# handler.inc # # See init.inc for setup of variables for this script # # The variables # $engine_type -- storage engine to be tested # $other_handler_engine_type -- storage engine <> $engine_type, if possible # 1. $other_handler_engine_type must support handler # 2. $other_handler_engine_type must point to an all # time available storage engine # 2006-08 MySQL 5.1 MyISAM and MEMORY only # # test of HANDLER ... # # Last update: # 2006-07-31 ML test refactored (MySQL 5.1) # code of t/handler.test and t/innodb_handler.test united # main testing code put into handler.inc # source include/have_csv.inc; # # Start testing the table created in init.inc # handler t1 open as t2; handler t2 read b first; handler t2 read b next; handler t2 read b next; handler t2 read b prev; handler t2 read b last; handler t2 read b prev; handler t2 read b prev; handler t2 read b first; handler t2 read b prev; handler t2 read b last; handler t2 read b prev; handler t2 read b next; handler t2 read b next; handler t2 read a=(15); handler t2 read a=(21); --error 1070 handler t2 read a=(19,"fff"); handler t2 read b=(19,"fff"); handler t2 read b=(19,"yyy"); handler t2 read b=(19); --error 1109 handler t1 read a last; handler t2 read a=(11); handler t2 read a>=(11); # Search on something we can find handler t2 read b=(18); handler t2 read b>=(18); handler t2 read b>(18); handler t2 read b<=(18); handler t2 read b<(18); # Search on something we can't find --sorted_result handler t2 read a=(15); --sorted_result handler t2 read a>=(15) limit 2; --sorted_result handler t2 read a>(15) limit 2; handler t2 read a<=(15); handler t2 read a<(15); # Search from upper end handler t2 read a=(54); handler t2 read a>=(54); handler t2 read a>(54); handler t2 read a<=(54); handler t2 read a<(54); # Search from lower end handler t2 read a=(1); handler t2 read a>=(1); handler t2 read a>(1); handler t2 read a<=(1); handler t2 read a<(1); handler t2 read b first limit 5; handler t2 read b next limit 3; handler t2 read b prev limit 10; handler t2 read b>=(16) limit 4; handler t2 read b>=(16) limit 2,2; select * from t1 where a>=16 order by a,b limit 2,2; handler t2 read a last limit 3; handler t2 read b=(16) limit 1,3; handler t2 read b=(19); handler t2 read b=(19) where b="yyy"; handler t2 read first; handler t2 read next; handler t2 read next; handler t2 close; handler t1 open; handler t1 read b next; # this used to crash as a bug#5373 handler t1 read b next; handler t1 close; handler t1 open; handler t1 read a prev; # this used to crash as a bug#5373 handler t1 read a prev; handler t1 close; handler t1 open as t2; handler t2 read first; eval alter table t1 engine = $engine_type; --error 1109 handler t2 read first; handler t1 open; handler t1 read a=(20) limit 1,3; flush tables; handler t1 read a=(20) limit 1,3; handler t1 close; # # Search after end and before start of index # handler t1 open; handler t1 read a=(25); handler t1 read a next; handler t1 read a next; handler t1 read a next; handler t1 read a prev; handler t1 read a=(1000); handler t1 read a next; handler t1 read a prev; handler t1 read a=(1000); handler t1 read a prev; handler t1 read a=(14); handler t1 read a prev; handler t1 read a prev; handler t1 read a next; handler t1 read a=(1); handler t1 read a prev; handler t1 read a next; handler t1 read a=(1); handler t1 read a next; handler t1 close; # # Test with prepared statements # handler t1 open; prepare stmt from 'handler t1 read a=(?) limit ?,?'; set @a=20,@b=1,@c=100; execute stmt using @a,@b,@c; set @a=20,@b=2,@c=1; execute stmt using @a,@b,@c; set @a=20,@b=0,@c=2; execute stmt using @a,@b,@c; deallocate prepare stmt; prepare stmt from 'handler t1 read a next limit ?'; handler t1 read a>=(21); set @a=3; execute stmt using @a; execute stmt using @a; execute stmt using @a; deallocate prepare stmt; prepare stmt from 'handler t1 read b prev limit ?'; execute stmt using @a; execute stmt using @a; execute stmt using @a; execute stmt using @a; deallocate prepare stmt; prepare stmt from 'handler t1 read b=(?,?)'; set @a=14, @b='aaa'; execute stmt using @a,@b; set @a=14, @b='not found'; execute stmt using @a,@b; deallocate prepare stmt; prepare stmt from 'handler t1 read b=(1+?) limit 10'; set @a=15; execute stmt using @a; execute stmt using @a; deallocate prepare stmt; prepare stmt from 'handler t1 read b>=(?) where a < ? limit 5'; set @a=17, @b=24; execute stmt using @a,@b; execute stmt using @a,@b; deallocate prepare stmt; prepare stmt from 'handler t1 read a=(?)'; set @a=17; execute stmt using @a; alter table t1 add c int; --error 1109 execute stmt using @a; deallocate prepare stmt; --error 1109 handler t1 close; handler t1 open; prepare stmt from 'handler t1 read a=(?)'; flush tables; set @a=17; execute stmt using @a; deallocate prepare stmt; handler t1 close; # # DROP TABLE / ALTER TABLE # handler t1 open as t2; drop table t1; create table t1 (a int not null); insert into t1 values (17); --error 1109 handler t2 read first; handler t1 open as t2; alter table t1 engine=csv; --error 1109 handler t2 read first; drop table t1; # # Test case for the bug #787 # create table t1 (a int); insert into t1 values (1),(2),(3),(4),(5),(6); delete from t1 limit 2; handler t1 open; handler t1 read first; handler t1 read first limit 1,1; handler t1 read first limit 2,2; delete from t1 limit 3; handler t1 read first; drop table t1; # # Test for #751 # create table t1(a int, index using btree (a)); insert into t1 values (1), (2), (3); handler t1 open; --error 1054 handler t1 read a=(W); --error 1210 handler t1 read a=(a); drop table t1; # # BUG#2304 # create table t1 (a char(5)); insert into t1 values ("Ok"); handler t1 open as t; handler t read first; use mysql; handler t read first; handler t close; handler test.t1 open as t; handler t read first; handler t close; use test; drop table t1; # # BUG#3649 # create table t1 ( a int, b int, INDEX a using btree (a) ); insert into t1 values (1,2), (2,1); handler t1 open; handler t1 read a=(1) where b=2; handler t1 read a=(1) where b=3; handler t1 read a=(1) where b=1; handler t1 close; drop table t1; # # Test if fix for BUG#4286 correctly closes handler tables. # create table t1 (c1 char(20)); insert into t1 values ("t1"); handler t1 open as h1; handler h1 read first limit 9; create table t2 (c1 char(20)); insert into t2 values ("t2"); handler t2 open as h2; handler h2 read first limit 9; create table t3 (c1 char(20)); insert into t3 values ("t3"); handler t3 open as h3; handler h3 read first limit 9; create table t4 (c1 char(20)); insert into t4 values ("t4"); handler t4 open as h4; handler h4 read first limit 9; create table t5 (c1 char(20)); insert into t5 values ("t5"); handler t5 open as h5; handler h5 read first limit 9; # close first eval alter table t1 engine=$other_handler_engine_type; --error 1109 handler h1 read first limit 9; handler h2 read first limit 9; handler h3 read first limit 9; handler h4 read first limit 9; handler h5 read first limit 9; # close last eval alter table t5 engine=$other_handler_engine_type; --error 1109 handler h1 read first limit 9; handler h2 read first limit 9; handler h3 read first limit 9; handler h4 read first limit 9; --error 1109 handler h5 read first limit 9; # close middle eval alter table t3 engine=$other_handler_engine_type; --error 1109 handler h1 read first limit 9; handler h2 read first limit 9; --error 1109 handler h3 read first limit 9; handler h4 read first limit 9; --error 1109 handler h5 read first limit 9; handler h2 close; handler h4 close; # close all depending handler tables handler t1 open as h1_1; handler t1 open as h1_2; handler t1 open as h1_3; handler h1_1 read first limit 9; handler h1_2 read first limit 9; handler h1_3 read first limit 9; eval alter table t1 engine=$engine_type; --error 1109 handler h1_1 read first limit 9; --error 1109 handler h1_2 read first limit 9; --error 1109 handler h1_3 read first limit 9; drop table t1; drop table t2; drop table t3; drop table t4; drop table t5; # # Bug#14397 - OPTIMIZE TABLE with an open HANDLER causes a crash # create table t1 (c1 int); insert into t1 values (1); handler t1 open; handler t1 read first; connect (con2,localhost,root,,); connection con2; --echo send the below to another connection, do not wait for the result send optimize table t1; --sleep 1 connection default; --disable_ps_protocol handler t1 read next; --enable_ps_protocol handler t1 close; connection con2; reap; connection default; drop table t1; CREATE TABLE t1 ( no1 smallint(5) NOT NULL default '0', no2 int(10) NOT NULL default '0', PRIMARY KEY using btree (no1,no2)); INSERT INTO t1 VALUES (1,274),(1,275),(2,6),(2,8),(4,1),(4,2); HANDLER t1 OPEN; HANDLER t1 READ `primary` = (1, 1000); HANDLER t1 READ `primary` PREV; HANDLER t1 READ `primary` = (1, 1000); HANDLER t1 READ `primary` NEXT; DROP TABLE t1; # End of 4.1 tests # # Addendum to Bug#14397 - OPTIMIZE TABLE with an open HANDLER causes a crash # Show that DROP TABLE can no longer deadlock against # FLUSH TABLES WITH READ LOCK. This is a 5.0 issue. # create table t1 (c1 int); insert into t1 values (14397); flush tables with read lock; # The thread with the global read lock cannot drop the table itself: --error 1223 drop table t1; # # We need a second connection to try the drop. # The drop waits for the global read lock to go away. # Without the addendum fix it locked LOCK_open before entering the wait loop. connection con2; send drop table t1; --sleep 1 # # Now we need something that wants LOCK_open. A simple table access which # opens the table does the trick. connection default; # This would hang on LOCK_open without the 5.0 addendum fix. select * from t1; # Release the read lock. This should make the DROP go through. unlock tables; # # Read the result of the drop command. connection con2; --echo read the result from the other connection reap; # # Now back to normal operation. The table should not exist any more. connection default; --error 1146 select * from t1; # Just to be sure and not confuse the next test case writer. drop table if exists t1; # # Bug#25856 - HANDLER table OPEN in one connection lock DROP TABLE in another one # create table t1 (a int not null) ENGINE=csv; connection con2; --error 1031 handler t1 open; connection default; drop table t1; disconnect con2; # # Bug#30632 HANDLER read failure causes hang # create table t1 (a int); handler t1 open as t1_alias; --error 1176 handler t1_alias read a next; --error 1054 handler t1_alias READ a next where inexistent > 0; --error 1176 handler t1_alias read a next; --error 1054 handler t1_alias READ a next where inexistent > 0; handler t1_alias close; drop table t1; # # Bug#30882 Dropping a temporary table inside a stored function may cause a server crash # create temporary table t1 (a int, b char(1), key a using btree (a), key b using btree (a,b)); insert into t1 values (0,"a"),(1,"b"),(2,"c"),(3,"d"),(4,"e"), (5,"f"),(6,"g"),(7,"h"),(8,"i"),(9,"j"),(9,'k'); select a,b from t1; handler t1 open as a1; handler a1 read a=(1); handler a1 read a next; handler a1 read a next; select a,b from t1; handler a1 read a prev; handler a1 read a prev; handler a1 read a=(6) where b="g"; handler a1 close; select a,b from t1; handler t1 open as a2; handler a2 read b=(9); handler a2 read b next; handler a2 read b prev limit 2; --error 0,1031 handler a2 read b last; handler a2 read b prev; handler a2 close; drop table t1; # Test that temporary tables associated with handlers are properly dropped. create table t1 (a int); create temporary table t2 (a int, key using btree (a)); handler t1 open as a1; handler t2 open as a2; handler a2 read a first; drop table t1, t2; --error ER_UNKNOWN_TABLE handler a2 read a next; --error ER_UNKNOWN_TABLE handler a1 close; # Alter table drop handlers create table t1 (a int, key using btree (a)); create table t2 like t1; handler t1 open as a1; handler t2 open as a2; handler a1 read a first; handler a2 read a first; alter table t1 add b int; --error ER_UNKNOWN_TABLE handler a1 close; handler a2 close; drop table t1, t2; # Rename table drop handlers create table t1 (a int, key using btree (a)); handler t1 open as a1; handler a1 read a first; rename table t1 to t2; --error ER_UNKNOWN_TABLE handler a1 read a first; drop table t2; # Optimize table drop handlers create table t1 (a int, key using btree (a)); create table t2 like t1; handler t1 open as a1; handler t2 open as a2; handler a1 read a first; handler a2 read a first; optimize table t1; --error ER_UNKNOWN_TABLE handler a1 close; handler a2 close; drop table t1, t2; --echo # --echo # Add test coverage for HANDLER and LOCK TABLES, HANDLER and DDL. --echo # --disable_warnings drop table if exists t1, t2, t3; --enable_warnings create table t1 (a int, key a (a)); insert into t1 (a) values (1), (2), (3), (4), (5); create table t2 (a int, key a (a)) select * from t1; create temporary table t3 (a int, key a (a)) select * from t2; handler t1 open; handler t2 open; handler t3 open; --echo # --echo # No HANDLER sql is allowed under LOCK TABLES. --echo # But it does not implicitly closes all handlers. --echo # lock table t1 read; --error ER_LOCK_OR_ACTIVE_TRANSACTION handler t1 open; --error ER_LOCK_OR_ACTIVE_TRANSACTION handler t1 read next; --error ER_LOCK_OR_ACTIVE_TRANSACTION handler t2 close; --error ER_LOCK_OR_ACTIVE_TRANSACTION handler t3 open; --echo # After UNLOCK TABLES handlers should be around and --echo # we should be able to continue reading through them. unlock tables; handler t1 read next; handler t1 close; handler t2 read next; handler t2 close; handler t3 read next; handler t3 close; drop temporary table t3; --echo # --echo # Other operations that implicitly close handler: --echo # --echo # TRUNCATE --echo # handler t1 open; truncate table t1; --error ER_UNKNOWN_TABLE handler t1 read next; handler t1 open; --echo # --echo # CREATE TRIGGER --echo # create trigger t1_ai after insert on t1 for each row set @a=1; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # DROP TRIGGER --echo # handler t1 open; drop trigger t1_ai; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # ALTER TABLE --echo # handler t1 open; alter table t1 add column b int; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # ANALYZE TABLE --echo # handler t1 open; analyze table t1; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # OPTIMIZE TABLE --echo # handler t1 open; optimize table t1; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # REPAIR TABLE --echo # handler t1 open; repair table t1; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # DROP TABLE, naturally. --echo # handler t1 open; drop table t1; --error ER_UNKNOWN_TABLE handler t1 read next; create table t1 (a int, b int, key a using btree (a)) select a from t2; --echo # --echo # RENAME TABLE, naturally --echo # handler t1 open; rename table t1 to t3; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # CREATE TABLE (even with IF NOT EXISTS clause, --echo # and the table exists). --echo # handler t2 open; create table if not exists t2 (a int); --error ER_UNKNOWN_TABLE handler t2 read next; rename table t3 to t1; drop table t2; --echo # --echo # FLUSH TABLE doesn't close the table but loses the position --echo # handler t1 open; handler t1 read a prev; flush table t1; handler t1 read a prev; handler t1 close; --echo # --echo # FLUSH TABLES WITH READ LOCK behaves like FLUSH TABLE. --echo # handler t1 open; handler t1 read a prev; flush tables with read lock; handler t1 read a prev; handler t1 close; unlock tables; --echo # --echo # Let us also check that these operations behave in similar --echo # way under LOCK TABLES. --echo # --echo # TRUNCATE under LOCK TABLES. --echo # handler t1 open; lock tables t1 write; truncate table t1; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; handler t1 open; --echo # --echo # CREATE TRIGGER under LOCK TABLES. --echo # lock tables t1 write; create trigger t1_ai after insert on t1 for each row set @a=1; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # DROP TRIGGER under LOCK TABLES. --echo # handler t1 open; lock tables t1 write; drop trigger t1_ai; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # ALTER TABLE under LOCK TABLES. --echo # handler t1 open; lock tables t1 write; alter table t1 drop column b; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # ANALYZE TABLE under LOCK TABLES. --echo # handler t1 open; lock tables t1 write; analyze table t1; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # OPTIMIZE TABLE under LOCK TABLES. --echo # handler t1 open; lock tables t1 write; optimize table t1; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # REPAIR TABLE under LOCK TABLES. --echo # handler t1 open; lock tables t1 write; repair table t1; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; --echo # --echo # DROP TABLE under LOCK TABLES, naturally. --echo # handler t1 open; lock tables t1 write; drop table t1; unlock tables; --error ER_UNKNOWN_TABLE handler t1 read next; create table t1 (a int, b int, key a using btree (a)); insert into t1 (a) values (1), (2), (3), (4), (5); --echo # --echo # FLUSH TABLE doesn't close the table but loses the position --echo # handler t1 open; handler t1 read a prev; lock tables t1 write; flush table t1; unlock tables; handler t1 read a prev; handler t1 close; --echo # --echo # Explore the effect of HANDLER locks on concurrent DDL --echo # handler t1 open; connect(con1, localhost, root,,); connect(con2, localhost, root,,); connect(con3, localhost, root,,); connection con1; --echo # Sending: --send drop table t1 --echo # We can't use connection 'default' as wait_condition will --echo # autoclose handlers. connection con2; --echo # Waitng for 'drop table t1' to get blocked... let $wait_condition=select count(*)=1 from information_schema.processlist where state='Waiting for table metadata lock' and info='drop table t1'; --source include/wait_condition.inc connection default; handler t1 read a prev; handler t1 read a prev; handler t1 close; connection con1; --echo # Reaping 'drop table t1'... --reap connection default; --echo # --echo # Explore the effect of HANDLER locks in parallel with SELECT --echo # create table t1 (a int, key a using btree (a)); insert into t1 (a) values (1), (2), (3), (4), (5); begin; select * from t1; handler t1 open; handler t1 read a prev; handler t1 read a prev; handler t1 close; connection con1; --echo # Sending: --send drop table t1 connection con2; --echo # Waiting for 'drop table t1' to get blocked... let $wait_condition=select count(*)=1 from information_schema.processlist where state='Waiting for table metadata lock' and info='drop table t1'; --source include/wait_condition.inc connection default; --echo # We can still use the table, it's part of the transaction select * from t1; --echo # Such are the circumstances that t1 is a part of transaction, --echo # thus we can reopen it in the handler handler t1 open; --echo # We can commit the transaction, it doesn't close the handler --echo # and doesn't let DROP to proceed. commit; handler t1 read a prev; handler t1 read a prev; handler t1 read a prev; handler t1 close; connection con1; --echo # Now drop can proceed --echo # Reaping 'drop table t1'... --reap connection default; --echo # --echo # Demonstrate that HANDLER locks and transaction locks --echo # reside in the same context. --echo # create table t1 (a int, key a (a)); insert into t1 (a) values (1), (2), (3), (4), (5); create table t0 (a int, key a using btree (a)); insert into t0 (a) values (1), (2), (3), (4), (5); begin; select * from t1; connection con2; --echo # Sending: send rename table t0 to t3, t1 to t0, t3 to t1; connection con1; --echo # Waiting for 'rename table ...' to get blocked... let $wait_condition=select count(*)=1 from information_schema.processlist where state='Waiting for table metadata lock' and info='rename table t0 to t3, t1 to t0, t3 to t1'; --source include/wait_condition.inc connection default; --echo # We back-off on hitting deadlock condition. --error ER_LOCK_DEADLOCK handler t0 open; select * from t0; handler t1 open; commit; handler t1 close; connection con2; --echo # Reaping 'rename table ...'... --reap connection default; handler t1 open; handler t1 read a prev; handler t1 close; drop table t0; --echo # --echo # Originally there was a deadlock error in this test. --echo # With implementation of deadlock detector --echo # we no longer deadlock, but block and wait on a lock. --echo # The HANDLER is auto-closed as soon as the connection --echo # sees a pending conflicting lock against it. --echo # create table t2 (a int, key a (a)); handler t1 open; connection con1; lock tables t2 read; connection con2; --echo # Sending 'drop table t2'... --send drop table t2 connection con1; --echo # Waiting for 'drop table t2' to get blocked... let $wait_condition=select count(*)=1 from information_schema.processlist where state='Waiting for table metadata lock' and info='drop table t2'; --source include/wait_condition.inc connection default; --echo # Sending 'select * from t2' send select * from t2; connection con1; --echo # Waiting for 'select * from t2' to get blocked... let $wait_condition=select count(*)=1 from information_schema.processlist where state='Waiting for table metadata lock' and info='select * from t2'; unlock tables; connection con2; --echo # Reaping 'drop table t2'... --reap connection default; --echo # Reaping 'select * from t2' --error ER_NO_SUCH_TABLE reap; handler t1 close; drop table t1; --echo # --echo # If we have to wait on an exclusive locks while having --echo # an open HANDLER, ER_LOCK_DEADLOCK is reported. --echo # create table t1 (a int, key a(a)); handler t1 open; connection con1; select get_lock('lock1', 10); connection default; send select get_lock('lock1', 10); connection con2; --echo # Waiting for 'select get_lock('lock1', 10)' to get blocked... let $wait_condition=select count(*)=1 from information_schema.processlist where state='User lock' and info='select get_lock(\'lock1\', 10)'; --source include/wait_condition.inc connection con1; --error ER_LOCK_DEADLOCK drop table t1; select release_lock('lock1'); connection default; reap; select release_lock('lock1'); --echo # Demonstrate that there is no deadlock with FLUSH TABLE, --echo # even though it is waiting for the other table to go away create table t2 like t1; --echo # Sending: --send flush table t2 connection con2; drop table t1; connection con1; unlock tables; connection default; --echo # Reaping 'flush table t2'... --reap drop table t2; --echo # --echo # Bug #46224 HANDLER statements within a transaction might --echo # lead to deadlocks --echo # create table t1 (a int, key using btree (a)); insert into t1 values (1), (2); connection default; begin; select * from t1; handler t1 open; connection con1; --echo # Sending: --send lock tables t1 write connection con2; --echo # Check that 'lock tables t1 write' waits until transaction which --echo # has read from the table commits. let $wait_condition= select count(*) = 1 from information_schema.processlist where state = "Waiting for table metadata lock" and info = "lock tables t1 write"; --source include/wait_condition.inc connection default; --echo # The below 'handler t1 read ...' should not be blocked as --echo # 'lock tables t1 write' has not succeeded yet. handler t1 read a next; --echo # Unblock 'lock tables t1 write'. select * from t1; # Release MDL_SHARED_READ held by HANDLER commit; connection con1; --echo # Reap 'lock tables t1 write'. --reap connection default; --echo # Sending: --send handler t1 read a next connection con1; --echo # Waiting for 'handler t1 read a next' to get blocked... let $wait_condition= select count(*) = 1 from information_schema.processlist where state = "Waiting for table metadata lock" and info = "handler t1 read a next"; --source include/wait_condition.inc --echo # The below 'drop table t1' should be able to proceed without --echo # waiting as it will force HANDLER to be closed. drop table t1; unlock tables; connection default; --echo # Reaping 'handler t1 read a next'... --error ER_NO_SUCH_TABLE --reap handler t1 close; connection con1; disconnect con1; --source include/wait_until_disconnected.inc connection con2; disconnect con2; --source include/wait_until_disconnected.inc connection con3; disconnect con3; --source include/wait_until_disconnected.inc connection default; --echo # --echo # A temporary table test. --echo # Check that we don't loose positions of HANDLER opened --echo # against a temporary table. --echo # create table t1 (a int, b int, key using btree (a)); insert into t1 (a) values (1), (2), (3), (4), (5); create temporary table t2 (a int, b int, key using btree (a)); insert into t2 (a) select a from t1; handler t1 open; handler t1 read a next; handler t2 open; handler t2 read a next; flush table t1; handler t2 read a next; --echo # Sic: the position is lost handler t1 read a next; select * from t1; --echo # Sic: the position is not lost handler t2 read a next; select * from t2; handler t2 read a next; drop table t1; drop temporary table t2; --echo # --echo # A test for lock_table_names()/unlock_table_names() function. --echo # It should work properly in presence of open HANDLER. --echo # create table t1 (a int, b int, key a (a)); create table t2 like t1; create table t3 like t1; create table t4 like t1; handler t1 open; handler t2 open; rename table t4 to t5, t3 to t4, t5 to t3; handler t1 read first; handler t2 read first; drop table t1, t2, t3, t4; --echo # --echo # A test for FLUSH TABLES WITH READ LOCK and HANDLER statements. --echo # set autocommit=0; create table t1 (a int, b int, key a (a)); insert into t1 (a, b) values (1, 1), (2, 1), (3, 2), (4, 2), (5, 5); create table t2 like t1; insert into t2 (a, b) select a, b from t1; create table t3 like t1; insert into t3 (a, b) select a, b from t1; commit; flush tables with read lock; handler t1 open; lock table t1 read; --error ER_LOCK_OR_ACTIVE_TRANSACTION handler t1 read next; --echo # This implicitly leaves LOCK TABLES but doesn't drop the GLR --error ER_NO_SUCH_TABLE lock table not_exists_write read; --echo # We still have the read lock. --error ER_CANT_UPDATE_WITH_READLOCK drop table t1; handler t1 open; select a from t2; handler t1 read next; flush tables with read lock; handler t2 open; flush tables with read lock; handler t1 read next; select a from t3; handler t2 read next; handler t1 close; rollback; handler t2 close; --error ER_CANT_UPDATE_WITH_READLOCK drop table t1; commit; flush tables; --error ER_CANT_UPDATE_WITH_READLOCK drop table t1; unlock tables; drop table t1; set autocommit=default; drop table t2, t3; --echo # --echo # HANDLER statement and operation-type aware metadata locks. --echo # Check that when we clone a ticket for HANDLER we downrade --echo # the lock. --echo # connect (con1,localhost,root,,); connection default; create table t1 (a int, b int, key using btree (a)); insert into t1 (a, b) values (1, 1), (2, 1), (3, 2), (4, 2), (5, 5); begin; insert into t1 (a, b) values (6, 6); handler t1 open; handler t1 read a last; insert into t1 (a, b) values (7, 7); handler t1 read a last; commit; connection default; handler t1 read a prev; handler t1 close; --echo # Cleanup. drop table t1; connection con1; disconnect con1; --source include/wait_until_disconnected.inc connection default; --echo # --echo # A test for Bug#50555 "handler commands crash server in --echo # my_hash_first()". --echo # --error ER_UNKNOWN_TABLE handler no_such_table read no_such_index first; --error ER_UNKNOWN_TABLE handler no_such_table close; --echo # --echo # Bug#50907 Assertion `hash_tables->table->next == __null' on --echo # HANDLER OPEN --echo # --disable_warnings DROP TABLE IF EXISTS t1, t2; --enable_warnings CREATE TEMPORARY TABLE t1 (i INT); CREATE TEMPORARY TABLE t2 (i INT); # This used to trigger the assert HANDLER t2 OPEN; # This also used to trigger the assert HANDLER t2 READ FIRST; HANDLER t2 CLOSE; DROP TABLE t1, t2; --echo # --echo # Bug#50912 Assertion `ticket->m_type >= mdl_request->type' --echo # failed on HANDLER + I_S --echo # --disable_warnings DROP TABLE IF EXISTS t1; --enable_warnings CREATE TABLE t1 (id INT); HANDLER t1 OPEN; # This used to trigger the assert. SELECT table_name, table_comment FROM information_schema.tables WHERE table_schema= 'test' AND table_name= 't1'; HANDLER t1 CLOSE; DROP TABLE t1; --echo # --echo # Test for bug #50908 "Assertion `handler_tables_hash.records == 0' --echo # failed in enter_locked_tables_mode". --echo # --disable_warnings drop tables if exists t1, t2; drop function if exists f1; --enable_warnings create table t1 (i int); insert into t1 values (1), (2); create table t2 (j int); insert into t2 values (1); create function f1() returns int return (select count(*) from t2); --echo # Check that open HANDLER survives statement executed in --echo # prelocked mode. handler t1 open; handler t1 read next; --echo # The below statement were aborted due to an assertion failure. select f1() from t2; handler t1 read next; handler t1 close; --echo # Check that the same happens under GLOBAL READ LOCK. flush tables with read lock; handler t1 open; handler t1 read next; select f1() from t2; handler t1 read next; unlock tables; handler t1 close; --echo # Now, check that the same happens if LOCK TABLES is executed. handler t1 open; handler t1 read next; lock table t2 read; select * from t2; unlock tables; handler t1 read next; handler t1 close; --echo # Finally, check scenario with GRL and LOCK TABLES. flush tables with read lock; handler t1 open; handler t1 read next; lock table t2 read; select * from t2; --echo # This unlocks both tables and GRL. unlock tables; handler t1 read next; handler t1 close; --echo # Clean-up. drop function f1; drop tables t1, t2; --echo # --echo # Test for bug #51136 "Crash in pthread_rwlock_rdlock on TEMPORARY + --echo # HANDLER + LOCK + SP". --echo # Also see additional coverage for this bug in flush.test. --echo # --disable_warnings drop tables if exists t1, t2; --enable_warnings create table t1 (i int); create temporary table t2 (j int); handler t1 open; lock table t2 read; --echo # This commit should not release any MDL locks. commit; unlock tables; --echo # The below statement crashed before the bug fix as it --echo # has attempted to release metadata lock which was --echo # already released by commit. handler t1 close; drop tables t1, t2; --echo # --echo # Bug#51355 handler stmt cause assertion in --echo # bool MDL_context::try_acquire_lock(MDL_request*) --echo # --disable_warnings DROP TABLE IF EXISTS t1; --enable_warnings connect(con51355, localhost, root); connection default; CREATE TABLE t1(id INT, KEY id(id)); HANDLER t1 OPEN; connection con51355; --echo # Sending: --send DROP TABLE t1 connection default; --echo # This I_S query will cause the handler table to be closed and --echo # the metadata lock to be released. This will allow DROP TABLE --echo # to proceed. Waiting for the table to be removed. let $wait_condition= SELECT COUNT(*) = 0 FROM information_schema.tables WHERE table_name = "t1"; --source include/wait_condition.inc connection con51355; --echo # Reaping: DROP TABLE t1 --reap connection default; --error ER_NO_SUCH_TABLE HANDLER t1 READ id NEXT; # This caused an assertion --error ER_NO_SUCH_TABLE HANDLER t1 READ id NEXT; HANDLER t1 CLOSE; connection con51355; disconnect con51355; --source include/wait_until_disconnected.inc connection default; --echo # --echo # Bug#54401 assert in Diagnostics_area::set_eof_status , HANDLER --echo # --disable_warnings DROP TABLE IF EXISTS t1, t2; DROP FUNCTION IF EXISTS f1; --enable_warnings delimiter |; CREATE FUNCTION f1() RETURNS INTEGER BEGIN SELECT 1 FROM t2 INTO @a; RETURN 1; END| delimiter ;| # Get f1() parsed and cached --error ER_NO_SUCH_TABLE SELECT f1(); CREATE TABLE t1(a INT); INSERT INTO t1 VALUES (1); HANDLER t1 OPEN; # This used to cause the assert --error ER_NOT_SUPPORTED_YET HANDLER t1 READ FIRST WHERE f1() = 1; HANDLER t1 CLOSE; DROP FUNCTION f1; DROP TABLE t1; --echo # --echo # Bug#54920 Stored functions are allowed in HANDLER statements, --echo # but broken. --echo # --disable_warnings DROP TABLE IF EXISTS t1; DROP FUNCTION IF EXISTS f1; --enable_warnings CREATE TABLE t1 (a INT); INSERT INTO t1 VALUES (1), (2); CREATE FUNCTION f1() RETURNS INT RETURN 1; HANDLER t1 OPEN; --error ER_NOT_SUPPORTED_YET HANDLER t1 READ FIRST WHERE f1() = 1; HANDLER t1 CLOSE; DROP FUNCTION f1; DROP TABLE t1; --echo # --echo # BUG#51877 - HANDLER interface causes invalid memory read --echo # CREATE TABLE t1(a INT, KEY using btree (a)); HANDLER t1 OPEN; HANDLER t1 READ a FIRST; INSERT INTO t1 VALUES(1); --error 0,ER_CHECKREAD HANDLER t1 READ a NEXT; HANDLER t1 CLOSE; DROP TABLE t1;