Current Path : /usr/opt/mysql57/mysql-test/r/ |
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/r/flush_read_lock.result |
# FTWRL takes two global metadata locks -- a global shared # metadata lock and the commit blocker lock. # The first lock prevents DDL from taking place. # Let's say that all DDL statements that take metadata # locks form class #1 -- incompatible with FTWRL because # take incompatible MDL table locks. # The first global lock doesn't, however, prevent standalone # COMMITs (or implicit COMMITs) from taking place, since a # COMMIT doesn't take table locks. It doesn't prevent # DDL on temporary tables either, since they don't # take any table locks either. # Most DDL statements do not perform an implicit commit # if operate on a temporary table. Examples are CREATE # TEMPORARY TABLE and DROP TEMPORARY TABLE. # Thus, these DDL statements can go through in presence # of FTWRL. This is class #2 -- compatible because # do not take incompatible MDL locks and do not issue # implicit commit.. # (Although these operations do not commit, their effects # cannot be rolled back either.) # ALTER TABLE, ANALYZE, OPTIMIZE and some others always # issue an implicit commit, even if its argument is a # temporary table. # *Howewer* an implicit commit is a no-op if all engines # used since the start of transactiona are non- # transactional. Thus, for non-transactional engines, # these operations are not blocked by FTWRL. # This is class #3 -- compatible because do not take # MDL table locks and are non-transactional. # On the contrary, for transactional engines, there # is always a commit, regardless of whether a table # is temporary or not. Thus, for example, ALTER TABLE # for a transactional engine will wait for FTWRL, # even if the subject table is temporary. # Thus ALTER TABLE <temporary> is incompatible # with FTWRL. This is class #4 -- incompatible # becuase issue implicit COMMIT which is not a no-op. # Finally, there are administrative statements (such as # RESET SLAVE) that do not take any locks and do not # issue COMMIT. # This is class #5. # The goal of this coverage is to test statements # of all classes. # @todo: documents the effects of @@autocommit, # DML and temporary transactional tables. # Use MyISAM engine for the most of the tables # used in this test in order to be able to # check that DDL statements on temporary tables # are compatible with FTRWL. drop tables if exists t1_base, t2_base, t3_trans; drop tables if exists tm_base, tm_base_temp; drop database if exists mysqltest1; # We're going to test ALTER DATABASE UPGRADE drop database if exists `#mysql50#mysqltest-2`; drop procedure if exists p1; drop function if exists f1; drop view if exists v1; drop procedure if exists p2; drop function if exists f2_base; drop function if exists f2_temp; drop event if exists e1; drop event if exists e2; create table t1_base(i int) engine=myisam; create table t2_base(j int) engine=myisam; create table t3_trans(i int) engine=innodb; create temporary table t1_temp(i int) engine=myisam; create temporary table t2_temp(j int) engine=myisam; create temporary table t3_temp_trans(i int) engine=innodb; create database mysqltest1; create database `#mysql50#mysqltest-2`; create procedure p1() begin end; create function f1() returns int return 0; create view v1 as select 1 as i; create procedure p2(i int) begin end; create function f2_base() returns int begin insert into t1_base values (1); return 0; end| create function f2_temp() returns int begin insert into t1_temp values (1); return 0; end| create event e1 on schedule every 1 minute do begin end; # # Test compatibility of FLUSH TABLES WITH READ LOCK # with various statements. # # These tests don't cover some classes of statements: # - Replication-related - CHANGE MASTER TO, START/STOP SLAVE and etc # (all compatible with FTWRL). # - Plugin-related - INSTALL/UNINSTALL (incompatible with FTWRL, # require plugin support). # # 1) ALTER variants. # # 1.1) ALTER TABLE # # 1.1.a) For base table should be incompatible with FTWRL. # Success: Was not able to run 'alter table t1_base add column c1 int' under FTWRL. Success: 'alter table t1_base add column c1 int' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter table t1_base add column c1 int' is active in another connection. # # 1.1.b) For a temporary table should be compatible with FTWRL. # Success: Was able to run 'alter table t1_temp add column c1 int' under FTWRL. Success: Was able to run 'alter table t1_temp add column c1 int' with FTWRL active in another connection. Success: Was able to run FTWRL while 'alter table t1_temp add column c1 int' was active in another connection. # # 1.2) ALTER DATABASE should be incompatible with FTWRL. # Success: Was not able to run 'alter database mysqltest1 default character set utf8' under FTWRL. Success: 'alter database mysqltest1 default character set utf8' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter database mysqltest1 default character set utf8' is active in another connection. # # 1.3) ALTER DATABASE UPGRADE DATA DIRECTORY NAME should be # incompatible with FTWRL. # Success: Was not able to run 'alter database `#mysql50#mysqltest-2` upgrade data directory name' under FTWRL. Success: 'alter database `#mysql50#mysqltest-2` upgrade data directory name' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter database `#mysql50#mysqltest-2` upgrade data directory name' is active in another connection. # # 1.4) ALTER PROCEDURE should be incompatible with FTWRL. # Success: Was not able to run 'alter procedure p1 comment 'a'' under FTWRL. Success: 'alter procedure p1 comment 'a'' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter procedure p1 comment 'a'' is active in another connection. # # 1.5) ALTER FUNCTION should be incompatible with FTWRL. # Success: Was not able to run 'alter function f1 comment 'a'' under FTWRL. Success: 'alter function f1 comment 'a'' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter function f1 comment 'a'' is active in another connection. # # 1.6) ALTER VIEW should be incompatible with FTWRL. # Success: Was not able to run 'alter view v1 as select 2 as j' under FTWRL. Success: 'alter view v1 as select 2 as j' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter view v1 as select 2 as j' is active in another connection. # # 1.7) ALTER EVENT should be incompatible with FTWRL. # Success: Was not able to run 'alter event e1 comment 'test'' under FTWRL. Success: 'alter event e1 comment 'test'' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter event e1 comment 'test'' is active in another connection. # # 1.x) The rest of ALTER statements (ALTER TABLESPACE, # ALTER LOGFILE GROUP and ALTER SERVER) are too # special to be tested here. # # # 2) ANALYZE TABLE statement is compatible with FTWRL. # See Bug#43336 ANALYZE and OPTIMIZE do not honour # --read-only for a discussion why. # Success: Was able to run 'analyze table t1_base' under FTWRL. Success: Was able to run 'analyze table t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'analyze table t1_base' was active in another connection. # # 3) BEGIN, ROLLBACK and COMMIT statements. # BEGIN and ROLLBACK are compatible with FTWRL. # COMMIT is not. # # We need a special test for these statements as # FTWRL commits a transaction and because COMMIT # is handled in a special way. flush tables with read lock; begin; # ROLLBACK is allowed under FTWRL although there # no much sense in it. FTWRL commits any previous # changes and doesn't allows any DML after it. # So such a ROLLBACK is always a no-op. rollback; # Although COMMIT is incompatible with FTWRL in # other senses it is still allowed under FTWRL. # This fact relied upon by some versions of # innobackup tool. # Similarly to ROLLBACK it is a no-op in this situation. commit; unlock tables; # Check that BEGIN/ROLLBACK are not blocked and # COMMIT is blocked by active FTWRL in another # connection. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. begin; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # Do some work so ROLLBACK is not a no-op. insert into t3_trans values (1); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. rollback; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. begin; # Do some work so COMMIT is not a no-op. insert into t3_trans values (1); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. # Send: commit; # Switching to connection 'con1'. # Wait until COMMIT is blocked. unlock tables; # Switching to connection 'default'. # Reap COMMIT. delete from t3_trans; # # Check that COMMIT blocks FTWRL in another connection. begin; insert into t3_trans values (1); set debug_sync='RESET'; set debug_sync='ha_commit_trans_after_acquire_commit_lock SIGNAL parked WAIT_FOR go'; commit; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; # Switching to connection 'con2'. # Wait until FTWRL is blocked. set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap COMMIT. # Switching to connection 'con1'. # Reap FTWRL. unlock tables; # Switching to connection 'default'. delete from t3_trans; set debug_sync= "RESET"; # We don't run similar test for BEGIN and ROLLBACK as # they release metadata locks in non-standard place. # # 4) BINLOG statement should be incompatible with FTWRL. # # # Provide format description BINLOG statement first. BINLOG ' MfmqTA8BAAAAZwAAAGsAAAABAAQANS41LjctbTMtZGVidWctbG9nAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAx+apMEzgNAAgAEgAEBAQEEgAAVAAEGggAAAAICAgCAA== '; # Now test compatibility for BINLOG statement which is # equivalent to INSERT INTO t1_base VALUES (1). # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was not able to run 'BINLOG ' MfmqTBMBAAAALgAAAN0AAAAAACgAAAAAAAEABHRlc3QAB3QxX2Jhc2UAAQMAAQ== MfmqTBcBAAAAIgAAAP8AAAAAACgAAAAAAAEAAf/+AQAAAA== '' under FTWRL. Success: 'BINLOG ' MfmqTBMBAAAALgAAAN0AAAAAACgAAAAAAAEABHRlc3QAB3QxX2Jhc2UAAQMAAQ== MfmqTBcBAAAAIgAAAP8AAAAAACgAAAAAAAEAAf/+AQAAAA== '' is blocked by FTWRL active in another connection. # # 5) CALL statement. This statement uses resources in two # ways: through expressions used as parameters and through # sub-statements. This test covers only usage through # parameters as sub-statements do locking individually. # # 5.a) In simple cases a parameter expression should be # compatible with FTWRL. # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'call p2((select count(*) from t1_base))' under FTWRL. Success: Was able to run 'call p2((select count(*) from t1_base))' with FTWRL active in another connection. # # 5.b) In case when an expression uses function which updates # base tables CALL should be incompatible with FTWRL. # # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was not able to run 'call p2(f2_base())' under FTWRL. Success: 'call p2(f2_base())' is blocked by FTWRL active in another connection. # # 5.c) If function used as argument updates temporary tables # CALL statement should be compatible with FTWRL. # # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'call p2(f2_temp())' under FTWRL. Success: Was able to run 'call p2(f2_temp())' with FTWRL active in another connection. # # 6) CHECK TABLE statement is compatible with FTWRL. # Success: Was able to run 'check table t1_base' under FTWRL. Success: Was able to run 'check table t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'check table t1_base' was active in another connection. # # 7) CHECKSUM TABLE statement is compatible with FTWRL. # Success: Was able to run 'checksum table t1_base' under FTWRL. Success: Was able to run 'checksum table t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'checksum table t1_base' was active in another connection. # # 8) CREATE variants. # # 8.1) CREATE TABLE statement. # # 8.1.a) CREATE TABLE is incompatible with FTWRL when # base table is created. Success: Was not able to run 'create table t3_base(i int)' under FTWRL. Success: 'create table t3_base(i int)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create table t3_base(i int)' is active in another connection. # 8.1.b) CREATE TABLE is compatible with FTWRL when # temporary table is created. Success: Was able to run 'create temporary table t3_temp(i int)' under FTWRL. Success: Was able to run 'create temporary table t3_temp(i int)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'create temporary table t3_temp(i int)' was active in another connection. # 8.1.c) CREATE TABLE LIKE is incompatible with FTWRL when # base table is created. Success: Was not able to run 'create table t3_base like t1_temp' under FTWRL. Success: 'create table t3_base like t1_temp' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create table t3_base like t1_temp' is active in another connection. # 8.1.d) CREATE TABLE LIKE is compatible with FTWRL when # temporary table is created. Success: Was able to run 'create temporary table t3_temp like t1_base' under FTWRL. Success: Was able to run 'create temporary table t3_temp like t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'create temporary table t3_temp like t1_base' was active in another connection. # 8.1.e) CREATE TABLE SELECT is incompatible with FTWRL when # base table is created. Success: Was not able to run 'create table t3_base select 1 as i' under FTWRL. Success: 'create table t3_base select 1 as i' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create table t3_base select 1 as i' is active in another connection. # 8.1.f) CREATE TABLE SELECT is compatible with FTWRL when # temporary table is created. Success: Was able to run 'create temporary table t3_temp select 1 as i' under FTWRL. Success: Was able to run 'create temporary table t3_temp select 1 as i' with FTWRL active in another connection. Success: Was able to run FTWRL while 'create temporary table t3_temp select 1 as i' was active in another connection. # 8.2) CREATE INDEX statement. # # 8.2.a) CREATE INDEX is incompatible with FTWRL when # applied to base table. Success: Was not able to run 'create index i on t1_base (i)' under FTWRL. Success: 'create index i on t1_base (i)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create index i on t1_base (i)' is active in another connection. # 8.2.b) CREATE INDEX is compatible with FTWRL when # applied to temporary table. Success: Was able to run 'create index i on t1_temp (i)' under FTWRL. Success: Was able to run 'create index i on t1_temp (i)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'create index i on t1_temp (i)' was active in another connection. # # 8.3) CREATE DATABASE is incompatible with FTWRL. # Success: Was not able to run 'create database mysqltest2' under FTWRL. Success: 'create database mysqltest2' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create database mysqltest2' is active in another connection. # # 8.4) CREATE VIEW is incompatible with FTWRL. # Success: Was not able to run 'create view v2 as select 1 as j' under FTWRL. Success: 'create view v2 as select 1 as j' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create view v2 as select 1 as j' is active in another connection. # # 8.5) CREATE TRIGGER is incompatible with FTWRL. # Success: Was not able to run 'create trigger t1_bi before insert on t1_base for each row begin end' under FTWRL. Success: 'create trigger t1_bi before insert on t1_base for each row begin end' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create trigger t1_bi before insert on t1_base for each row begin end' is active in another connection. # # 8.6) CREATE FUNCTION is incompatible with FTWRL. # Success: Was not able to run 'create function f2() returns int return 0' under FTWRL. Success: 'create function f2() returns int return 0' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create function f2() returns int return 0' is active in another connection. # # 8.7) CREATE PROCEDURE is incompatible with FTWRL. # Success: Was not able to run 'create procedure p3() begin end' under FTWRL. Success: 'create procedure p3() begin end' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create procedure p3() begin end' is active in another connection. # # 8.8) CREATE EVENT should be incompatible with FTWRL. # Success: Was not able to run 'create event e2 on schedule every 1 minute do begin end' under FTWRL. Success: 'create event e2 on schedule every 1 minute do begin end' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'create event e2 on schedule every 1 minute do begin end' is active in another connection. # # 8.9) CREATE USER should be incompatible with FTWRL. # # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'create user mysqltest_u1' under FTWRL. Success: 'create user mysqltest_u1' is blocked by FTWRL active in another connection. # # 8.x) The rest of CREATE variants (CREATE LOGFILE GROUP, # CREATE TABLESPACE and CREATE SERVER) are too special # to test here. # # # 9) PREPARE, EXECUTE and DEALLOCATE PREPARE statements. # # 9.1) PREPARE statement is compatible with FTWRL as it # doesn't change any data. # # 9.1.a) Prepare of simple INSERT statement. # # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'prepare stmt1 from 'insert into t1_base values (1)'' under FTWRL. Success: Was able to run 'prepare stmt1 from 'insert into t1_base values (1)'' with FTWRL active in another connection. # # 9.1.b) Prepare of multi-UPDATE. At some point such statements # tried to acquire thr_lock.c locks during prepare phase. # This no longer happens and thus it is compatible with # FTWRL. # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'prepare stmt1 from 'update t1_base, t2_base set t1_base.i= 1 where t1_base.i = t2_base.j'' under FTWRL. Success: Was able to run 'prepare stmt1 from 'update t1_base, t2_base set t1_base.i= 1 where t1_base.i = t2_base.j'' with FTWRL active in another connection. # # 9.1.c) Prepare of multi-DELETE. Again PREPARE of such # statement should be compatible with FTWRL. # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'prepare stmt1 from 'delete t1_base from t1_base, t2_base where t1_base.i = t2_base.j'' under FTWRL. Success: Was able to run 'prepare stmt1 from 'delete t1_base from t1_base, t2_base where t1_base.i = t2_base.j'' with FTWRL active in another connection. # # 9.2) Compatibility of EXECUTE statement depends on statement # to be executed. # # 9.2.a) EXECUTE for statement which is itself compatible with # FTWRL should be compatible. prepare stmt1 from 'select * from t1_base'; Success: Was able to run 'execute stmt1' under FTWRL. Success: Was able to run 'execute stmt1' with FTWRL active in another connection. Success: Was able to run FTWRL while 'execute stmt1' was active in another connection. deallocate prepare stmt1; call mtr.add_suppression("Slave SQL.*Can.t execute the query because you have a conflicting read lock., Error_code: 1223"); # # 9.2.b) EXECUTE for statement which is incompatible with FTWRL # should be also incompatible. # # Check that EXECUTE is not allowed under FTWRL. prepare stmt1 from 'insert into t1_base values (1)'; flush tables with read lock; execute stmt1; ERROR HY000: Can't execute the query because you have a conflicting read lock unlock tables; # Check that active FTWRL in another connection # blocks EXECUTE which changes data. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. execute stmt1 ; # Switching to connection 'con1'. # Check that EXECUTE is blocked. unlock tables; # Switching to connection 'default'. # Reap EXECUTE. set debug_sync='RESET'; set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; execute stmt1; ; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; # Switching to connection 'con2'. # Wait until FTWRL is blocked. set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap EXECUTE. # Switching to connection 'con1'. # Reap FTWRL. unlock tables; # Switching to connection 'default'. set debug_sync= "RESET"; delete from t1_base; deallocate prepare stmt1; # # 9.3) DEALLOCATE PREPARE is compatible with FTWRL. # prepare stmt1 from 'insert into t1_base values (1)'; Success: Was able to run 'deallocate prepare stmt1' under FTWRL. Success: Was able to run 'deallocate prepare stmt1' with FTWRL active in another connection. Success: Was able to run FTWRL while 'deallocate prepare stmt1' was active in another connection. deallocate prepare stmt1; # # 10) DELETE variations. # # 10.1) Simple DELETE. # # 10.1.a) Simple DELETE on base table is incompatible with FTWRL. Success: Was not able to run 'delete from t1_base' under FTWRL. Success: 'delete from t1_base' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'delete from t1_base' is active in another connection. # # 10.1.b) Simple DELETE on temporary table is compatible with FTWRL. Success: Was able to run 'delete from t1_temp' under FTWRL. Success: Was able to run 'delete from t1_temp' with FTWRL active in another connection. Success: Was able to run FTWRL while 'delete from t1_temp' was active in another connection. # # 10.2) Multi DELETE. # # 10.2.a) Multi DELETE on base tables is incompatible with FTWRL. Success: Was not able to run 'delete t1_base from t1_base, t2_base where t1_base.i = t2_base.j' under FTWRL. Success: 'delete t1_base from t1_base, t2_base where t1_base.i = t2_base.j' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'delete t1_base from t1_base, t2_base where t1_base.i = t2_base.j' is active in another connection. # # 10.2.b) Multi DELETE on temporary tables is compatible with FTWRL. Success: Was able to run 'delete t1_temp from t1_temp, t2_temp where t1_temp.i = t2_temp.j' under FTWRL. Success: Was able to run 'delete t1_temp from t1_temp, t2_temp where t1_temp.i = t2_temp.j' with FTWRL active in another connection. Success: Was able to run FTWRL while 'delete t1_temp from t1_temp, t2_temp where t1_temp.i = t2_temp.j' was active in another connection. # # 11) DESCRIBE should be compatible with FTWRL. # Success: Was able to run 'describe t1_base' under FTWRL. Success: Was able to run 'describe t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'describe t1_base' was active in another connection. # # 12) Compatibility of DO statement with FTWRL depends on its # expression. # # 12.a) DO with expression which does not change base table # should be compatible with FTWRL. Success: Was able to run 'do (select count(*) from t1_base)' under FTWRL. Success: Was able to run 'do (select count(*) from t1_base)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'do (select count(*) from t1_base)' was active in another connection. # # 12.b) DO which calls SF updating base table should be # incompatible with FTWRL. Success: Was not able to run 'do f2_base()' under FTWRL. Success: 'do f2_base()' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'do f2_base()' is active in another connection. # # 12.c) DO which calls SF updating temporary table should be # compatible with FTWRL. Success: Was able to run 'do f2_temp()' under FTWRL. Success: Was able to run 'do f2_temp()' with FTWRL active in another connection. Success: Was able to run FTWRL while 'do f2_temp()' was active in another connection. # # 13) DROP variants. # # 13.1) DROP TABLES. # # 13.1.a) DROP TABLES which affects base tables is incompatible # with FTWRL. Success: Was not able to run 'drop table t2_base' under FTWRL. Success: 'drop table t2_base' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'drop table t2_base' is active in another connection. # 13.1.b) DROP TABLES which affects only temporary tables # is compatible with FTWRL. Success: Was able to run 'drop table t2_temp' under FTWRL. Success: Was able to run 'drop table t2_temp' with FTWRL active in another connection. Success: Was able to run FTWRL while 'drop table t2_temp' was active in another connection. # # 13.1.c) DROP TEMPORARY TABLES should be compatible with FTWRL. Success: Was able to run 'drop temporary table t2_temp' under FTWRL. Success: Was able to run 'drop temporary table t2_temp' with FTWRL active in another connection. Success: Was able to run FTWRL while 'drop temporary table t2_temp' was active in another connection. # # 13.2) DROP INDEX. # # 13.2.a) DROP INDEX on a base table is incompatible with FTWRL. create index i on t1_base (i); Success: Was not able to run 'drop index i on t1_base' under FTWRL. Success: 'drop index i on t1_base' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'drop index i on t1_base' is active in another connection. drop index i on t1_base; # # 13.2.b) DROP INDEX on a temporary table is compatible with FTWRL. create index i on t1_temp (i); Success: Was able to run 'drop index i on t1_temp' under FTWRL. Success: Was able to run 'drop index i on t1_temp' with FTWRL active in another connection. Success: Was able to run FTWRL while 'drop index i on t1_temp' was active in another connection. drop index i on t1_temp; # # 13.3) DROP DATABASE is incompatible with FTWRL # Success: Was not able to run 'drop database mysqltest1' under FTWRL. Success: 'drop database mysqltest1' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'drop database mysqltest1' is active in another connection. # # 13.4) DROP FUNCTION is incompatible with FTWRL. # # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'drop function f1' under FTWRL. Success: 'drop function f1' is blocked by FTWRL active in another connection. # # 13.5) DROP PROCEDURE is incompatible with FTWRL. # # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'drop procedure p1' under FTWRL. Success: 'drop procedure p1' is blocked by FTWRL active in another connection. # # 13.6) DROP USER should be incompatible with FTWRL. # create user mysqltest_u1; # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'drop user mysqltest_u1' under FTWRL. Success: 'drop user mysqltest_u1' is blocked by FTWRL active in another connection. # # 13.7) DROP VIEW should be incompatible with FTWRL. # Success: Was not able to run 'drop view v1' under FTWRL. Success: 'drop view v1' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'drop view v1' is active in another connection. # # 13.8) DROP EVENT should be incompatible with FTWRL. # Success: Was not able to run 'drop event e1' under FTWRL. Success: 'drop event e1' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'drop event e1' is active in another connection. # # 13.9) DROP TRIGGER is incompatible with FTWRL. # create trigger t1_bi before insert on t1_base for each row begin end; Success: Was not able to run 'drop trigger t1_bi' under FTWRL. Success: 'drop trigger t1_bi' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'drop trigger t1_bi' is active in another connection. drop trigger t1_bi; # # 13.x) The rest of DROP variants (DROP TABLESPACE, DROP LOGFILE # GROUP and DROP SERVER) are too special to test here. # # # 14) FLUSH variants. # # Test compatibility of _some_ important FLUSH variants with FTWRL. # # 14.1) FLUSH TABLES WITH READ LOCK is compatible with itself. # # Check that FTWRL statements can be run while FTWRL # is active in another connection. # # Switching to connection 'con1'. flush tables with read lock; # The second FTWRL in a row is allowed at the moment. # It does not make much sense as it does only flush. flush tables with read lock; unlock tables; # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. flush tables with read lock; unlock tables; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # # 14.2) FLUSH TABLES <list> WITH READ LOCK is not blocked by # active FTWRL. But since the latter keeps tables open # FTWRL is blocked by FLUSH TABLES <list> WITH READ LOCK. flush tables with read lock; # FT <list> WRL is allowed under FTWRL at the moment. # It does not make much sense though. flush tables t1_base, t2_base with read lock; unlock tables; # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. flush tables t1_base, t2_base with read lock; unlock tables; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. flush tables t1_base, t2_base with read lock; # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'con2'. # Wait until FTWRL is blocked. # Switching to connection 'default'. unlock tables; # Switching to connection 'con1'. # Reap FTWRL. unlock tables; # Switching to connection 'default'. # # 14.3) FLUSH TABLES is compatible with FTWRL. Success: Was able to run 'flush tables' under FTWRL. Success: Was able to run 'flush tables' with FTWRL active in another connection. Success: Was able to run FTWRL while 'flush tables' was active in another connection. # # 14.4) FLUSH TABLES <list> is compatible with FTWRL. Success: Was able to run 'flush table t1_base, t2_base' under FTWRL. Success: Was able to run 'flush table t1_base, t2_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'flush table t1_base, t2_base' was active in another connection. # # 14.5) FLUSH PRIVILEGES is compatible with FTWRL. Success: Was able to run 'flush privileges' under FTWRL. Success: Was able to run 'flush privileges' with FTWRL active in another connection. Success: Was able to run FTWRL while 'flush privileges' was active in another connection. # # 15) GRANT statement should be incompatible with FTWRL. # # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'grant all privileges on t1_base to mysqltest_u1' under FTWRL. Success: 'grant all privileges on t1_base to mysqltest_u1' is blocked by FTWRL active in another connection. drop user mysqltest_u1; # # 16) All HANDLER variants are half-compatible with FTWRL. # I.e. they are not blocked by active FTWRL. But since open # HANDLER means open table instance FTWRL is blocked while # HANDLER is not closed. # # Check that HANDLER statements succeed under FTWRL. flush tables with read lock; handler t1_base open; handler t1_base read first; i handler t1_base close; unlock tables; # Check that HANDLER statements can be run while FTWRL # is active in another connection. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. handler t1_base open; handler t1_base read first; i handler t1_base close; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # # 17) HELP statement is compatible with FTWRL. # Success: Was able to run 'help no_such_topic' under FTWRL. Success: Was able to run 'help no_such_topic' with FTWRL active in another connection. Success: Was able to run FTWRL while 'help no_such_topic' was active in another connection. # # 18) INSERT statement. # # 18.a) Ordinary INSERT into base table is incompatible with FTWRL. Success: Was not able to run 'insert into t1_base values (1)' under FTWRL. Success: 'insert into t1_base values (1)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'insert into t1_base values (1)' is active in another connection. # # 18.b) Ordinary INSERT into temp table is compatible with FTWRL. Success: Was able to run 'insert into t1_temp values (1)' under FTWRL. Success: Was able to run 'insert into t1_temp values (1)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'insert into t1_temp values (1)' was active in another connection. # # 18.c) INSERT SELECT into base table is incompatible with FTWRL. Success: Was not able to run 'insert into t1_base select * from t1_temp' under FTWRL. Success: 'insert into t1_base select * from t1_temp' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'insert into t1_base select * from t1_temp' is active in another connection. # # 18.d) INSERT SELECT into temp table is compatible with FTWRL. Success: Was able to run 'insert into t1_temp select * from t1_base' under FTWRL. Success: Was able to run 'insert into t1_temp select * from t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'insert into t1_temp select * from t1_base' was active in another connection. # # 19) KILL statement is compatible with FTWRL. # # Check that KILL can be run under FTWRL. flush tables with read lock; set @id:= connection_id(); kill query @id; ERROR 70100: Query execution was interrupted unlock tables; # Check that KILL statements can be run while FTWRL # is active in another connection. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. kill query @id; ERROR 70100: Query execution was interrupted # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # Finally check that KILL doesn't block FTWRL set debug_sync='RESET'; set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; kill query @id; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; unlock tables; set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap KILL. ERROR 70100: Query execution was interrupted set debug_sync='RESET'; # # 20) LOAD DATA statement. # # 20.a) LOAD DATA into base table is incompatible with FTWRL. Success: Was not able to run 'load data infile '../../std_data/rpl_loaddata.dat' into table t1_base (@dummy, i)' under FTWRL. Success: 'load data infile '../../std_data/rpl_loaddata.dat' into table t1_base (@dummy, i)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'load data infile '../../std_data/rpl_loaddata.dat' into table t1_base (@dummy, i)' is active in another connection. # # 20.b) LOAD DATA into temporary table is compatible with FTWRL. Success: Was able to run 'load data infile '../../std_data/rpl_loaddata.dat' into table t1_temp (@dummy, i)' under FTWRL. Success: Was able to run 'load data infile '../../std_data/rpl_loaddata.dat' into table t1_temp (@dummy, i)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'load data infile '../../std_data/rpl_loaddata.dat' into table t1_temp (@dummy, i)' was active in another connection. # # 21) LOCK/UNLOCK TABLES statements. # # LOCK TABLES statement always (almost) blocks FTWRL as it # keeps tables open until UNLOCK TABLES. # Active FTWRL on the other hand blocks only those # LOCK TABLES which allow updating of base tables. # # 21.a) LOCK TABLES READ is allowed under FTWRL and # is not blocked by active FTWRL. flush tables with read lock; lock tables t1_base read; unlock tables; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. lock tables t1_base read; unlock tables; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # # 21.b) LOCK TABLES WRITE on a base table is disallowed # under FTWRL and should be blocked by active FTWRL. flush tables with read lock; lock tables t1_base write; ERROR HY000: Can't execute the query because you have a conflicting read lock unlock tables; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. lock tables t1_base write ; # Switching to connection 'con1'. # Check that LOCK TABLES WRITE is blocked. unlock tables; # Switching to connection 'default'. # Reap LOCK TABLES WRITE unlock tables; # # 21.c) LOCK TABLES WRITE on temporary table doesn't # make much sense but is allowed under FTWRL # and should not be blocked by active FTWRL. flush tables with read lock; lock tables t1_temp write; unlock tables; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. lock tables t1_temp write; unlock tables; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # # 22) OPTIMIZE TABLE statement. # # 22.a) OPTIMIZE TABLE of base table is incompatible with FTWRL. flush tables with read lock; # OPTIMIZE statement returns errors as part of result-set. optimize table t1_base; Table Op Msg_type Msg_text test.t1_base optimize Error Can't execute the query because you have a conflicting read lock test.t1_base optimize error Corrupt unlock tables; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. optimize table t1_base; # Switching to connection 'con1'. # Check that OPTIMIZE TABLE is blocked. unlock tables; # Switching to connection 'default'. # Reap OPTIMIZE TABLE Table Op Msg_type Msg_text test.t1_base optimize status OK # We don't check that active OPTIMIZE TABLE blocks # FTWRL as this one of statements releasing metadata # locks in non-standard place. # # 22.b) OPTIMIZE TABLE of temporary table is compatible with FTWRL. # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'optimize table t1_temp' under FTWRL. Success: Was able to run 'optimize table t1_temp' with FTWRL active in another connection. # # 23) CACHE statement is compatible with FTWRL. # # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'cache index t1_base in default' under FTWRL. Success: Was able to run 'cache index t1_base in default' with FTWRL active in another connection. # # 24) LOAD INDEX statement is compatible with FTWRL. # # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'load index into cache t1_base' under FTWRL. Success: Was able to run 'load index into cache t1_base' with FTWRL active in another connection. # # 25) SAVEPOINT/RELEASE SAVEPOINT/ROLLBACK TO SAVEPOINT are # compatible with FTWRL. # # Since manipulations on savepoint have to be done # inside transaction and FTWRL commits transaction we # need a special test for these statements. flush tables with read lock; begin; savepoint sv1; rollback to savepoint sv1; release savepoint sv1; unlock tables; commit; # Check that these statements are not blocked by # active FTWRL in another connection. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. begin; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # Do some changes to avoid SAVEPOINT and friends # being almost no-ops. insert into t3_trans values (1); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. savepoint sv1; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. insert into t3_trans values (2); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. rollback to savepoint sv1; release savepoint sv1; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. rollback; # Check that these statements don't block FTWRL in # another connection. begin; # Do some changes to avoid SAVEPOINT and friends # being almost no-ops. insert into t3_trans values (1); set debug_sync='RESET'; set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; savepoint sv1; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; unlock tables; set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap SAVEPOINT insert into t3_trans values (2); set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; rollback to savepoint sv1; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; unlock tables; set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap ROLLBACK TO SAVEPOINT set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; release savepoint sv1; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; unlock tables; set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap RELEASE SAVEPOINT rollback; set debug_sync= "RESET"; # # 26) RENAME variants. # # 26.1) RENAME TABLES is incompatible with FTWRL. Success: Was not able to run 'rename table t1_base to t3_base' under FTWRL. Success: 'rename table t1_base to t3_base' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'rename table t1_base to t3_base' is active in another connection. # # 26.2) RENAME USER is incompatible with FTWRL. create user mysqltest_u1; # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'rename user mysqltest_u1 to mysqltest_u2' under FTWRL. Success: 'rename user mysqltest_u1 to mysqltest_u2' is blocked by FTWRL active in another connection. drop user mysqltest_u1; # # 27) REPAIR TABLE statement. # # 27.a) REPAIR TABLE of base table is incompatible with FTWRL. flush tables with read lock; # REPAIR statement returns errors as part of result-set. repair table t1_base; Table Op Msg_type Msg_text test.t1_base repair Error Can't execute the query because you have a conflicting read lock test.t1_base repair error Corrupt unlock tables; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. repair table t1_base; # Switching to connection 'con1'. # Check that REPAIR TABLE is blocked. unlock tables; # Switching to connection 'default'. # Reap REPAIR TABLE Table Op Msg_type Msg_text test.t1_base repair status OK # We don't check that active REPAIR TABLE blocks # FTWRL as this one of statements releasing metadata # locks in non-standard place. # # 27.b) REPAIR TABLE of temporary table is compatible with FTWRL. # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'repair table t1_temp' under FTWRL. Success: Was able to run 'repair table t1_temp' with FTWRL active in another connection. # # 28) REPLACE statement. # # 28.a) Ordinary REPLACE into base table is incompatible with FTWRL. Success: Was not able to run 'replace into t1_base values (1)' under FTWRL. Success: 'replace into t1_base values (1)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'replace into t1_base values (1)' is active in another connection. # # 28.b) Ordinary REPLACE into temp table is compatible with FTWRL. Success: Was able to run 'replace into t1_temp values (1)' under FTWRL. Success: Was able to run 'replace into t1_temp values (1)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'replace into t1_temp values (1)' was active in another connection. # # 28.c) REPLACE SELECT into base table is incompatible with FTWRL. Success: Was not able to run 'replace into t1_base select * from t1_temp' under FTWRL. Success: 'replace into t1_base select * from t1_temp' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'replace into t1_base select * from t1_temp' is active in another connection. # # 28.d) REPLACE SELECT into temp table is compatible with FTWRL. Success: Was able to run 'replace into t1_temp select * from t1_base' under FTWRL. Success: Was able to run 'replace into t1_temp select * from t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'replace into t1_temp select * from t1_base' was active in another connection. # # 29) REVOKE variants. # # 29.1) REVOKE privileges is incompatible with FTWRL. set @orig_sql_mode= @@sql_mode; set sql_mode= (select replace(@@sql_mode,'NO_AUTO_CREATE_USER','')); Warnings: Warning 3090 Changing sql mode 'NO_AUTO_CREATE_USER' is deprecated. It will be removed in a future release. grant all privileges on t1_base to mysqltest_u1; Warnings: Warning 1287 Using GRANT for creating new user is deprecated and will be removed in future release. Create new user with CREATE USER statement. set sql_mode= @orig_sql_mode; Warnings: Warning 3090 Changing sql mode 'NO_AUTO_CREATE_USER' is deprecated. It will be removed in a future release. # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'revoke all privileges on t1_base from mysqltest_u1' under FTWRL. Success: 'revoke all privileges on t1_base from mysqltest_u1' is blocked by FTWRL active in another connection. # # 29.2) REVOKE ALL PRIVILEGES, GRANT OPTION is incompatible with FTWRL. # Skip last part of testing as this statement does # implicit commit and releases metadata locks in # non-standard place. Success: Was not able to run 'revoke all privileges, grant option from mysqltest_u1' under FTWRL. Success: 'revoke all privileges, grant option from mysqltest_u1' is blocked by FTWRL active in another connection. drop user mysqltest_u1; # # 30) Compatibility of SELECT statement with FTWRL depends on # locking mode used and on functions being invoked by it. # # 30.a) Simple SELECT which does not change tables should be # compatible with FTWRL. Success: Was able to run 'select count(*) from t1_base' under FTWRL. Success: Was able to run 'select count(*) from t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'select count(*) from t1_base' was active in another connection. # 30.b) SELECT ... FOR UPDATE is incompatible with FTWRL. Success: Was not able to run 'select count(*) from t1_base for update' under FTWRL. Success: 'select count(*) from t1_base for update' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'select count(*) from t1_base for update' is active in another connection. # 30.c) SELECT ... LOCK IN SHARE MODE is compatible with FTWRL. Success: Was able to run 'select count(*) from t1_base lock in share mode' under FTWRL. Success: Was able to run 'select count(*) from t1_base lock in share mode' with FTWRL active in another connection. Success: Was able to run FTWRL while 'select count(*) from t1_base lock in share mode' was active in another connection. # # 30.d) SELECT which calls SF updating base table should be # incompatible with FTWRL. Success: Was not able to run 'select f2_base()' under FTWRL. Success: 'select f2_base()' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'select f2_base()' is active in another connection. # # 30.e) SELECT which calls SF updating temporary table should be # compatible with FTWRL. Success: Was able to run 'select f2_temp()' under FTWRL. Success: Was able to run 'select f2_temp()' with FTWRL active in another connection. Success: Was able to run FTWRL while 'select f2_temp()' was active in another connection. # # 31) Compatibility of SET statement with FTWRL depends on its # expression and on whether it is a special SET statement. # # 31.a) Ordinary SET with expression which does not # changes base table should be compatible with FTWRL. # Skip last part of compatibility testing as our helper debug # sync-point doesn't work for SET statements. Success: Was able to run 'set @a:= (select count(*) from t1_base)' under FTWRL. Success: Was able to run 'set @a:= (select count(*) from t1_base)' with FTWRL active in another connection. # # 31.b) Ordinary SET which calls SF updating base table should # be incompatible with FTWRL. # Skip last part of compatibility testing as our helper debug # sync-point doesn't work for SET statements. Success: Was not able to run 'set @a:= f2_base()' under FTWRL. Success: 'set @a:= f2_base()' is blocked by FTWRL active in another connection. # # 31.c) Ordinary SET which calls SF updating temporary table # should be compatible with FTWRL. # Skip last part of compatibility testing as our helper debug # sync-point doesn't work for SET statements. Success: Was able to run 'set @a:= f2_temp()' under FTWRL. Success: Was able to run 'set @a:= f2_temp()' with FTWRL active in another connection. # # 31.d) Special SET variants have different compatibility with FTWRL. # # 31.d.I) SET PASSWORD is incompatible with FTWRL as it changes data. create user mysqltest_u1; # Skip last part of compatibility testing as our helper debug # sync-point doesn't work for SET statements. Success: Was not able to run 'ALTER USER 'mysqltest_u1' IDENTIFIED BY ''' under FTWRL. Success: 'ALTER USER 'mysqltest_u1' IDENTIFIED BY ''' is blocked by FTWRL active in another connection. drop user mysqltest_u1; # # 31.d.II) SET READ_ONLY is compatible with FTWRL (but has no # effect when executed under it). # Skip last part of compatibility testing as our helper debug # sync-point doesn't work for SET statements. Success: Was able to run 'set global read_only= 1' under FTWRL. Success: Was able to run 'set global read_only= 1' with FTWRL active in another connection. # # 31.d.III) Situation with SET AUTOCOMMIT is complex. # Turning auto-commit off is always compatible with FTWRL. # Turning auto-commit on causes implicit commit and so # is incompatible with FTWRL if there are changes to be # committed. flush tables with read lock; set autocommit= 0; # Turning auto-commit on causes implicit commit so can # be incompatible with FTWRL if there is something to # commit. But since even in this case we allow commits # under active FTWRL such statement should always succeed. insert into t3_temp_trans values (1); set autocommit= 1; unlock tables; delete from t3_temp_trans; # Check that SET AUTOCOMMIT=0 is not blocked and # SET AUTOCOMMIT=1 is blocked by active FTWRL in # another connection. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. set autocommit= 0; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. # Do some work so implicit commit in SET AUTOCOMMIT=1 # is not a no-op. insert into t3_trans values (1); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. # Send: set autocommit= 1; # Switching to connection 'con1'. # Wait until SET AUTOCOMMIT=1 is blocked. unlock tables; # Switching to connection 'default'. # Reap SET AUTOCOMMIT=1. delete from t3_trans; # # Check that SET AUTOCOMMIT=1 blocks FTWRL in another connection. set autocommit= 0; insert into t3_trans values (1); set debug_sync='RESET'; set debug_sync='ha_commit_trans_after_acquire_commit_lock SIGNAL parked WAIT_FOR go'; set autocommit= 1; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; # Switching to connection 'con2'. # Wait until FTWRL is blocked. set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap SET AUTOCOMMIT=1. # Switching to connection 'con1'. # Reap FTWRL. unlock tables; # Switching to connection 'default'. delete from t3_trans; set debug_sync= "RESET"; # # 32) SHOW statements are compatible with FTWRL. # Let us test _some_ of them. # # 32.1) SHOW TABLES. Success: Was able to run 'show tables from test' under FTWRL. Success: Was able to run 'show tables from test' with FTWRL active in another connection. Success: Was able to run FTWRL while 'show tables from test' was active in another connection. # # 32.1) SHOW TABLES. Success: Was able to run 'show tables from test' under FTWRL. Success: Was able to run 'show tables from test' with FTWRL active in another connection. Success: Was able to run FTWRL while 'show tables from test' was active in another connection. # # 32.2) SHOW EVENTS. Success: Was able to run 'show events from test' under FTWRL. Success: Was able to run 'show events from test' with FTWRL active in another connection. Success: Was able to run FTWRL while 'show events from test' was active in another connection. # # 32.3) SHOW GRANTS. create user mysqltest_u1; Success: Was able to run 'show grants for mysqltest_u1' under FTWRL. Success: Was able to run 'show grants for mysqltest_u1' with FTWRL active in another connection. Success: Was able to run FTWRL while 'show grants for mysqltest_u1' was active in another connection. drop user mysqltest_u1; # # 32.4) SHOW CREATE TABLE. Success: Was able to run 'show create table t1_base' under FTWRL. Success: Was able to run 'show create table t1_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'show create table t1_base' was active in another connection. # # 32.5) SHOW CREATE FUNCTION. Success: Was able to run 'show create function f1' under FTWRL. Success: Was able to run 'show create function f1' with FTWRL active in another connection. Success: Was able to run FTWRL while 'show create function f1' was active in another connection. # # 33) SIGNAL statement is compatible with FTWRL. # # Note that we don't cover RESIGNAL as it requires # active handler context. Success: Was able to run 'signal sqlstate '01000'' under FTWRL. Success: Was able to run 'signal sqlstate '01000'' with FTWRL active in another connection. Success: Was able to run FTWRL while 'signal sqlstate '01000'' was active in another connection. # # 34) TRUNCATE TABLE statement. # # 34.a) TRUNCATE of base table is incompatible with FTWRL. Success: Was not able to run 'truncate table t1_base' under FTWRL. Success: 'truncate table t1_base' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'truncate table t1_base' is active in another connection. # # 34.b) TRUNCATE of temporary table is compatible with FTWRL. Success: Was able to run 'truncate table t1_temp' under FTWRL. Success: Was able to run 'truncate table t1_temp' with FTWRL active in another connection. Success: Was able to run FTWRL while 'truncate table t1_temp' was active in another connection. # # 35) UPDATE variants. # # 35.1) Simple UPDATE. # # 35.1.a) Simple UPDATE on base table is incompatible with FTWRL. Success: Was not able to run 'update t1_base set i= 1 where i = 0' under FTWRL. Success: 'update t1_base set i= 1 where i = 0' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'update t1_base set i= 1 where i = 0' is active in another connection. # # 35.1.b) Simple UPDATE on temporary table is compatible with FTWRL. Success: Was able to run 'update t1_temp set i= 1 where i = 0' under FTWRL. Success: Was able to run 'update t1_temp set i= 1 where i = 0' with FTWRL active in another connection. Success: Was able to run FTWRL while 'update t1_temp set i= 1 where i = 0' was active in another connection. # # 35.2) Multi UPDATE. # # 35.2.a) Multi UPDATE on base tables is incompatible with FTWRL. Success: Was not able to run 'update t1_base, t2_base set t1_base.i= 1 where t1_base.i = t2_base.j' under FTWRL. Success: 'update t1_base, t2_base set t1_base.i= 1 where t1_base.i = t2_base.j' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'update t1_base, t2_base set t1_base.i= 1 where t1_base.i = t2_base.j' is active in another connection. # # 35.2.b) Multi UPDATE on temporary tables is compatible with FTWRL. Success: Was able to run 'update t1_temp, t2_temp set t1_temp.i= 1 where t1_temp.i = t2_temp.j' under FTWRL. Success: Was able to run 'update t1_temp, t2_temp set t1_temp.i= 1 where t1_temp.i = t2_temp.j' with FTWRL active in another connection. Success: Was able to run FTWRL while 'update t1_temp, t2_temp set t1_temp.i= 1 where t1_temp.i = t2_temp.j' was active in another connection. # # 36) USE statement is compatible with FTWRL. # Success: Was able to run 'use mysqltest1' under FTWRL. Success: Was able to run 'use mysqltest1' with FTWRL active in another connection. Success: Was able to run FTWRL while 'use mysqltest1' was active in another connection. # # 37) XA statements. # # XA statements are similar to BEGIN/COMMIT/ROLLBACK. # # XA BEGIN, END, PREPARE, ROLLBACK and RECOVER are compatible # with FTWRL. XA COMMIT is not. flush tables with read lock; # Although all below statements are allowed under FTWRL they # are almost no-ops as FTWRL does commit and does not allows # any non-temporary DML under it. xa start 'test1'; xa end 'test1'; xa prepare 'test1'; xa rollback 'test1'; xa start 'test1'; xa end 'test1'; xa prepare 'test1'; xa commit 'test1'; xa recover; unlock tables; # Check that XA non-COMMIT statements are not and COMMIT is # blocked by active FTWRL in another connection # # XA COMMIT, XA ROLLBACK and XA PREPARE does take COMMIT lock to ensure # that nothing is written to bin log and redo log under FTWRL mode. # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. xa start 'test1'; # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. insert into t3_trans values (1); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. xa end 'test1'; # Send XA PREPARE 'test1' xa prepare 'test1'; # Switching to connection 'con1'. # Wait until XA PREPARE is blocked. unlock tables; # Switching to connection 'default'. # Reap XA PREPARE. # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. # Send XA ROLLBACK 'test1' xa rollback 'test1'; # Switching to connection 'con1'. # Wait until XA ROLLBACK is blocked. unlock tables; # Switching to connection 'default'. # Reap XA ROLLBACK xa start 'test1'; insert into t3_trans values (1); # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. xa end 'test1'; # Send XA PREPARE 'test1' xa prepare 'test1'; # Switching to connection 'con1'. # Wait until XA PREPARE is blocked. unlock tables; # Switching to connection 'default'. # Reap XA PREPARE. # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. # Send: xa commit 'test1';; # Switching to connection 'con1'. # Wait until XA COMMIT is blocked. unlock tables; # Switching to connection 'default'. # Reap XA COMMIT. delete from t3_trans; # # Check that XA COMMIT / ROLLBACK for prepared transaction from a # disconnected session is blocked by active FTWRL in another connection. # # Create temporary connection for XA transaction. xa start 'test1'; insert into t3_trans values (1); xa end 'test1'; xa prepare 'test1'; # Disconnect temporary connection # Create temporary connection for XA transaction. xa start 'test2'; insert into t3_trans values (2); xa end 'test2'; xa prepare 'test2'; # Disconnect temporary connection # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. # Send XA ROLLBACK 'test1' xa rollback 'test1'; # Switching to connection 'con1'. # Wait until XA ROLLBACK is blocked. unlock tables; flush tables with read lock; # Switching to connection 'default'. # Reap XA ROLLBACK # Send XA COMMIT xa commit 'test2';; # Switching to connection 'con1'. # Wait until XA COMMIT is blocked. unlock tables; # Switching to connection 'default'. # Reap XA COMMIT. delete from t3_trans; # # Check that XA COMMIT blocks FTWRL in another connection. xa start 'test1'; insert into t3_trans values (1); xa end 'test1'; xa prepare 'test1'; set debug_sync='RESET'; set debug_sync='trans_xa_commit_after_acquire_commit_lock SIGNAL parked WAIT_FOR go'; xa commit 'test1'; # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; # Switching to connection 'con2'. # Wait until FTWRL is blocked. set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap XA COMMIT. # Switching to connection 'con1'. # Reap FTWRL. unlock tables; # Switching to connection 'default'. delete from t3_trans; set debug_sync= "RESET"; # # 38) Test effect of auto-commit mode for DML on transactional # temporary tables. # # 38.1) When auto-commit is on each such a statement ends with commit # of changes to temporary tables. But since transactions doing # such changes are considered read only [sic!/QQ] this commit # is compatible with FTWRL. # # Let us demostrate this fact for some common DML statements. Success: Was able to run 'delete from t3_temp_trans' under FTWRL. Success: Was able to run 'delete from t3_temp_trans' with FTWRL active in another connection. Success: Was able to run FTWRL while 'delete from t3_temp_trans' was active in another connection. Success: Was able to run 'insert into t3_temp_trans values (1)' under FTWRL. Success: Was able to run 'insert into t3_temp_trans values (1)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'insert into t3_temp_trans values (1)' was active in another connection. Success: Was able to run 'update t3_temp_trans, t2_temp set t3_temp_trans.i= 1 where t3_temp_trans.i = t2_temp.j' under FTWRL. Success: Was able to run 'update t3_temp_trans, t2_temp set t3_temp_trans.i= 1 where t3_temp_trans.i = t2_temp.j' with FTWRL active in another connection. Success: Was able to run FTWRL while 'update t3_temp_trans, t2_temp set t3_temp_trans.i= 1 where t3_temp_trans.i = t2_temp.j' was active in another connection. # # 38.2) When auto-commit is off DML on transaction temporary tables # is compatible with FTWRL. # set autocommit= 0; Success: Was able to run 'delete from t3_temp_trans' under FTWRL. Success: Was able to run 'delete from t3_temp_trans' with FTWRL active in another connection. Success: Was able to run FTWRL while 'delete from t3_temp_trans' was active in another connection. Success: Was able to run 'insert into t3_temp_trans values (1)' under FTWRL. Success: Was able to run 'insert into t3_temp_trans values (1)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'insert into t3_temp_trans values (1)' was active in another connection. Success: Was able to run 'update t3_temp_trans, t2_temp set t3_temp_trans.i= 1 where t3_temp_trans.i = t2_temp.j' under FTWRL. Success: Was able to run 'update t3_temp_trans, t2_temp set t3_temp_trans.i= 1 where t3_temp_trans.i = t2_temp.j' with FTWRL active in another connection. Success: Was able to run FTWRL while 'update t3_temp_trans, t2_temp set t3_temp_trans.i= 1 where t3_temp_trans.i = t2_temp.j' was active in another connection. set autocommit= 1; # # 39) Test effect of DDL on transactional tables. # # 39.1) Due to implicit commit at the end of statement some of DDL # statements which are compatible with FTWRL in non-transactional # case are not compatible in case of transactional tables. # # 39.1.a) ANALYZE TABLE for transactional table is incompatible with # FTWRL. flush tables with read lock; # Implicit commits are allowed under FTWRL. analyze table t3_trans; Table Op Msg_type Msg_text test.t3_trans analyze status OK unlock tables; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. analyze table t3_trans; # Switching to connection 'con1'. # Check that ANALYZE TABLE is blocked. unlock tables; # Switching to connection 'default'. # Reap ANALYZE TABLE Table Op Msg_type Msg_text test.t3_trans analyze status OK # # 39.1.b) CHECK TABLE for transactional table is compatible with FTWRL. # Although it does implicit commit at the end of statement it # is considered to be read-only operation. # Skip last part of compatibility testing as this statement # releases metadata locks in non-standard place. Success: Was able to run 'check table t3_trans' under FTWRL. Success: Was able to run 'check table t3_trans' with FTWRL active in another connection. # # 39.2) Situation with DDL on temporary transactional tables is # complex. # # 39.2.a) Some statements compatible with FTWRL since they don't # do implicit commit. # # For example, CREATE TEMPORARY TABLE: Success: Was able to run 'create temporary table t4_temp_trans(i int) engine=innodb' under FTWRL. Success: Was able to run 'create temporary table t4_temp_trans(i int) engine=innodb' with FTWRL active in another connection. Success: Was able to run FTWRL while 'create temporary table t4_temp_trans(i int) engine=innodb' was active in another connection. # # Or DROP TEMPORARY TABLE: Success: Was able to run 'drop temporary tables t3_temp_trans' under FTWRL. Success: Was able to run 'drop temporary tables t3_temp_trans' with FTWRL active in another connection. Success: Was able to run FTWRL while 'drop temporary tables t3_temp_trans' was active in another connection. # # 39.2.b) Some statements do implicit commit but are considered # read-only and so are compatible with FTWRL. # # For example, REPAIR TABLE: Success: Was able to run 'repair table t3_temp_trans' under FTWRL. Success: Was able to run 'repair table t3_temp_trans' with FTWRL active in another connection. Success: Was able to run FTWRL while 'repair table t3_temp_trans' was active in another connection. # # And ANALYZE TABLE: Success: Was able to run 'analyze table t3_temp_trans' under FTWRL. Success: Was able to run 'analyze table t3_temp_trans' with FTWRL active in another connection. Success: Was able to run FTWRL while 'analyze table t3_temp_trans' was active in another connection. # # And ALTER TABLE: Success: Was able to run 'alter table t3_temp_trans add column c1 int' under FTWRL. Success: Was able to run 'alter table t3_temp_trans add column c1 int' with FTWRL active in another connection. Success: Was able to run FTWRL while 'alter table t3_temp_trans add column c1 int' was active in another connection. # # 40) Test effect of implicit commit for DDL which is otherwise # compatible with FTWRL. Implicit commit at the start of DDL # statement can make it incompatible with FTWRL if there are # some changes to be commited even in case when DDL statement # itself is compatible with FTWRL. # # For example CHECK TABLE for base non-transactional tables and # ALTER TABLE for temporary non-transactional tables are affected. begin; insert into t3_trans values (1); # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. check table t1_base; # Switching to connection 'con1'. # Check that CHECK TABLE is blocked. unlock tables; # Switching to connection 'default'. # Reap CHECK TABLE Table Op Msg_type Msg_text test.t1_base check status OK begin; delete from t3_trans; # # Switching to connection 'con1'. flush tables with read lock; # Switching to connection 'default'. alter table t1_temp add column c1 int; # Switching to connection 'con1'. # Check that ALTER TABLE is blocked. unlock tables; # Switching to connection 'default'. # Reap ALTER TABLE alter table t1_temp drop column c1; # # Check that FLUSH TABLES WITH READ LOCK is blocked by individual # statements and is not blocked in the presence of transaction which # has done some changes earlier but is idle now (or does only reads). # This allows to use this statement even on systems which has long # running transactions. # begin; insert into t1_base values (1); insert into t3_trans values (1); # Switching to connection 'con1'. # The below FTWRL should not be blocked by transaction in 'default'. flush tables with read lock; # Switching to connection 'default'. # Transaction still is able to read even with FTWRL active in another # connection. select * from t1_base; i 1 select * from t2_base; j select * from t3_trans; i 1 # Switching to connection 'con1'. unlock tables; # Switching to connection 'default'. commit; delete from t1_base; delete from t3_trans; # # Check that impending FTWRL blocks new DML statements and # so can't be starved by a constant flow of DML. # (a.k.a. test for bug #54673 "It takes too long to get # readlock for 'FLUSH TABLES WITH READ LOCK'"). # set debug_sync='RESET'; set debug_sync='execute_command_after_close_tables SIGNAL parked WAIT_FOR go'; insert into t1_base values (1); # Switching to connection 'con1'. set debug_sync='now WAIT_FOR parked'; flush tables with read lock; # Switching to connection 'con2'. # Wait until FTWRL is blocked. # Try to run another INSERT and see that it is blocked. insert into t2_base values (1);; # Switching to connection 'con3'. # Wait until new INSERT is blocked. # Unblock INSERT in the first connection. set debug_sync='now SIGNAL go'; # Switching to connection 'default'. # Reap first INSERT. # Switching to connection 'con1'. # Reap FTWRL. unlock tables; # Switching to connection 'con2'. # Reap second INSERT. # Switching to connection 'default'. set debug_sync= "RESET"; delete from t1_base; delete from t2_base; # Check that COMMIT thas is issued after # FLUSH TABLES WITH READ LOCK is not blocked by # FLUSH TABLES WITH READ LOCK from another connection. # This scenario is used in innobackup.pl. The COMMIT goes # through because the transaction started by FTWRL does # not modify any tables, and the commit blocker lock is # only taken when there were such modifications. flush tables with read lock; # Switching to connection 'con1'. # The below FTWRL should not be blocked by transaction in 'default'. flush tables with read lock; # Switching to connection 'default'. select * from t1_base; i select * from t3_trans; i commit; # Switching to connection 'con1'. select * from t1_base; i select * from t3_trans; i commit; unlock tables; # Switching to connection 'default'. unlock tables; # # Check how FLUSH TABLE WITH READ LOCK is handled for MERGE tables. # As usual there are tricky cases related to this type of tables. # # # 1) Most typical case - base MERGE table with base underlying tables. # # 1.a) DML statements which change data should be incompatible with FTWRL. create table tm_base (i int) engine=merge union=(t1_base) insert_method=last; Success: Was not able to run 'insert into tm_base values (1)' under FTWRL. Success: 'insert into tm_base values (1)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'insert into tm_base values (1)' is active in another connection. # # 1.b) DDL statement on such table should be incompatible with FTWRL as well. Success: Was not able to run 'alter table tm_base insert_method=first' under FTWRL. Success: 'alter table tm_base insert_method=first' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter table tm_base insert_method=first' is active in another connection. drop table tm_base; # # 2) Temporary MERGE table with base underlying tables. # # 2.a) DML statements which change data should be incompatible with FTWRL # as they affect base tables. create temporary table tm_temp_base (i int) engine=merge union=(t1_base) insert_method=last; Success: Was not able to run 'insert into tm_temp_base values (1)' under FTWRL. Success: 'insert into tm_temp_base values (1)' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'insert into tm_temp_base values (1)' is active in another connection. # # 2.b) Some of DDL statements on such table can be compatible with FTWRL # as they don't affect base tables. Success: Was able to run 'drop temporary tables tm_temp_base' under FTWRL. Success: Was able to run 'drop temporary tables tm_temp_base' with FTWRL active in another connection. Success: Was able to run FTWRL while 'drop temporary tables tm_temp_base' was active in another connection. # # 2.c) ALTER statement is incompatible with FTWRL. Even though it does # not change data in base table it still acquires strong metadata # locks on them. Success: Was not able to run 'alter table tm_temp_base insert_method=first' under FTWRL. Success: 'alter table tm_temp_base insert_method=first' is blocked by FTWRL active in another connection. Success: FTWRL is blocked when 'alter table tm_temp_base insert_method=first' is active in another connection. drop table tm_temp_base; # # 3) Temporary MERGE table with temporary underlying tables. # # 3.a) DML statements should be compatible with FTWRL as # no base table is going to be affected. create temporary table tm_temp_temp (i int) engine=merge union=(t1_temp) insert_method=last; Success: Was able to run 'insert into tm_temp_temp values (1)' under FTWRL. Success: Was able to run 'insert into tm_temp_temp values (1)' with FTWRL active in another connection. Success: Was able to run FTWRL while 'insert into tm_temp_temp values (1)' was active in another connection. # # 3.b) DDL statements should be compatible with FTWRL as well # as no base table is going to be affected too. Success: Was able to run 'alter table tm_temp_temp union=(t1_temp) insert_method=first' under FTWRL. Success: Was able to run 'alter table tm_temp_temp union=(t1_temp) insert_method=first' with FTWRL active in another connection. Success: Was able to run FTWRL while 'alter table tm_temp_temp union=(t1_temp) insert_method=first' was active in another connection. drop table tm_temp_temp; # # 4) For the sake of completeness let us check that base MERGE tables # with temporary underlying tables are not functional. create table tm_base_temp (i int) engine=merge union=(t1_temp) insert_method=last; select * from tm_base_temp; ERROR HY000: Unable to open underlying table which is differently defined or of non-MyISAM type or doesn't exist drop table tm_base_temp; # # Clean-up. # drop event e1; drop function f2_temp; drop function f2_base; drop procedure p2; drop view v1; drop function f1; drop procedure p1; drop database `#mysql50#mysqltest-2`; drop database mysqltest1; drop temporary tables t1_temp, t2_temp; drop tables t1_base, t2_base, t3_trans;