-- -- Test assorted system views -- -- This test is mainly meant to provide some code coverage for the -- set-returning functions that underlie certain system views. -- The output of most of these functions is very environment-dependent, -- so our ability to test with fixed expected output is pretty limited; -- but even a trivial check of count(*) will exercise the normal code path -- through the SRF. select count(*) >= 0 as ok from pg_available_extension_versions; select count(*) >= 0 as ok from pg_available_extensions; -- The entire output of pg_backend_memory_contexts is not stable, -- we test only the existence and basic condition of TopMemoryContext. select name, ident, parent, level, total_bytes >= free_bytes from pg_backend_memory_contexts where level = 0; -- We can exercise some MemoryContext type stats functions. Most of the -- column values are too platform-dependant to display. -- Ensure stats from the bump allocator look sane. Bump isn't a commonly -- used context, but it is used in tuplesort.c, so open a cursor to keep -- the tuplesort alive long enough for us to query the context stats. begin; declare cur cursor for select left(a,10), b from (values(repeat('a', 512 * 1024),1),(repeat('b', 512),2)) v(a,b) order by v.a desc; fetch 1 from cur; select name, parent, total_bytes > 0, total_nblocks, free_bytes > 0, free_chunks from pg_backend_memory_contexts where name = 'Caller tuples'; rollback; -- At introduction, pg_config had 23 entries; it may grow select count(*) > 20 as ok from pg_config; -- We expect no cursors in this test; see also portals.sql select count(*) = 0 as ok from pg_cursors; select count(*) >= 0 as ok from pg_file_settings; -- There will surely be at least one rule, with no errors. select count(*) > 0 as ok, count(*) FILTER (WHERE error IS NOT NULL) = 0 AS no_err from pg_hba_file_rules; -- There may be no rules, and there should be no errors. select count(*) >= 0 as ok, count(*) FILTER (WHERE error IS NOT NULL) = 0 AS no_err from pg_ident_file_mappings; -- There will surely be at least one active lock select count(*) > 0 as ok from pg_locks; -- We expect no prepared statements in this test; see also prepare.sql select count(*) = 0 as ok from pg_prepared_statements; -- See also prepared_xacts.sql select count(*) >= 0 as ok from pg_prepared_xacts; -- There will surely be at least one SLRU cache select count(*) > 0 as ok from pg_stat_slru; -- There must be only one record select count(*) = 1 as ok from pg_stat_wal; -- We expect no walreceiver running in this test select count(*) = 0 as ok from pg_stat_wal_receiver; -- This is to record the prevailing planner enable_foo settings during -- a regression test run. select name, setting from pg_settings where name like 'enable%'; -- There are always wait event descriptions for various types. InjectionPoint -- may be present or absent, depending on history since last postmaster start. select type, count(*) > 0 as ok FROM pg_wait_events where type <> 'InjectionPoint' group by type order by type COLLATE "C"; -- Test that the pg_timezone_names and pg_timezone_abbrevs views are -- more-or-less working. We can't test their contents in any great detail -- without the outputs changing anytime IANA updates the underlying data, -- but it seems reasonable to expect at least one entry per major meridian. -- (At the time of writing, the actual counts are around 38 because of -- zones using fractional GMT offsets, so this is a pretty loose test.) select count(distinct utc_offset) >= 24 as ok from pg_timezone_names; select count(distinct utc_offset) >= 24 as ok from pg_timezone_abbrevs; -- Let's check the non-default timezone abbreviation sets, too set timezone_abbreviations = 'Australia'; select count(distinct utc_offset) >= 24 as ok from pg_timezone_abbrevs; set timezone_abbreviations = 'India'; select count(distinct utc_offset) >= 24 as ok from pg_timezone_abbrevs;