# This test covers behavior for InnoDB tables. --source include/have_innodb.inc # This test requires statement/mixed mode binary logging. # Row-based mode puts weaker serializability requirements # so weaker locks are acquired for it. # Also in ROW mode LOCK_S row locks won't be acquired for DML # and test for bug#51263 won't trigger execution path on which # this bug was encountered. --source include/have_binlog_format_mixed_or_statement.inc # Original test case for bug#51263 needs partitioning. --source include/have_partition.inc # Save the initial number of concurrent sessions. --source include/count_sessions.inc --disable_query_log CALL mtr.add_suppression("Unsafe statement written to the binary log using statement format since BINLOG_FORMAT = STATEMENT"); --enable_query_log --echo # --echo # Test how do we handle locking in various cases when --echo # we read data from InnoDB tables. --echo # --echo # In fact by performing this test we check two things: --echo # 1) That SQL-layer correctly determine type of thr_lock.c --echo # lock to be acquired/passed to InnoDB engine. --echo # 2) That InnoDB engine correctly interprets this lock --echo # type and takes necessary row locks or does not --echo # take them if they are not necessary. --echo # --echo # This test makes sense only in REPEATABLE-READ mode as --echo # in SERIALIZABLE mode all statements that read data take --echo # shared lock on them to enforce its semantics. select @@session.tx_isolation; --echo # Prepare playground by creating tables, views, --echo # routines and triggers used in tests. connect (con1, localhost, root,,); connection default; --disable_warnings drop table if exists t0, t1, t2, t3, t4, t5; drop view if exists v1, v2; drop procedure if exists p1; drop procedure if exists p2; drop function if exists f1; drop function if exists f2; drop function if exists f3; drop function if exists f4; drop function if exists f5; drop function if exists f6; drop function if exists f7; drop function if exists f8; drop function if exists f9; drop function if exists f10; drop function if exists f11; drop function if exists f12; drop function if exists f13; drop function if exists f14; drop function if exists f15; --enable_warnings create table t1 (i int primary key) engine=innodb; insert into t1 values (1), (2), (3), (4), (5); create table t2 (j int primary key) engine=innodb; insert into t2 values (1), (2), (3), (4), (5); create table t3 (k int primary key) engine=innodb; insert into t3 values (1), (2), (3); create table t4 (l int primary key) engine=innodb; insert into t4 values (1); create table t5 (l int primary key) engine=innodb; insert into t5 values (1); create view v1 as select i from t1; create view v2 as select j from t2 where j in (select i from t1); create procedure p1(k int) insert into t2 values (k); --enable_prepare_warnings delimiter |; create function f1() returns int begin declare j int; select i from t1 where i = 1 into j; return j; end| create function f2() returns int begin declare k int; select i from t1 where i = 1 into k; insert into t2 values (k + 5); return 0; end| create function f3() returns int begin return (select i from t1 where i = 3); end| create function f4() returns int begin if (select i from t1 where i = 3) then return 1; else return 0; end if; end| create function f5() returns int begin insert into t2 values ((select i from t1 where i = 1) + 5); return 0; end| create function f6() returns int begin declare k int; select i from v1 where i = 1 into k; return k; end| create function f7() returns int begin declare k int; select j from v2 where j = 1 into k; return k; end| create function f8() returns int begin declare k int; select i from v1 where i = 1 into k; insert into t2 values (k+5); return k; end| create function f9() returns int begin update v2 set j=j+10 where j=1; return 1; end| create function f10() returns int begin return f1(); end| create function f11() returns int begin declare k int; set k= f1(); insert into t2 values (k+5); return k; end| create function f12(p int) returns int begin insert into t2 values (p); return p; end| create function f13(p int) returns int begin return p; end| create procedure p2(inout p int) begin select i from t1 where i = 1 into p; end| create function f14() returns int begin declare k int; call p2(k); insert into t2 values (k+5); return k; end| create function f15() returns int begin declare k int; call p2(k); return k; end| create trigger t4_bi before insert on t4 for each row begin declare k int; select i from t1 where i=1 into k; set new.l= k+1; end| create trigger t4_bu before update on t4 for each row begin if (select i from t1 where i=1) then set new.l= 2; end if; end| create trigger t4_bd before delete on t4 for each row begin if !(select i from v1 where i=1) then signal sqlstate '45000'; end if; end| create trigger t5_bi before insert on t5 for each row begin set new.l= f1()+1; end| create trigger t5_bu before update on t5 for each row begin declare j int; call p2(j); set new.l= j + 1; end| delimiter ;| --disable_prepare_warnings --echo # --echo # Set common variables to be used by scripts called below. --echo # let $con_aux= con1; let $table= t1; --echo # --echo # 1. Statements that read tables and do not use subqueries. --echo # --echo # --echo # 1.1 Simple SELECT statement. --echo # --echo # No locks are necessary as this statement won't be written --echo # to the binary log and InnoDB supports snapshots. let $statement= select * from t1; --source include/check_no_row_lock.inc --echo # --echo # 1.2 Multi-UPDATE statement. --echo # --echo # Has to take shared locks on rows in the table being read as this --echo # statement will be written to the binary log and therefore should --echo # be serialized with concurrent statements. let $statement= update t2, t1 set j= j - 1 where i = j; let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 1.3 Multi-DELETE statement. --echo # --echo # The above is true for this statement as well. let $statement= delete t2 from t1, t2 where i = j; let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 1.4 DESCRIBE statement. --echo # --echo # This statement does not really read data from the --echo # target table and thus does not take any lock on it. --echo # We check this for completeness of coverage. let $statement= describe t1; --source include/check_no_row_lock.inc --echo # --echo # 1.5 SHOW statements. --echo # --echo # The above is true for SHOW statements as well. let $statement= show create table t1; --source include/check_no_row_lock.inc let $statement= show keys from t1; --source include/check_no_row_lock.inc --echo # --echo # 2. Statements which read tables through subqueries. --echo # --echo # --echo # 2.1 CALL with a subquery. --echo # --echo # A strong lock is not necessary as this statement is not --echo # written to the binary log as a whole (it is written --echo # statement-by-statement) and thanks to MVCC we can always get --echo # versions of rows prior to the update that has locked them. --echo # But in practice InnoDB does locking reads for all statements --echo # other than SELECT (unless READ UNCOMMITTED or READ COMMITTED). let $statement= call p1((select i + 5 from t1 where i = 1)); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.2 CREATE TABLE with a subquery. --echo # --echo # Has to take shared locks on rows in the table being read as --echo # this statement is written to the binary log and therefore --echo # should be serialized with concurrent statements. let $statement= create table t0 engine=innodb select * from t1; let $wait_statement= $statement; --source include/check_shared_row_lock.inc drop table t0; let $statement= create table t0 engine=innodb select j from t2 where j in (select i from t1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc drop table t0; --echo # --echo # 2.3 DELETE with a subquery. --echo # --echo # The above is true for this statement as well. let $statement= delete from t2 where j in (select i from t1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.4 MULTI-DELETE with a subquery. --echo # --echo # Same is true for this statement as well. let $statement= delete t2 from t3, t2 where k = j and j in (select i from t1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.5 DO with a subquery. --echo # --echo # In theory should not take row locks as it is not logged. --echo # In practice InnoDB takes shared row locks. let $statement= do (select i from t1 where i = 1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.6 INSERT with a subquery. --echo # --echo # Has to take shared locks on rows in the table being read as --echo # this statement is written to the binary log and therefore --echo # should be serialized with concurrent statements. let $statement= insert into t2 select i+5 from t1; let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= insert into t2 values ((select i+5 from t1 where i = 4)); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.7 LOAD DATA with a subquery. --echo # --echo # The above is true for this statement as well. let $statement= load data infile '../../std_data/rpl_loaddata.dat' into table t2 (@a, @b) set j= @b + (select i from t1 where i = 1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.8 REPLACE with a subquery. --echo # --echo # Same is true for this statement as well. let $statement= replace into t2 select i+5 from t1; let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= replace into t2 values ((select i+5 from t1 where i = 4)); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.9 SELECT with a subquery. --echo # --echo # Locks are not necessary as this statement is not written --echo # to the binary log and thanks to MVCC we can always get --echo # versions of rows prior to the update that has locked them. --echo # --echo # Also serves as a test case for bug #46947 "Embedded SELECT --echo # without FOR UPDATE is causing a lock". let $statement= select * from t2 where j in (select i from t1); --source include/check_no_row_lock.inc --echo # --echo # 2.10 SET with a subquery. --echo # --echo # In theory should not require locking as it is not written --echo # to the binary log. In practice InnoDB acquires shared row --echo # locks. let $statement= set @a:= (select i from t1 where i = 1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.11 SHOW with a subquery. --echo # --echo # Similarly to the previous case, in theory should not require locking --echo # as it is not written to the binary log. In practice InnoDB --echo # acquires shared row locks. let $statement= show tables from test where Tables_in_test = 't2' and (select i from t1 where i = 1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= show columns from t2 where (select i from t1 where i = 1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.12 UPDATE with a subquery. --echo # --echo # Has to take shared locks on rows in the table being read as --echo # this statement is written to the binary log and therefore --echo # should be serialized with concurrent statements. let $statement= update t2 set j= j-10 where j in (select i from t1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 2.13 MULTI-UPDATE with a subquery. --echo # --echo # Same is true for this statement as well. let $statement= update t2, t3 set j= j -10 where j=k and j in (select i from t1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 3. Statements which read tables through a view. --echo # --echo # --echo # 3.1 SELECT statement which uses some table through a view. --echo # --echo # Since this statement is not written to the binary log --echo # and old version of rows are accessible thanks to MVCC, --echo # no locking is necessary. let $statement= select * from v1; --source include/check_no_row_lock.inc let $statement= select * from v2; --source include/check_no_row_lock.inc let $statement= select * from t2 where j in (select i from v1); --source include/check_no_row_lock.inc let $statement= select * from t3 where k in (select j from v2); --source include/check_no_row_lock.inc --echo # --echo # 3.2 Statements which modify a table and use views. --echo # --echo # Since such statements are going to be written to the binary --echo # log they need to be serialized against concurrent statements --echo # and therefore should take shared row locks on data read. let $statement= update t2 set j= j-10 where j in (select i from v1); let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= update t3 set k= k-10 where k in (select j from v2); let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= update t2, v1 set j= j-10 where j = i; let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= update v2 set j= j-10 where j = 3; let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 4. Statements which read tables through stored functions. --echo # --echo # --echo # 4.1 SELECT/SET with a stored function which does not --echo # modify data and uses SELECT in its turn. --echo # --echo # There is no need to take row locks on the table --echo # being selected from in SF as the call to such function --echo # won't get into the binary log. --echo # --echo # However in practice innodb takes strong lock on tables --echo # being selected from within SF, when SF is called from --echo # non SELECT statements like 'set' statement below. let $statement= select f1(); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_no_row_lock.inc let $statement= set @a:= f1(); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_shared_row_lock.inc --echo # --echo # 4.2 INSERT (or other statement which modifies data) with --echo # a stored function which does not modify data and uses --echo # SELECT. --echo # --echo # Since such statement is written to the binary log it should --echo # be serialized with concurrent statements affecting the data --echo # it uses. Therefore it should take row locks on the data --echo # it reads. let $statement= insert into t2 values (f1() + 5); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_shared_row_lock.inc --echo # --echo # 4.3 SELECT/SET with a stored function which --echo # reads and modifies data. --echo # --echo # Since a call to such function is written to the binary log, --echo # it should be serialized with concurrent statements affecting --echo # the data it uses. Hence, row locks on the data read --echo # should be taken. let $statement= select f2(); let $wait_statement= select i from t1 where i = 1 into k; --source include/check_shared_row_lock.inc let $statement= set @a:= f2(); let $wait_statement= select i from t1 where i = 1 into k; --source include/check_shared_row_lock.inc --echo # --echo # 4.4. SELECT/SET with a stored function which does not --echo # modify data and reads a table through subselect --echo # in a control construct. --echo # --echo # Call to this function won't get to the --echo # binary log and thus no locking is needed. --echo # --echo # However in practice innodb takes strong lock on tables --echo # being selected from within SF, when SF is called from --echo # non SELECT statements like 'set' statement below. let $statement= select f3(); let $wait_statement= $statement; --source include/check_no_row_lock.inc let $statement= set @a:= f3(); let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= select f4(); let $wait_statement= $statement; --source include/check_no_row_lock.inc let $statement= set @a:= f4(); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 4.5. INSERT (or other statement which modifies data) with --echo # a stored function which does not modify data and reads --echo # the table through a subselect in one of its control --echo # constructs. --echo # --echo # Since such statement is written to the binary log it should --echo # be serialized with concurrent statements affecting data it --echo # uses. Therefore it should take row locks on the data --echo # it reads. let $statement= insert into t2 values (f3() + 5); let $wait_statement= $statement; --source include/check_shared_row_lock.inc let $statement= insert into t2 values (f4() + 6); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 4.6 SELECT/SET which uses a stored function with --echo # DML which reads a table via a subquery. --echo # --echo # Since call to such function is written to the binary log --echo # it should be serialized with concurrent statements. --echo # Hence reads should take row locks. let $statement= select f5(); let $wait_statement= insert into t2 values ((select i from t1 where i = 1) + 5); --source include/check_shared_row_lock.inc let $statement= set @a:= f5(); let $wait_statement= insert into t2 values ((select i from t1 where i = 1) + 5); --source include/check_shared_row_lock.inc --echo # --echo # 4.7 SELECT/SET which uses a stored function which --echo # doesn't modify data and reads tables through --echo # a view. --echo # --echo # Calls to such functions won't get into --echo # the binary log and thus don't need row locks. --echo # --echo # However in practice innodb takes strong lock on tables --echo # being selected from within SF, when SF is called from --echo # non SELECT statements like 'set' statement below. let $statement= select f6(); let $wait_statement= select i from v1 where i = 1 into k; --source include/check_no_row_lock.inc let $statement= set @a:= f6(); let $wait_statement= select i from v1 where i = 1 into k; --source include/check_shared_row_lock.inc let $statement= select f7(); let $wait_statement= select j from v2 where j = 1 into k; --source include/check_no_row_lock.inc let $statement= set @a:= f7(); let $wait_statement= select j from v2 where j = 1 into k; --source include/check_shared_row_lock.inc --echo # --echo # 4.8 INSERT which uses stored function which --echo # doesn't modify data and reads a table --echo # through a view. --echo # --echo # Since such statement is written to the binary log and --echo # should be serialized with concurrent statements affecting --echo # the data it uses. Therefore it should take row locks on --echo # the rows it reads. let $statement= insert into t3 values (f6() + 5); let $wait_statement= select i from v1 where i = 1 into k; --source include/check_shared_row_lock.inc let $statement= insert into t3 values (f7() + 5); let $wait_statement= select j from v2 where j = 1 into k; --source include/check_shared_row_lock.inc --echo # --echo # 4.9 SELECT which uses a stored function which --echo # modifies data and reads tables through a view. --echo # --echo # Since a call to such function is written to the binary log --echo # it should be serialized with concurrent statements. --echo # Hence, reads should take row locks. let $statement= select f8(); let $wait_statement= select i from v1 where i = 1 into k; --source include/check_shared_row_lock.inc let $statement= select f9(); let $wait_statement= update v2 set j=j+10 where j=1; --source include/check_shared_row_lock.inc --echo # --echo # 4.10 SELECT which uses stored function which doesn't modify --echo # data and reads a table indirectly, by calling another --echo # function. --echo # --echo # Calls to such functions won't get into the binary --echo # log and thus don't need to acquire row locks. let $statement= select f10(); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_no_row_lock.inc --echo # --echo # 4.11 INSERT which uses a stored function which doesn't modify --echo # data and reads a table indirectly, by calling another --echo # function. --echo # --echo # Since such statement is written to the binary log, it should --echo # be serialized with concurrent statements affecting the data it --echo # uses. Therefore it should take row locks on data it reads. let $statement= insert into t2 values (f10() + 5); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_shared_row_lock.inc --echo # --echo # 4.12 SELECT which uses a stored function which modifies --echo # data and reads a table indirectly, by calling another --echo # function. --echo # --echo # Since a call to such function is written to the binary log --echo # it should be serialized from concurrent statements. --echo # Hence, reads should take row locks. let $statement= select f11(); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_shared_row_lock.inc --echo # --echo # 4.13 SELECT that reads a table through a subquery passed --echo # as a parameter to a stored function which modifies --echo # data. --echo # --echo # Even though a call to this function is written to the --echo # binary log, values of its parameters are written as literals. --echo # So there is no need to acquire row locks on rows used in --echo # the subquery. let $statement= select f12((select i+10 from t1 where i=1)); --source include/check_no_row_lock.inc --echo # --echo # 4.14 INSERT that reads a table via a subquery passed --echo # as a parameter to a stored function which doesn't --echo # modify data. --echo # --echo # Since this statement is written to the binary log it should --echo # be serialized with concurrent statements affecting the data it --echo # uses. Therefore it should take row locks on the data it reads. let $statement= insert into t2 values (f13((select i+10 from t1 where i=1))); let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 5. Statements that read tables through stored procedures. --echo # --echo # --echo # 5.1 CALL statement which reads a table via SELECT. --echo # --echo # Since neither this statement nor its components are --echo # written to the binary log, there is no need to take --echo # row locks on the data it reads. let $statement= call p2(@a); --source include/check_no_row_lock.inc --echo # --echo # 5.2 Function that modifies data and uses CALL, --echo # which reads a table through SELECT. --echo # --echo # Since a call to such function is written to the binary --echo # log, it should be serialized with concurrent statements. --echo # Hence, in this case reads should take row locks on data. let $statement= select f14(); let $wait_statement= select i from t1 where i = 1 into p; --source include/check_shared_row_lock.inc --echo # --echo # 5.3 SELECT that calls a function that doesn't modify data and --echo # uses a CALL statement that reads a table via SELECT. --echo # --echo # Calls to such functions won't get into the binary --echo # log and thus don't need to acquire row locks. let $statement= select f15(); let $wait_statement= select i from t1 where i = 1 into p; --source include/check_no_row_lock.inc --echo # --echo # 5.4 INSERT which calls function which doesn't modify data and --echo # uses CALL statement which reads table through SELECT. --echo # --echo # Since such statement is written to the binary log it should --echo # be serialized with concurrent statements affecting data it --echo # uses. Therefore it should take row locks on data it reads. let $statement= insert into t2 values (f15()+5); let $wait_statement= select i from t1 where i = 1 into p; --source include/check_shared_row_lock.inc --echo # --echo # 6. Statements that use triggers. --echo # --echo # --echo # 6.1 Statement invoking a trigger that reads table via SELECT. --echo # --echo # Since this statement is written to the binary log it should --echo # be serialized with concurrent statements affecting the data --echo # it uses. Therefore, it should take row locks on the data --echo # it reads. let $statement= insert into t4 values (2); let $wait_statement= select i from t1 where i=1 into k; --source include/check_shared_row_lock.inc --echo # --echo # 6.2 Statement invoking a trigger that reads table through --echo # a subquery in a control construct. --echo # --echo # The above is true for this statement as well. let $statement= update t4 set l= 2 where l = 1; let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 6.3 Statement invoking a trigger that reads a table through --echo # a view. --echo # --echo # And for this statement. let $statement= delete from t4 where l = 1; let $wait_statement= $statement; --source include/check_shared_row_lock.inc --echo # --echo # 6.4 Statement invoking a trigger that reads a table through --echo # a stored function. --echo # --echo # And for this statement. let $statement= insert into t5 values (2); let $wait_statement= select i from t1 where i = 1 into j; --source include/check_shared_row_lock.inc --echo # --echo # 6.5 Statement invoking a trigger that reads a table through --echo # stored procedure. --echo # --echo # And for this statement. let $statement= update t5 set l= 2 where l = 1; let $wait_statement= select i from t1 where i = 1 into p; --source include/check_shared_row_lock.inc --echo # Clean-up. drop function f1; drop function f2; drop function f3; drop function f4; drop function f5; drop function f6; drop function f7; drop function f8; drop function f9; drop function f10; drop function f11; drop function f12; drop function f13; drop function f14; drop function f15; drop view v1, v2; drop procedure p1; drop procedure p2; drop table t1, t2, t3, t4, t5; disconnect con1; --echo # --echo # Test for bug#51263 "Deadlock between transactional SELECT --echo # and ALTER TABLE ... REBUILD PARTITION". --echo # connect (con1,localhost,root,,test,,); connection default; --disable_warnings drop table if exists t1, t2; --enable_warnings create table t1 (i int auto_increment not null primary key) engine=innodb; create table t2 (i int) engine=innodb; insert into t1 values (1), (2), (3), (4), (5); begin; --echo # Acquire SR metadata lock on t1 and LOCK_S row-locks on its rows. insert into t2 select count(*) from t1; connection con1; --echo # Sending: --send alter table t1 add column j int connection default; --echo # Wait until ALTER is blocked because it tries to upgrade SNW --echo # metadata lock to X lock. --echo # It should not be blocked during copying data to new version of --echo # table as it acquires LOCK_S locks on rows of old version, which --echo # are compatible with locks acquired by connection 'con1'. let $wait_condition= select count(*) = 1 from information_schema.processlist where state = "Waiting for table metadata lock" and info = "alter table t1 add column j int"; --source include/wait_condition.inc --echo # The below statement will deadlock because it will try to acquire --echo # SW lock on t1, which will conflict with ALTER's SNW lock. And --echo # ALTER will be waiting for this connection to release its SR lock. --echo # This deadlock should be detected by an MDL subsystem and this --echo # statement should be aborted with an appropriate error. --error ER_LOCK_DEADLOCK insert into t1 values (6); --echo # Unblock ALTER TABLE. commit; connection con1; --echo # Reaping ALTER TABLE. --reap connection default; --echo # --echo # Now test for scenario in which bug was reported originally. --echo # drop tables t1, t2; create table t1 (i int auto_increment not null primary key) engine=innodb partition by hash (i) partitions 4; create table t2 (i int) engine=innodb; insert into t1 values (1), (2), (3), (4), (5); begin; --echo # Acquire SR metadata lock on t1. select * from t1; connection con1; --echo # Sending: --send alter table t1 rebuild partition p0 connection default; --echo # Wait until ALTER is blocked because of active SR lock. let $wait_condition= select count(*) = 1 from information_schema.processlist where state = "Waiting for table metadata lock" and info = "alter table t1 rebuild partition p0"; --source include/wait_condition.inc --echo # The below statement should succeed as transaction --echo # has SR metadata lock on t1 and only going to read --echo # rows from it. insert into t2 select count(*) from t1; --echo # Unblock ALTER TABLE. commit; connection con1; --echo # Reaping ALTER TABLE. --reap connection default; disconnect con1; --echo # Clean-up. drop tables t1, t2; # Check that all connections opened by test cases in this file are really # gone so execution of other tests won't be affected by their presence. --source include/wait_until_count_sessions.inc