I have a table called "Schedule" that serves as a queue mechanism for multiple processes/computers hitting the table on a frequent basis. The goal of the proc is to pick up rows no more then @count of rows, that qualify to be picked up (their LastCompletedProcessingId & LastStartedProcessingId's must match) and mark them as having been picked up (change LastStartedProcessingId to NEWID()), so that the next process doesn't try to pick up already marked rows.
My issue is that once in a rare while when the proc is called at very near times by multiple clients, multiple clients end up with the same rows. How is this possible? How do I avoid it? The table itself is not huge. @timeout is not an issue as these things do not take more then 300seconds to process, and i have a log that prior to the processes picking up multiple records, they didnt run over 300seconds. This is running in SQL Azure
Any thoughts of how this can be possible? Thanks
CREATE PROCEDURE X @count int, @timeout int = 300 AS BEGIN SET NOCOUNT ON; DECLARE @batchId uniqueidentifier SELECT @batchId = NEWID() BEGIN TRAN -- Update rows UPDATE Schedule WITH (ROWLOCK) SET LastBatchId = @batchId, LastStartedProcessingId = NEWID(), LastStartedProcessingTime = GETDATE() WHERE AccountId IN ( SELECT TOP (@count) AccountId FROM Schedule WHERE (LastStartedProcessingId = LastCompletedProcessingId OR LastCompletedProcessingId IS NULL OR DATEDIFF(SECOND, LastStartedProcessingTime, GETDATE()) > @timeout) AND (LastStartedProcessingTime IS NULL OR DATEDIFF(SECOND, LastStartedProcessingTime, GETDATE()) > Frequency) ORDER BY (DATEDIFF(SECOND, LastStartedProcessingTime, GETDATE()) - Frequency) DESC ) -- Return the changed rows SELECT AccountId, LastStartedProcessingId, Frequency, LastProcessTime, LastConfigChangeTime FROM Schedule WHERE LastBatchId = @batchId COMMIT TRAN END