_2 select generate_series(6, 1000, 1), 0; -SELECT create_distributed_table('relation_tracking_table_2', 'id', colocate_with := 'none'); -NOTICE: Copying data from local table... -NOTICE: copying the data has completed -DETAIL: The local data in the table is no longer visible, but is still on disk. -HINT: To remove the local data, run: SELECT truncate_local_data_after_distributing_table($$single_node.relation_tracking_table_2$$) - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT count(*) FROM relation_tracking_table_2; - count ---------------------------------------------------------------------- - 995 -(1 row) - -COMMIT; -SET client_min_messages TO ERROR; -DROP TABLE relation_tracking_table_2, relation_tracking_table_1 CASCADE; -RESET client_min_messages; -CREATE SCHEMA "Quoed.Schema"; -SET search_path TO "Quoed.Schema"; -CREATE TABLE "long_constraint_upsert\_test" -( - part_key int, - other_col int, - third_col int, - CONSTRAINT "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" UNIQUE (part_key) -); -NOTICE: identifier "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" will be truncated to "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted " --- distribute the table and create shards -SELECT create_distributed_table('"long_constraint_upsert\_test"', 'part_key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO "long_constraint_upsert\_test" (part_key, other_col) VALUES (1, 1) ON CONFLICT ON CONSTRAINT "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" DO NOTHING RETURNING *; -NOTICE: identifier "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" will be truncated to "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted " - part_key | other_col | third_col ---------------------------------------------------------------------- - 1 | 1 | -(1 row) - -ALTER TABLE "long_constraint_upsert\_test" RENAME TO simple_table_name; -INSERT INTO simple_table_name (part_key, other_col) VALUES (1, 1) ON CONFLICT ON CONSTRAINT "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" DO NOTHING RETURNING *; -NOTICE: identifier "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" will be truncated to "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted " - part_key | other_col | third_col ---------------------------------------------------------------------- -(0 rows) - --- this is currently not supported, but once we support --- make sure that the following query also works fine -ALTER TABLE simple_table_name RENAME CONSTRAINT "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" TO simple_constraint_name; -NOTICE: identifier "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted \aconstraint" will be truncated to "looo oooo ooooo ooooooooooooooooo oooooooo oooooooo ng quoted " -ERROR: renaming constraints belonging to distributed tables is currently unsupported ---INSERT INTO simple_table_name (part_key, other_col) VALUES (1, 1) ON CONFLICT ON CONSTRAINT simple_constraint_name DO NOTHING RETURNING *; -SET search_path TO single_node; -SET client_min_messages TO ERROR; -DROP SCHEMA "Quoed.Schema" CASCADE; -RESET client_min_messages; --- test partitioned index creation with long name -CREATE TABLE test_index_creation1 -( - tenant_id integer NOT NULL, - timeperiod timestamp without time zone NOT NULL, - field1 integer NOT NULL, - inserted_utc timestamp without time zone NOT NULL DEFAULT now(), - PRIMARY KEY(tenant_id, timeperiod) -) PARTITION BY RANGE (timeperiod); -CREATE TABLE test_index_creation1_p2020_09_26 -PARTITION OF test_index_creation1 FOR VALUES FROM ('2020-09-26 00:00:00') TO ('2020-09-27 00:00:00'); -CREATE TABLE test_index_creation1_p2020_09_27 -PARTITION OF test_index_creation1 FOR VALUES FROM ('2020-09-27 00:00:00') TO ('2020-09-28 00:00:00'); -select create_distributed_table('test_index_creation1', 'tenant_id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- should be able to create indexes with INCLUDE/WHERE -CREATE INDEX ix_test_index_creation5 ON test_index_creation1 - USING btree(tenant_id, timeperiod) - INCLUDE (field1) WHERE (tenant_id = 100); --- test if indexes are created -SELECT 1 AS created WHERE EXISTS(SELECT * FROM pg_indexes WHERE indexname LIKE '%test_index_creation%'); - created ---------------------------------------------------------------------- - 1 -(1 row) - --- test citus size functions in transaction with modification -CREATE TABLE test_citus_size_func (a int); -SELECT create_distributed_table('test_citus_size_func', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO test_citus_size_func VALUES(1), (2); -BEGIN; - -- DDL with citus_table_size - ALTER TABLE test_citus_size_func ADD COLUMN newcol INT; - SELECT citus_table_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- DDL with citus_relation_size - ALTER TABLE test_citus_size_func ADD COLUMN newcol INT; - SELECT citus_relation_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- DDL with citus_total_relation_size - ALTER TABLE test_citus_size_func ADD COLUMN newcol INT; - SELECT citus_total_relation_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- single shard insert with citus_table_size - INSERT INTO test_citus_size_func VALUES (3); - SELECT citus_table_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- multi shard modification with citus_table_size - INSERT INTO test_citus_size_func SELECT * FROM test_citus_size_func; - SELECT citus_table_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- single shard insert with citus_relation_size - INSERT INTO test_citus_size_func VALUES (3); - SELECT citus_relation_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- multi shard modification with citus_relation_size - INSERT INTO test_citus_size_func SELECT * FROM test_citus_size_func; - SELECT citus_relation_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- single shard insert with citus_total_relation_size - INSERT INTO test_citus_size_func VALUES (3); - SELECT citus_total_relation_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; -BEGIN; - -- multi shard modification with citus_total_relation_size - INSERT INTO test_citus_size_func SELECT * FROM test_citus_size_func; - SELECT citus_total_relation_size('test_citus_size_func'); -ERROR: citus size functions cannot be called in transaction blocks which contain multi-shard data modifications -ROLLBACK; --- we should be able to limit intermediate results -BEGIN; - SET LOCAL citus.max_intermediate_result_size TO 0; - WITH cte_1 AS (SELECT * FROM test OFFSET 0) SELECT * FROM cte_1; -ERROR: the intermediate result size exceeds citus.max_intermediate_result_size (currently 0 kB) -DETAIL: Citus restricts the size of intermediate results of complex subqueries and CTEs to avoid accidentally pulling large result sets into once place. -HINT: To run the current query, set citus.max_intermediate_result_size to a higher value or -1 to disable. -ROLLBACK; --- the first cte (cte_1) does not exceed the limit --- but the second (cte_2) exceeds, so we error out -BEGIN; - SET LOCAL citus.max_intermediate_result_size TO '1kB'; - INSERT INTO test SELECT i,i from generate_series(0,1000)i; - -- only pulls 1 row, should not hit the limit - WITH cte_1 AS (SELECT * FROM test LIMIT 1) SELECT count(*) FROM cte_1; - count ---------------------------------------------------------------------- - 1 -(1 row) - - -- cte_1 only pulls 1 row, but cte_2 all rows - WITH cte_1 AS (SELECT * FROM test LIMIT 1), - cte_2 AS (SELECT * FROM test OFFSET 0) - SELECT count(*) FROM cte_1, cte_2; -ERROR: the intermediate result size exceeds citus.max_intermediate_result_size (currently 1 kB) -DETAIL: Citus restricts the size of intermediate results of complex subqueries and CTEs to avoid accidentally pulling large result sets into once place. -HINT: To run the current query, set citus.max_intermediate_result_size to a higher value or -1 to disable. -ROLLBACK; --- single shard and multi-shard delete --- inside a transaction block -BEGIN; - DELETE FROM test WHERE y = 5; - INSERT INTO test VALUES (4, 5); - DELETE FROM test WHERE x = 1; - INSERT INTO test VALUES (1, 2); -COMMIT; -CREATE INDEX single_node_i1 ON test(x); -CREATE INDEX single_node_i2 ON test(x,y); -REINDEX SCHEMA single_node; -REINDEX SCHEMA CONCURRENTLY single_node; --- keep one of the indexes --- drop w/wout tx blocks -BEGIN; - DROP INDEX single_node_i2; -ROLLBACK; -DROP INDEX single_node_i2; --- change the schema w/wout TX block -BEGIN; - ALTER TABLE public.another_schema_table SET SCHEMA single_node; -ROLLBACK; -ALTER TABLE public.another_schema_table SET SCHEMA single_node; -BEGIN; - TRUNCATE test; - SELECT * FROM test; - x | y ---------------------------------------------------------------------- -(0 rows) - -ROLLBACK; -VACUUM test; -VACUUM test, test_2; -VACUUM ref, test; -VACUUM ANALYZE test(x); -ANALYZE ref; -ANALYZE test_2; -VACUUM local; -VACUUM local, ref, test, test_2; -VACUUM FULL test, ref; -BEGIN; - ALTER TABLE test ADD COLUMN z INT DEFAULT 66; - SELECT count(*) FROM test WHERE z = 66; - count ---------------------------------------------------------------------- - 5 -(1 row) - -ROLLBACK; --- explain analyze should work on a single node -EXPLAIN (COSTS FALSE, ANALYZE TRUE, TIMING FALSE, SUMMARY FALSE) - SELECT * FROM test; - QUERY PLAN ---------------------------------------------------------------------- - Custom Scan (Citus Adaptive) (actual rows=5 loops=1) - Task Count: 4 - Tuple data received from nodes: 40 bytes - Tasks Shown: One of 4 - -> Task - Tuple data received from node: 16 bytes - Node: host=localhost port=xxxxx dbname=regression - -> Seq Scan on test_90630506 test (actual rows=2 loops=1) -(8 rows) - --- common utility command -SELECT pg_size_pretty(citus_relation_size('test'::regclass)); - pg_size_pretty ---------------------------------------------------------------------- - 24 kB -(1 row) - --- basic view queries -CREATE VIEW single_node_view AS - SELECT count(*) as cnt FROM test t1 JOIN test t2 USING (x); -SELECT * FROM single_node_view; - cnt ---------------------------------------------------------------------- - 5 -(1 row) - -SELECT * FROM single_node_view, test WHERE test.x = single_node_view.cnt; - cnt | x | y ---------------------------------------------------------------------- - 5 | 5 | 6 -(1 row) - --- copy in/out -BEGIN; - COPY test(x) FROM PROGRAM 'seq 32'; - SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 37 -(1 row) - - COPY (SELECT count(DISTINCT x) FROM test) TO STDOUT; -32 - INSERT INTO test SELECT i,i FROM generate_series(0,100)i; -ROLLBACK; --- master_create_empty_shard on coordinator -BEGIN; -CREATE TABLE append_table (a INT, b INT); -SELECT create_distributed_table('append_table','a','append'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT master_create_empty_shard('append_table'); -NOTICE: Creating placements for the append partitioned tables on the coordinator is not supported, skipping coordinator ... -ERROR: could only create 0 of 1 of required shard replicas -END; --- alter table inside a tx block -BEGIN; - ALTER TABLE test ADD COLUMN z single_node.new_type; - INSERT INTO test VALUES (99, 100, (1, 'onder')::new_type) RETURNING *; - x | y | z ---------------------------------------------------------------------- - 99 | 100 | (1,onder) -(1 row) - -ROLLBACK; --- prepared statements with custom types -PREPARE single_node_prepare_p1(int, int, new_type) AS - INSERT INTO test_2 VALUES ($1, $2, $3); -EXECUTE single_node_prepare_p1(1, 1, (95, 'citus9.5')::new_type); -EXECUTE single_node_prepare_p1(2 ,2, (94, 'citus9.4')::new_type); -EXECUTE single_node_prepare_p1(3 ,2, (93, 'citus9.3')::new_type); -EXECUTE single_node_prepare_p1(4 ,2, (92, 'citus9.2')::new_type); -EXECUTE single_node_prepare_p1(5 ,2, (91, 'citus9.1')::new_type); -EXECUTE single_node_prepare_p1(6 ,2, (90, 'citus9.0')::new_type); -PREPARE use_local_query_cache(int) AS SELECT count(*) FROM test_2 WHERE x = $1; -EXECUTE use_local_query_cache(1); - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE use_local_query_cache(1); - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE use_local_query_cache(1); - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE use_local_query_cache(1); - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE use_local_query_cache(1); - count ---------------------------------------------------------------------- - 1 -(1 row) - -SET client_min_messages TO DEBUG2; --- the 6th execution will go through the planner --- the 7th execution will skip the planner as it uses the cache -EXECUTE use_local_query_cache(1); -DEBUG: Deferred pruning for a fast-path router query -DEBUG: Creating router plan - count ---------------------------------------------------------------------- - 1 -(1 row) - -EXECUTE use_local_query_cache(1); - count ---------------------------------------------------------------------- - 1 -(1 row) - -RESET client_min_messages; --- partitioned table should be fine, adding for completeness -CREATE TABLE collections_list ( - key bigint, - ts timestamptz DEFAULT now(), - collection_id integer, - value numeric, - PRIMARY KEY(key, collection_id) -) PARTITION BY LIST (collection_id ); -SELECT create_distributed_table('collections_list', 'key'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE collections_list_0 - PARTITION OF collections_list (key, ts, collection_id, value) - FOR VALUES IN ( 0 ); -CREATE TABLE collections_list_1 - PARTITION OF collections_list (key, ts, collection_id, value) - FOR VALUES IN ( 1 ); -INSERT INTO collections_list SELECT i, '2011-01-01', i % 2, i * i FROM generate_series(0, 100) i; -SELECT count(*) FROM collections_list WHERE key < 10 AND collection_id = 1; - count ---------------------------------------------------------------------- - 5 -(1 row) - -SELECT count(*) FROM collections_list_0 WHERE key < 10 AND collection_id = 1; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT count(*) FROM collections_list_1 WHERE key = 11; - count ---------------------------------------------------------------------- - 1 -(1 row) - -ALTER TABLE collections_list DROP COLUMN ts; -SELECT * FROM collections_list, collections_list_0 WHERE collections_list.key=collections_list_0.key ORDER BY 1 DESC,2 DESC,3 DESC,4 DESC LIMIT 1; - key | collection_id | value | key | collection_id | value ---------------------------------------------------------------------- - 100 | 0 | 10000 | 100 | 0 | 10000 -(1 row) - --- test hash distribution using INSERT with generate_series() function -CREATE OR REPLACE FUNCTION part_hashint4_noop(value int4, seed int8) -RETURNS int8 AS $$ -SELECT value + seed; -$$ LANGUAGE SQL IMMUTABLE; -CREATE OPERATOR CLASS part_test_int4_ops -FOR TYPE int4 -USING HASH AS -operator 1 =, -function 2 part_hashint4_noop(int4, int8); -CREATE TABLE hash_parted ( - a int, - b int -) PARTITION BY HASH (a part_test_int4_ops); -CREATE TABLE hpart0 PARTITION OF hash_parted FOR VALUES WITH (modulus 4, remainder 0); -CREATE TABLE hpart1 PARTITION OF hash_parted FOR VALUES WITH (modulus 4, remainder 1); -CREATE TABLE hpart2 PARTITION OF hash_parted FOR VALUES WITH (modulus 4, remainder 2); -CREATE TABLE hpart3 PARTITION OF hash_parted FOR VALUES WITH (modulus 4, remainder 3); --- Disable metadata sync since citus doesn't support distributing --- operator class for now. -SET citus.enable_metadata_sync TO OFF; -SELECT create_distributed_table('hash_parted ', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO hash_parted VALUES (1, generate_series(1, 10)); -SELECT * FROM hash_parted ORDER BY 1, 2; - a | b ---------------------------------------------------------------------- - 1 | 1 - 1 | 2 - 1 | 3 - 1 | 4 - 1 | 5 - 1 | 6 - 1 | 7 - 1 | 8 - 1 | 9 - 1 | 10 -(10 rows) - -ALTER TABLE hash_parted DETACH PARTITION hpart0; -ALTER TABLE hash_parted DETACH PARTITION hpart1; -ALTER TABLE hash_parted DETACH PARTITION hpart2; -ALTER TABLE hash_parted DETACH PARTITION hpart3; -RESET citus.enable_metadata_sync; --- test range partition without creating partitions and inserting with generate_series() --- should error out even in plain PG since no partition of relation "parent_tab" is found for row --- in Citus it errors out because it fails to evaluate partition key in insert -CREATE TABLE parent_tab (id int) PARTITION BY RANGE (id); -SELECT create_distributed_table('parent_tab', 'id'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO parent_tab VALUES (generate_series(0, 3)); -ERROR: failed to evaluate partition key in insert -HINT: try using constant values for partition column --- now it should work -CREATE TABLE parent_tab_1_2 PARTITION OF parent_tab FOR VALUES FROM (1) to (2); -ALTER TABLE parent_tab ADD COLUMN b int; -INSERT INTO parent_tab VALUES (1, generate_series(0, 3)); -SELECT * FROM parent_tab ORDER BY 1, 2; - id | b ---------------------------------------------------------------------- - 1 | 0 - 1 | 1 - 1 | 2 - 1 | 3 -(4 rows) - --- make sure that parallel accesses are good -SET citus.force_max_query_parallelization TO ON; -SELECT * FROM test_2 ORDER BY 1 DESC; - x | y | z ---------------------------------------------------------------------- - 6 | 2 | (90,citus9.0) - 5 | 2 | (91,citus9.1) - 4 | 2 | (92,citus9.2) - 3 | 2 | (93,citus9.3) - 2 | 2 | (94,citus9.4) - 1 | 1 | (95,citus9.5) -(6 rows) - -DELETE FROM test_2 WHERE y = 1000 RETURNING *; - x | y | z ---------------------------------------------------------------------- -(0 rows) - -RESET citus.force_max_query_parallelization ; -BEGIN; - INSERT INTO test_2 VALUES (7 ,2, (83, 'citus8.3')::new_type); - SAVEPOINT s1; - INSERT INTO test_2 VALUES (9 ,1, (82, 'citus8.2')::new_type); - SAVEPOINT s2; - ROLLBACK TO SAVEPOINT s1; - SELECT * FROM test_2 WHERE z = (83, 'citus8.3')::new_type OR z = (82, 'citus8.2')::new_type; - x | y | z ---------------------------------------------------------------------- - 7 | 2 | (83,citus8.3) -(1 row) - - RELEASE SAVEPOINT s1; -COMMIT; -SELECT * FROM test_2 WHERE z = (83, 'citus8.3')::new_type OR z = (82, 'citus8.2')::new_type; - x | y | z ---------------------------------------------------------------------- - 7 | 2 | (83,citus8.3) -(1 row) - --- final query is only intermediate result --- we want PG 11/12/13 behave consistently, the CTEs should be MATERIALIZED -WITH cte_1 AS (SELECT * FROM test_2) SELECT * FROM cte_1 ORDER BY 1,2; - x | y | z ---------------------------------------------------------------------- - 1 | 1 | (95,citus9.5) - 2 | 2 | (94,citus9.4) - 3 | 2 | (93,citus9.3) - 4 | 2 | (92,citus9.2) - 5 | 2 | (91,citus9.1) - 6 | 2 | (90,citus9.0) - 7 | 2 | (83,citus8.3) -(7 rows) - --- final query is router query -WITH cte_1 AS (SELECT * FROM test_2) SELECT * FROM cte_1, test_2 WHERE test_2.x = cte_1.x AND test_2.x = 7 ORDER BY 1,2; - x | y | z | x | y | z ---------------------------------------------------------------------- - 7 | 2 | (83,citus8.3) | 7 | 2 | (83,citus8.3) -(1 row) - --- final query is a distributed query -WITH cte_1 AS (SELECT * FROM test_2) SELECT * FROM cte_1, test_2 WHERE test_2.x = cte_1.x AND test_2.y != 2 ORDER BY 1,2; - x | y | z | x | y | z ---------------------------------------------------------------------- - 1 | 1 | (95,citus9.5) | 1 | 1 | (95,citus9.5) -(1 row) - --- query pushdown should work -SELECT - * -FROM - (SELECT x, count(*) FROM test_2 GROUP BY x) as foo, - (SELECT x, count(*) FROM test_2 GROUP BY x) as bar -WHERE - foo.x = bar.x -ORDER BY 1 DESC, 2 DESC, 3 DESC, 4 DESC -LIMIT 1; - x | count | x | count ---------------------------------------------------------------------- - 7 | 1 | 7 | 1 -(1 row) - --- make sure that foreign keys work fine -ALTER TABLE test_2 ADD CONSTRAINT first_pkey PRIMARY KEY (x); -ALTER TABLE test ADD CONSTRAINT foreign_key FOREIGN KEY (x) REFERENCES test_2(x) ON DELETE CASCADE; --- show that delete on test_2 cascades to test -SELECT * FROM test WHERE x = 5; - x | y ---------------------------------------------------------------------- - 5 | 6 -(1 row) - -DELETE FROM test_2 WHERE x = 5; -SELECT * FROM test WHERE x = 5; - x | y ---------------------------------------------------------------------- -(0 rows) - -INSERT INTO test_2 VALUES (5 ,2, (91, 'citus9.1')::new_type); -INSERT INTO test VALUES (5, 6); -INSERT INTO ref VALUES (1, 2), (5, 6), (7, 8); -SELECT count(*) FROM ref; - count ---------------------------------------------------------------------- - 3 -(1 row) - -SELECT * FROM ref ORDER BY a; - a | b ---------------------------------------------------------------------- - 1 | 2 - 5 | 6 - 7 | 8 -(3 rows) - -SELECT * FROM test, ref WHERE x = a ORDER BY x; - x | y | a | b ---------------------------------------------------------------------- - 1 | 2 | 1 | 2 - 5 | 6 | 5 | 6 -(2 rows) - -INSERT INTO local VALUES (1, 2), (3, 4), (7, 8); -SELECT count(*) FROM local; - count ---------------------------------------------------------------------- - 3 -(1 row) - -SELECT * FROM local ORDER BY c; - c | d ---------------------------------------------------------------------- - 1 | 2 - 3 | 4 - 7 | 8 -(3 rows) - -SELECT * FROM ref, local WHERE a = c ORDER BY a; - a | b | c | d ---------------------------------------------------------------------- - 1 | 2 | 1 | 2 - 7 | 8 | 7 | 8 -(2 rows) - --- Check repartition joins are supported -SET citus.enable_repartition_joins TO ON; -SELECT * FROM test t1, test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -SET citus.enable_single_hash_repartition_joins TO ON; -SELECT * FROM test t1, test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -SET search_path TO public; -SET citus.enable_single_hash_repartition_joins TO OFF; -SELECT * FROM single_node.test t1, single_node.test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -SET citus.enable_single_hash_repartition_joins TO ON; -SELECT * FROM single_node.test t1, single_node.test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -SET search_path TO single_node; -SET citus.task_assignment_policy TO 'round-robin'; -SET citus.enable_single_hash_repartition_joins TO ON; -SELECT * FROM test t1, test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -SET citus.task_assignment_policy TO 'greedy'; -SELECT * FROM test t1, test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -SET citus.task_assignment_policy TO 'first-replica'; -SELECT * FROM test t1, test t2 WHERE t1.x = t2.y ORDER BY t1.x; - x | y | x | y ---------------------------------------------------------------------- - 2 | 7 | 1 | 2 - 4 | 5 | 3 | 4 - 5 | 6 | 4 | 5 -(3 rows) - -RESET citus.enable_repartition_joins; -RESET citus.enable_single_hash_repartition_joins; --- INSERT SELECT router -BEGIN; -INSERT INTO test(x, y) SELECT x, y FROM test WHERE x = 1; -SELECT count(*) from test; - count ---------------------------------------------------------------------- - 6 -(1 row) - -ROLLBACK; --- INSERT SELECT pushdown -BEGIN; -INSERT INTO test(x, y) SELECT x, y FROM test; -SELECT count(*) from test; - count ---------------------------------------------------------------------- - 10 -(1 row) - -ROLLBACK; --- INSERT SELECT analytical query -BEGIN; -INSERT INTO test(x, y) SELECT count(x), max(y) FROM test; -SELECT count(*) from test; - count ---------------------------------------------------------------------- - 6 -(1 row) - -ROLLBACK; --- INSERT SELECT repartition -BEGIN; -INSERT INTO test(x, y) SELECT y, x FROM test; -SELECT count(*) from test; - count ---------------------------------------------------------------------- - 10 -(1 row) - -ROLLBACK; --- INSERT SELECT from reference table into distributed -BEGIN; -INSERT INTO test(x, y) SELECT a, b FROM ref; -SELECT count(*) from test; - count ---------------------------------------------------------------------- - 8 -(1 row) - -ROLLBACK; --- INSERT SELECT from local table into distributed -BEGIN; -INSERT INTO test(x, y) SELECT c, d FROM local; -SELECT count(*) from test; - count ---------------------------------------------------------------------- - 8 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO ref(a, b) SELECT x, y FROM test; -SELECT count(*) from ref; - count ---------------------------------------------------------------------- - 8 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO ref(a, b) SELECT c, d FROM local; -SELECT count(*) from ref; - count ---------------------------------------------------------------------- - 6 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO local(c, d) SELECT x, y FROM test; -SELECT count(*) from local; - count ---------------------------------------------------------------------- - 8 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO local(c, d) SELECT a, b FROM ref; -SELECT count(*) from local; - count ---------------------------------------------------------------------- - 6 -(1 row) - -ROLLBACK; --- Confirm that dummy placements work -SELECT count(*) FROM test WHERE false; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT count(*) FROM test WHERE false GROUP BY GROUPING SETS (x,y); - count ---------------------------------------------------------------------- -(0 rows) - --- Confirm that they work with round-robin task assignment policy -SET citus.task_assignment_policy TO 'round-robin'; -SELECT count(*) FROM test WHERE false; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT count(*) FROM test WHERE false GROUP BY GROUPING SETS (x,y); - count ---------------------------------------------------------------------- -(0 rows) - -RESET citus.task_assignment_policy; -SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 5 -(1 row) - --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO ref(a, b) SELECT x, y FROM test; -SELECT count(*) from ref; - count ---------------------------------------------------------------------- - 8 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO ref(a, b) SELECT c, d FROM local; -SELECT count(*) from ref; - count ---------------------------------------------------------------------- - 6 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO local(c, d) SELECT x, y FROM test; -SELECT count(*) from local; - count ---------------------------------------------------------------------- - 8 -(1 row) - -ROLLBACK; --- INSERT SELECT from distributed table to local table -BEGIN; -INSERT INTO local(c, d) SELECT a, b FROM ref; -SELECT count(*) from local; - count ---------------------------------------------------------------------- - 6 -(1 row) - -ROLLBACK; --- query fails on the shards should be handled --- nicely -SELECT x/0 FROM test; -ERROR: division by zero -CONTEXT: while executing command on localhost:xxxxx --- Add "fake" pg_dist_transaction records and run recovery --- to show that it is recovered --- Temporarily disable automatic 2PC recovery -ALTER SYSTEM SET citus.recover_2pc_interval TO -1; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -BEGIN; -CREATE TABLE should_commit (value int); -PREPARE TRANSACTION 'citus_0_should_commit'; --- zero is the coordinator's group id, so we can hard code it -INSERT INTO pg_dist_transaction VALUES (0, 'citus_0_should_commit'); -SELECT recover_prepared_transactions(); - recover_prepared_transactions ---------------------------------------------------------------------- - 1 -(1 row) - --- the table should be seen -SELECT * FROM should_commit; - value ---------------------------------------------------------------------- -(0 rows) - --- set the original back -ALTER SYSTEM RESET citus.recover_2pc_interval; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -RESET citus.task_executor_type; --- make sure undistribute table works fine -ALTER TABLE test DROP CONSTRAINT foreign_key; -SELECT undistribute_table('test_2'); -NOTICE: creating a new table for single_node.test_2 -NOTICE: moving the data of single_node.test_2 -NOTICE: dropping the old single_node.test_2 -NOTICE: renaming the new table to single_node.test_2 - undistribute_table ---------------------------------------------------------------------- - -(1 row) - -SELECT * FROM pg_dist_partition WHERE logicalrelid = 'test_2'::regclass; - logicalrelid | partmethod | partkey | colocationid | repmodel | autoconverted ---------------------------------------------------------------------- -(0 rows) - -CREATE TABLE reference_table_1 (col_1 INT UNIQUE, col_2 INT UNIQUE, UNIQUE (col_2, col_1)); -SELECT create_reference_table('reference_table_1'); - create_reference_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE distributed_table_1 (col_1 INT UNIQUE); -SELECT create_distributed_table('distributed_table_1', 'col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE citus_local_table_1 (col_1 INT UNIQUE); -SELECT citus_add_local_table_to_metadata('citus_local_table_1'); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE partitioned_table_1 (col_1 INT UNIQUE, col_2 INT) PARTITION BY RANGE (col_1); -CREATE TABLE partitioned_table_1_100_200 PARTITION OF partitioned_table_1 FOR VALUES FROM (100) TO (200); -CREATE TABLE partitioned_table_1_200_300 PARTITION OF partitioned_table_1 FOR VALUES FROM (200) TO (300); -SELECT create_distributed_table('partitioned_table_1', 'col_1'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -ALTER TABLE citus_local_table_1 ADD CONSTRAINT fkey_1 FOREIGN KEY (col_1) REFERENCES reference_table_1(col_2); -ALTER TABLE reference_table_1 ADD CONSTRAINT fkey_2 FOREIGN KEY (col_2) REFERENCES reference_table_1(col_1); -ALTER TABLE distributed_table_1 ADD CONSTRAINT fkey_3 FOREIGN KEY (col_1) REFERENCES reference_table_1(col_1); -ALTER TABLE citus_local_table_1 ADD CONSTRAINT fkey_4 FOREIGN KEY (col_1) REFERENCES reference_table_1(col_2); -ALTER TABLE partitioned_table_1 ADD CONSTRAINT fkey_5 FOREIGN KEY (col_1) REFERENCES reference_table_1(col_2); -SELECT undistribute_table('partitioned_table_1', cascade_via_foreign_keys=>true); -NOTICE: converting the partitions of single_node.partitioned_table_1 -NOTICE: creating a new table for single_node.partitioned_table_1 -NOTICE: dropping the old single_node.partitioned_table_1 -NOTICE: renaming the new table to single_node.partitioned_table_1 -NOTICE: creating a new table for single_node.reference_table_1 -NOTICE: moving the data of single_node.reference_table_1 -NOTICE: dropping the old single_node.reference_table_1 -NOTICE: renaming the new table to single_node.reference_table_1 -NOTICE: creating a new table for single_node.distributed_table_1 -NOTICE: moving the data of single_node.distributed_table_1 -NOTICE: dropping the old single_node.distributed_table_1 -NOTICE: renaming the new table to single_node.distributed_table_1 -NOTICE: creating a new table for single_node.citus_local_table_1 -NOTICE: moving the data of single_node.citus_local_table_1 -NOTICE: dropping the old single_node.citus_local_table_1 -NOTICE: renaming the new table to single_node.citus_local_table_1 -NOTICE: creating a new table for single_node.partitioned_table_1_100_200 -NOTICE: moving the data of single_node.partitioned_table_1_100_200 -NOTICE: dropping the old single_node.partitioned_table_1_100_200 -NOTICE: renaming the new table to single_node.partitioned_table_1_100_200 -NOTICE: creating a new table for single_node.partitioned_table_1_200_300 -NOTICE: moving the data of single_node.partitioned_table_1_200_300 -NOTICE: dropping the old single_node.partitioned_table_1_200_300 -NOTICE: renaming the new table to single_node.partitioned_table_1_200_300 - undistribute_table ---------------------------------------------------------------------- - -(1 row) - -CREATE TABLE local_table_1 (col_1 INT UNIQUE); -CREATE TABLE local_table_2 (col_1 INT UNIQUE); -CREATE TABLE local_table_3 (col_1 INT UNIQUE); -ALTER TABLE local_table_2 ADD CONSTRAINT fkey_6 FOREIGN KEY (col_1) REFERENCES local_table_1(col_1); -ALTER TABLE local_table_3 ADD CONSTRAINT fkey_7 FOREIGN KEY (col_1) REFERENCES local_table_1(col_1); -ALTER TABLE local_table_1 ADD CONSTRAINT fkey_8 FOREIGN KEY (col_1) REFERENCES local_table_1(col_1); -SELECT citus_add_local_table_to_metadata('local_table_2', cascade_via_foreign_keys=>true); - citus_add_local_table_to_metadata ---------------------------------------------------------------------- - -(1 row) - -CREATE PROCEDURE call_delegation(x int) LANGUAGE plpgsql AS $$ -BEGIN - INSERT INTO test (x) VALUES ($1); -END;$$; -SELECT * FROM pg_dist_node; - nodeid | groupid | nodename | nodeport | noderack | hasmetadata | isactive | noderole | nodecluster | metadatasynced | shouldhaveshards ---------------------------------------------------------------------- - 5 | 0 | localhost | 57636 | default | t | t | primary | default | t | t -(1 row) - -SELECT create_distributed_function('call_delegation(int)', '$1', 'test'); - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - -CREATE FUNCTION function_delegation(int) RETURNS void AS $$ -BEGIN -UPDATE test SET y = y + 1 WHERE x < $1; -END; -$$ LANGUAGE plpgsql; -SELECT create_distributed_function('function_delegation(int)', '$1', 'test'); - create_distributed_function ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO DEBUG1; -CALL call_delegation(1); -DEBUG: not pushing down procedure to the same node -SELECT function_delegation(1); -DEBUG: not pushing down function to the same node - function_delegation ---------------------------------------------------------------------- - -(1 row) - -SET client_min_messages TO WARNING; -DROP TABLE test CASCADE; -CREATE OR REPLACE FUNCTION pg_catalog.get_all_active_client_backend_count() - RETURNS bigint - LANGUAGE C STRICT - AS 'citus', $$get_all_active_client_backend_count$$; --- set the cached connections to zero --- and execute a distributed query so that --- we end up with zero cached connections afterwards -ALTER SYSTEM SET citus.max_cached_conns_per_worker TO 0; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - --- disable deadlock detection and re-trigger 2PC recovery --- once more when citus.max_cached_conns_per_worker is zero --- so that we can be sure that the connections established for --- maintanince daemon is closed properly. --- this is to prevent random failures in the tests (otherwise, we --- might see connections established for this operations) -ALTER SYSTEM SET citus.distributed_deadlock_detection_factor TO -1; -ALTER SYSTEM SET citus.recover_2pc_interval TO '1ms'; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(0.1); - pg_sleep ---------------------------------------------------------------------- - -(1 row) - --- now that last 2PC recovery is done, we're good to disable it -ALTER SYSTEM SET citus.recover_2pc_interval TO '-1'; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - --- test alter_distributed_table UDF -CREATE TABLE adt_table (a INT, b INT); -CREATE TABLE adt_col (a INT UNIQUE, b INT); -CREATE TABLE adt_ref (a INT REFERENCES adt_col(a)); -SELECT create_distributed_table('adt_table', 'a', colocate_with:='none'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('adt_col', 'a', colocate_with:='adt_table'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT create_distributed_table('adt_ref', 'a', colocate_with:='adt_table'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -INSERT INTO adt_table VALUES (1, 2), (3, 4), (5, 6); -INSERT INTO adt_col VALUES (3, 4), (5, 6), (7, 8); -INSERT INTO adt_ref VALUES (3), (5); -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text LIKE 'adt%'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_col | distributed | a | 4 - adt_ref | distributed | a | 4 - adt_table | distributed | a | 4 -(3 rows) - -SELECT STRING_AGG(table_name::text, ', ' ORDER BY 1) AS "Colocation Groups" FROM public.citus_tables WHERE table_name::text LIKE 'adt%' GROUP BY colocation_id ORDER BY 1; - Colocation Groups ---------------------------------------------------------------------- - adt_col, adt_ref, adt_table -(1 row) - -SELECT conrelid::regclass::text AS "Referencing Table", pg_get_constraintdef(oid, true) AS "Definition" FROM pg_constraint - WHERE (conrelid::regclass::text = 'adt_col' OR confrelid::regclass::text = 'adt_col') ORDER BY 1; - Referencing Table | Definition ---------------------------------------------------------------------- - adt_col | UNIQUE (a) - adt_ref | FOREIGN KEY (a) REFERENCES adt_col(a) -(2 rows) - -SELECT alter_distributed_table('adt_table', shard_count:=6, cascade_to_colocated:=true); - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text LIKE 'adt%'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_col | distributed | a | 6 - adt_ref | distributed | a | 6 - adt_table | distributed | a | 6 -(3 rows) - -SELECT STRING_AGG(table_name::text, ', ' ORDER BY 1) AS "Colocation Groups" FROM public.citus_tables WHERE table_name::text LIKE 'adt%' GROUP BY colocation_id ORDER BY 1; - Colocation Groups ---------------------------------------------------------------------- - adt_col, adt_ref, adt_table -(1 row) - -SELECT conrelid::regclass::text AS "Referencing Table", pg_get_constraintdef(oid, true) AS "Definition" FROM pg_constraint - WHERE (conrelid::regclass::text = 'adt_col' OR confrelid::regclass::text = 'adt_col') ORDER BY 1; - Referencing Table | Definition ---------------------------------------------------------------------- - adt_col | UNIQUE (a) - adt_ref | FOREIGN KEY (a) REFERENCES adt_col(a) -(2 rows) - -SELECT alter_distributed_table('adt_table', distribution_column:='b', colocate_with:='none'); - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text LIKE 'adt%'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_col | distributed | a | 6 - adt_ref | distributed | a | 6 - adt_table | distributed | b | 6 -(3 rows) - -SELECT STRING_AGG(table_name::text, ', ' ORDER BY 1) AS "Colocation Groups" FROM public.citus_tables WHERE table_name::text LIKE 'adt%' GROUP BY colocation_id ORDER BY 1; - Colocation Groups ---------------------------------------------------------------------- - adt_col, adt_ref - adt_table -(2 rows) - -SELECT conrelid::regclass::text AS "Referencing Table", pg_get_constraintdef(oid, true) AS "Definition" FROM pg_constraint - WHERE (conrelid::regclass::text = 'adt_col' OR confrelid::regclass::text = 'adt_col') ORDER BY 1; - Referencing Table | Definition ---------------------------------------------------------------------- - adt_col | UNIQUE (a) - adt_ref | FOREIGN KEY (a) REFERENCES adt_col(a) -(2 rows) - -SELECT * FROM adt_table ORDER BY 1; - a | b ---------------------------------------------------------------------- - 1 | 2 - 3 | 4 - 5 | 6 -(3 rows) - -SELECT * FROM adt_col ORDER BY 1; - a | b ---------------------------------------------------------------------- - 3 | 4 - 5 | 6 - 7 | 8 -(3 rows) - -SELECT * FROM adt_ref ORDER BY 1; - a ---------------------------------------------------------------------- - 3 - 5 -(2 rows) - --- make sure that COPY (e.g., INSERT .. SELECT) and --- alter_distributed_table works in the same TX -BEGIN; -SET LOCAL citus.enable_local_execution=OFF; -INSERT INTO adt_table SELECT x, x+1 FROM generate_series(1, 1000) x; -SELECT alter_distributed_table('adt_table', distribution_column:='a'); - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -ROLLBACK; -BEGIN; -INSERT INTO adt_table SELECT x, x+1 FROM generate_series(1, 1000) x; -SELECT alter_distributed_table('adt_table', distribution_column:='a'); - alter_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SELECT COUNT(*) FROM adt_table; - count ---------------------------------------------------------------------- - 1003 -(1 row) - -END; -SELECT table_name, citus_table_type, distribution_column, shard_count FROM public.citus_tables WHERE table_name::text = 'adt_table'; - table_name | citus_table_type | distribution_column | shard_count ---------------------------------------------------------------------- - adt_table | distributed | a | 6 -(1 row) - -\c - - - :master_port --- sometimes Postgres is a little slow to terminate the backends --- even if PGFinish is sent. So, to prevent any flaky tests, sleep -SELECT pg_sleep(0.1); - pg_sleep ---------------------------------------------------------------------- - -(1 row) - --- since max_cached_conns_per_worker == 0 at this point, the --- backend(s) that execute on the shards will be terminated --- so show that there no internal backends -SET search_path TO single_node; -SET citus.next_shard_id TO 90730500; -SELECT count(*) from should_commit; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT count(*) FROM pg_stat_activity WHERE application_name LIKE 'citus_internal%'; - count ---------------------------------------------------------------------- - 0 -(1 row) - -SELECT get_all_active_client_backend_count(); - get_all_active_client_backend_count ---------------------------------------------------------------------- - 1 -(1 row) - -BEGIN; - SET LOCAL citus.shard_count TO 32; - SET LOCAL citus.force_max_query_parallelization TO ON; - SET LOCAL citus.enable_local_execution TO false; - CREATE TABLE test (a int); - SET citus.shard_replication_factor TO 1; - SELECT create_distributed_table('test', 'a'); - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - - SELECT count(*) FROM test; - count ---------------------------------------------------------------------- - 0 -(1 row) - - -- now, we should have additional 32 connections - SELECT count(*) FROM pg_stat_activity WHERE application_name LIKE 'citus_internal%'; - count ---------------------------------------------------------------------- - 32 -(1 row) - - -- single external connection - SELECT get_all_active_client_backend_count(); - get_all_active_client_backend_count ---------------------------------------------------------------------- - 1 -(1 row) - -ROLLBACK; -\c - - - :master_port -SET search_path TO single_node; -SET citus.next_shard_id TO 90830500; --- simulate that even if there is no connection slots --- to connect, Citus can switch to local execution -SET citus.force_max_query_parallelization TO false; -SET citus.log_remote_commands TO ON; -ALTER SYSTEM SET citus.local_shared_pool_size TO -1; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - -SELECT pg_sleep(0.1); - pg_sleep ---------------------------------------------------------------------- - -(1 row) - -SET citus.executor_slow_start_interval TO 10; -SELECT count(*) from another_schema_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630515 another_schema_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630516 another_schema_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630517 another_schema_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630518 another_schema_table WHERE true - count ---------------------------------------------------------------------- - 0 -(1 row) - -UPDATE another_schema_table SET b = b; -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630515 another_schema_table SET b = b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630516 another_schema_table SET b = b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630517 another_schema_table SET b = b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630518 another_schema_table SET b = b --- INSERT .. SELECT pushdown and INSERT .. SELECT via repartitioning --- not that we ignore INSERT .. SELECT via coordinator as it relies on --- COPY command -INSERT INTO another_schema_table SELECT * FROM another_schema_table; -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 AS citus_table_alias (a, b) SELECT a, b FROM single_node.another_schema_table_90630515 another_schema_table WHERE (a IS NOT NULL) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630516 AS citus_table_alias (a, b) SELECT a, b FROM single_node.another_schema_table_90630516 another_schema_table WHERE (a IS NOT NULL) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630517 AS citus_table_alias (a, b) SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE (a IS NOT NULL) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 AS citus_table_alias (a, b) SELECT a, b FROM single_node.another_schema_table_90630518 another_schema_table WHERE (a IS NOT NULL) -INSERT INTO another_schema_table SELECT b::int, a::int FROM another_schema_table; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630515_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630515_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630516_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630516_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630517_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630517_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630518_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630518_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 --- multi-row INSERTs -INSERT INTO another_schema_table VALUES (1,1), (2,2), (3,3), (4,4), (5,5),(6,6),(7,7); -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 AS citus_table_alias (a, b) VALUES (1,1), (5,5) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630516 AS citus_table_alias (a, b) VALUES (3,3), (4,4), (7,7) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630517 AS citus_table_alias (a, b) VALUES (6,6) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 AS citus_table_alias (a, b) VALUES (2,2) --- INSERT..SELECT with re-partitioning when using local execution -BEGIN; -INSERT INTO another_schema_table VALUES (1,100); -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 (a, b) VALUES (1, 100) -INSERT INTO another_schema_table VALUES (2,100); -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 (a, b) VALUES (2, 100) -INSERT INTO another_schema_table SELECT b::int, a::int FROM another_schema_table; -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630515_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630515_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630516_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630516_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630517_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630517_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: SELECT partition_index, 'repartitioned_results_xxxxx_from_90630518_to' || '_' || partition_index::text , rows_written FROM worker_partition_query_result('repartitioned_results_xxxxx_from_90630518_to','SELECT b AS a, a AS b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true',0,'hash','{-2147483648,-1073741824,0,1073741824}'::text[],'{-1073741825,-1,1073741823,2147483647}'::text[],true) WHERE rows_written > 0 -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_90630515_to_0}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630516 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_90630516_to_1}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630517 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_90630515_to_2,repartitioned_results_xxxxx_from_90630517_to_2,repartitioned_results_xxxxx_from_90630518_to_2}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_results('{repartitioned_results_xxxxx_from_90630518_to_3}'::text[], 'binary'::citus_copy_format) intermediate_result(a integer, b integer) -SELECT * FROM another_schema_table WHERE a = 100 ORDER BY b; -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE (a OPERATOR(pg_catalog.=) 100) ORDER BY b - a | b ---------------------------------------------------------------------- - 100 | 1 - 100 | 2 -(2 rows) - -ROLLBACK; --- intermediate results -WITH cte_1 AS (SELECT * FROM another_schema_table LIMIT 1000) - SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) cte_1 - count ---------------------------------------------------------------------- - 7 -(1 row) - --- this is to get ready for the next tests -TRUNCATE another_schema_table; -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE --- copy can use local execution even if there is no connection available -COPY another_schema_table(a) FROM PROGRAM 'seq 32'; -NOTICE: executing the copy locally for shard xxxxx -CONTEXT: COPY another_schema_table, line 1: "1" -NOTICE: executing the copy locally for shard xxxxx -CONTEXT: COPY another_schema_table, line 2: "2" -NOTICE: executing the copy locally for shard xxxxx -CONTEXT: COPY another_schema_table, line 3: "3" -NOTICE: executing the copy locally for shard xxxxx -CONTEXT: COPY another_schema_table, line 6: "6" --- INSERT .. SELECT with co-located intermediate results -SET citus.log_remote_commands to false; -CREATE UNIQUE INDEX another_schema_table_pk ON another_schema_table(a); -SET citus.log_local_commands to true; -INSERT INTO another_schema_table SELECT * FROM another_schema_table LIMIT 10000 ON CONFLICT(a) DO NOTHING; -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true LIMIT '10000'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630515'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630516 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630516'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630517 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630517'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630518'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING -INSERT INTO another_schema_table SELECT * FROM another_schema_table ORDER BY a LIMIT 10 ON CONFLICT(a) DO UPDATE SET b = EXCLUDED.b + 1 RETURNING *; -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true ORDER BY a LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true ORDER BY a LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true ORDER BY a LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true ORDER BY a LIMIT '10'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630515'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO UPDATE SET b = (excluded.b OPERATOR(pg_catalog.+) 1) RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630516 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630516'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO UPDATE SET b = (excluded.b OPERATOR(pg_catalog.+) 1) RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630517 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630517'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO UPDATE SET b = (excluded.b OPERATOR(pg_catalog.+) 1) RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630518'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO UPDATE SET b = (excluded.b OPERATOR(pg_catalog.+) 1) RETURNING citus_table_alias.a, citus_table_alias.b - a | b ---------------------------------------------------------------------- - 1 | - 2 | - 3 | - 4 | - 5 | - 6 | - 7 | - 8 | - 9 | - 10 | -(10 rows) - --- INSERT .. SELECT with co-located intermediate result for non-binary input -WITH cte_1 AS -(INSERT INTO non_binary_copy_test SELECT * FROM non_binary_copy_test LIMIT 10000 ON CONFLICT (key) DO UPDATE SET value = (0, 'citus0')::new_type RETURNING value) -SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: SELECT key, value FROM single_node.non_binary_copy_test_90630519 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value FROM single_node.non_binary_copy_test_90630520 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value FROM single_node.non_binary_copy_test_90630521 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value FROM single_node.non_binary_copy_test_90630522 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630519 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_result('insert_select_XXX_90630519'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.value -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630520 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_result('insert_select_XXX_90630520'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.value -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630521 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_result('insert_select_XXX_90630521'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.value -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630522 AS citus_table_alias (key, value) SELECT key, value FROM read_intermediate_result('insert_select_XXX_90630522'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.value -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.value FROM read_intermediate_result('XXX_1'::text, 'text'::citus_copy_format) intermediate_result(value single_node.new_type)) cte_1 - count ---------------------------------------------------------------------- - 1001 -(1 row) - --- test with NULL columns -ALTER TABLE non_binary_copy_test ADD COLUMN z INT; -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90630519, 'single_node', 'ALTER TABLE non_binary_copy_test ADD COLUMN z integer;') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90630520, 'single_node', 'ALTER TABLE non_binary_copy_test ADD COLUMN z integer;') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90630521, 'single_node', 'ALTER TABLE non_binary_copy_test ADD COLUMN z integer;') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90630522, 'single_node', 'ALTER TABLE non_binary_copy_test ADD COLUMN z integer;') -WITH cte_1 AS -(INSERT INTO non_binary_copy_test SELECT * FROM non_binary_copy_test LIMIT 10000 ON CONFLICT (key) DO UPDATE SET value = (0, 'citus0')::new_type RETURNING z) -SELECT bool_and(z is null) FROM cte_1; -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630519 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630520 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630521 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630522 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630519 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630519'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630520 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630520'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630521 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630521'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630522 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630522'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: SELECT bool_and((z IS NULL)) AS bool_and FROM (SELECT intermediate_result.z FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(z integer)) cte_1 - bool_and ---------------------------------------------------------------------- - t -(1 row) - --- test with type coersion (int -> text) and also NULL values with coersion -WITH cte_1 AS -(INSERT INTO non_binary_copy_test SELECT * FROM non_binary_copy_test LIMIT 10000 ON CONFLICT (key) DO UPDATE SET value = (0, 'citus0')::new_type RETURNING key, z) -SELECT count(DISTINCT key::text), count(DISTINCT z::text) FROM cte_1; -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630519 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630520 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630521 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630522 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630519 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630519'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.key, citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630520 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630520'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.key, citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630521 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630521'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.key, citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630522 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630522'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.key, citus_table_alias.z -NOTICE: executing the command locally: SELECT count(DISTINCT (key)::text) AS count, count(DISTINCT (z)::text) AS count FROM (SELECT intermediate_result.key, intermediate_result.z FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(key integer, z integer)) cte_1 - count | count ---------------------------------------------------------------------- - 1001 | 0 -(1 row) - --- test disabling drop and truncate for known shards -SET citus.shard_replication_factor TO 1; -CREATE TABLE test_disabling_drop_and_truncate (a int); -SELECT create_distributed_table('test_disabling_drop_and_truncate', 'a'); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830500, 'single_node', 'CREATE TABLE single_node.test_disabling_drop_and_truncate (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830500, 'single_node', 'ALTER TABLE single_node.test_disabling_drop_and_truncate OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830501, 'single_node', 'CREATE TABLE single_node.test_disabling_drop_and_truncate (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830501, 'single_node', 'ALTER TABLE single_node.test_disabling_drop_and_truncate OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830502, 'single_node', 'CREATE TABLE single_node.test_disabling_drop_and_truncate (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830502, 'single_node', 'ALTER TABLE single_node.test_disabling_drop_and_truncate OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830503, 'single_node', 'CREATE TABLE single_node.test_disabling_drop_and_truncate (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830503, 'single_node', 'ALTER TABLE single_node.test_disabling_drop_and_truncate OWNER TO postgres') - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - -SET citus.enable_manual_changes_to_shards TO off; --- these should error out -DROP TABLE test_disabling_drop_and_truncate_90830500; -ERROR: cannot modify "test_disabling_drop_and_truncate_90830500" because it is a shard of a distributed table -HINT: Use the distributed table or set citus.enable_manual_changes_to_shards to on to modify shards directly -TRUNCATE TABLE test_disabling_drop_and_truncate_90830500; -ERROR: cannot modify "test_disabling_drop_and_truncate_90830500" because it is a shard of a distributed table -HINT: Use the distributed table or set citus.enable_manual_changes_to_shards to on to modify shards directly -RESET citus.enable_manual_changes_to_shards ; --- these should work as expected -TRUNCATE TABLE test_disabling_drop_and_truncate_90830500; -DROP TABLE test_disabling_drop_and_truncate_90830500; -DROP TABLE test_disabling_drop_and_truncate; --- test creating distributed or reference tables from shards -CREATE TABLE test_creating_distributed_relation_table_from_shard (a int); -SELECT create_distributed_table('test_creating_distributed_relation_table_from_shard', 'a'); -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830504, 'single_node', 'CREATE TABLE single_node.test_creating_distributed_relation_table_from_shard (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830504, 'single_node', 'ALTER TABLE single_node.test_creating_distributed_relation_table_from_shard OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830505, 'single_node', 'CREATE TABLE single_node.test_creating_distributed_relation_table_from_shard (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830505, 'single_node', 'ALTER TABLE single_node.test_creating_distributed_relation_table_from_shard OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830506, 'single_node', 'CREATE TABLE single_node.test_creating_distributed_relation_table_from_shard (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830506, 'single_node', 'ALTER TABLE single_node.test_creating_distributed_relation_table_from_shard OWNER TO postgres') -NOTICE: executing the command locally: SELECT worker_apply_shard_ddl_command (90830507, 'single_node', 'CREATE TABLE single_node.test_creating_distributed_relation_table_from_shard (a integer) USING heap');SELECT worker_apply_shard_ddl_command (90830507, 'single_node', 'ALTER TABLE single_node.test_creating_distributed_relation_table_from_shard OWNER TO postgres') - create_distributed_table ---------------------------------------------------------------------- - -(1 row) - --- these should error because shards cannot be used to: --- create distributed table -SELECT create_distributed_table('test_creating_distributed_relation_table_from_shard_90830504', 'a'); -ERROR: relation "test_creating_distributed_relation_table_from_shard_90830504" is a shard relation --- create reference table -SELECT create_reference_table('test_creating_distributed_relation_table_from_shard_90830504'); -ERROR: relation "test_creating_distributed_relation_table_from_shard_90830504" is a shard relation -RESET citus.shard_replication_factor; -DROP TABLE test_creating_distributed_relation_table_from_shard; --- lets flush the copy often to make sure everyhing is fine -SET citus.local_copy_flush_threshold TO 1; -TRUNCATE another_schema_table; -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -NOTICE: executing the command locally: TRUNCATE TABLE single_node.another_schema_table_xxxxx CASCADE -INSERT INTO another_schema_table(a) SELECT i from generate_Series(0,10000)i; -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx -NOTICE: executing the copy locally for shard xxxxx -WITH cte_1 AS -(INSERT INTO another_schema_table SELECT * FROM another_schema_table ORDER BY a LIMIT 10000 ON CONFLICT(a) DO NOTHING RETURNING *) -SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true ORDER BY a LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true ORDER BY a LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true ORDER BY a LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true ORDER BY a LIMIT '10000'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630515 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630515'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630516 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630516'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630517 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630517'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: INSERT INTO single_node.another_schema_table_90630518 AS citus_table_alias (a, b) SELECT a, b FROM read_intermediate_result('insert_select_XXX_90630518'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer) ON CONFLICT(a) DO NOTHING RETURNING citus_table_alias.a, citus_table_alias.b -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) cte_1 - count ---------------------------------------------------------------------- - 0 -(1 row) - -WITH cte_1 AS -(INSERT INTO non_binary_copy_test SELECT * FROM non_binary_copy_test LIMIT 10000 ON CONFLICT (key) DO UPDATE SET value = (0, 'citus0')::new_type RETURNING z) -SELECT bool_and(z is null) FROM cte_1; -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630519 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630520 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630521 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the command locally: SELECT key, value, z FROM single_node.non_binary_copy_test_90630522 non_binary_copy_test WHERE true LIMIT '10000'::bigint -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the copy locally for colocated file with shard xxxxx -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630519 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630519'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630520 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630520'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630521 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630521'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: INSERT INTO single_node.non_binary_copy_test_90630522 AS citus_table_alias (key, value, z) SELECT key, value, z FROM read_intermediate_result('insert_select_XXX_90630522'::text, 'text'::citus_copy_format) intermediate_result(key integer, value single_node.new_type, z integer) ON CONFLICT(key) DO UPDATE SET value = ROW(0, 'citus0'::text)::single_node.new_type RETURNING citus_table_alias.z -NOTICE: executing the command locally: SELECT bool_and((z IS NULL)) AS bool_and FROM (SELECT intermediate_result.z FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(z integer)) cte_1 - bool_and ---------------------------------------------------------------------- - t -(1 row) - -RESET citus.local_copy_flush_threshold; -RESET citus.local_copy_flush_threshold; -CREATE OR REPLACE FUNCTION coordinated_transaction_should_use_2PC() -RETURNS BOOL LANGUAGE C STRICT VOLATILE AS 'citus', -$$coordinated_transaction_should_use_2PC$$; --- a multi-shard/single-shard select that is failed over to local --- execution doesn't start a 2PC -BEGIN; - SELECT count(*) FROM another_schema_table; -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630515 another_schema_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630516 another_schema_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630517 another_schema_table WHERE true -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630518 another_schema_table WHERE true - count ---------------------------------------------------------------------- - 10001 -(1 row) - - SELECT count(*) FROM another_schema_table WHERE a = 1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM single_node.another_schema_table_90630515 another_schema_table WHERE (a OPERATOR(pg_catalog.=) 1) - count ---------------------------------------------------------------------- - 1 -(1 row) - - WITH cte_1 as (SELECT * FROM another_schema_table LIMIT 10) - SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630515 another_schema_table WHERE true LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630516 another_schema_table WHERE true LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630517 another_schema_table WHERE true LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT a, b FROM single_node.another_schema_table_90630518 another_schema_table WHERE true LIMIT '10'::bigint -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) cte_1 - count ---------------------------------------------------------------------- - 10 -(1 row) - - WITH cte_1 as (SELECT * FROM another_schema_table WHERE a = 1 LIMIT 10) - SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT another_schema_table.a, another_schema_table.b FROM single_node.another_schema_table_90630515 another_schema_table WHERE (another_schema_table.a OPERATOR(pg_catalog.=) 1) LIMIT 10) cte_1 - count ---------------------------------------------------------------------- - 1 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - f -(1 row) - -ROLLBACK; --- same without a transaction block -WITH cte_1 AS (SELECT count(*) as cnt FROM another_schema_table LIMIT 1000), - cte_2 AS (SELECT coordinated_transaction_should_use_2PC() as enabled_2pc) -SELECT cnt, enabled_2pc FROM cte_1, cte_2; -NOTICE: executing the command locally: SELECT count(*) AS cnt FROM single_node.another_schema_table_90630515 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT count(*) AS cnt FROM single_node.another_schema_table_90630516 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT count(*) AS cnt FROM single_node.another_schema_table_90630517 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT count(*) AS cnt FROM single_node.another_schema_table_90630518 another_schema_table WHERE true LIMIT '1000'::bigint -NOTICE: executing the command locally: SELECT cte_1.cnt, cte_2.enabled_2pc FROM (SELECT intermediate_result.cnt FROM read_intermediate_result('XXX_2'::text, 'binary'::citus_copy_format) intermediate_result(cnt bigint)) cte_1, (SELECT intermediate_result.enabled_2pc FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(enabled_2pc boolean)) cte_2 - cnt | enabled_2pc ---------------------------------------------------------------------- - 10001 | f -(1 row) - --- a multi-shard modification that is failed over to local --- execution starts a 2PC -BEGIN; - UPDATE another_schema_table SET b = b + 1; -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630515 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630516 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630517 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630518 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -ROLLBACK; --- a multi-shard modification that is failed over to local --- execution starts a 2PC -BEGIN; - WITH cte_1 AS (UPDATE another_schema_table SET b = b + 1 RETURNING *) - SELECT count(*) FROM cte_1; -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630515 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630516 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630517 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630518 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: SELECT count(*) AS count FROM (SELECT intermediate_result.a, intermediate_result.b FROM read_intermediate_result('XXX_1'::text, 'binary'::citus_copy_format) intermediate_result(a integer, b integer)) cte_1 - count ---------------------------------------------------------------------- - 10001 -(1 row) - - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -ROLLBACK; --- same without transaction block -WITH cte_1 AS (UPDATE another_schema_table SET b = b + 1 RETURNING *) -SELECT coordinated_transaction_should_use_2PC(); -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630515 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630516 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630517 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630518 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) RETURNING a, b -NOTICE: executing the command locally: SELECT single_node.coordinated_transaction_should_use_2pc() AS coordinated_transaction_should_use_2pc - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - --- a single-shard modification that is failed over to local --- starts 2PC execution -BEGIN; - UPDATE another_schema_table SET b = b + 1 WHERE a = 1; -NOTICE: executing the command locally: UPDATE single_node.another_schema_table_90630515 another_schema_table SET b = (b OPERATOR(pg_catalog.+) 1) WHERE (a OPERATOR(pg_catalog.=) 1) - SELECT coordinated_transaction_should_use_2PC(); - coordinated_transaction_should_use_2pc ---------------------------------------------------------------------- - t -(1 row) - -ROLLBACK; --- if the local execution is disabled, we cannot failover to --- local execution and the queries would fail -SET citus.enable_local_execution TO false; -SELECT count(*) from another_schema_table; -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: This command supports local execution. Consider enabling local execution using SET citus.enable_local_execution TO true; -UPDATE another_schema_table SET b = b; -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: This command supports local execution. Consider enabling local execution using SET citus.enable_local_execution TO true; -INSERT INTO another_schema_table SELECT * FROM another_schema_table; -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: This command supports local execution. Consider enabling local execution using SET citus.enable_local_execution TO true; -INSERT INTO another_schema_table SELECT b::int, a::int FROM another_schema_table; -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: This command supports local execution. Consider enabling local execution using SET citus.enable_local_execution TO true; -WITH cte_1 AS (SELECT * FROM another_schema_table LIMIT 1000) - SELECT count(*) FROM cte_1; -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: This command supports local execution. Consider enabling local execution using SET citus.enable_local_execution TO true; -INSERT INTO another_schema_table VALUES (1,1), (2,2), (3,3), (4,4), (5,5),(6,6),(7,7); -ERROR: the total number of connections on the server is more than max_connections(100) -HINT: This command supports local execution. Consider enabling local execution using SET citus.enable_local_execution TO true; --- copy fails if local execution is disabled and there is no connection slot -COPY another_schema_table(a) FROM PROGRAM 'seq 32'; -ERROR: could not find an available connection -HINT: Set citus.max_shared_pool_size TO -1 to let COPY command finish -CONTEXT: COPY another_schema_table, line 1: "1" --- set the values to originals back -ALTER SYSTEM RESET citus.max_cached_conns_per_worker; -ALTER SYSTEM RESET citus.distributed_deadlock_detection_factor; -ALTER SYSTEM RESET citus.recover_2pc_interval; -ALTER SYSTEM RESET citus.distributed_deadlock_detection_factor; -ALTER SYSTEM RESET citus.local_shared_pool_size; -SELECT pg_reload_conf(); - pg_reload_conf ---------------------------------------------------------------------- - t -(1 row) - --- suppress notices -SET client_min_messages TO error; --- cannot remove coordinator since a reference table exists on coordinator and no other worker nodes are added -SELECT 1 FROM master_remove_node('localhost', :master_port); -ERROR: cannot remove or disable the node localhost:xxxxx because because it contains the only shard placement for shard xxxxx -DETAIL: One of the table(s) that prevents the operation complete successfully is single_node.ref -HINT: To proceed, either drop the tables or use undistribute_table() function to convert them to local tables --- Cleanup -DROP SCHEMA single_node CASCADE; --- Remove the coordinator again -SELECT 1 FROM master_remove_node('localhost', :master_port); - ?column? ---------------------------------------------------------------------- - 1 -(1 row) - --- restart nodeid sequence so that multi_cluster_management still has the same --- nodeids -ALTER SEQUENCE pg_dist_node_nodeid_seq RESTART 1; diff --git a/src/test/regress/expected/upgrade_citus_finish_citus_upgrade_1.out b/src/test/regress/expected/upgrade_citus_finish_citus_upgrade_1.out new file mode 100644 index 000000000..99538b839 --- /dev/null +++ b/src/test/regress/expected/upgrade_citus_finish_citus_upgrade_1.out @@ -0,0 +1,41 @@ +-- Citus upgrades are finished by calling a procedure +-- Note that pg_catalog.citus_finish_citus_upgrade() behaves differently +-- when last upgrade citus version is less than 11 +-- so we have two alternative outputs for this test +\set upgrade_test_old_citus_version `echo "$CITUS_OLD_VERSION"` +SELECT substring(:'upgrade_test_old_citus_version', 'v(\d+)\.\d+\.\d+')::int < 11 +AS upgrade_test_old_citus_version_lt_11_0; + upgrade_test_old_citus_version_lt_11_0 +--------------------------------------------------------------------- + f +(1 row) + +-- this is a transactional procedure, so rollback should be fine +BEGIN; + CALL citus_finish_citus_upgrade(); +NOTICE: already at the latest distributed schema version (11.1-1) +ROLLBACK; +-- do the actual job +CALL citus_finish_citus_upgrade(); +NOTICE: already at the latest distributed schema version (11.1-1) +-- show that the upgrade is successfull +SELECT metadata->>'last_upgrade_version' = extversion +FROM pg_dist_node_metadata, pg_extension WHERE extname = 'citus'; + ?column? +--------------------------------------------------------------------- + f +(1 row) + +-- idempotent, should be called multiple times +-- still, do not NOTICE the version as it changes per release +SET client_min_messages TO WARNING; +CALL citus_finish_citus_upgrade(); +-- we should be able to sync metadata in nontransactional way as well +SET citus.metadata_sync_mode TO 'nontransactional'; +SELECT start_metadata_sync_to_all_nodes(); + start_metadata_sync_to_all_nodes +--------------------------------------------------------------------- + t +(1 row) + +RESET citus.metadata_sync_mode; diff --git a/src/test/regress/sql/citus_local_tables_queries.sql b/src/test/regress/sql/citus_local_tables_queries.sql index f80de6c57..7dbb09c6e 100644 --- a/src/test/regress/sql/citus_local_tables_queries.sql +++ b/src/test/regress/sql/citus_local_tables_queries.sql @@ -1,12 +1,6 @@ -- -- CITUS_LOCAL_TABLES_QUERIES -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; \set VERBOSITY terse diff --git a/src/test/regress/sql/columnar_pg15.sql b/src/test/regress/sql/columnar_pg15.sql index 1a0f6afdd..80dff78e8 100644 --- a/src/test/regress/sql/columnar_pg15.sql +++ b/src/test/regress/sql/columnar_pg15.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - CREATE TABLE alter_am(i int); INSERT INTO alter_am SELECT generate_series(1,1000000); diff --git a/src/test/regress/sql/coordinator_shouldhaveshards.sql b/src/test/regress/sql/coordinator_shouldhaveshards.sql index 0365f07c2..6194d3a59 100644 --- a/src/test/regress/sql/coordinator_shouldhaveshards.sql +++ b/src/test/regress/sql/coordinator_shouldhaveshards.sql @@ -3,12 +3,6 @@ -- -- Test queries on a distributed table with shards on the coordinator -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA coordinator_shouldhaveshards; SET search_path TO coordinator_shouldhaveshards; diff --git a/src/test/regress/sql/cte_inline.sql b/src/test/regress/sql/cte_inline.sql index 3f3e14c88..79cbad48b 100644 --- a/src/test/regress/sql/cte_inline.sql +++ b/src/test/regress/sql/cte_inline.sql @@ -1,12 +1,6 @@ -- -- CTE_INLINE -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA cte_inline; SET search_path TO cte_inline; diff --git a/src/test/regress/sql/detect_conn_close.sql b/src/test/regress/sql/detect_conn_close.sql index 56ec9bd1d..b5f91da3b 100644 --- a/src/test/regress/sql/detect_conn_close.sql +++ b/src/test/regress/sql/detect_conn_close.sql @@ -1,13 +1,6 @@ -- -- PG15+ test as WL_SOCKET_CLOSED exposed for PG15+ -- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif CREATE SCHEMA socket_close; SET search_path TO socket_close; diff --git a/src/test/regress/sql/grant_on_schema_propagation.sql b/src/test/regress/sql/grant_on_schema_propagation.sql index f0bd233a2..ba75834c9 100644 --- a/src/test/regress/sql/grant_on_schema_propagation.sql +++ b/src/test/regress/sql/grant_on_schema_propagation.sql @@ -1,11 +1,6 @@ -- -- GRANT_ON_SCHEMA_PROPAGATION -- --- this test has different output for PG14 compared to PG15 --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; -- test grants are propagated when the schema is CREATE SCHEMA dist_schema; diff --git a/src/test/regress/sql/insert_select_repartition.sql b/src/test/regress/sql/insert_select_repartition.sql index 30d77f5b8..940d438e8 100644 --- a/src/test/regress/sql/insert_select_repartition.sql +++ b/src/test/regress/sql/insert_select_repartition.sql @@ -1,12 +1,6 @@ -- -- INSERT_SELECT_REPARTITION -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; -- tests behaviour of INSERT INTO ... SELECT with repartitioning CREATE SCHEMA insert_select_repartition; diff --git a/src/test/regress/sql/intermediate_result_pruning.sql b/src/test/regress/sql/intermediate_result_pruning.sql index 0ebe5825c..bcd60c00b 100644 --- a/src/test/regress/sql/intermediate_result_pruning.sql +++ b/src/test/regress/sql/intermediate_result_pruning.sql @@ -1,12 +1,6 @@ -- -- INTERMEDIATE_RESULT_PRUNING -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA intermediate_result_pruning; SET search_path TO intermediate_result_pruning; diff --git a/src/test/regress/sql/issue_5248.sql b/src/test/regress/sql/issue_5248.sql index 2248f1493..f58e5b1a8 100644 --- a/src/test/regress/sql/issue_5248.sql +++ b/src/test/regress/sql/issue_5248.sql @@ -1,11 +1,6 @@ -- -- ISSUE_5248 -- --- This test file has an alternative output because of the change in the --- backup modes of Postgres. Specifically, there is a renaming --- issue: pg_stop_backup PRE PG15 vs pg_backup_stop PG15+ --- The alternative output can be deleted when we drop support for PG14 --- CREATE SCHEMA issue_5248; SET search_path TO issue_5248; @@ -13,10 +8,6 @@ SET citus.shard_count TO 4; SET citus.shard_replication_factor TO 1; SET citus.next_shard_id TO 3013000; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset - create table countries( id serial primary key , name text @@ -202,11 +193,7 @@ FROM ( ( SELECT utc_offset FROM pg_catalog.pg_timezone_names limit 1 offset 4) limit 91) AS subq_3 -\if :server_version_ge_15 WHERE pg_catalog.pg_backup_stop() > cast(NULL AS record) limit 100; -\else -WHERE pg_catalog.pg_stop_backup() > cast(NULL AS pg_lsn) limit 100; -\endif SET client_min_messages TO WARNING; DROP SCHEMA issue_5248 CASCADE; diff --git a/src/test/regress/sql/local_shard_execution.sql b/src/test/regress/sql/local_shard_execution.sql index 8acbc2978..2845693c9 100644 --- a/src/test/regress/sql/local_shard_execution.sql +++ b/src/test/regress/sql/local_shard_execution.sql @@ -1,12 +1,6 @@ -- -- LOCAL_SHARD_EXECUTION -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA local_shard_execution; SET search_path TO local_shard_execution; diff --git a/src/test/regress/sql/local_shard_execution_replicated.sql b/src/test/regress/sql/local_shard_execution_replicated.sql index d7e4cc064..1c3d264e0 100644 --- a/src/test/regress/sql/local_shard_execution_replicated.sql +++ b/src/test/regress/sql/local_shard_execution_replicated.sql @@ -1,12 +1,6 @@ -- -- LOCAL_SHARD_EXECUTION_REPLICATED -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA local_shard_execution_replicated; SET search_path TO local_shard_execution_replicated; diff --git a/src/test/regress/sql/merge.sql b/src/test/regress/sql/merge.sql index 5316b5233..14dd04e32 100644 --- a/src/test/regress/sql/merge.sql +++ b/src/test/regress/sql/merge.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- MERGE command performs a join from data_source to target_table_name DROP SCHEMA IF EXISTS merge_schema CASCADE; --MERGE INTO target diff --git a/src/test/regress/sql/merge_arbitrary.sql b/src/test/regress/sql/merge_arbitrary.sql index 6c0a931dc..2d1cab39b 100644 --- a/src/test/regress/sql/merge_arbitrary.sql +++ b/src/test/regress/sql/merge_arbitrary.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - SET search_path TO merge_arbitrary_schema; INSERT INTO target_cj VALUES (1, 'target', 0); INSERT INTO target_cj VALUES (2, 'target', 0); diff --git a/src/test/regress/sql/merge_arbitrary_create.sql b/src/test/regress/sql/merge_arbitrary_create.sql index efa3185da..4255ca307 100644 --- a/src/test/regress/sql/merge_arbitrary_create.sql +++ b/src/test/regress/sql/merge_arbitrary_create.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - DROP SCHEMA IF EXISTS merge_arbitrary_schema CASCADE; CREATE SCHEMA merge_arbitrary_schema; SET search_path TO merge_arbitrary_schema; diff --git a/src/test/regress/sql/merge_partition_tables.sql b/src/test/regress/sql/merge_partition_tables.sql index ab40fd23e..64fb0799e 100644 --- a/src/test/regress/sql/merge_partition_tables.sql +++ b/src/test/regress/sql/merge_partition_tables.sql @@ -1,12 +1,3 @@ - -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- We create two sets of source and target tables, one set in Postgres and -- the other in Citus distributed. We run the _exact_ MERGE SQL on both sets -- and compare the final results of the target tables in Postgres and Citus. diff --git a/src/test/regress/sql/merge_repartition1.sql b/src/test/regress/sql/merge_repartition1.sql index 858f4710c..d0f4b6e56 100644 --- a/src/test/regress/sql/merge_repartition1.sql +++ b/src/test/regress/sql/merge_repartition1.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- We create two sets of source and target tables, one set in Postgres and -- the other in Citus distributed. We run the _exact_ MERGE SQL on both sets -- and compare the final results of the target tables in Postgres and Citus. diff --git a/src/test/regress/sql/merge_repartition2.sql b/src/test/regress/sql/merge_repartition2.sql index 7a4812274..354f0605b 100644 --- a/src/test/regress/sql/merge_repartition2.sql +++ b/src/test/regress/sql/merge_repartition2.sql @@ -1,12 +1,3 @@ - -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- We create two sets of source and target tables, one set in Postgres and -- the other in Citus distributed. We run the _exact_ MERGE SQL on both sets -- and compare the final results of the target tables in Postgres and Citus. diff --git a/src/test/regress/sql/merge_schema_sharding.sql b/src/test/regress/sql/merge_schema_sharding.sql index 8ea947c1c..d7fc0007f 100644 --- a/src/test/regress/sql/merge_schema_sharding.sql +++ b/src/test/regress/sql/merge_schema_sharding.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- MERGE command performs a join from data_source to target_table_name DROP SCHEMA IF EXISTS schema_shard_table1 CASCADE; DROP SCHEMA IF EXISTS schema_shard_table2 CASCADE; diff --git a/src/test/regress/sql/merge_vcore.sql b/src/test/regress/sql/merge_vcore.sql index 2ab95e874..e34f998c0 100644 --- a/src/test/regress/sql/merge_vcore.sql +++ b/src/test/regress/sql/merge_vcore.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- MERGE command performs a join from data_source to target_table_name DROP SCHEMA IF EXISTS merge_vcore_schema CASCADE; --MERGE INTO target diff --git a/src/test/regress/sql/multi_alter_table_add_constraints_without_name.sql b/src/test/regress/sql/multi_alter_table_add_constraints_without_name.sql index f5fd653f5..206decaa7 100644 --- a/src/test/regress/sql/multi_alter_table_add_constraints_without_name.sql +++ b/src/test/regress/sql/multi_alter_table_add_constraints_without_name.sql @@ -158,14 +158,8 @@ ALTER TABLE AT_AddConstNoName.products DROP CONSTRAINT products_product_no_key; -- Check "ADD UNIQUE NULLS NOT DISTICT" -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 - ALTER TABLE AT_AddConstNoName.products ADD UNIQUE NULLS NOT DISTINCT (product_no, price); ALTER TABLE AT_AddConstNoName.products DROP CONSTRAINT products_product_no_price_key; -\endif -- Check "ADD UNIQUE ... DEFERRABLE" ALTER TABLE AT_AddConstNoName.products ADD UNIQUE(product_no) INCLUDE(price) DEFERRABLE; diff --git a/src/test/regress/sql/multi_deparse_shard_query.sql b/src/test/regress/sql/multi_deparse_shard_query.sql index faffdf862..2bd11c811 100644 --- a/src/test/regress/sql/multi_deparse_shard_query.sql +++ b/src/test/regress/sql/multi_deparse_shard_query.sql @@ -1,12 +1,6 @@ -- -- MULTI_DEPARSE_SHARD_QUERY -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA multi_deparse_shard_query; SET search_path TO multi_deparse_shard_query; diff --git a/src/test/regress/sql/multi_extension.sql b/src/test/regress/sql/multi_extension.sql index e0c70fe28..b5b61e329 100644 --- a/src/test/regress/sql/multi_extension.sql +++ b/src/test/regress/sql/multi_extension.sql @@ -320,14 +320,8 @@ SELECT * FROM multi_extension.print_extension_changes(); -- recreate public schema, and recreate citus_tables in the public schema by default CREATE SCHEMA public; --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 +-- public schema is owned by pg_database_owner role ALTER SCHEMA public OWNER TO pg_database_owner; -\endif GRANT ALL ON SCHEMA public TO public; ALTER EXTENSION citus UPDATE TO '9.5-1'; ALTER EXTENSION citus UPDATE TO '10.0-4'; diff --git a/src/test/regress/sql/multi_insert_select.sql b/src/test/regress/sql/multi_insert_select.sql index b10be8424..b773ce906 100644 --- a/src/test/regress/sql/multi_insert_select.sql +++ b/src/test/regress/sql/multi_insert_select.sql @@ -1,14 +1,9 @@ -- -- MULTI_INSERT_SELECT -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- + CREATE SCHEMA multi_insert_select; SET search_path = multi_insert_select,public; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; SET citus.next_shard_id TO 13300000; SET citus.next_placement_id TO 13300000; diff --git a/src/test/regress/sql/multi_insert_select_conflict.sql b/src/test/regress/sql/multi_insert_select_conflict.sql index cb0ac01f5..06822933c 100644 --- a/src/test/regress/sql/multi_insert_select_conflict.sql +++ b/src/test/regress/sql/multi_insert_select_conflict.sql @@ -1,12 +1,6 @@ -- -- MULTI_INSERT_SELECT_CONFLICT -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA on_conflict; SET search_path TO on_conflict, public; diff --git a/src/test/regress/sql/multi_metadata_sync.sql b/src/test/regress/sql/multi_metadata_sync.sql index 1b8043cdd..9c584c1ac 100644 --- a/src/test/regress/sql/multi_metadata_sync.sql +++ b/src/test/regress/sql/multi_metadata_sync.sql @@ -1,11 +1,6 @@ -- -- MULTI_METADATA_SYNC -- --- this test has different output for PG14 compared to PG15 --- In PG15, public schema is owned by pg_database_owner role --- Relevant PG commit: b073c3ccd06e4cb845e121387a43faa8c68a7b62 -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; -- Tests for metadata snapshot functions, metadata syncing functions and propagation of -- metadata changes to MX tables. diff --git a/src/test/regress/sql/multi_mx_insert_select_repartition.sql b/src/test/regress/sql/multi_mx_insert_select_repartition.sql index 4a9c8c96f..f092a96ba 100644 --- a/src/test/regress/sql/multi_mx_insert_select_repartition.sql +++ b/src/test/regress/sql/multi_mx_insert_select_repartition.sql @@ -3,12 +3,6 @@ -- -- Test behaviour of repartitioned INSERT ... SELECT in MX setup -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA multi_mx_insert_select_repartition; SET search_path TO multi_mx_insert_select_repartition; diff --git a/src/test/regress/sql/mx_coordinator_shouldhaveshards.sql b/src/test/regress/sql/mx_coordinator_shouldhaveshards.sql index 9a892a457..d8d304351 100644 --- a/src/test/regress/sql/mx_coordinator_shouldhaveshards.sql +++ b/src/test/regress/sql/mx_coordinator_shouldhaveshards.sql @@ -1,12 +1,6 @@ -- -- MX_COORDINATOR_SHOULDHAVESHARDS -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA mx_coordinator_shouldhaveshards; SET search_path TO mx_coordinator_shouldhaveshards; diff --git a/src/test/regress/sql/pg15.sql b/src/test/regress/sql/pg15.sql index 276092dcd..626acb79d 100644 --- a/src/test/regress/sql/pg15.sql +++ b/src/test/regress/sql/pg15.sql @@ -1,13 +1,6 @@ -- -- PG15 -- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif CREATE SCHEMA pg15; SET search_path TO pg15; diff --git a/src/test/regress/sql/pg15_jsonpath.sql b/src/test/regress/sql/pg15_jsonpath.sql index 1f4077c11..f5c5916a0 100644 --- a/src/test/regress/sql/pg15_jsonpath.sql +++ b/src/test/regress/sql/pg15_jsonpath.sql @@ -2,14 +2,6 @@ -- PG15 jsonpath tests -- Relevant pg commit: e26114c817b610424010cfbe91a743f591246ff1 -- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - CREATE SCHEMA jsonpath; SET search_path TO jsonpath; diff --git a/src/test/regress/sql/pgmerge.sql b/src/test/regress/sql/pgmerge.sql index 69a0210bc..eeeb881d3 100644 --- a/src/test/regress/sql/pgmerge.sql +++ b/src/test/regress/sql/pgmerge.sql @@ -1,11 +1,3 @@ -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -\q -\endif - -- -- MERGE test from PG community (adapted to Citus by converting all tables to Citus local) -- diff --git a/src/test/regress/sql/publication.sql b/src/test/regress/sql/publication.sql index 06bdc39fe..06234994f 100644 --- a/src/test/regress/sql/publication.sql +++ b/src/test/regress/sql/publication.sql @@ -186,18 +186,6 @@ DROP PUBLICATION "pub-all"; DROP PUBLICATION pubpartitioned; DROP PUBLICATION pubnotdistributed; -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15 -\gset -\if :server_version_ge_15 -\else -SET client_min_messages TO ERROR; -DROP SCHEMA publication CASCADE; -DROP SCHEMA "publication-1" CASCADE; -DROP SCHEMA citus_schema_1 CASCADE; -\q -\endif - -- recreate a mixed publication CREATE PUBLICATION pubtables FOR TABLE test, "publication-1"."test-pubs", citus_schema_1.test; diff --git a/src/test/regress/sql/single_node.sql b/src/test/regress/sql/single_node.sql index 2bb7c58a3..962f59f79 100644 --- a/src/test/regress/sql/single_node.sql +++ b/src/test/regress/sql/single_node.sql @@ -1,12 +1,6 @@ -- -- SINGLE_NODE -- --- This test file has an alternative output because of the change in the --- display of SQL-standard function's arguments in INSERT/SELECT in PG15. --- The alternative output can be deleted when we drop support for PG14 --- -SHOW server_version \gset -SELECT substring(:'server_version', '\d+')::int >= 15 AS server_version_ge_15; CREATE SCHEMA single_node; SET search_path TO single_node;