Refactor tests of pg_stat_statements for planning, utility and level tracking
pg_stat_statements.sql acts as the main file for all the core tests of
the module, but things have become complicated to follow over the years
as some of the sub-scenarios tested in this file rely on assumptions
that come from completely different areas of it, like a GUC setup or a
relation created previously. For example, row tracking for CTAS/COPY
was looking at the number of plans, which was not necessary, or level
tracking was mixed with checks on planner counts.
This commit refactors the tests of pg_stat_statements, by moving test
cases out of pg_stat_statements.sql into their own file, as of:
- Planning-related tests in planning.sql, for [re]plan counts and
top-level handling. These depend on pg_stat_statements.track_planning.
- Utilities in utility.sql (pg_stat_statements.track_utility), that
includes now the tests for:
-- Row tracking for CTAS, CREATE MATERIALIZED VIEW, COPY.
-- Basic utility statements.
-- SET statements.
- Tracking level, depending on pg_stat_statements.track. This part has
been looking at scenarios with DO blocks, PL functions and SQL
functions.
pg_stat_statements.sql (still named the same for now) still includes
some checks for role-level tracking and WAL generation metrics, that
ought to become independent in the long term for clarity.
While on it, this switches the order of the attributes when querying
pg_stat_statements, the query field becoming last. This makes much
easier the tracking of changes related to normalization, as queries are
the only variable-length attributes queried (unaligned mode would be one
extra choice, but that reduces the checks on the other fields).
Test scenarios and their results match exactly with what was happening
before this commit in terms of calls, number of plans, number of rows,
cached data or level tracking, so this has no effect on the coverage in
terms of what is produced by the reports in the table
pg_stat_statements. A follow-up patch will extend more the tests of
pg_stat_statements around utilities, so this split creates a foundation
for this purpose, without complicating more pg_stat_statements.sql.
Reviewed-by: Bertrand Drouvot
Discussion: https://postgr.es/m/Y+MRdEq9W9XVa2AB@paquier.xyz
2023-02-20 01:28:29 +01:00
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--
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-- Utility commands
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--
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-- These tests require track_utility to be enabled.
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SET pg_stat_statements.track_utility = TRUE;
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SELECT pg_stat_statements_reset();
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Expand regression tests of pg_stat_statements for utility queries
This commit adds more coverage for utility statements so as it is
possible to track down all the effects of query normalization done for
all the queries that use either Const or A_Const nodes, which are the
nodes where normalization makes the most sense as they apply to
constants (well, most of the time, really).
This set of queries is extracted from an analysis done while looking at
full dumps of the regression database when applying different levels of
normalization to either Const or A_Const nodes for utilities, as of a
minimal set of these, for:
- All relkinds (CREATE, ALTER, DROP)
- Policies
- Cursors
- Triggers
- Types
- Rules
- Statistics
- CALL
- Transaction statements (isolation level, options)
- EXPLAIN
- COPY
Note that pg_stat_statements is not switched yet to show any
normalization for utilities, still it improves the default coverage of
the query jumbling code (not by as much as enabling query jumbling on
the main regression test suite, though):
- queryjumblefuncs.funcs.c: 36.8% => 48.5%
- queryjumblefuncs.switch.c: 33.2% => 43.1%
Reviewed-by: Bertrand Drouvot
Discussion: https://postgr.es/m/Y+MRdEq9W9XVa2AB@paquier.xyz
2023-02-20 02:16:51 +01:00
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-- Tables, indexes, triggers
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CREATE TEMP TABLE tab_stats (a int, b char(20));
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CREATE INDEX index_stats ON tab_stats(b, (b || 'data1'), (b || 'data2')) WHERE a > 0;
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ALTER TABLE tab_stats ALTER COLUMN b set default 'a';
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ALTER TABLE tab_stats ALTER COLUMN b TYPE text USING 'data' || b;
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ALTER TABLE tab_stats ADD CONSTRAINT a_nonzero CHECK (a <> 0);
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DROP TABLE tab_stats \;
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DROP TABLE IF EXISTS tab_stats \;
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Refactor tests of pg_stat_statements for planning, utility and level tracking
pg_stat_statements.sql acts as the main file for all the core tests of
the module, but things have become complicated to follow over the years
as some of the sub-scenarios tested in this file rely on assumptions
that come from completely different areas of it, like a GUC setup or a
relation created previously. For example, row tracking for CTAS/COPY
was looking at the number of plans, which was not necessary, or level
tracking was mixed with checks on planner counts.
This commit refactors the tests of pg_stat_statements, by moving test
cases out of pg_stat_statements.sql into their own file, as of:
- Planning-related tests in planning.sql, for [re]plan counts and
top-level handling. These depend on pg_stat_statements.track_planning.
- Utilities in utility.sql (pg_stat_statements.track_utility), that
includes now the tests for:
-- Row tracking for CTAS, CREATE MATERIALIZED VIEW, COPY.
-- Basic utility statements.
-- SET statements.
- Tracking level, depending on pg_stat_statements.track. This part has
been looking at scenarios with DO blocks, PL functions and SQL
functions.
pg_stat_statements.sql (still named the same for now) still includes
some checks for role-level tracking and WAL generation metrics, that
ought to become independent in the long term for clarity.
While on it, this switches the order of the attributes when querying
pg_stat_statements, the query field becoming last. This makes much
easier the tracking of changes related to normalization, as queries are
the only variable-length attributes queried (unaligned mode would be one
extra choice, but that reduces the checks on the other fields).
Test scenarios and their results match exactly with what was happening
before this commit in terms of calls, number of plans, number of rows,
cached data or level tracking, so this has no effect on the coverage in
terms of what is produced by the reports in the table
pg_stat_statements. A follow-up patch will extend more the tests of
pg_stat_statements around utilities, so this split creates a foundation
for this purpose, without complicating more pg_stat_statements.sql.
Reviewed-by: Bertrand Drouvot
Discussion: https://postgr.es/m/Y+MRdEq9W9XVa2AB@paquier.xyz
2023-02-20 01:28:29 +01:00
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-- This DROP query uses two different strings, still they count as one entry.
|
Expand regression tests of pg_stat_statements for utility queries
This commit adds more coverage for utility statements so as it is
possible to track down all the effects of query normalization done for
all the queries that use either Const or A_Const nodes, which are the
nodes where normalization makes the most sense as they apply to
constants (well, most of the time, really).
This set of queries is extracted from an analysis done while looking at
full dumps of the regression database when applying different levels of
normalization to either Const or A_Const nodes for utilities, as of a
minimal set of these, for:
- All relkinds (CREATE, ALTER, DROP)
- Policies
- Cursors
- Triggers
- Types
- Rules
- Statistics
- CALL
- Transaction statements (isolation level, options)
- EXPLAIN
- COPY
Note that pg_stat_statements is not switched yet to show any
normalization for utilities, still it improves the default coverage of
the query jumbling code (not by as much as enabling query jumbling on
the main regression test suite, though):
- queryjumblefuncs.funcs.c: 36.8% => 48.5%
- queryjumblefuncs.switch.c: 33.2% => 43.1%
Reviewed-by: Bertrand Drouvot
Discussion: https://postgr.es/m/Y+MRdEq9W9XVa2AB@paquier.xyz
2023-02-20 02:16:51 +01:00
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DROP TABLE IF EXISTS tab_stats \;
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Drop Table If Exists tab_stats \;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- Partitions
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CREATE TABLE pt_stats (a int, b int) PARTITION BY range (a);
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CREATE TABLE pt_stats1 (a int, b int);
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ALTER TABLE pt_stats ATTACH PARTITION pt_stats1 FOR VALUES FROM (0) TO (100);
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CREATE TABLE pt_stats2 PARTITION OF pt_stats FOR VALUES FROM (100) TO (200);
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CREATE INDEX pt_stats_index ON ONLY pt_stats (a);
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CREATE INDEX pt_stats2_index ON ONLY pt_stats2 (a);
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ALTER INDEX pt_stats_index ATTACH PARTITION pt_stats2_index;
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DROP TABLE pt_stats;
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-- Views
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CREATE VIEW view_stats AS SELECT 1::int AS a, 2::int AS b;
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ALTER VIEW view_stats ALTER COLUMN a SET DEFAULT 2;
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DROP VIEW view_stats;
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-- Foreign tables
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CREATE FOREIGN DATA WRAPPER wrapper_stats;
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CREATE SERVER server_stats FOREIGN DATA WRAPPER wrapper_stats;
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CREATE FOREIGN TABLE foreign_stats (a int) SERVER server_stats;
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ALTER FOREIGN TABLE foreign_stats ADD COLUMN b integer DEFAULT 1;
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ALTER FOREIGN TABLE foreign_stats ADD CONSTRAINT b_nonzero CHECK (b <> 0);
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DROP FOREIGN TABLE foreign_stats;
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DROP SERVER server_stats;
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DROP FOREIGN DATA WRAPPER wrapper_stats;
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-- Functions
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CREATE FUNCTION func_stats(a text DEFAULT 'a_data', b text DEFAULT lower('b_data'))
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RETURNS text AS $$ SELECT $1::text || '_' || $2::text; $$ LANGUAGE SQL;
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DROP FUNCTION func_stats;
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-- Rules
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CREATE TABLE tab_rule_stats (a int, b int);
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CREATE TABLE tab_rule_stats_2 (a int, b int, c int, d int);
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CREATE RULE rules_stats AS ON INSERT TO tab_rule_stats DO INSTEAD
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INSERT INTO tab_rule_stats_2 VALUES(new.*, 1, 2);
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DROP RULE rules_stats ON tab_rule_stats;
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DROP TABLE tab_rule_stats, tab_rule_stats_2;
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-- Types
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CREATE TYPE stats_type as (f1 numeric(35, 6), f2 numeric(35, 2));
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DROP TYPE stats_type;
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-- Triggers
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CREATE TABLE trigger_tab_stats (a int, b int);
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CREATE FUNCTION trigger_func_stats () RETURNS trigger LANGUAGE plpgsql
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AS $$ BEGIN return OLD; end; $$;
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CREATE TRIGGER trigger_tab_stats
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AFTER UPDATE ON trigger_tab_stats
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FOR EACH ROW WHEN (OLD.a < 0 AND OLD.b < 1 AND true)
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EXECUTE FUNCTION trigger_func_stats();
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DROP TABLE trigger_tab_stats;
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-- Policies
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CREATE TABLE tab_policy_stats (a int, b int);
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CREATE POLICY policy_stats ON tab_policy_stats USING (a = 5) WITH CHECK (b < 5);
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DROP TABLE tab_policy_stats;
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-- Statistics
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CREATE TABLE tab_expr_stats (a int, b int);
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CREATE STATISTICS tab_expr_stats_1 (mcv) ON a, (2*a), (3*b) FROM tab_expr_stats;
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DROP TABLE tab_expr_stats;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- Transaction statements
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BEGIN;
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ABORT;
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BEGIN;
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ROLLBACK;
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-- WORK
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BEGIN WORK;
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COMMIT WORK;
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BEGIN WORK;
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ABORT WORK;
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-- TRANSACTION
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BEGIN TRANSACTION;
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COMMIT TRANSACTION;
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BEGIN TRANSACTION;
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ABORT TRANSACTION;
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-- More isolation levels
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BEGIN TRANSACTION DEFERRABLE;
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COMMIT TRANSACTION AND NO CHAIN;
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BEGIN ISOLATION LEVEL SERIALIZABLE;
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COMMIT;
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BEGIN TRANSACTION ISOLATION LEVEL SERIALIZABLE;
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COMMIT;
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-- List of A_Const nodes, same lists.
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BEGIN TRANSACTION READ ONLY, READ WRITE, DEFERRABLE, NOT DEFERRABLE;
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COMMIT;
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BEGIN TRANSACTION NOT DEFERRABLE, READ ONLY, READ WRITE, DEFERRABLE;
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COMMIT;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- EXPLAIN statements
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-- A Query is used, normalized by the query jumbling.
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EXPLAIN (costs off) SELECT 1;
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EXPLAIN (costs off) SELECT 2;
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EXPLAIN (costs off) SELECT a FROM generate_series(1,10) AS tab(a) WHERE a = 3;
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EXPLAIN (costs off) SELECT a FROM generate_series(1,10) AS tab(a) WHERE a = 7;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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-- CALL
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CREATE OR REPLACE PROCEDURE sum_one(i int) AS $$
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DECLARE
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r int;
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BEGIN
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SELECT (i + i)::int INTO r;
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END; $$ LANGUAGE plpgsql;
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CREATE OR REPLACE PROCEDURE sum_two(i int, j int) AS $$
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DECLARE
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r int;
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BEGIN
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SELECT (i + j)::int INTO r;
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END; $$ LANGUAGE plpgsql;
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SELECT pg_stat_statements_reset();
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CALL sum_one(3);
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CALL sum_one(199);
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CALL sum_two(1,1);
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CALL sum_two(1,2);
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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-- COPY
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CREATE TABLE copy_stats (a int, b int);
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SELECT pg_stat_statements_reset();
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-- Some queries with A_Const nodes.
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COPY (SELECT 1) TO STDOUT;
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COPY (SELECT 2) TO STDOUT;
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COPY (INSERT INTO copy_stats VALUES (1, 1) RETURNING *) TO STDOUT;
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COPY (INSERT INTO copy_stats VALUES (2, 2) RETURNING *) TO STDOUT;
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COPY (UPDATE copy_stats SET b = b + 1 RETURNING *) TO STDOUT;
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COPY (UPDATE copy_stats SET b = b + 2 RETURNING *) TO STDOUT;
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COPY (DELETE FROM copy_stats WHERE a = 1 RETURNING *) TO STDOUT;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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DROP TABLE copy_stats;
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SELECT pg_stat_statements_reset();
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-- CREATE TABLE AS
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-- SELECT queries are normalized, creating matching query IDs.
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CREATE TABLE ctas_stats_1 AS SELECT 1 AS a;
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DROP TABLE ctas_stats_1;
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CREATE TABLE ctas_stats_1 AS SELECT 2 AS a;
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DROP TABLE ctas_stats_1;
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CREATE TABLE ctas_stats_2 AS
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SELECT a AS col1, 2::int AS col2
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FROM generate_series(1, 10) AS tab(a) WHERE a < 5 AND a > 2;
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DROP TABLE ctas_stats_2;
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CREATE TABLE ctas_stats_2 AS
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SELECT a AS col1, 4::int AS col2
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FROM generate_series(1, 5) AS tab(a) WHERE a < 4 AND a > 1;
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DROP TABLE ctas_stats_2;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- CREATE MATERIALIZED VIEW
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-- SELECT queries are normalized, creating matching query IDs.
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CREATE MATERIALIZED VIEW matview_stats_1 AS
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SELECT a AS col1, 2::int AS col2
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FROM generate_series(1, 10) AS tab(a) WHERE a < 5 AND a > 2;
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DROP MATERIALIZED VIEW matview_stats_1;
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CREATE MATERIALIZED VIEW matview_stats_1 AS
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SELECT a AS col1, 4::int AS col2
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FROM generate_series(1, 5) AS tab(a) WHERE a < 4 AND a > 3;
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DROP MATERIALIZED VIEW matview_stats_1;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- CREATE VIEW
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CREATE VIEW view_stats_1 AS
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SELECT a AS col1, 2::int AS col2
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FROM generate_series(1, 10) AS tab(a) WHERE a < 5 AND a > 2;
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DROP VIEW view_stats_1;
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CREATE VIEW view_stats_1 AS
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SELECT a AS col1, 4::int AS col2
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FROM generate_series(1, 5) AS tab(a) WHERE a < 4 AND a > 3;
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DROP VIEW view_stats_1;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- Domains
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CREATE DOMAIN domain_stats AS int CHECK (VALUE > 0);
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ALTER DOMAIN domain_stats SET DEFAULT '3';
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ALTER DOMAIN domain_stats ADD CONSTRAINT higher_than_one CHECK (VALUE > 1);
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DROP DOMAIN domain_stats;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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-- SET statements.
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-- These use two different strings, still they count as one entry.
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SET work_mem = '1MB';
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Set work_mem = '1MB';
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SET work_mem = '2MB';
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RESET work_mem;
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SET enable_seqscan = off;
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SET enable_seqscan = on;
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RESET enable_seqscan;
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-- SET TRANSACTION ISOLATION
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BEGIN;
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SET TRANSACTION ISOLATION LEVEL READ COMMITTED;
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SET TRANSACTION ISOLATION LEVEL REPEATABLE READ;
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SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
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COMMIT;
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-- SET SESSION CHARACTERISTICS
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SET SESSION SESSION AUTHORIZATION DEFAULT;
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RESET SESSION AUTHORIZATION;
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BEGIN;
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SET LOCAL SESSION AUTHORIZATION DEFAULT;
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RESET SESSION AUTHORIZATION;
|
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|
COMMIT;
|
Refactor tests of pg_stat_statements for planning, utility and level tracking
pg_stat_statements.sql acts as the main file for all the core tests of
the module, but things have become complicated to follow over the years
as some of the sub-scenarios tested in this file rely on assumptions
that come from completely different areas of it, like a GUC setup or a
relation created previously. For example, row tracking for CTAS/COPY
was looking at the number of plans, which was not necessary, or level
tracking was mixed with checks on planner counts.
This commit refactors the tests of pg_stat_statements, by moving test
cases out of pg_stat_statements.sql into their own file, as of:
- Planning-related tests in planning.sql, for [re]plan counts and
top-level handling. These depend on pg_stat_statements.track_planning.
- Utilities in utility.sql (pg_stat_statements.track_utility), that
includes now the tests for:
-- Row tracking for CTAS, CREATE MATERIALIZED VIEW, COPY.
-- Basic utility statements.
-- SET statements.
- Tracking level, depending on pg_stat_statements.track. This part has
been looking at scenarios with DO blocks, PL functions and SQL
functions.
pg_stat_statements.sql (still named the same for now) still includes
some checks for role-level tracking and WAL generation metrics, that
ought to become independent in the long term for clarity.
While on it, this switches the order of the attributes when querying
pg_stat_statements, the query field becoming last. This makes much
easier the tracking of changes related to normalization, as queries are
the only variable-length attributes queried (unaligned mode would be one
extra choice, but that reduces the checks on the other fields).
Test scenarios and their results match exactly with what was happening
before this commit in terms of calls, number of plans, number of rows,
cached data or level tracking, so this has no effect on the coverage in
terms of what is produced by the reports in the table
pg_stat_statements. A follow-up patch will extend more the tests of
pg_stat_statements around utilities, so this split creates a foundation
for this purpose, without complicating more pg_stat_statements.sql.
Reviewed-by: Bertrand Drouvot
Discussion: https://postgr.es/m/Y+MRdEq9W9XVa2AB@paquier.xyz
2023-02-20 01:28:29 +01:00
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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SELECT pg_stat_statements_reset();
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--
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-- Track the total number of rows retrieved or affected by the utility
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-- commands of COPY, FETCH, CREATE TABLE AS, CREATE MATERIALIZED VIEW,
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-- REFRESH MATERIALIZED VIEW and SELECT INTO
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--
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CREATE TABLE pgss_ctas AS SELECT a, 'ctas' b FROM generate_series(1, 10) a;
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SELECT generate_series(1, 10) c INTO pgss_select_into;
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COPY pgss_ctas (a, b) FROM STDIN;
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11 copy
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12 copy
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13 copy
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\.
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CREATE MATERIALIZED VIEW pgss_matv AS SELECT * FROM pgss_ctas;
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REFRESH MATERIALIZED VIEW pgss_matv;
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BEGIN;
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DECLARE pgss_cursor CURSOR FOR SELECT * FROM pgss_matv;
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FETCH NEXT pgss_cursor;
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FETCH FORWARD 5 pgss_cursor;
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FETCH FORWARD ALL pgss_cursor;
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COMMIT;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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DROP MATERIALIZED VIEW pgss_matv;
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DROP TABLE pgss_ctas;
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DROP TABLE pgss_select_into;
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SELECT pg_stat_statements_reset();
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-- SET statements.
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-- These use two different strings, still they count as one entry.
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SET work_mem = '1MB';
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Set work_mem = '1MB';
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SET work_mem = '2MB';
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RESET work_mem;
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SET enable_seqscan = off;
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SET enable_seqscan = on;
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RESET enable_seqscan;
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SELECT calls, rows, query FROM pg_stat_statements ORDER BY query COLLATE "C";
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2023-03-07 00:58:13 +01:00
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SELECT pg_stat_statements_reset();
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