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Does MySQL always detects the deadlocks automatically? Or the are some situations when MySQL just can't figure out that it's dealing with deadlock?

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Possibly a duplicate of MySQL Deadlock Detection via PHP –  Alp Apr 18 '12 at 12:29
Actually it is not. –  Zapadlo Apr 18 '12 at 12:39
Which storage engine are you using? InnoDB? –  Marcus Adams Apr 18 '12 at 13:32

3 Answers 3

up vote 1 down vote accepted

According to the docs, MyISAM, a table-level locking storage engine, is deadlock-free.

InnoDB has deadlock detection.

NDB detection is implemented through a timeout. You can set the TransactionDeadlockDetectionTimeout parameter for transactions.

So, whether its with roll backs or timeouts, the deadlock will eventually recover.

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You can cope with deadlocks and reduce the likelihood of their occurrence with the following techniques:

  • Use SHOW ENGINE INNODB STATUS to determine the cause of the latest deadlock. That can help you to tune your application to avoid deadlocks.

  • Always be prepared to re-issue a transaction if it fails due to deadlock. Deadlocks are not dangerous. Just try again.

  • Commit your transactions often. Small transactions are less prone to collision.

  • If you are using locking reads (SELECT ... FOR UPDATE or SELECT ... LOCK IN SHARE MODE), try using a lower isolation level such as READ COMMITTED.

  • Access your tables and rows in a fixed order. Then transactions form well-defined queues and do not deadlock.

  • Add well-chosen indexes to your tables. Then your queries need to scan fewer index records and consequently set fewer locks. Use EXPLAIN SELECT to determine which indexes the MySQL server regards as the most appropriate for your queries.

  • Use less locking. If you can afford to permit a SELECT to return data from an old snapshot, do not add the clause FOR UPDATE or LOCK IN SHARE MODE to it. Using the READ COMMITTED isolation level is good here, because each consistent read within the same transaction reads from its own fresh snapshot. You should also set the value of innodb_support_xa to 0, which will reduce the number of disk flushes due to synchronizing on disk data and the binary log.

  • If nothing else helps, serialize your transactions with table-level locks. The correct way to use LOCK 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 ... 

Table-level locks make your transactions queue nicely and avoid deadlocks.

  • Another way to serialize transactions is to create an auxiliary “semaphore” table that contains just a single row. Have each transaction update that row before accessing other tables. In that way, all transactions happen in a serial fashion. Note that the InnoDB instant deadlock detection algorithm also works in this case, because the serializing lock is a row-level lock. With MySQL table-level locks, the timeout method must be used to resolve deadlocks.


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i think it depends upon which engine you are using like innodb can do this automatically.

more explanation is here.

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