mariadb/mysql-test/suite/innodb/t/innodb-lock.test

--source include/have_innodb.inc
--source include/have_partition.inc

#
# Check and select innodb lock type
#

set global innodb_table_locks=1;

select @@innodb_table_locks;

#
# Testing of explicit table locks with enforced table locks
#

set @@innodb_table_locks=1;

connect (con1,localhost,root,,);
create table t1 (id integer, x integer) engine=INNODB;
insert into t1 values(0, 0);
set autocommit=0;
SELECT * from t1 where id = 0 FOR UPDATE;

connect (con2,localhost,root,,);
set autocommit=0;

# The following statement should hang because con1 is locking the page
--send
lock table t1 write;
--sleep 2

connection con1;
update t1 set x=1 where id = 0;
select * from t1;
commit;

connection con2;
reap;
update t1 set x=2 where id = 0;
commit;
unlock tables;

connection con1;
select * from t1;
commit;

drop table t1;

--echo #
--echo # Old lock method (where LOCK TABLE was ignored by InnoDB) no longer
--echo # works when LOCK TABLE ... WRITE is used due to fix for bugs #46272
--echo # "MySQL 5.4.4, new MDL: unnecessary and bug #37346 "innodb does not
--echo # detect deadlock between update and alter table".
--echo # After WL#6671 "Improve scalability by not using thr_lock.c locks
--echo # for InnoDB tables" was implemented it no longer works for LOCK TABLES
--echo # ,,, READ as well.
--echo # LOCK TABLES locks are now completely handled by MDL subsystem.
--echo #

set @@innodb_table_locks=0;

create table t1 (id integer primary key, x integer) engine=INNODB;
insert into t1 values(0, 0),(1,1),(2,2);
commit;
SELECT * from t1 where id = 0 FOR UPDATE;

connection con2;
set autocommit=0;
set @@innodb_table_locks=0;

--echo # The following statement should block because SQL-level lock
--echo # is taken on t1 which will wait until concurrent transaction
--echo # is commited.
--echo # Sending:
--send lock table t1 write;

connection con1;
--echo # Wait until LOCK TABLE is blocked on SQL-level lock.
let $wait_condition=
  select count(*) = 1 from information_schema.processlist
  where state = "Waiting for table metadata lock" and
        info = "lock table t1 write";
--source include/wait_condition.inc
--echo # We should be able to do UPDATEs and SELECTs within transaction.
update t1 set x=1 where id = 0;
select * from t1;
--echo # Unblock LOCK TABLE.
commit;

connection con2;
--echo # Reap LOCK TABLE.
--reap
unlock tables;

connection con1;

select * from t1 where id = 0 for update;

connection con2;
--echo # The following statement should block because SQL-level lock
--echo # is taken on t1 which will wait until concurrent transaction
--echo # is commited.
--echo # Sending:
--send lock table t1 read;

connection con1;
--echo # Wait until LOCK TABLE is blocked on SQL-level lock.
let $wait_condition=
  select count(*) = 1 from information_schema.processlist
  where state = "Waiting for table metadata lock" and
        info = "lock table t1 read";
--source include/wait_condition.inc
--echo # We should be able to do UPDATEs and SELECTs within transaction.
update t1 set x=2 where id = 0;
select * from t1;
--echo # Unblock LOCK TABLE.
commit;

connection con2;
--echo # Reap LOCK TABLE.
--reap
unlock tables;

connection default;

drop table t1;

# End of 4.1 tests

--echo #
--echo #Bug#12842206 INNODB LOCKING REGRESSION FOR INSERT IGNORE
--echo #fixed by re-fixing Bug#7975
--echo #aka Bug#11759688 52020: InnoDB can still deadlock on just INSERT...
--echo #

connection default;
CREATE TABLE t1 (a INT PRIMARY KEY, b INT NOT NULL) ENGINE=InnoDB;

INSERT INTO t1 VALUES(3,1);

BEGIN;
# this used to wrongly acquire an X lock; now it takes an S lock
INSERT IGNORE INTO t1 VALUES(3,14);

connection con1;
BEGIN;
# this used to wrongly acquire an X lock; now it takes an S lock
INSERT IGNORE INTO t1 VALUES(3,23);
--send
SELECT * FROM t1 FOR UPDATE;

connection con2;
# Check that the above SELECT is blocked
let $wait_condition=
  select count(*) = 1 from information_schema.processlist
  where state = 'Sending data' and
        info = 'SELECT * FROM t1 FOR UPDATE';
--source include/wait_condition.inc
disconnect con2;

connection default;
COMMIT;
connection con1;
reap;
COMMIT;
connection default;
DROP TABLE t1;

--echo #
--echo # MDEV-11080 InnoDB: Failing assertion:
--echo # table->n_waiting_or_granted_auto_inc_locks > 0
--echo #

CREATE TABLE t1 (pk INTEGER AUTO_INCREMENT PRIMARY KEY) ENGINE=InnoDB;
INSERT INTO t1 VALUES (NULL),(NULL);
CREATE TABLE t2 LIKE t1;

BEGIN;

connection con1;
BEGIN;
DELETE FROM t2;
connection default;
--send LOCK TABLE t2 READ;
connection con1;
SET innodb_lock_wait_timeout= 1, lock_wait_timeout= 2;
--error 0,ER_LOCK_WAIT_TIMEOUT
INSERT INTO t2 SELECT * FROM t1;
COMMIT;

connection default;
reap;
UNLOCK TABLES;
DROP TABLE t1, t2;

--echo #
--echo # MDEV-16709 InnoDB: Error: trx already had an AUTO-INC lock
--echo #

CREATE TABLE t1 (pk INT AUTO_INCREMENT PRIMARY KEY) ENGINE=InnoDB
PARTITION BY key (pk) PARTITIONS 2;

CREATE TABLE t2 (a INT) ENGINE=InnoDB;
INSERT INTO t2 VALUES (1),(2),(3),(4),(5),(6);

CREATE TABLE t3 (b INT) ENGINE=InnoDB;
INSERT INTO t3 VALUES (1),(2),(3),(4),(5),(6),(7),(8),(9);

connection con1;
send INSERT t1 SELECT NULL FROM t2;

connection default;
--error 0,ER_DUP_ENTRY,ER_LOCK_DEADLOCK
INSERT t1 SELECT NULL FROM t3;

connection con1;
--error 0,ER_DUP_ENTRY,ER_LOCK_DEADLOCK
reap;
disconnect con1;
connection default;
DROP TABLE t1, t2, t3;