######################################################################## # Tests how BACKUP STAGE interacts with other commands (MDEV-5336) ######################################################################## --source include/have_innodb.inc --source include/have_metadata_lock_info.inc --echo # --echo # Check backup and FTWRL --echo # flush tables with read lock; --error ER_CANT_UPDATE_WITH_READLOCK backup stage start; unlock tables; backup stage start; --error ER_BACKUP_LOCK_IS_ACTIVE flush tables with read lock; backup stage end; --echo # --echo # Check backup and FLUSH TABLES --echo # flush tables; backup stage start; flush tables; backup stage end; --echo # --echo # Check BACKUP STAGE under lock tables --echo # create table t1 (a int); lock table t1 write; --error ER_LOCK_OR_ACTIVE_TRANSACTION backup stage start; --error ER_BACKUP_NOT_RUNNING backup stage end; unlock tables; lock table t1 read; --error ER_LOCK_OR_ACTIVE_TRANSACTION backup stage start; --error ER_BACKUP_NOT_RUNNING backup stage end; unlock tables; --echo # --echo # Check lock tables under BACKUP STAGE --echo # --disable_service_connection backup stage start; unlock tables; select lock_mode from information_schema.metadata_lock_info where thread_id>0; --error ER_BACKUP_LOCK_IS_ACTIVE lock table t1 write; --error ER_BACKUP_LOCK_IS_ACTIVE lock table t1 read; unlock tables; backup stage end; drop table t1; --enable_service_connection --echo # --echo # Check setting readonly under BACKUP STAGE --echo # backup stage start; --error ER_LOCK_OR_ACTIVE_TRANSACTION set @@global.read_only=1; backup stage end; --echo # also make sure going back from read-only mode is not allowed set @@global.read_only=1; backup stage start; --error ER_LOCK_OR_ACTIVE_TRANSACTION set @@global.read_only=0; backup stage end; set @@global.read_only=0; --echo # --echo # Check BACKUP STAGE under read_only --echo # set @@global.read_only=1; backup stage start; backup stage end; set @@global.read_only=0; --echo # --echo # Check that we can't create tables during backup --echo # backup stage start; --error ER_BACKUP_LOCK_IS_ACTIVE create table t1 (a int); backup stage end; --echo # also make sure we can't write to a table during backup create table t1(a INT); backup stage start; --error ER_BACKUP_LOCK_IS_ACTIVE insert into t1 values(1); --error ER_BACKUP_LOCK_IS_ACTIVE insert delayed into t1 values(1); --error ER_BACKUP_LOCK_IS_ACTIVE update t1 set a=1; --error ER_BACKUP_LOCK_IS_ACTIVE delete from t1; --error ER_BACKUP_LOCK_IS_ACTIVE truncate table t1; --error ER_BACKUP_LOCK_IS_ACTIVE drop table t1; backup stage end; drop table t1; --echo # --echo # BACKUP STAGE performs implicit commits --echo # --disable_view_protocol create table t1(a int) engine=InnoDB; begin; insert into t1 values(1); select lock_mode from information_schema.metadata_lock_info where thread_id>0; backup stage start; select lock_mode from information_schema.metadata_lock_info where thread_id>0; backup stage block_commit; commit; backup stage end; drop table t1; --enable_view_protocol --echo # Ensure that BACKUP STAGE ... does AUTOCOMMIT like most DDL. --echo # Sideeffect: --echo # Show the impact of not yet committed INSERT before sequence start --echo # and ROLLBACK sliding through the sequence. --disable_service_connection CREATE TABLE t1 (col1 INT) ENGINE = InnoDB; SET AUTOCOMMIT = 0; INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; ROLLBACK; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; ROLLBACK; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; ROLLBACK; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; ROLLBACK; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; BACKUP STAGE END; ROLLBACK; SELECT COUNT(*) = 5 AS expect_1 FROM t1; --echo # Show the impact of not yet committed INSERT before sequence start --echo # and a COMMIT sliding through the sequence. SET AUTOCOMMIT = 0; INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; COMMIT; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; COMMIT; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; COMMIT; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; COMMIT; BACKUP STAGE END; --echo #---- INSERT INTO t1 SET col1 = 1; BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; BACKUP STAGE END; COMMIT; SELECT COUNT(*) = 10 AS expect_1 FROM t1; DELETE FROM t1; COMMIT; drop table t1; --echo # --echo # CHECK: RO transaction under BACKUP STAGE is a potential deadlock --echo # OTOH we most probably allow them under FTWRL as well --echo # --disable_view_protocol CREATE TABLE t1 (col1 INT) ENGINE = InnoDB; insert into t1 values (1); backup stage start; backup stage block_commit; begin; select * from t1; select lock_mode from information_schema.metadata_lock_info where thread_id>0; backup stage end; select lock_mode from information_schema.metadata_lock_info where thread_id>0; drop table t1; --enable_view_protocol --echo # --echo # Check that handler are closed by backup stage block_ddl --echo # create table t1 (a int, key a (a)); insert into t1 (a) values (1), (2), (3), (4), (5); handler t1 open; handler t1 read a prev; backup stage start; handler t1 read a prev; backup stage flush; backup stage block_ddl; handler t1 read a prev; backup stage block_commit; handler t1 read a prev; backup stage end; handler t1 close; drop table t1; --echo # Show the fate and impact of some SELECT /HANDLER ... READ --echo # sliding through the sequence. CREATE TABLE t1_innodb (col1 INT) ENGINE = InnoDB; INSERT INTO t1_innodb values (1),(2),(3); COMMIT; CREATE TABLE t1_myisam (col1 INT) ENGINE = MyISAM; INSERT INTO t1_myisam values (1),(2),(3); BACKUP STAGE START; SELECT COUNT(*) FROM t1_innodb; SELECT * FROM t1_innodb; HANDLER t1_innodb OPEN; HANDLER t1_innodb READ FIRST; HANDLER t1_innodb CLOSE; SELECT COUNT(*) FROM t1_myisam; HANDLER t1_myisam OPEN; HANDLER t1_myisam READ FIRST; HANDLER t1_myisam CLOSE; BACKUP STAGE FLUSH; SELECT COUNT(*) FROM t1_innodb; HANDLER t1_innodb OPEN; HANDLER t1_innodb READ FIRST; HANDLER t1_innodb CLOSE; SELECT COUNT(*) FROM t1_myisam; HANDLER t1_myisam OPEN; HANDLER t1_myisam READ FIRST; HANDLER t1_myisam CLOSE; BACKUP STAGE BLOCK_DDL; SELECT COUNT(*) FROM t1_innodb; HANDLER t1_innodb OPEN; HANDLER t1_innodb READ FIRST; HANDLER t1_innodb CLOSE; SELECT COUNT(*) FROM t1_myisam; HANDLER t1_myisam OPEN; HANDLER t1_myisam READ FIRST; HANDLER t1_myisam CLOSE; BACKUP STAGE BLOCK_COMMIT; SELECT COUNT(*) FROM t1_innodb; HANDLER t1_innodb OPEN; HANDLER t1_innodb READ FIRST; HANDLER t1_innodb CLOSE; SELECT COUNT(*) FROM t1_myisam; HANDLER t1_myisam OPEN; HANDLER t1_myisam READ FIRST; HANDLER t1_myisam CLOSE; BACKUP STAGE END; drop table t1_innodb,t1_myisam; --echo # Show the fate and impact of some SET GLOBAL tx_read_only = 1/0 --echo # sliding through the sequence. BACKUP STAGE START; SET GLOBAL tx_read_only = 1; SET GLOBAL tx_read_only = 0; BACKUP STAGE FLUSH; SET GLOBAL tx_read_only = 1; SET GLOBAL tx_read_only = 0; BACKUP STAGE BLOCK_DDL; SET GLOBAL tx_read_only = 1; SET GLOBAL tx_read_only = 0; BACKUP STAGE BLOCK_COMMIT; SET GLOBAL tx_read_only = 1; SET GLOBAL tx_read_only = 0; BACKUP STAGE END; --echo # Show the fate and impact of some SET SESSION sql_log_bin = 0/1 --echo # sliding through the sequence. COMMIT; SET SESSION sql_log_bin = 1; BACKUP STAGE START; SET SESSION sql_log_bin = 0; SET SESSION sql_log_bin = 1; BACKUP STAGE FLUSH; SET SESSION sql_log_bin = 0; SET SESSION sql_log_bin = 1; BACKUP STAGE BLOCK_DDL; SET SESSION sql_log_bin = 0; SET SESSION sql_log_bin = 1; BACKUP STAGE BLOCK_COMMIT; SET SESSION sql_log_bin = 0; SET SESSION sql_log_bin = 1; BACKUP STAGE END; --echo #---- SET SESSION sql_log_bin = 0; BACKUP STAGE START; SET SESSION sql_log_bin = 1; SET SESSION sql_log_bin = 0; BACKUP STAGE FLUSH; SET SESSION sql_log_bin = 1; SET SESSION sql_log_bin = 0; BACKUP STAGE BLOCK_DDL; SET SESSION sql_log_bin = 1; SET SESSION sql_log_bin = 0; BACKUP STAGE BLOCK_COMMIT; SET SESSION sql_log_bin = 1; SET SESSION sql_log_bin = 0; BACKUP STAGE END; SET SESSION sql_log_bin = 1; --enable_service_connection --echo #----------------------------------------------------------------------- --echo # BACKUP STAGE statements are not allowed in stored routines --echo #----------------------------------------------------------------------- CREATE TABLE t1 (col1 INT); delimiter |; --error ER_SP_BADSTATEMENT CREATE PROCEDURE p1() BEGIN BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; BACKUP STAGE END; END| --error ER_SP_BADSTATEMENT CREATE FUNCTION f1 (s CHAR(20)) RETURNS INT DETERMINISTIC BEGIN BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; BACKUP STAGE END; RETURN 1; END| --error ER_SP_BADSTATEMENT CREATE TRIGGER tr1 BEFORE INSERT ON t1 FOR EACH ROW BEGIN BACKUP STAGE START; BACKUP STAGE FLUSH; BACKUP STAGE BLOCK_DDL; BACKUP STAGE BLOCK_COMMIT; BACKUP STAGE END; END| delimiter ;| DROP TABLE t1; --echo #----------------------------------------------------------------------- --echo # Check BACKUP status variables --echo #----------------------------------------------------------------------- SET SESSION lock_wait_timeout = 1; FLUSH STATUS; # MDEV-5336 introduces the status variable Com_backup --echo # Show how the status variable 'Com_backup' changes after BACKUP STAGE .. SHOW STATUS LIKE 'Com_backup'; BACKUP STAGE START; SHOW STATUS LIKE 'Com_backup'; --error ER_BACKUP_WRONG_STAGE BACKUP STAGE START; SHOW STATUS LIKE 'Com_backup'; BACKUP STAGE FLUSH; SHOW STATUS LIKE 'Com_backup'; BACKUP STAGE BLOCK_DDL; SHOW STATUS LIKE 'Com_backup'; BACKUP STAGE BLOCK_COMMIT; SHOW STATUS LIKE 'Com_backup'; BACKUP STAGE END; --echo # In case the backup lock is taken by the current connection than --echo # - DML modifying some permanent table is not allowed CREATE TABLE t1_innodb (col1 INT) ENGINE = InnoDB; CREATE TABLE t1_myisam (col1 INT) ENGINE = MyISAM; BACKUP STAGE START; SET AUTOCOMMIT = 0; --error ER_BACKUP_LOCK_IS_ACTIVE INSERT INTO t1_innodb SET col1 = 1; SET AUTOCOMMIT = 1; --error ER_BACKUP_LOCK_IS_ACTIVE INSERT INTO t1_innodb SET col1 = 1; --error ER_BACKUP_LOCK_IS_ACTIVE INSERT INTO t1_myisam SET col1 = 1; --echo # - DDL creating or renaming a permanent table or a procedure etc. --echo # is not allowed. --error ER_BACKUP_LOCK_IS_ACTIVE CREATE TABLE throw_away (col1 INT) ENGINE = InnoDB; --error ER_BACKUP_LOCK_IS_ACTIVE RENAME TABLE t1_innodb To throw_away; --error ER_BACKUP_LOCK_IS_ACTIVE CREATE PROCEDURE p1() SELECT 13; --error ER_BACKUP_LOCK_IS_ACTIVE CREATE PROCEDURE p1() SELECT 13; BACKUP STAGE END; DROP TABLE t1_innodb; DROP TABLE t1_myisam; --echo # --echo # Creating and modifying TEMPORARY TABLES are allowed --echo # --disable_view_protocol BACKUP STAGE START; BACKUP STAGE BLOCK_DDL; CREATE TEMPORARY TABLE tmp (col1 INT); DROP TEMPORARY TABLE tmp; CREATE TEMPORARY TABLE t_temporary_innodb (col1 INT) ENGINE = InnoDB; CREATE TEMPORARY TABLE t_temporary_myisam (col1 INT) ENGINE = MyISAM; --echo # - DML modifying that temporary table is allowed. INSERT INTO t_temporary_innodb SET col1 = 1; SELECT COUNT(*) FROM t_temporary_innodb; INSERT INTO t_temporary_myisam SET col1 = 1; SELECT COUNT(*) FROM t_temporary_myisam; BACKUP STAGE END; --echo # Show the fate and impact of some auto committed INSERT into temporary --echo # table sliding through the sequence. SET AUTOCOMMIT = 1; BACKUP STAGE START; INSERT INTO t_temporary_innodb SET col1 = 1; INSERT INTO t_temporary_myisam SET col1 = 1; BACKUP STAGE FLUSH; INSERT INTO t_temporary_innodb SET col1 = 1; INSERT INTO t_temporary_myisam SET col1 = 1; BACKUP STAGE BLOCK_DDL; INSERT INTO t_temporary_innodb SET col1 = 1; INSERT INTO t_temporary_myisam SET col1 = 1; BACKUP STAGE BLOCK_COMMIT; INSERT INTO t_temporary_innodb SET col1 = 1; INSERT INTO t_temporary_myisam SET col1 = 1; BACKUP STAGE END; SELECT COUNT(*) FROM t_temporary_innodb; --echo # Show the fate and impact of some DROP/CREATE TEMPORARY TABLE sliding --echo # through the sequence. SET AUTOCOMMIT = 1; BACKUP STAGE START; DROP TEMPORARY TABLE t_temporary_innodb; CREATE TEMPORARY TABLE t_temporary_innodb (col1 INT) ENGINE = InnoDB; BACKUP STAGE FLUSH; DROP TEMPORARY TABLE t_temporary_innodb; CREATE TEMPORARY TABLE t_temporary_innodb (col1 INT) ENGINE = InnoDB; BACKUP STAGE BLOCK_DDL; DROP TEMPORARY TABLE t_temporary_innodb; CREATE TEMPORARY TABLE t_temporary_innodb (col1 INT) ENGINE = InnoDB; BACKUP STAGE BLOCK_COMMIT; DROP TEMPORARY TABLE t_temporary_innodb; CREATE TEMPORARY TABLE t_temporary_innodb (col1 INT) ENGINE = InnoDB; BACKUP STAGE END; --echo # Show that even more DDL on the temporary table is allowed. BACKUP STAGE START; TRUNCATE t_temporary_innodb; ALTER TABLE t_temporary_innodb ADD COLUMN col2 INT; ALTER TABLE t_temporary_innodb ADD KEY idx(col2); BACKUP STAGE END; --enable_view_protocol # # MDEV-18067, MDEV-18068 and MDEV-18069 # Server crashes with BACKUP STAGE and FLUSH TABLE table_name # CREATE OR REPLACE TABLE t1 (pk INT PRIMARY KEY, f INT); BACKUP STAGE START; --error ER_BACKUP_LOCK_IS_ACTIVE FLUSH TABLE t1 FOR EXPORT; --error ER_BACKUP_LOCK_IS_ACTIVE FLUSH TABLE t1 WITH READ LOCK; BACKUP STAGE END; DROP TABLE t1;