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I would like to know if there is a real case scenario in which race condition problems can actually occur on an insertion query. So I have a table "User" with the following fields:

User:
iduser | idcompany | name | email

I use a composite primary key for this table that is (iduser, idcompany). None of these fields is set to AUTO_INCREMENT. I get the value of the field "idcompany" through a session variable, so there's is not a real problem in this. However, I use a getNextUserId() function to get the next valid iduser value through a select query like this:

SELECT MAX(iduser) + 1 AS next_iduser FROM User WHERE idcompany = {myCompanyId};

I wonder if there is any case in which a duplicate combination of (iduser, idcompany) could be inserted in the database because of race condition and if so how is this scenario possible. Doesn't MySQL lock the table on insertion? Wouldn't a duplicate combination of (iduser, idcompany) simple be rejected or I could really have a duplicate primary key in my table? I am aware of strategies to totally prevent race condition like using AUTO_INCREMENT primary key, using SQL transactions or manually lock the "User" table but I would like to understand the mechanism behind a possible race condition in this case and what are the real problems in this implementation. Right now, none of these fields is required to be unique in my table for obvious reasons, but I would like to know if a UNIQUE constraint on iduser for example would alter the scenario I am facing and why does this happen.

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  • It locks during insertion, but not while 10 users from the same company all try to register and you have to run the SELECT to find the next ID to use 10 times without a lock. You should really be doing this in a transaction, but that assumes you are using PDO or MYSQLI and the database tables are INNODB
    – RiggsFolly
    Aug 17, 2016 at 13:43
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    You might like to take a look at SELECT..... WITH LOCK here in the manual
    – RiggsFolly
    Aug 17, 2016 at 13:46
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    And that speaks toward the @RiggsFolly comment. Use an intention lock. No one would wisely use max.
    – Drew
    Aug 17, 2016 at 14:18
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    @RiggsFolly my interpretation of the question is that the OP wanted to undertand the implications of a certain design. The question clearly states that the OP is aware of other solutions to avoid this race condition.
    – Shadow
    Aug 17, 2016 at 14:36
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    @RiggsFolly there are multiple questions here in the last paragraph. Perhaps you can craft an answer.
    – Drew
    Aug 17, 2016 at 14:47

1 Answer 1

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You wrote you had a composite primary key on iduser, idcompany fields. This constraint will prevent the table from having duplicate iduser, idcompany pairs. The worst that could happen without locking is that the a creation of a user will be prevented by the violation of the primary key.

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  • So I could never have a duplicate pair even if race condition occurs? Can be my current implementation an acceptable one?
    – iiirxs
    Aug 17, 2016 at 13:45
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    This specific race condition can be perfectly handled by the composite primary key (or unique index) constraint.
    – Shadow
    Aug 17, 2016 at 14:05
  • There are only 2 meaningful comments in the book as I see it about race conditions. One is about the use of max() . The other is in an FAQ about the re-use of an AI in a rollback. So I think Shadow's answer is fine here.
    – Drew
    Aug 17, 2016 at 14:10
  • Shadow, I took the liberty to edit your answer. Modify accordingly.
    – Drew
    Aug 17, 2016 at 14:25
  • @iiirxs your implementation is acceptable in a sense that you will not have duplicates there as you fear, because of a primary key constraint. On the other hand, if there's a case where 2 or more clients will be allocated the same ID via your max() query (which is totally possible), only one of them will get the expected result, other's will see an error, more specifically your application will receive an error during an INSERT operation - how you handle this type of error is up to you
    – Wintermute
    Aug 17, 2016 at 14:29

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