Everyone using Innodb tables probably got use to the fact Innodb
tables perform non locking reads, meaning unless you use some
modifiers such as LOCK IN SHARE MODE or FOR UPDATE, SELECT statements
will not lock any rows while running.
This is generally correct, however there a notable exception – INSERT INTO table1 SELECT * FROM table2. This statement will perform locking read (shared locks) for table2 table. It also applies to similar tables with where clause and joins. It is important for tables which is being read to be Innodb – even if writes are done in MyISAM table.
So why was this done, being pretty bad for MySQL Performance and
The reason is – replication. In MySQL before 5.1 replication is statement based which means statements replied on the master should cause the same effect as on the slave. If Innodb would not locking rows in source table other transaction could modify the row and commit before transaction which is running INSERT .. SELECT statement. This would make this transaction to be applied on the slave before INSERT… SELECT statement and possibly result in different data than on master. Locking rows in the source table while reading them protects from this effect as other transaction modifies rows before INSERT … SELECT had chance to access it it will also be modified in the same order on the slave. If transaction tries to modify the row after it was accessed and so locked by INSERT … SELECT, transaction will have to wait until statement is completed to make sure it will be executed on the slave in proper order. Gets pretty complicated ? Well all you need to know it had to be done fore replication to work right in MySQL before 5.1.
In MySQL 5.1 this as well as few other problems should be solved by row based replication. I’m however yet to give it real stress tests to see how well it performs :)
One more thing to keep into account – INSERT … SELECT actually performs read in locking mode and so partially bypasses versioning and retrieves latest committed row. So even if you’re operation in REPEATABLE-READ mode, this operation will be performed in READ-COMMITTED
mode, potentially giving different result compared to what pure SELECT would give. This by the way applies to SELECT .. LOCK IN SHARE MODE and SELECT … FOR UPDATE as well.
One my ask what is if I’m not using replication and have my binary log disabled ? If replication is not used you can enable innodb_locks_unsafe_for_binlog option, which will relax locks which Innodb sets on statement execution, which generally gives better concurrency. However as the name says it makes locks unsafe fore replication and point in time recovery, so use innodb_locks_unsafe_for_binlog option with caution.
Note disabling binary logs is not enough to trigger relaxed locks. You
have to set innodb_locks_unsafe_for_binlog=1 as well. This is done so
enabling binary log does not cause unexpected changes in locking
behavior and performance problems. You also can use this option with
replication sometimes, if you really know what you’re doing. I would
not recommend it unless it is really needed as you might not know
which other locks will be relaxed in future versions and how it would
affect your replication.