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When a deadlock situation occurs in MySQL/InnoDB, it returns this familiar error:

'Deadlock found when trying to get lock; try restarting transaction'

So what i did was record all queries that go into a transaction so that they can simply be reissued if a statement in the transaction fails. Simple.

Problem: When you have queries that depend on the results of previous queries, this doesn't work so well.

For Example:

START TRANSACTION;
INSERT INTO some_table ...;
-- Application here gets ID of thing inserted: $id = $database->LastInsertedID()
INSERT INTO some_other_table (id,data) VALUES ($id,'foo');
COMMIT;

In this situation, I can't simply reissue the transaction as it was originally created. The ID acquired by the first SQL statement is no longer valid after the transaction fails but is used by the second statement. Meanwhile, many objects have been populated with data from the transaction which then become obsolete when the transaction gets rolled back. The application code itself does not "roll back" with the database of course.

Question is: How can i handle these situations in the application code? (PHP)

I'm assuming two things. Please tell me if you think I'm on the right track:

1) Since the database can't just reissue a transaction verbatim in all situations, my original solution doesn't work and should not be used.

2) The only good way to do this is to wrap any and all transaction-issuing code in it's own try/catch block and attempt to reissue the code itself, not just the SQL.

Thanks for your input. You rock.

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2 Answers 2

up vote 2 down vote accepted

A transaction can fail. Deadlock is a case of fail, you could have more fails in serializable levels as well. Transaction isolation problems is a nightmare. Trying to avoid fails is the bad way I think.

I think any well written transaction code should effectively be prepared for failing transactions.

As you have seen recording queries and replaying them is not a solution, as when you restart your transaction the database has moved. If it were a valid solution the SQL engine would certainly do that for you. For me the rules are:

  • redo all your reads inside the transactions (any data you have read outside may have been altered)
  • throw everything from previous attempt, if you have written things outside of the transaction (logs, LDAP, anything outside the SGBD) it should be cancelled because of the rollback
  • redo everything in fact :-)

This mean a retry loop.

So you have your try/catch block with the transaction inside. You need to add a while loop with maybe 3 attempts, you leave the while loop if the commit part of the code succeed. If after 3 retry the transaction is still failing then launch an Exception to the user -- so that you do not try an inifinite retry loop, you may have a really big problem in fact --. Note that you should handle SQL error and lock or serializable exception in different ways. 3 is an arbitrary number, you may try a bigger number of attempts.

This may give something like that:

$retry=0;
$notdone=TRUE;
while( $notdone && $retry<3 ) {
  try {
    $transaction->begin();
    do_all_the_transaction_stuff();
    $transaction->commit();
    $notdone=FALSE;
  } catch( Exception $e ) {
    // here we could differentiate basic SQL errors and deadlock/serializable errors
    $transaction->rollback();
    undo_all_non_datatbase_stuff();
    $retry++;
  }
}
if( 3 == $retry ) {
  throw new Exception("Try later, sorry, too much guys other there, or it's not your day.");
}

And that means all the stuff (read, writes, fonctionnal things) must be enclosed in the $do_all_the_transaction_stuff();. Implying the transaction managing code is in the controllers, the high-level-application-functional-main code, not split upon several low-level-database-access-models objects.

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For this to work (and it should) you must also ensure that you do not modify any NON-database state, such as global variables, etc. Or if you do, those changes also need to be "rolled back" manually when an exception occurs (using a try/catch block where appropriate). –  Archie Feb 21 '13 at 18:32
    
Archie: that's right. It could get even more complex, imagine LDAP updates to re-reroll in an inverted way. Certainly transaction are te be handled on high level and not only database layer. –  regilero Feb 22 '13 at 8:24

I believe the best way would be to avoid deadlocks alltogether, therefore restructure the code to give up all locks before requesting new ones. Or, if the previous is not possible, organize the locks into hierarchy... There are many ways to do it, see http://en.wikipedia.org/wiki/Deadlock#Prevention for example

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1  
MySQL documentation states: InnoDB uses automatic row-level locking. You can get deadlocks even in the case of transactions that just insert or delete a single row. That is because these operations are not really “atomic”; they automatically set locks on the (possibly several) index records of the row inserted or deleted. So some kind of code to deal with it when it happens is still necessary. –  lev Nov 11 '11 at 21:56
    
That is interesting p/o information, haven't heard it before. –  Erbureth Nov 11 '11 at 22:01

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