- get_missing_time_partition_ranges: Gets the ranges of missing partitions for the given table, interval and range unless any existing partition conflicts with calculated missing ranges.
- create_time_partitions: Creates partitions by getting range values from get_missing_time_partition_ranges.
- drop_old_time_partitions: Drops partitions of the table older than given threshold.
* Rename RecostColumnarPaths to CostColumnarPaths
* Rename RecostColumnarIndexPath to CostColumnarIndexPath
* Reorder args of CostColumnarScan to align with other two costing functions
* Not adjust index scan start-up cost
* Rename ColumnarIndexScanAddTotalCost to ColumnarIndexScanAdditionalCost
* Reflect that index scan will at least read one stripe in totalCost calculation
* Organize declarations in columnar_customscan.c
In PG 14, procedures can have OUT parameters. In Citus' procedure
delegation framework, we need to adjust the function expression
to get the outargs parameters.
Releven PG change:
e56bce5d43
It seems like there is a problem with Postgres14 with SELECT DISTINCT
COUNT. The issue is reported to Postgres and an alternative output is
added. We can remove the alternative output when the issue is fixed on
PG. If this is not an issue on PG(which is unlikely) we should consider
some other solution.
In order to avoid adding an alternative output, a function to check if a
given explan plan has a single task added. This doesn't change what the
changed tests intend to do.
Postgres changed stats expression types as of PG14. Hence we needed to
write the AppendColumnNames method. Also they removed the error on PG
side so we remove it as well.
Relevant commits on pg14:
a4d75c86bf15220df22de0a92c819ecef9db3849
388e75ad33489b77cfb9a8590a91e9287d8fb960
There was a small part in multi_partitioning that would need an
alternative output for pg14. Instead of adding an alternative for the
whole file, we created a new file, called partition_wise_join.sql and
added the alternative output for that.
When we check the exact version of the seg extension, it becomes a
problem when its version changes, such as from 1.3 to 1.4. So now we
modified the changes to check for that the version is the same in all
the cluster.
Postgres tightened up its checks for invalid GUC names hence we started
to get an alternative output for one of our tests. We add an alternative
output since the file is relatively small.
Commit on PG:
3db826bd55cd1df0dd8c3d811f8e5b936d7ba1e4
Relevant PG commit:
9e38c2bb5093ceb0c04d6315ccd8975bd17add66
fix array_cat_agg for pg upgrades
array_cat_agg now needs to take anycompatiblearray instead of anyarray
because array_cat changed its type from anyarray to anycompatiblearray
with pg14.
To handle upgrades correctly, we drop the aggregate in
citus_pg_prepare_upgrade. To be able to drop it, we first remove the
dependency from pg_depend.
Then we create the right aggregate in citus_finish_pg_upgrade and we
also add the dependency back to pg_depend.
Allow ColumnarScans to push down join quals by generating
parameterized paths. This significantly expands the utility of chunk
group filtering, making a ColumnarScan behave similar to an index when
on the inner of a nested loop join.
Also, evaluate all parameters on beginscan/rescan, which also works
for external parameters.
Fixes#4488.
Previously, we were doing `first_row_number` reservation for the first
row written to current `WriteState` but were doing `stripe_id`
reservation when flushing the `WriteState` and were inserting the
related record to `columnar.stripe` at that time as well.
However, inserting `columnar.stripe` record at flush-time is
problematic. This is because, as told in #5160, if relation has
any index-based constraints and if there are two concurrent
writes that are inserting conflicting key values for that constraint,
then postgres relies on `tableAM->fetch_index_tuple`
(=`columnar_fetch_index_tuple`) callback to return `true` when
indexAM is checking against possible constraint violations.
However, pending writes of other backends are not visible to concurrent
sessions in columnar since we were not inserting the stripe metadata
record until flushing the stripe.
With this commit, we split stripe reservation into two phases:
i) Reserve `stripe_id` and insert a "dummy" record to `columnar.stripe`
at the very same time we reserve `first_row_number`, i.e. when writing
the first row to the current `WriteState`.
ii) At flush time, do the storage level allocation and complete the
missing fields of the dummy record inserted into `columnar.stripe`
during i).
That way, any concurrent writes would be able to check against possible
constraint violations by using `SnapshotDirty` when scanning
`columnar.stripe`.
Note that `columnar_fetch_index_tuple` still wouldn't be able to fill
the output tupleslot for the requested tid but it would at least return
`true` for such index look-up's and we believe this should be sufficient
for the caller indexAM callback to make the concurrent writer block on
prior one.
That is how we fix#5160.
Only downside of reserving `stripe_id` at the same time we reserve
`first_row_number` is that now any aborted writes would also waste
some amount of `stripe_id` as in the case of `first_row_number` but
we are just wasting them one-by-one.
Considering the fact that we waste `first_row_number` by the amount
stripe row limit (=150k by default) in such cases, this shouldn't be
important at all.
Before starting to scan a columnar table, we always flush the pending
writes to disk.
However, we increment command counter after modifying metadata tables.
On the other hand, now that we _don't always use_ xact snapshot to scan
a columnar table, writes that we just flushed might not be visible to
the query that just flushed pending writes to disk since curcid of
provided snapshot would become smaller than the command id being used
when modifying metadata tables.
To give an example, before this change, below was a possible scenario
due to the changes that we made to use the correct snapshot.
```sql
CREATE TABLE t(a int, b int) USING columnar;
BEGIN;
INSERT INTO t VALUES (5, 10);
SELECT * FROM t;
┌───┬───┐
│ a │ b │
├───┼───┤
└───┴───┘
(0 rows)
SELECT * FROM t;
┌───┬────┐
│ a │ b │
├───┼────┤
│ 5 │ 10 │
└───┴────┘
(1 row)
```
The logging of the amount of ignored moves crashed when no distributed
tables existed in a cluster. This also fixes in passing that the logging
of ignored moves logs the correct number of ignored moves if there
exist multiple colocation groups and all are rebalanced at the same time.
Burak Velioglu
Onur Tirtir
Halil Ozan Akgul
Sait Talha Nisanci
Ahmet Gedemenli
Onder Kalaci
Nils Dijk
jeff-davis
Naisila Puka
Jelte Fennema
Hanefi Onaldi