LOCK TABLES
and
UNLOCK
TABLES
interact with the use of transactions as
follows:
LOCK TABLES
is not
transaction-safe and implicitly commits any active
transaction before attempting to lock the tables.
UNLOCK
TABLES
implicitly commits any active transaction,
but only if LOCK TABLES
has
been used to acquire table locks. For example, in the
following set of statements,
UNLOCK
TABLES
releases the global read lock but does not
commit the transaction because no table locks are in effect:
FLUSH TABLES WITH READ LOCK; START TRANSACTION; SELECT ... ; UNLOCK TABLES;
Beginning a transaction (for example, with
START
TRANSACTION
) implicitly commits any current
transaction and releases existing locks.
Other statements that implicitly cause transactions to be committed do not release existing locks. For a list of such statements, see Section 12.3.3, “Statements That Cause an Implicit Commit”.
The correct way to use LOCK
TABLES
and
UNLOCK
TABLES
with transactional tables, such as
InnoDB
tables, is to begin a transaction
with SET autocommit = 0
(not
START
TRANSACTION
) followed by LOCK
TABLES
, and to not call
UNLOCK
TABLES
until you commit the transaction
explicitly. For example, if you need to write to table
t1
and read from table
t2
, you can do this:
SET autocommit=0;
LOCK TABLES t1 WRITE, t2 READ, ...;
... do something with tables t1 and t2 here ...
COMMIT;
UNLOCK TABLES;
When you call LOCK TABLES
,
InnoDB
internally takes its own table
lock, and MySQL takes its own table lock.
InnoDB
releases its internal table lock
at the next commit, but for MySQL to release its table lock,
you have to call
UNLOCK
TABLES
. You should not have
autocommit = 1
, because
then InnoDB
releases its internal table
lock immediately after the call of LOCK
TABLES
, and deadlocks can very easily happen.
InnoDB
does not acquire the internal
table lock at all if autocommit =
1
, to help old applications avoid unnecessary
deadlocks.
ROLLBACK
does not release table locks.
FLUSH TABLES WITH
READ LOCK
acquires a global read lock and not
table locks, so it is not subject to the same behavior as
LOCK TABLES
and
UNLOCK
TABLES
with respect to table locking and implicit
commits. See Section 12.4.6.2, “FLUSH
Syntax”.
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