# Tests dedicated to two-phase commit in recovery use strict; use warnings; use PostgresNode; use TestLib; use Test::More tests => 24; my $psql_out = ''; my $psql_rc = ''; sub configure_and_reload { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($node, $parameter) = @_; my $name = $node->name; $node->append_conf( 'postgresql.conf', qq( $parameter )); $node->psql('postgres', "SELECT pg_reload_conf()", stdout => \$psql_out); is($psql_out, 't', "reload node $name with $parameter"); return; } # Set up two nodes, which will alternately be master and replication standby. # Setup london node my $node_london = get_new_node("london"); $node_london->init(allows_streaming => 1); $node_london->append_conf( 'postgresql.conf', qq( max_prepared_transactions = 10 log_checkpoints = true )); $node_london->start; $node_london->backup('london_backup'); # Setup paris node my $node_paris = get_new_node('paris'); $node_paris->init_from_backup($node_london, 'london_backup', has_streaming => 1); $node_paris->start; # Switch to synchronous replication in both directions configure_and_reload($node_london, "synchronous_standby_names = 'paris'"); configure_and_reload($node_paris, "synchronous_standby_names = 'london'"); # Set up nonce names for current master and standby nodes note "Initially, london is master and paris is standby"; my ($cur_master, $cur_standby) = ($node_london, $node_paris); my $cur_master_name = $cur_master->name; # Create table we'll use in the test transactions $cur_master->psql('postgres', "CREATE TABLE t_009_tbl (id int, msg text)"); ############################################################################### # Check that we can commit and abort transaction after soft restart. # Here checkpoint happens before shutdown and no WAL replay will occur at next # startup. In this case postgres re-creates shared-memory state from twophase # files. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (1, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (2, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_1'; BEGIN; INSERT INTO t_009_tbl VALUES (3, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (4, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_2';"); $cur_master->stop; $cur_master->start; $psql_rc = $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_1'"); is($psql_rc, '0', 'Commit prepared transaction after restart'); $psql_rc = $cur_master->psql('postgres', "ROLLBACK PREPARED 'xact_009_2'"); is($psql_rc, '0', 'Rollback prepared transaction after restart'); ############################################################################### # Check that we can commit and abort after a hard restart. # At next startup, WAL replay will re-create shared memory state for prepared # transaction using dedicated WAL records. ############################################################################### $cur_master->psql( 'postgres', " CHECKPOINT; BEGIN; INSERT INTO t_009_tbl VALUES (5, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (6, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_3'; BEGIN; INSERT INTO t_009_tbl VALUES (7, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (8, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_4';"); $cur_master->teardown_node; $cur_master->start; $psql_rc = $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_3'"); is($psql_rc, '0', 'Commit prepared transaction after teardown'); $psql_rc = $cur_master->psql('postgres', "ROLLBACK PREPARED 'xact_009_4'"); is($psql_rc, '0', 'Rollback prepared transaction after teardown'); ############################################################################### # Check that WAL replay can handle several transactions with same GID name. ############################################################################### $cur_master->psql( 'postgres', " CHECKPOINT; BEGIN; INSERT INTO t_009_tbl VALUES (9, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (10, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_5'; COMMIT PREPARED 'xact_009_5'; BEGIN; INSERT INTO t_009_tbl VALUES (11, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (12, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_5';"); $cur_master->teardown_node; $cur_master->start; $psql_rc = $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_5'"); is($psql_rc, '0', 'Replay several transactions with same GID'); ############################################################################### # Check that WAL replay cleans up its shared memory state and releases locks # while replaying transaction commits. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (13, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (14, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_6'; COMMIT PREPARED 'xact_009_6';"); $cur_master->teardown_node; $cur_master->start; $psql_rc = $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (15, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (16, 'issued to ${cur_master_name}'); -- This prepare can fail due to conflicting GID or locks conflicts if -- replay did not fully cleanup its state on previous commit. PREPARE TRANSACTION 'xact_009_7';"); is($psql_rc, '0', "Cleanup of shared memory state for 2PC commit"); $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_7'"); ############################################################################### # Check that WAL replay will cleanup its shared memory state on running standby. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (17, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (18, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_8'; COMMIT PREPARED 'xact_009_8';"); $cur_standby->psql( 'postgres', "SELECT count(*) FROM pg_prepared_xacts", stdout => \$psql_out); is($psql_out, '0', "Cleanup of shared memory state on running standby without checkpoint"); ############################################################################### # Same as in previous case, but let's force checkpoint on standby between # prepare and commit to use on-disk twophase files. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (19, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (20, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_9';"); $cur_standby->psql('postgres', "CHECKPOINT"); $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_9'"); $cur_standby->psql( 'postgres', "SELECT count(*) FROM pg_prepared_xacts", stdout => \$psql_out); is($psql_out, '0', "Cleanup of shared memory state on running standby after checkpoint"); ############################################################################### # Check that prepared transactions can be committed on promoted standby. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (21, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (22, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_10';"); $cur_master->teardown_node; $cur_standby->promote; # change roles note "Now paris is master and london is standby"; ($cur_master, $cur_standby) = ($node_paris, $node_london); $cur_master_name = $cur_master->name; # because london is not running at this point, we can't use syncrep commit # on this command $psql_rc = $cur_master->psql('postgres', "SET synchronous_commit = off; COMMIT PREPARED 'xact_009_10'"); is($psql_rc, '0', "Restore of prepared transaction on promoted standby"); # restart old master as new standby $cur_standby->enable_streaming($cur_master); $cur_standby->start; ############################################################################### # Check that prepared transactions are replayed after soft restart of standby # while master is down. Since standby knows that master is down it uses a # different code path on startup to ensure that the status of transactions is # consistent. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (23, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (24, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_11';"); $cur_master->stop; $cur_standby->restart; $cur_standby->promote; # change roles note "Now london is master and paris is standby"; ($cur_master, $cur_standby) = ($node_london, $node_paris); $cur_master_name = $cur_master->name; $cur_master->psql( 'postgres', "SELECT count(*) FROM pg_prepared_xacts", stdout => \$psql_out); is($psql_out, '1', "Restore prepared transactions from files with master down"); # restart old master as new standby $cur_standby->enable_streaming($cur_master); $cur_standby->start; $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_11'"); ############################################################################### # Check that prepared transactions are correctly replayed after standby hard # restart while master is down. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; INSERT INTO t_009_tbl VALUES (25, 'issued to ${cur_master_name}'); SAVEPOINT s1; INSERT INTO t_009_tbl VALUES (26, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_12'; "); $cur_master->stop; $cur_standby->teardown_node; $cur_standby->start; $cur_standby->promote; # change roles note "Now paris is master and london is standby"; ($cur_master, $cur_standby) = ($node_paris, $node_london); $cur_master_name = $cur_master->name; $cur_master->psql( 'postgres', "SELECT count(*) FROM pg_prepared_xacts", stdout => \$psql_out); is($psql_out, '1', "Restore prepared transactions from records with master down"); # restart old master as new standby $cur_standby->enable_streaming($cur_master); $cur_standby->start; $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_12'"); ############################################################################### # Check for a lock conflict between prepared transaction with DDL inside and # replay of XLOG_STANDBY_LOCK wal record. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; CREATE TABLE t_009_tbl2 (id int, msg text); SAVEPOINT s1; INSERT INTO t_009_tbl2 VALUES (27, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_13'; -- checkpoint will issue XLOG_STANDBY_LOCK that can conflict with lock -- held by 'create table' statement CHECKPOINT; COMMIT PREPARED 'xact_009_13';"); # Ensure that last transaction is replayed on standby. my $cur_master_lsn = $cur_master->safe_psql('postgres', "SELECT pg_current_wal_lsn()"); my $caughtup_query = "SELECT '$cur_master_lsn'::pg_lsn <= pg_last_wal_replay_lsn()"; $cur_standby->poll_query_until('postgres', $caughtup_query) or die "Timed out while waiting for standby to catch up"; $cur_standby->psql( 'postgres', "SELECT count(*) FROM t_009_tbl2", stdout => \$psql_out); is($psql_out, '1', "Replay prepared transaction with DDL"); ############################################################################### # Check recovery of prepared transaction with DDL inside after a hard restart # of the master. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; CREATE TABLE t_009_tbl3 (id int, msg text); SAVEPOINT s1; INSERT INTO t_009_tbl3 VALUES (28, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_14'; BEGIN; CREATE TABLE t_009_tbl4 (id int, msg text); SAVEPOINT s1; INSERT INTO t_009_tbl4 VALUES (29, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_15';"); $cur_master->teardown_node; $cur_master->start; $psql_rc = $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_14'"); is($psql_rc, '0', 'Commit prepared transaction after teardown'); $psql_rc = $cur_master->psql('postgres', "ROLLBACK PREPARED 'xact_009_15'"); is($psql_rc, '0', 'Rollback prepared transaction after teardown'); ############################################################################### # Check recovery of prepared transaction with DDL inside after a soft restart # of the master. ############################################################################### $cur_master->psql( 'postgres', " BEGIN; CREATE TABLE t_009_tbl5 (id int, msg text); SAVEPOINT s1; INSERT INTO t_009_tbl5 VALUES (30, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_16'; BEGIN; CREATE TABLE t_009_tbl6 (id int, msg text); SAVEPOINT s1; INSERT INTO t_009_tbl6 VALUES (31, 'issued to ${cur_master_name}'); PREPARE TRANSACTION 'xact_009_17';"); $cur_master->stop; $cur_master->start; $psql_rc = $cur_master->psql('postgres', "COMMIT PREPARED 'xact_009_16'"); is($psql_rc, '0', 'Commit prepared transaction after restart'); $psql_rc = $cur_master->psql('postgres', "ROLLBACK PREPARED 'xact_009_17'"); is($psql_rc, '0', 'Rollback prepared transaction after restart'); ############################################################################### # Verify expected data appears on both servers. ############################################################################### $cur_master->psql( 'postgres', "SELECT count(*) FROM pg_prepared_xacts", stdout => \$psql_out); is($psql_out, '0', "No uncommitted prepared transactions on master"); $cur_master->psql( 'postgres', "SELECT * FROM t_009_tbl ORDER BY id", stdout => \$psql_out); is( $psql_out, qq{1|issued to london 2|issued to london 5|issued to london 6|issued to london 9|issued to london 10|issued to london 11|issued to london 12|issued to london 13|issued to london 14|issued to london 15|issued to london 16|issued to london 17|issued to london 18|issued to london 19|issued to london 20|issued to london 21|issued to london 22|issued to london 23|issued to paris 24|issued to paris 25|issued to london 26|issued to london}, "Check expected t_009_tbl data on master"); $cur_master->psql( 'postgres', "SELECT * FROM t_009_tbl2", stdout => \$psql_out); is( $psql_out, qq{27|issued to paris}, "Check expected t_009_tbl2 data on master"); $cur_standby->psql( 'postgres', "SELECT count(*) FROM pg_prepared_xacts", stdout => \$psql_out); is($psql_out, '0', "No uncommitted prepared transactions on standby"); $cur_standby->psql( 'postgres', "SELECT * FROM t_009_tbl ORDER BY id", stdout => \$psql_out); is( $psql_out, qq{1|issued to london 2|issued to london 5|issued to london 6|issued to london 9|issued to london 10|issued to london 11|issued to london 12|issued to london 13|issued to london 14|issued to london 15|issued to london 16|issued to london 17|issued to london 18|issued to london 19|issued to london 20|issued to london 21|issued to london 22|issued to london 23|issued to paris 24|issued to paris 25|issued to london 26|issued to london}, "Check expected t_009_tbl data on standby"); $cur_standby->psql( 'postgres', "SELECT * FROM t_009_tbl2", stdout => \$psql_out); is( $psql_out, qq{27|issued to paris}, "Check expected t_009_tbl2 data on standby");