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I create a dummy table:

CREATE TABLE `lock_test` (
  `name` varchar(32) NOT NULL,
  PRIMARY KEY (`name`)
) ENGINE=InnoDB ;

I lock it:

LOCK TABLE lock_test write;

Then I try to lock it again (same query). The second lock request obviously just hangs there.

select * from INFORMATION_SCHEMA.INNODB_LOCKS;
select * from INFORMATION_SCHEMA.INNODB_LOCK_WAITS;

Are both empty (return zero results) - I would have expected them to be populated. I have PROCESS permission (showing PROCESSLIST shows the lock working).

Do I have the complete wrong end of the stick with regards to these tables? The Information Schema plugins and the InnoDB engine are definitely installed (Checked by running SHOW PLUGINS;).

Thanks

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Do you have autocommit = 1 ? –  ypercube Apr 25 '12 at 0:41
    
Hi - yes they're definitely committed (I have to open a second connection to issue the second LOCK command - if it wasn't committed that second LOCK would fail). Thanks! –  Ned Lowe Apr 25 '12 at 1:31

2 Answers 2

Interestingly - the 'issue' was me trying to lock the table directly twice, which doesn't seem to populate that table. I changed it to two transactions interfering with each other, and it worked as expected.

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Do you have autocommit = 1 ? If yes, that's the reason. There are two types of locks, taken at different layers, one at the MySQL layer and one at the storage engine (InnoDB) layer.

From MySQL docs, Interaction of Table Locking and Transactions:

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.

Also check this part of the docs (last 2 paragraphs): Locks Set by Different SQL Statements in InnoDB:

LOCK TABLES sets table locks, but it is the higher MySQL layer above the InnoDB layer that sets these locks. InnoDB is aware of table locks if innodb_table_locks = 1 (the default) and autocommit = 0, and the MySQL layer above InnoDB knows about row-level locks.

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Thanks for your answer. I just set autocommit=0, and re-ran my test case - without success. The tables are still empty. –  Ned Lowe Apr 25 '12 at 2:53

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