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I am experiencing what appears to be the effects of a race condition in an application I am involved with. The situation is as follows, generally, a page responsible for some heavy application logic is following this format:

Select from test and determine if there are rows already matching a clause.
If a matching row already exists, we terminate here, otherwise we proceed with the application logic
Insert into the test table with values that will match our initial select.

Normally, this works fine and limits the action to a single execution. However, under high load and user-abuse where many requests are intentionally sent simultaneously, MySQL allows many instances of the application logic to run, bypassing the restriction from the select clause.

It seems to actually run something like:
select from test
select from test
select from test
(all of which pass the check)
insert into test
insert into test
insert into test

I believe this is done for efficiency reasons, but it has serious ramifications in the context of my application. I have attempted to use Get_Lock() and Release_Lock() but this does not appear to suffice under high load as the race condition still appears to be present. Transactions are also not a possibility as the application logic is very heavy and all tables involved are not transaction-capable.

To anyone familiar with this behavior, is it possible to turn this type of handling off so that MySQL always processes queries in the order in which they are received? Is there another way to make such queries atomic? Any help with this matter would be appreciated, I can't find much documented about this behavior.

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2 Answers 2

up vote 2 down vote accepted

The problem here is that you have, as you surmised, a race condition.

The SELECT and the INSERT need to be one atomic unit.

The way you do this is via transactions. You cannot safely make the SELECT, return to PHP, and assume the SELECT's results will reflect the database state when you make the INSERT.

If well-designed transactions (the correct solution) are as you say not possible - and I still strongly recommend them - you're going to have to make the final INSERT atomically check if its assumptions are still true (such as via an INSERT IF NOT EXISTS, a stored procedure, or catching the INSERT's error in the application). If they aren't, it will abort back to your PHP code, which must start the logic over.

By the way, MySQL likely is executing requests in the order they were received. It's possible with multiple simultaneous connections to receive SELECT A,SELECT B,INSERT A,INSERT B. Thus, the only "solution" would be to only allow one connection at a time - and that will kill your scalability dead.

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Thanks, this seems like a possible solution. How would one go about atomically checking if the assumptions are still true. If via a simple select as done at the top of the logic, is it not possible the new data will still not yet be reflected in the table? –  majic bunnie Feb 3 '12 at 16:56
    
@majicbunnie You make the second INSERT a stored procedure which does BEGIN TRANSACTION; SELECT; [check]; INSERT; END TRANSACTION;. –  Borealid Feb 3 '12 at 16:57
    
Thank you, I think this will work for me, although I may need to change some storage engine types to support transactions. As i understand it they must all be transaction-capable for a solution like this to function. –  majic bunnie Feb 3 '12 at 17:04

Personally, I would go about the check another way.

Attempt to insert the row. If it fails, then there was already a row there.

In this manner, you check or a duplicate and insert the new row in a single query, eliminating the possibility of races.

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