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I am using SQL Server 2008 Enterprise. I am wondering whether this stored procedure causes deadlock if executed by multiple threads at the same time? Another question is -- is it best practices we define begin and end transaction inside of the stored procedure, or defining begin and end transaction from client code (e.g. ADO.Net code)?

create PROCEDURE [dbo].[FooProc]    
 @Param1 int 
 ,@Param2 int  
 ,@Param3 int  

DELETE FooTable WHERE  Param1 = @Param1     

INSERT INTO FooTable    

DECLARE @ID bigint    
 SET @ID = ISNULL(@@Identity,-1)    
 IF @ID > 0    
      SELECT IdentityStr FROM FooTable WHERE ID = @ID 

thanks in advance, George

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Will MERGE do what you need in SQL 2008? Also definitely @@Identity should be avoided. Use SCOPE_IDENTIY –  Martin Smith Jun 4 '10 at 15:28
Yes, I am currently analyzing some issues with legacy code and I need to analyze if deadlock is caused by this store procedure. Any ideas or comments about my original question? –  George2 Jun 4 '10 at 15:40
@@IDENTITY gives the latest identity value, if there is a trigger, you get the identity from that and not from the INSERT in your local scope. SCOPE_IDENTITY() gives the identity value from your local scope. use profiler and deadlock graph to pinpoint what procedures are involved in deadlocks. –  KM. Jun 4 '10 at 15:44
@George2 - How many records will typically be deleted by DELETE FooTable WHERE Param1 = @Param1? and is there an index on Param1? If it needs to get quite a few locks then deadlock could definitely occur in a manner similar to this thread stackoverflow.com/questions/2945135/…. As KM suggests setting up a trace to get the deadlock graph will be much more productive. –  Martin Smith Jun 4 '10 at 16:00
@George2 the way I was reasoning is the greater the number of records affected the more locks there will be and the less granular they will be. –  Martin Smith Jun 4 '10 at 16:20

2 Answers 2

up vote 1 down vote accepted

The code you have given could cause deadlock. Even if the stored procedure purely consisted of the following statement deadlock could occur.

   DELETE FooTable WHERE  Param1 = @Param1

Depending upon the exact table definition and indexes available (which you have left out of your question).

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Why consisting of this delete statement will cause deadlock? Any more details? I want to learn why it matters whether there is index on Param1 for deadlock? –  George2 Jun 4 '10 at 16:11
Well the way I was thinking was suppose that invocation 1 of the stored procedure ends up getting page locks on pages x,y,z but needs page a. Invocation 2 of the stored procedure ends up getting page locks on pages a,b,c but needs page x then deadlock would ensue. –  Martin Smith Jun 4 '10 at 16:14
@George2 We have no idea how many pages will be affected by it as you haven't told us! –  Martin Smith Jun 4 '10 at 16:23
I am most definitely not a deadlock guru! Check out Remus Rusanu's posts for that stackoverflow.com/search?q=user%3A105929+deadlock –  Martin Smith Jun 4 '10 at 16:35
single delete statement or single delete record? If the latter then I can't construct a scenario either where it would happen. If the former then the earlier example I gave would do it (maybe relying on a parallel execution plan just to ensure that the locks weren't issued in a linear order). –  Martin Smith Jun 4 '10 at 16:52

The only reliable way to answer your question is to run your own stress tests

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Sorry Alex, the question is not very clear. Please discuss here, which I had a more clearer description. stackoverflow.com/questions/2981121/… –  George2 Jun 5 '10 at 16:31

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