# Test decoding of two-phase transactions during the build of a consistent snapshot. setup { DROP TABLE IF EXISTS do_write; CREATE TABLE do_write(id serial primary key); } teardown { DROP TABLE do_write; SELECT 'stop' FROM pg_drop_replication_slot('isolation_slot'); } session "s1" setup { SET synchronous_commit=on; } step "s1init" {SELECT 'init' FROM pg_create_logical_replication_slot('isolation_slot', 'test_decoding', false, true);} step "s1start" {SELECT data FROM pg_logical_slot_get_changes('isolation_slot', NULL, NULL, 'include-xids', 'false', 'skip-empty-xacts', '1');} step "s1insert" { INSERT INTO do_write DEFAULT VALUES; } session "s2" setup { SET synchronous_commit=on; } step "s2b" { BEGIN; } step "s2txid" { SELECT pg_current_xact_id() IS NULL; } step "s2c" { COMMIT; } step "s2insert" { INSERT INTO do_write DEFAULT VALUES; } step "s2p" { PREPARE TRANSACTION 'test1'; } step "s2cp" { COMMIT PREPARED 'test1'; } session "s3" setup { SET synchronous_commit=on; } step "s3b" { BEGIN; } step "s3txid" { SELECT pg_current_xact_id() IS NULL; } step "s3c" { COMMIT; } # Force building of a consistent snapshot between a PREPARE and COMMIT PREPARED # and ensure that the whole transaction is decoded at the time of COMMIT # PREPARED. # # 's1init' step will initialize the replication slot and cause logical decoding # to wait in initial starting point till the in-progress transaction in s2 is # committed. 's2c' step will cause logical decoding to go to initial consistent # point and wait for in-progress transaction s3 to commit. 's3c' step will cause # logical decoding to find a consistent point while the transaction s2 is # prepared and not yet committed. This will cause the first s1start to skip # prepared transaction s2 as that will be before consistent point. The second # s1start will allow decoding of skipped prepare along with commit prepared done # as part of s2cp. permutation "s2b" "s2txid" "s1init" "s3b" "s3txid" "s2c" "s2b" "s2insert" "s2p" "s3c" "s1insert" "s1start" "s2cp" "s1start"