First you need to have a look at the legal aspects of your situation: Does the contract with your client allow you to restrict the client's access?
This question is out of the scope of SO, but you must find a way to answer it. Because if you are legally bound to process all requests, then there is no way around it. Also, the legal analysis of your situation may already include some limitations, in which way you may restrict the access. That in turn will have an impact on your solution.
All those issues aside, and just focussing on the technical aspects, do you use some sort of user authentication? (If not, why not?) If you do, you can implement whatever scheme you decide to use on a per user base, which I think would be the cleanest solution (you don't need to rely on IP addresses, which is a somehow ugly workaround).
Once you have your way of identifying a single user, you can implement several restrictions. The fist ones that come to my mind are these:
- Synchronous processing
Only start processing a request after all previous requests have been processed. This may even be implemented with nothing more but a
lock statement in your main processing method. If you go for this kind of approach,
- Time delay between processing requests
Requires that after one processing call a specific time must pass before the next call is allowed. The easiest solution is to store a
LastProcessed timestamp in the user's session. If you go for this approach, you need to start thinking of how to respond when a new request comes in before it is allowed to be processed - do you send an error message to the caller? I think you should...
lock statement, briefly explained:
It is intended to be used for thread safe operations. the syntax is as follows:
// do stuff
lockObject needs to be an object, usually a private member of the current class. The effect is that if you have 2 threads who both want to execute this code, the first to arrive at the
lock statement locks the
lockObject. While it does it's stuff, the second thread can not acquire a lock, since the object is already locked. So it just sits there and waits until the first thread releases the lock when it exits the block at the
}. Only thhen can the second thread lock the
lockObject and do it's stuff, blocking the
lockObject for any third thread coming along, until it has exited the block as well.
Careful, the whole issue of thread safety is far from trivial. (One could say that the only thing trivial about it are the many trivial errors a programmer can make ;-)
See here for an introduction into threading in C#