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I have the following tables (greatly simplified):

Jobs: JobId, JobState
Data: DataId
JobsData: JobId, DataId

the idea for JobsData is that any item in Data can be associated to one or more item in Jobs and each item in Jobs can have one or more item from Data associated with it.

Now I have two transactions:

-- TRAN1
INSERT INTO Jobs VALUES (NewJobId, StateInitial)
INSERT INTO JobsData VALUES (NewDataId, NewJobId)
UPDATE Jobs SET JobState=StateReady WHERE JobId=NewJobId

-- TRAN2
DECLARE @selectedId;
SELECT TOP (1) @selectedId=JobId FROM Jobs WITH (UPDLOCK, READPAST) WHERE JobState=StateReady
IF @selectedId IS NOT NULL
    SELECT DataId FROM JobsData WHERE JobId = @selectedId

The code with the locking hints comes from this answer. Its purpose is to have multiple TRAN2 instances running in parallel and never getting the same JobId.

That code has been working fine with SQL Server (default isolation level READ_COMMITTED) but in SQL Azure TRAN2 sometimes works incorrectly - the first SELECT yields a non-null JobId, but the second SELECT yields and empty resultset. I assume this is because the default isolation level in SQL Azure is READ_COMMITTED_SNAPSHOT.

I want to make minimum changes to get my problem resolved - so that TRAN2 either retrieves null in the first SELECT or retrieves the right result set in the second SELECT.

Which of the table hits do I apply to which of the SQL statements I have?

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1 Answer 1

For a starter, if you want queues in Azure, use Azure Queues or Service Bus Queues.

If you insist on implementing queues over relations, use the pattern from Using Tables as Queues. Specifically:

  • do not use state fields instead of event queues ('Ready' is a record in your jobs queue, an event, not a state on the job).
  • dequeue using DELETE ... WITH OUTPUT ...

Trust me on this one.

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This is all neat, but how does that pattern address cases when an item is fetched from the queue and then the entity that fetched it terminates? –  sharptooth Jan 10 '13 at 12:49
define 'terminates' –  Remus Rusanu Jan 10 '13 at 12:49
The process just exits at random point. –  sharptooth Jan 10 '13 at 12:57
Transaction semantics still apply. BEGIN TRANSACTION/Dequeue/Process/COMMIT. In case of crash, the dequeue is undone as part of the rollback. Of course, many 'processing' are too lenghty/unpredictable (eg. a HTTP call) to let them occur in a transaction. The typical pattern for such is to use a 'pending queue' and preemptively post a 'retry' event pending in, say, 10 minutes: BEGIN TRAN/dequeue/post retry Time.Now+10.minutes/COMMIT/process/BEGIN TRAN/cancel retry/COMMIT. This ensures that in case of a crash the event is retried after a reasonable time. –  Remus Rusanu Jan 10 '13 at 13:02
I see the point, but that's a lot of complication to my code. Can I just fix my existing code with locking hints? –  sharptooth Jan 10 '13 at 13:30

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