When testing rolling Citus upgrades, coordinator should not be upgraded
until we upgrade all the workers.
---------
Co-authored-by: Jelte Fennema-Nio <github-tech@jeltef.nl>
(cherry picked from commit 27ac44eb2a)
Co-authored-by: Onur Tirtir <onurcantirtir@gmail.com>
This fixes#7230.
First of all, using HeapTupleHeaderGetDatumLength(heapTuple) is
definetly wrong, it gives a number that's 4 times less than the correct
tuple size (heapTuple.t_len). See
https://github.com/postgres/postgres/blob/REL_16_0/src/include/access/htup_details.h#L455-L456https://github.com/postgres/postgres/blob/REL_16_0/src/include/varatt.h#L279https://github.com/postgres/postgres/blob/REL_16_0/src/include/varatt.h#L225-L226
When I fixed it, the limit_intermediate_size test failed, so I tried to
understand what's going on there. In original commit fd546cf these
queries were supposed to fail. Then in b3af63c three of the queries that
were supposed to fail suddenly worked and tests were changed to pass
without understanding why the output had changed or how to keep test
testing what it had to test. Even comments saying that these queries
should fail were left untouched. Commit message gives no clue about why
exactly test has changed:
> It seems that when we use adaptive executor instead of task tracker,
we
> exceed the intermediate result size less in the test. Therefore
updated
> the tests accordingly.
Then 3fda2c3 also blindly raised the limit for one of the queries to
keep it working:
3fda2c3254 (diff-a9b7b617f9dfd345318cb8987d5897143ca1b723c87b81049bbadd94dcc86570R19)
When in fe3caf3 that HeapTupleHeaderGetDatumLength(heapTuple) call was
finally added, one of those test queries became failing again.
The other two of them now also failing after the fix. I don't understand
how exactly the calculation of "intermediate result size" that is
limited by citus.max_intermediate_result_size had changed through
b3af63c and fe3caf3, but these numbers are now closer to what
they originally were when this limitation was added in
fd546cf. So these queries should fail, like in the original
version of the limit_intermediate_size test.
Co-authored-by: Karina Litskevich <litskevichkarina@gmail.com>
(cherry picked from commit 20dc58cf5d)
When executing a prepared CALL, which is not pure SQL but available with
some drivers like npgsql and jpgdbc, Citus entered a code path where a
plan is not defined, while trying to increase its cost. Thus SIG11 when
plan is a NULL pointer.
Fix by only increasing plan cost when plan is not null.
However, it is a bit suspicious to get here with a NULL plan and maybe a
better change will be to not call
ShardPlacementForFunctionColocatedWithDistTable() with a NULL plan at
all (in call.c:134)
bug hit with for example:
```
CallableStatement proc = con.prepareCall("{CALL p(?)}");
proc.registerOutParameter(1, java.sql.Types.BIGINT);
proc.setInt(1, -100);
proc.execute();
```
where `p(bigint)` is a distributed "function" and the param the
distribution key (also in a distributed table), see #7242 for details
Fixes#7242
(cherry picked from commit 0678a2fd89)
foreign_key_to_reference_shard_rebalance failed because partition of
2024 year does not exist, fixed by add default partition.
Replaces https://github.com/citusdata/citus/pull/7396 by adding a rule
that allows properly testing foreign_key_to_reference_shard_rebalance
via run_test.py.
Closes#7396
Co-authored-by: chuhx <148182736+cstarc1@users.noreply.github.com>
(cherry picked from commit 968ac74cde)
Co-authored-by: Onur Tirtir <onurcantirtir@gmail.com>
We are using `release-13.0` branch for both development and release, to
deliver PG17 support in Citus.
Afterwards, we will (probably) merge this branch into main.
Some potential changes for main branch, after we are done working on
release-13.0:
- Merge changes from `release-13.0` to `main`
- Figure out what changes were there on 12.2, move them to 13.1 version.
In a nutshell: rename `12.1--12.2` to `13.0--13.1` and fix issues.
- Set version to 13.1devel
Fixes the flaky test that results in following diff:
```diff
--- /__w/citus/citus/src/test/regress/expected/multi_mx_node_metadata.out.modified 2023-11-01 14:22:12.890476575 +0000
+++ /__w/citus/citus/src/test/regress/results/multi_mx_node_metadata.out.modified 2023-11-01 14:22:12.914476657 +0000
@@ -840,24 +840,26 @@
(1 row)
\c :datname - - :master_port
SELECT datname FROM pg_stat_activity WHERE application_name LIKE 'Citus Met%';
datname
------------
db_to_drop
(1 row)
DROP DATABASE db_to_drop;
+ERROR: database "db_to_drop" is being accessed by other users
SELECT datname FROM pg_stat_activity WHERE application_name LIKE 'Citus Met%';
datname
------------
-(0 rows)
+ db_to_drop
+(1 row)
-- cleanup
DROP SEQUENCE sequence CASCADE;
NOTICE: drop cascades to default value for column a of table reference_table
```
(cherry picked from commit 9867c5b949)
Fix check-arbitrary-configs tests failure with current REL_16_STABLE.
This is the same problem as described in #7573. I missed pg_regress call
in _run_pg_regress() in that PR.
Co-authored-by: Karina Litskevich <litskevichkarina@gmail.com>
(cherry picked from commit 41e2af8ff5)
**Problem:**
Previously we always used an outside superuser connection to overcome
permission issues for the current user while propagating dependencies.
That has mainly 2 problems:
1. Visibility issues during dependency propagation, (metadata connection
propagates some objects like a schema, and outside transaction does not
see it and tries to create it again)
2. Security issues (it is preferrable to use current user's connection
instead of extension superuser)
**Solution (high level):**
Now, we try to make a smarter decision on whether should we use an
outside superuser connection or current user's metadata connection. We
prefer using current user's connection if any of the objects, which is
already propagated in the current transaction, is a dependency for a
target object. We do that since we assume if current user has
permissions to create the dependency, then it can most probably
propagate the target as well.
Our assumption is expected to hold most of the times but it can still be
wrong. In those cases, transaction would fail and user should set the
GUC `citus.create_object_propagation` to `deferred` to work around it.
**Solution:**
1. We track all objects propagated in the current transaction (we can
handle subtransactions),
2. We propagate dependencies via the current user's metadata connection
if any dependency is created in the current transaction to address
issues listed above. Otherwise, we still use an outside superuser
connection.
DESCRIPTION: Fixes some object propagation errors seen with transaction
blocks.
Fixes https://github.com/citusdata/citus/issues/6614
---------
Co-authored-by: Nils Dijk <nils@citusdata.com>
For a database that does not create the citus extension by running
` CREATE EXTENSION citus;`
`CitusHasBeenLoaded ` function ends up querying the `pg_extension` table
every time it is invoked. This is not an ideal situation for a such a
database.
The idea in this PR is as follows:
### A new field in MetadataCache.
Add a new variable `extensionCreatedState `of the following type:
```
typedef enum ExtensionCreatedState
{
UNKNOWN = 0,
CREATED = 1,
NOTCREATED = 2,
} ExtensionCreatedState;
```
When the MetadataCache is invalidated, `ExtensionCreatedState` will be
set to UNKNOWN.
### Invalidate MetadataCache when CREATE/DROP/ALTER EXTENSION citus
commands are run.
- Register a callback function, named
`InvalidateDistRelationCacheCallback`, for relcache invalidation during
the shared library initialization for `citus.so`. This callback function
is invoked in all the backends whenever the relcache is invalidated in
one of the backends. (This could be caused many DDLs operations).
- In the cache invalidation callback,`
InvalidateDistRelationCacheCallback`, invalidate `MetadataCache` zeroing
it out.
- In `CitusHasBeenLoaded`, perform the costly citus is loaded check only
if the `MetadataCache` is not valid.
### Downsides
Any relcache invalidation (caused by various DDL operations) will case
Citus MetadataCache to get invalidated. Most of the time it will be
unnecessary. But we rely on that DDL operations on relations will not be
too frequent.
1. Adds an `sql_row` function, for when a query returns a single row
with multiple columns.
2. Include a `notice_handler` for easier debugging
3. Retry dropping replication slots when they are "in use", this is
often an ephemeral state and can cause flaky tests
DESCRIPTION: Adds PG16Beta3 support
This is the final commit that adds
PG16 compatibility with Citus's current features.
You can use Citus community with PG16Beta3. This commit:
- Enables PG16 in the configure script.
- Adds PG16 tests to CI using test images that have 16beta3
- Skips wal2json cdc test since wal2json package is not available for PG16 yet
- Fixes an isolation test
Several PG16 Compatibility commits have been merged before this final one.
All these subtasks are done https://github.com/citusdata/citus/issues/7017
See the list below:
1 - 42d956888d
Resolve compilation issues
2 - 0d503dd5ac
Ruleutils and successful CREATE EXTENSION
3 - 907d72e60d
Some test outputs
4 - 7c6b4ce103
Outer join checks, subscription password, crash fixes
5 - 6056cb2c29
get_relation_info hook to avoid crash from adjusted partitioning
6 - b36c431abb
Rework PlannedStmt and Query's Permission Info
7 - ee3153fe50
More test output fixes
8 - 2c50b5f7ff
varnullingrels additions
9 - b2291374b4
More test output fixes
10- a2315fdc67
New options to vacuum and analyze
11- 9fa72545e2
Fix AM dependency and grant's admin option
12- 2d6cf8e79a
One more outer join check
Stay tuned for PG16 new features in Citus :)
One problem with rebalancing by disk size is that shards in newly
created collocation groups are considered extremely small. This can
easily result in bad balances if there are some other collocation groups
that do have some data. One extremely bad example of this is:
1. You have 2 workers
2. Both contain about 100GB of data, but there's a 70MB difference.
3. You create 100 new distributed schemas with a few empty tables in
them
4. You run the rebalancer
5. Now all new distributed schemas are placed on the node with that had
70MB less.
6. You start loading some data in these shards and quickly the balance
is completely off
To address this edge case, this PR changes the by_disk_size rebalance
strategy to add a a base size of 100MB to the actual size of each
shard group. This can still result in a bad balance when shard groups
are empty, but it solves some of the worst cases.
This commit is the second and last phase of dropping PG13 support.
It consists of the following:
- Removes all PG_VERSION_13 & PG_VERSION_14 from codepaths
- Removes pg_version_compat entries and columnar_version_compat entries
specific for PG13
- Removes alternative pg13 test outputs
- Removes PG13 normalize lines and fix the test outputs based on that
It is a continuation of 5bf163a27d
1) For distributed tables that are not colocated.
2) When joining on a non-distribution column for colocated tables.
3) When merging into a distributed table using reference or citus-local tables as the data source.
This is accomplished primarily through the implementation of the following two strategies.
Repartition: Plan the source query independently,
execute the results into intermediate files, and repartition the files to
co-locate them with the merge-target table. Subsequently, compile a final
merge query on the target table using the intermediate results as the data
source.
Pull-to-coordinator: Execute the plan that requires evaluation at the coordinator,
run the query on the coordinator, and redistribute the resulting rows to ensure
colocation with the target shards. Direct the MERGE SQL operation to the worker
nodes' target shards, using the intermediate files colocated with the data as the
data source.
Allow using generated identity column based on int/smallint when
creating a distributed table so that applications that rely on
those data types don't break.
Inserting into / modifying such columns from workers is not allowed
but it's better than not allowing such columns altogether.
DESCRIPTION: Drops PG13 Support
This commit is the first phase of dropping PG13 support.
It consists of the following:
- Removes pg13 from CI tests
Among other things, Citus upgrade tests should now use PG14.
Earliest Citus version supporting PG14 is 10.2.
We also pick 11.3 version for upgrade_pg_dist_cleanup tests.
Therefore, we run the citus upgrade tests with versions 10.2 and 11.3.
- Removes pg13 from configure script
- Remove upgrade_columnar_metapage upgrade tests
We populate first_row_number column of columnar.stripe table
during citus 10.1-10.2 upgrade. Given that we start from citus 10.2.0,
which is the oldest version supporting PG14, we don't have that
upgrade path anymore. Hence we remove these tests.
- Removes upgrade_pg_dist_object_test and upgrade_partition_constraints tests
These upgrade tests require the citus old version to be less than 10.0.
Given that we drop support for PG13, we run upgrade tests with PG14,
which starts with 10.2.
So we remove these upgrade tests.
- Documents that upgrade_post_11 should upgrade from version less than 11
In this way we make sure we run
citus_finalize_upgrade_to_citus11 script
- Adds needed alternative output for upgrade_citus_finish_citus_upgrade
Given that we use 11.3 as the citus old version as well,
we add this alternative output because pg_catalog.citus_finish_citus_upgrade()
makes sense if last_upgrade_major_version < 11. See below for reference:
pg_catalog.citus_finish_citus_upgrade():
...
IF last_upgrade_major_version < 11 THEN
PERFORM citus_finalize_upgrade_to_citus11();
performed_upgrade := true;
END IF;
IF NOT performed_upgrade THEN
RAISE NOTICE 'already at the latest distributed
schema version (%)', last_upgrade_version_string;
RETURN;
END IF;
...
And that's it :)
The second phase of dropping PG13 support will consist in removing
all the PG13 specific compilation paths/tests in the Citus repo.
Will be done soon.
Changes test files in multi and multi-1 schedules such that they
accomodate coordinator in metadata.
Changes fall into the following buckets:
1. When coordinator is in metadata, reference table shards are present
in coordinator too.
This changes test outputs checking the table size, shard numbers etc.
for reference tables.
2. When coordinator is in metadata, postgres tables are converted to
citus local tables whenever a foreign key relationship to them is
created. This changes some test cases which tests it should not be
possible to create foreign keys to postgres tables.
3. Remove lines that add/remove coordinator for testing purposes.
Verify Citus UDFs work well with single shard tables
SUPPORTED
* citus_table_size
* citus_total_relation_size
* citus_relation_size
* citus_shard_sizes
* truncate_local_data_after_distributing_table
* create_distributed_function // test function colocated with a single
shard table
* undistribute_table
* alter_table_set_access_method
UNSUPPORTED - error out for single shard tables
* master_create_empty_shard
* create_distributed_table_concurrently
* create_distributed_table
* create_reference_table
* citus_add_local_table_to_metadata
* citus_split_shard_by_split_points
* alter_distributed_table
DESCRIPTION: Adds citus.enable_schema_based_sharding GUC that allows
sharding the database based on schemas when enabled.
* Refactor the logic that automatically creates Citus managed tables
* Refactor CreateSingleShardTable() to allow specifying colocation id
instead
* Add support for schema-based-sharding via a GUC
### What this PR is about:
Add **citus.enable_schema_based_sharding GUC** to enable schema-based
sharding. Each schema created while this GUC is ON will be considered
as a tenant schema. Later on, regardless of whether the GUC is ON or
OFF, any table created in a tenant schema will be converted to a
single shard distributed table (without a shard key). All the tenant
tables that belong to a particular schema will be co-located with each
other and will have a shard count of 1.
We introduce a new metadata table --pg_dist_tenant_schema-- to do the
bookkeeping for tenant schemas:
```sql
psql> \d pg_dist_tenant_schema
Table "pg_catalog.pg_dist_tenant_schema"
┌───────────────┬─────────┬───────────┬──────────┬─────────┐
│ Column │ Type │ Collation │ Nullable │ Default │
├───────────────┼─────────┼───────────┼──────────┼─────────┤
│ schemaid │ oid │ │ not null │ │
│ colocationid │ integer │ │ not null │ │
└───────────────┴─────────┴───────────┴──────────┴─────────┘
Indexes:
"pg_dist_tenant_schema_pkey" PRIMARY KEY, btree (schemaid)
"pg_dist_tenant_schema_unique_colocationid_index" UNIQUE, btree (colocationid)
psql> table pg_dist_tenant_schema;
┌───────────┬───────────────┐
│ schemaid │ colocationid │
├───────────┼───────────────┤
│ 41963 │ 91 │
│ 41962 │ 90 │
└───────────┴───────────────┘
(2 rows)
```
Colocation id column of pg_dist_tenant_schema can never be NULL even
for the tenant schemas that don't have a tenant table yet. This is
because, we assign colocation ids to tenant schemas as soon as they
are created. That way, we can keep associating tenant schemas with
particular colocation groups even if all the tenant tables of a tenant
schema are dropped and recreated later on.
When a tenant schema is dropped, we delete the corresponding row from
pg_dist_tenant_schema. In that case, we delete the corresponding
colocation group from pg_dist_colocation as well.
### Future work for 12.0 release:
We're building schema-based sharding on top of the infrastructure that
adds support for creating distributed tables without a shard key
(https://github.com/citusdata/citus/pull/6867).
However, not all the operations that can be done on distributed tables
without a shard key necessarily make sense (in the same way) in the
context of schema-based sharding. For example, we need to think about
what happens if user attempts altering schema of a tenant table. We
will tackle such scenarios in a future PR.
We will also add a new UDF --citus.schema_tenant_set() or such-- to
allow users to use an existing schema as a tenant schema, and another
one --citus.schema_tenant_unset() or such-- to stop using a schema as
a tenant schema in future PRs.
Citus upgrade tests require some additional logic to run, because we
have a before and after schedule and we need to swap the Citus
version in-between. This adds that logic to `run_test.py`.
In passing this makes running upgrade tests locally multiple times
faster by caching tarballs.
DESCRIPTION: Fixes a crash when explain analyze is requested for a query
that is normally locally executed.
When explain analyze is requested for a query, a task with two queries
is created. Those two queries are
1. Wrapped Query --> `SELECT ... FROM
worker_save_query_explain_analyze(<query>, <explain analyze options>)`
2. Fetch Query -->` SELECT explain_analyze_output, execution_duration
FROM worker_last_saved_explain_analyze();`
When the query is locally executed a task with multiple queries causes a
crash in production. See the Assert at
57455dc64d/src/backend/distributed/executor/tuple_destination.c#:~:text=Assert(task%2D%3EqueryCount%20%3D%3D%201)%3B
This becomes a critical issue when auto_explain extension is used. When
auto_explain extension is enabled, explain analyze is automatically
requested for every query.
One possible solution could be not to create two queries for a locally
executed query. The fetch part may not have to be a query since the
values are available in local variables.
Until we enable local execution for explain analyze, it is best to
disable local execution.
Fixes#6777.
DESCRIPTION: Fixes a bug in background shard rebalancer where the
replicate reference tables task fails if the current user is not a
superuser.
This change is to be backported to earlier releases. We should fix the
permissions for replicate_reference_tables on main branch such that it
can be run by non-superuser roles.
Fixes#6925.
Fixes#6926.
We mark objects as distributed objects in Citus metadata only if we need
to propagate given the command that creates it to worker nodes. For this
reason, we were not doing this for the objects that are created while
pg_dist_node is empty.
One implication of doing so is that we defer the schema propagation to
the time when user creates the first distributed table in the schema.
However, this doesn't help for schema-based sharding (#6866) because we
want to sync pg_dist_tenant_schema to the worker nodes even for empty
schemas too.
* Support test dependencies for isolation tests without a schedule
* Comment out a test due to a known issue (#6901)
* Also, reduce the verbosity for some log messages and make some
tests compatible with run_test.py.
Enable router planner and a limited version of INSERT .. SELECT planner
for the queries that reference colocated null shard key tables.
* SELECT / UPDATE / DELETE / MERGE is supported as long as it's a router
query.
* INSERT .. SELECT is supported as long as it only references colocated
null shard key tables.
Note that this is not only limited to distributed INSERT .. SELECT but
also
covers a limited set of query types that require pull-to-coordinator,
e.g.,
due to LIMIT clause, generate_series() etc. ...
(Ideally distributed INSERT .. SELECT could handle such queries too,
e.g.,
when we're only referencing tables that don't have a shard key, but
today
this is not the case. See
https://github.com/citusdata/citus/pull/6773#discussion_r1140130562.
With this PR, we allow creating distributed tables with without
specifying a shard key via create_distributed_table(). Here are the
the important details about those tables:
* Specifying `shard_count` is not allowed because it is assumed to be 1.
* We mostly call such tables as "null shard-key" table in code /
comments.
* To avoid doing a breaking layout change in create_distributed_table();
instead of throwing an error, it will inform the user that
`distribution_type`
param is ignored unless it's explicitly set to NULL or 'h'.
* `colocate_with` param allows colocating such null shard-key tables to
each other.
* We define this table type, i.e., NULL_SHARD_KEY_TABLE, as a subclass
of
DISTRIBUTED_TABLE because we mostly want to treat them as distributed
tables in terms of SQL / DDL / operation support.
* Metadata for such tables look like:
- distribution method => DISTRIBUTE_BY_NONE
- replication model => REPLICATION_MODEL_STREAMING
- colocation id => **!=** INVALID_COLOCATION_ID (distinguishes from
Citus local tables)
* We assign colocation groups for such tables to different nodes in a
round-robin fashion based on the modulo of "colocation id".
Note that this PR doesn't care about DDL (except CREATE TABLE) / SQL /
operation (i.e., Citus UDFs) support for such tables but adds a
preliminary
API.
There was a bug related to regex. We sometimes caught the wrong line
when the test name is also included in comments.
Example: We caught the wrong line as multi_metadata_sync is included in
the comment before the test line.
```
# ----------
# multi_metadata_sync tests the propagation of mx-related metadata changes to metadata workers
# multi_unsupported_worker_operations tests that unsupported operations error out on metadata workers
# ----------
test: multi_metadata_sync
```
Solution: Restrict regex rule better.
In #6814 we started using the Python test runner for upgrade tests in
run_test.py, instead of the Perl based one. This had a problem though,
not all tests in minimal_schedule can be run with the Python runner.
This adds a separate minimal schedule for the pg_upgrade tests which
doesn't include the tests that break with the Python runner.
This PR also fixes various other issues that came up while testing
the upgrade tests.
- Query generator is used to create queries, allowed by the grammar which is documented at `query_generator/query_gen.py` (currently contains only joins).
- This PR adds a CI test which utilizes the query generator to compare the results of generated queries that are executed on Citus tables and local (undistributed) tables. It fails if there is an unexpected error at results. The error can be related to Citus, the query generator, or even Postgres.
- The tool is configured by the file `query_generator/config/config.yaml`, which limits table counts at generated queries and sets many table related parameters (e.g. row count).
- Run time of the CI task can be configured from the config file. By default, we run 250 queries with maximum table count of 40 inside each query.
DESCRIPTION: Changes the regression test setups adding the coordinator
to metadata by default.
When creating a Citus cluster, coordinator can be added in metadata
explicitly by running `citus_set_coordinator_host ` function. Adding the
coordinator to metadata allows to create citus managed local tables.
Other Citus functionality is expected to be unaffected.
This change adds the coordinator to metadata by default when creating
test clusters in regression tests.
There are 3 ways to run commands in a sql file (or a schedule which is a
sequence of sql files) with Citus regression tests. Below is how this PR
adds the coordinator to metadata for each.
1. `make <schedule_name>`
Changed the sql files (sql/multi_cluster_management.sql and
sql/minimal_cluster_management.sql) which sets up the test clusters such
that they call `citus_set_coordinator_host`. This ensures any following
tests will have the coordinator in metadata by default.
2. `citus_tests/run_test.py <sql_file_name>`
Changed the python code that sets up the cluster to always call `
citus_set_coordinator_host`.
For the upgrade tests, a version check is included to make sure
`citus_set_coordinator_host` function is available for a given version.
3. ` make check-arbitrary-configs `
Changed the python code that sets up the cluster to always call
`citus_set_coordinator_host `.
#6864 will be used to track the remaining work which is to change the
tests where coordinator is added/removed as a node.
Over the last few months run_test.py got more and more complex. This
refactors the code in `run_test.py` to be better understandable. Mostly
this splits up separate pieces of logic into separate functions.
For some tests such as upgrade tests and arbitrary config tests we set
up the citus cluster using Python. This setup is slightly different from
the perl based setup script (`multi_regress.pl`). Most importantly it
uses replication factor 1 by default.
This changes our run_test.py script to be able to run a schedule using
python instead of `multi_regress.pl`, for the tests that require it.
For now arbitrary config tests are still not runnable with
`run_test.py`, but this brings us one step closer to being able to do
that.
Fixes#6804
Having as little Perl as possible in our repo seems a worthy goal. Sadly
Postgres its Perl based TAP infrastructure was the only way in which we
could
run tests that were hard to do using only SQL commands. This change adds
infrastructure to run such "application style tests" using python and
converts all our existing Perl TAP tests to this new infrastructure.
Some of the helper functions that are added in this PR are currently
unused. Most of these will be used by the CDC PR that depends on this.
Some others are there because they were needed by the PgBouncer test
framework that this is based on, and the functions seemed useful enough
to citus testing to keep.
The main features of the test suite are:
1. Application style tests using a programming language that our
developers know how to write.
2. Caching of Citus clusters in-between tests using the ["fixture"
pattern][fixture] from `pytest` to achieve speedy tests. To make this
work in practice any changes made during a test are automatically
undone. Schemas, replication slots, subscriptions, publications are
dropped at the end of each test. And any changes made by `ALTER SYSTEM`
or manually editing of `pg_hba.conf` are undone too.
3. Automatic parallel execution of tests using the `-n auto` flag that's
added by `pytest-xdist`. This improved the speed of tests greatly with
the similar test framework I created for PgBouncer. Right now it doesn't
help much yet though, since this PR only adds two tests (one of which
takes ~10 times longer than the other).
Possible future improvements are:
1. Clean up even more things at the end of each test (e.g. users that
were created). These are fairly easy to add, but I have not done so yet
since they were not needed yet for this PR or the CDC PR. So I would not
be able to test the cleanup easily.
2. Support for query block detection similar to what we can now do using
isolation tests.
[fixture]: https://docs.pytest.org/en/6.2.x/fixture.html
DESCRIPTION: This PR removes the task dependencies between shard moves
for which the shards belong to different colocation groups. This change
results in scheduling multiple tasks in the RUNNABLE state. Therefore it
is possible that the background task monitor can run them concurrently.
Previously, all the shard moves planned in a rebalance operation took
dependency on each other sequentially.
For instance, given the following table and shards
colocation group 1 colocation group 2
table1 table2 table3 table4 table 5
shard11 shard21 shard31 shard41 shard51
shard12 shard22 shard32 shard42 shard52
if the rebalancer planner returned the below set of moves
` {move(shard11), move(shard12), move(shard41), move(shard42)}`
background rebalancer scheduled them such that they depend on each other
sequentially.
```
{move(reftables) if there is any, none}
|
move( shard11)
|
move(shard12)
| {move(shard41)<--- move(shard12)} This is an artificial dependency
move(shard41)
|
move(shard42)
```
This results in artificial dependencies between otherwise independent
moves.
Considering that the shards in different colocation groups can be moved
concurrently, this PR changes the dependency relationship between the
moves as follows:
```
{move(reftables) if there is any, none} {move(reftables) if there is any, none}
| |
move(shard11) move(shard41)
| |
move(shard12) move(shard42)
```
---------
Co-authored-by: Jelte Fennema <jelte.fennema@microsoft.com>
Description:
Implementing CDC changes using Logical Replication to avoid
re-publishing events multiple times by setting up replication origin
session, which will add "DoNotReplicateId" to every WAL entry.
- shard splits
- shard moves
- create distributed table
- undistribute table
- alter distributed tables (for some cases)
- reference table operations
The citus decoder which will be decoding WAL events for CDC clients,
ignores any WAL entry with replication origin that is not zero.
It also maps the shard names to distributed table names.
Soon I will be doing some changes related to #692 in router planner
and those changes require updating ~5/6 tests related to router
planning. And to make those test files runnable by run_test.py
multiple times, we need to make some other tests (that they're
run in parallel / they badly depend on) ready for run_test.py too.
When run_test.py is run for an upgrade_.*_after.sql then, then
automatically run the corresponding uprade_.*_before.sql file first.
This is because all those upgrade_.*_after.sql files depend on the
objects created in upgrade_.*_before.sql files by definition.
Naisila Puka
Onur Tirtir
Karina
Cédric Villemain
Jelte Fennema-Nio
aykut-bozkurt
Emel Şimşek
Teja Mupparti
Ahmet Gedemenli
rajeshkt78