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We have a system where customers are allocated a product on a first come first served basis.

Our products table contains an incrementing primary key that started at zero which we use to keep track of how many products have been allocated i.e. a user reserves a product and gets allocated 1, next user gets 2 etc.

The problem, is that potentially hundreds of thousands of users will access the system in any given hour. All of whom will be hitting this one table.

Since we need to ensure that each customer is only allocated one product and keep track of how many products have been allocated, we use a row lock for each customer accessing the system to ensure they write to the table before the next customer hits the system - i.e. enforcing the first come first served rule.

We are concerned about the bottleneck that is the processing time of each request coming into SQL Server 2008 Enterprise Edition and the row lock.

We can't use multiple servers as we need to ensure the integrity of the primay key so anything that requires replication isn't going to work.

Does anyone know of any good solutions that are particularly efficient at handling a massive number of requests on one database table?

A bit more info: The table in question essentially contains two fields only - ID and CustomerID. The solution is for a free giveaway of a million products - hence the expectation of high demand and why using the incrementing primary key as a key makes sense for us - once the key hits a million, no more customers can register. Also, the products are all different so allocation of the correct key is important e.g. first 100 customers entered receieve a higher value product than the next 100 etc

Thanks for any help.

share|improve this question
Can you please re-tag, include [sqlserver] and can you tell me the version & edition, if you edit your question and tell us you have SQL2008 Enterprise Edition for example we might be able to offer tailored solutions eg Table Partitioning is available in SQL 2008 EE – Jeremy Thompson Mar 28 '12 at 3:16
Thanks Jeremy. Added the additional info. – Cais Manai Mar 28 '12 at 3:22
Obvious first question; have you stripped everything else out of the transaction that obtains the key? E.g. you know before trying to get the key everything you need to know, go to the table get the key and unlock before doing other stuff? – Karl Mar 28 '12 at 3:40
Hi Karl, Yes thats right. Everything else stripped out - kept the transaction as lightweight as possible - literally just obtain the customer ID then do an insert and display the new primary key to the user like - congratulations, you were customer xxxxx, you get a free prize. – Cais Manai Mar 28 '12 at 13:29
up vote 5 down vote accepted

First, to remove the issue of key generation, I would generate them all in advance. It's only 1m rows and it means you don't have to worry about managing the key generation process. It also means you don't have to worry about generating too many rows accidentally, because once you have the table filled, you will only do UPDATEs, not INSERTs.

One important question here is, are all 1m items identical or not? If they are, then it doesn't matter what order the keys are in (or even if they have an order), so as customers submit requests, you just 'try' to UPDATE the table something roughly like this:

UPDATE TOP(1) dbo.Giveaway -- you can use OUTPUT to return the key value here
SET CustomerID = @CurrentCustomerID

IF @@ROWCOUNT = 0 -- no free items left
PRINT 'Bad luck'
PRINT 'Winner'

If on the other hand the 1m items are different then you need another solution, e.g. item 1 is X, items 2-10 are Y, 11-50 are Z etc. In this case it's important to assign customers to keys in the order the requests are submitted, so you should probably look into a queuing system of some kind, perhaps using Service Broker. Each customer adds a request to the queue, then a stored procedure processes them one at a time and assigns them the MAX free key, then returns the details of what they won.

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SET ROWCOUNT is deprecated in SQL 2008. Use UPDATE TOP(1) instead? msdn.microsoft.com/en-us/library/ms188774%28v=sql.100%29.aspx – Ed Harper Mar 28 '12 at 7:21
@EdHarper Yes, that's a good point and I've updated my example. Although the key message for the OP is of course that it doesn't matter which row you update as long as you update only one. – Pondlife Mar 28 '12 at 8:59
Thanks Pondlife. The items are different, so sounds like queuing is the way to go and just accept there will be some delay in processing each request at peak times. One other solution I was thinking about was placing all the odd numbers in one database and the even in another database then have a load balancer with a simple bit switch send alternating customers to a db - any thoughts on that as a solution? I'm guessing i'll probably be moving the bottleneck to the load balancer instead and that will probable end up needing a queue too? Thanks for your help, greatly appreciated. – Cais Manai Mar 28 '12 at 13:33
@CaisManai I wouldn't split the data at all, because then you have too many variables to be sure that the system will process data as you expect. I suppose it depends how much effort you want to put in to ensure that requests are processed "in order", although what "in order" actually means in a multi-tier application is an interesting question in itself. But I suspect that for legal reasons you will need (at least in theory) to be able to show an auditor that you processed requests "fairly" and "in order" and therefore I would keep your solution as simple as possible. – Pondlife Mar 29 '12 at 8:16

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