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RESET MASTER; # A first event in a new binlog has commit parent timestamp as zero # and itself as one. CREATE TABLE t1 (a int) ENGINE= innodb; --let $binlog_file= master-bin.000001 --let $logical_timestamps= 0 1 --source include/assert_logical_timestamps.inc # A next transaction increments either counter --let $binlog_position= query_get_value(SHOW MASTER STATUS, Position, 1) INSERT INTO t1 SET a=1; --let $logical_timestamps= 1 2 --source include/assert_logical_timestamps.inc # Transaction's last committed timestamp is computed at its last # being executed query. # Due to this two last logged transactions in the following sequence # must have the same last comitted timestamp. connect (one,localhost,root,,test); connect (two,localhost,root,,test); connect (three,localhost,root,,test); --let $rpl_connection_name=one --source include/rpl_connection.inc BEGIN; INSERT INTO t1 SET a=1; --let $rpl_connection_name=two --source include/rpl_connection.inc # (transaction timestamp,last committed) (2,3) BEGIN; INSERT INTO t1 SET a=2; COMMIT; --let $rpl_connection_name=one --source include/rpl_connection.inc INSERT INTO t1 SET a=1; --let $rpl_connection_name=two --source include/rpl_connection.inc --let $binlog_position= query_get_value(SHOW MASTER STATUS, Position, 1) # (3,4) BEGIN; INSERT INTO t1 SET a=2; COMMIT; --let $logical_timestamps= 3 4 --source include/assert_logical_timestamps.inc --let $rpl_connection_name=one --source include/rpl_connection.inc # (3,5) --let $binlog_position= query_get_value(SHOW MASTER STATUS, Position, 1) COMMIT; --let $logical_timestamps= 3 5 --source include/assert_logical_timestamps.inc # Two independent and concurrent (autoincrement) transaction will either # have the same commit parent as the last committed of so far, or # one of them will be such to another. --let $binlog_position= query_get_value(SHOW MASTER STATUS, Position, 1) --let $rpl_connection_name=one --source include/rpl_connection.inc --send INSERT INTO t1 SET a=1 --let $rpl_connection_name=two --source include/rpl_connection.inc --send INSERT INTO t1 SET a=2 --let $rpl_connection_name=one --source include/rpl_connection.inc --reap --let $rpl_connection_name=two --source include/rpl_connection.inc --reap --let $logical_timestamps= 5 6;[56] 7 --source include/assert_logical_timestamps.inc # # Testing logging of transaction that commits after binlog rotation. # The last committed of "rotated" transaction # must be set to the uninitialized (0) value. # --let $rpl_connection_name=one --source include/rpl_connection.inc RESET MASTER; INSERT INTO t1 SET a=1; --let $rpl_connection_name=two --source include/rpl_connection.inc BEGIN; INSERT INTO t1 SET a=2; --let $rpl_connection_name=one --source include/rpl_connection.inc BEGIN; INSERT INTO t1 SET a=3; --let $rpl_connection_name=two --source include/rpl_connection.inc COMMIT; # Not "rotated" 2nd transaction is logged following the regular rule. # Its timestamp pair of (1,2) must be found. --let $binlog_position= --let $logical_timestamps= 0 1;1 2 --source include/assert_logical_timestamps.inc FLUSH LOGS; --let $rpl_connection_name=one --source include/rpl_connection.inc COMMIT; # Now the proof: the "rotated" transaction is logged with uninitialized last committed # as expected. Its timestamp pair of (0,1) must be found. --let $binlog_file= master-bin.000002 --let $logical_timestamps= 0 1 --source include/assert_logical_timestamps.inc # # Testing logging of transaction that commits after RESET MASTER. # The last committed of "rotated" transactions # must be set to the uninitialized (0) value. # --let $rpl_connection_name=one --source include/rpl_connection.inc RESET MASTER; INSERT INTO t1 SET a=1; --let $rpl_connection_name=two --source include/rpl_connection.inc BEGIN; INSERT INTO t1 SET a=2; --let $rpl_connection_name=one --source include/rpl_connection.inc BEGIN; INSERT INTO t1 SET a=3; --let $rpl_connection_name=three --source include/rpl_connection.inc BEGIN; INSERT INTO t1 SET a=4; --let $rpl_connection_name=two --source include/rpl_connection.inc COMMIT; # Not "rotated" 2nd transaction is logged following the regular rule. # Its timestamp pair of (1,2) must be found. --let $binlog_file= master-bin.000001 --let $logical_timestamps= 0 1;1 2 --source include/assert_logical_timestamps.inc RESET MASTER; --let $rpl_connection_name=one --source include/rpl_connection.inc COMMIT; --let $rpl_connection_name=three --source include/rpl_connection.inc COMMIT; # Now the proof: the "rotated" transactions are logged with uninitialized last committed # as expected. Its timestamp pair of (0,[12]) must be found. --let $logical_timestamps= 0 1;0 2 --source include/assert_logical_timestamps.inc # # Cleanup # DROP TABLE t1; # # Testing DROP of multiple tables logging when a query produces few groups # into binary log. # CREATE TABLE t1 (a int) ENGINE= innodb; CREATE TABLE tm (a int) ENGINE= MyISAM; RESET MASTER; CREATE TEMPORARY TABLE ttm1 (a INT) ENGINE=MyISAM; CREATE TEMPORARY TABLE tti1 (a INT) ENGINE=Innodb; # The query is logged in three parts where only # the first one is sequenced. # Such logging is caused by just one cache is used for logging. --echo *** The query is logged in three parts. DROP TABLE tm,t1,ttm1,tti1; --let $logical_timestamps= 0 1;1 2;2 3;3 4;4 5 --source include/assert_logical_timestamps.inc # # The final grep invocation should be done by the top level part. # It may produce results sensitive to the test environment (e.g GTID). #