Current Path : /usr/opt/mysql57/mysql-test/include/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/opt/mysql57/mysql-test/include/check_ftwrl_compatible.inc |
# # SUMMARY # Check that a statement is compatible with FLUSH TABLES WITH READ LOCK. # # PARAMETERS # $con_aux1 Name of the 1st aux connection to be used by this script. # $con_aux2 Name of the 2nd aux connection to be used by this script. # $statement The statement to be checked. # $cleanup_stmt The statement to be run in order to revert effects of # the statement to be checked. # $skip_3rd_chk Skip the 3rd stage of checking. The purpose of the third # stage is to check that metadata locks taken by this # statement are compatible with metadata locks taken # by FTWRL. # # EXAMPLE # flush_read_lock.test # --disable_result_log --disable_query_log # Reset DEBUG_SYNC facility for safety. set debug_sync= "RESET"; # # First, check that the statement can be run under FTWRL. # flush tables with read lock; --disable_abort_on_error --eval $statement --enable_abort_on_error let $err= $mysql_errno; if (!$err) { --echo Success: Was able to run '$statement' under FTWRL. unlock tables; if ($cleanup_stmt) { --eval $cleanup_stmt; } } if ($err) { --echo Error: Wasn't able to run '$statement' under FTWRL! unlock tables; } # # Then check that this statement won't be blocked by FTWRL # that is active in another connection. # connection $con_aux1; flush tables with read lock; connection default; --send_eval $statement; connection $con_aux1; --enable_result_log --enable_query_log let $wait_condition= select count(*) = 0 from information_schema.processlist where info = "$statement"; --source include/wait_condition.inc --disable_result_log --disable_query_log if ($success) { --echo Success: Was able to run '$statement' with FTWRL active in another connection. connection default; # Apparently statement was successfully executed and so # was not blocked by FTWRL. # To be safe against wait_condition.inc succeeding due to # races let us first reap the statement being checked to # ensure that it has been successfully executed. --reap connection $con_aux1; unlock tables; connection default; } if (!$success) { --echo Error: Wasn't able to run '$statement' with FTWRL active in another connection! unlock tables; connection default; --reap } if ($cleanup_stmt) { --eval $cleanup_stmt; } if (!$skip_3rd_check) { # # Finally, let us check that FTWRL will succeed if this statement # is active but has already closed its tables. # connection default; set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; --send_eval $statement; connection $con_aux1; set debug_sync="now WAIT_FOR parked"; --send flush tables with read lock connection $con_aux2; --enable_result_log --enable_query_log let $wait_condition= select count(*) = 0 from information_schema.processlist where info = "flush tables with read lock"; --source include/wait_condition.inc --disable_result_log --disable_query_log if ($success) { --echo Success: Was able to run FTWRL while '$statement' was active in another connection. connection $con_aux1; # Apparently FTWRL was successfully executed and so was not blocked by # the statement being checked. To be safe against wait_condition.inc # succeeding due to races let us first reap the FTWRL to ensure that it # has been successfully executed. --reap unlock tables; set debug_sync="now SIGNAL go"; connection default; --reap } if (!$success) { --echo Error: Wasn't able to run FTWRL while '$statement' was active in another connection! set debug_sync="now SIGNAL go"; connection default; --reap connection $con_aux1; --reap unlock tables; connection default; } set debug_sync= "RESET"; if ($cleanup_stmt) { --eval $cleanup_stmt; } } --enable_result_log --enable_query_log