InnoDB
tables use row-level locking so that
multiple sessions and applications can read from and write to
the same table simultaneously, without making each other wait or
producing inconsistent results. For this storage engine, avoid
using the LOCK TABLES
statement,
because it does not offer any extra protection, but instead
reduces concurrency. The automatic row-level locking makes these
tables suitable for your busiest databases with your most
important data, while also simplifying application logic since
you do not need to lock and unlock tables. Consequently, the
InnoDB
storage engine is the default in
MySQL.
MySQL uses table locking (instead of page, row, or column
locking) for all storage engines except
InnoDB
. The locking operations themselves do
not have much overhead. But because only one session can write
to a table at any one time, for best performance with these
other storage engines, use them primarily for tables that are
queried often and rarely inserted into or updated.
When choosing whether to create a table using
InnoDB
or a different storage engine, keep
in mind the following disadvantages of table locking:
Table locking enables many sessions to read from a table at the same time, but if a session wants to write to a table, it must first get exclusive access, meaning it might have to wait for other sessions to finish with the table first. During the update, all other sessions that want to access this particular table must wait until the update is done.
Table locking causes problems when a session is waiting because the disk is full and free space needs to become available before the session can proceed. In this case, all sessions that want to access the problem table are also put in a waiting state until more disk space is made available.
A
SELECT
statement that takes a long time to run prevents other sessions from updating the table in the meantime, making the other sessions appear slow or unresponsive. While a session is waiting to get exclusive access to the table for updates, other sessions that issueSELECT
statements queue up behind it, reducing concurrency even for read-only sessions.
The following items describe some ways to avoid or reduce contention caused by table locking:
Consider switching the table to the
InnoDB
storage engine, either usingCREATE TABLE ... ENGINE=INNODB
during setup, or usingALTER TABLE ... ENGINE=INNODB
for an existing table. See Chapter 14, The InnoDB Storage Engine for more details about this storage engine.Optimize
SELECT
statements to run faster so that they lock tables for a shorter time. You might have to create some summary tables to do this.Start mysqld with
--low-priority-updates
. For storage engines that use only table-level locking (such asMyISAM
,MEMORY
, andMERGE
), this gives all statements that update (modify) a table lower priority thanSELECT
statements. In this case, the secondSELECT
statement in the preceding scenario would execute before theUPDATE
statement, and would not wait for the firstSELECT
to finish.To specify that all updates issued in a specific connection should be done with low priority, set the
low_priority_updates
server system variable equal to 1.To give a specific
INSERT
,UPDATE
, orDELETE
statement lower priority, use theLOW_PRIORITY
attribute.To give a specific
SELECT
statement higher priority, use theHIGH_PRIORITY
attribute. See Section 13.2.9, “SELECT Statement”.Start mysqld with a low value for the
max_write_lock_count
system variable to force MySQL to temporarily elevate the priority of allSELECT
statements that are waiting for a table after a specific number of write locks to the table occur (for example, for insert operations). This permits read locks after a certain number of write locks.If you have problems with mixed
SELECT
andDELETE
statements, theLIMIT
option toDELETE
may help. See Section 13.2.2, “DELETE Statement”.Using
SQL_BUFFER_RESULT
withSELECT
statements can help to make the duration of table locks shorter. See Section 13.2.9, “SELECT Statement”.Splitting table contents into separate tables may help, by allowing queries to run against columns in one table, while updates are confined to columns in a different table.
You could change the locking code in
mysys/thr_lock.c
to use a single queue. In this case, write locks and read locks would have the same priority, which might help some applications.