I've always been under the impression that using the ThreadPool for (let's say non-critical) short-lived background tasks was considered best practice, even in ASP.NET, but then I came across this article that seems to suggest otherwise - the argument being that you should leave the ThreadPool to deal with ASP.NET related requests.
So here's how I've been doing small asynchronous tasks so far:
ThreadPool.QueueUserWorkItem(s => PostLog(logEvent))
And the article is suggesting instead to create a thread explicitly, similar to:
new Thread(() => PostLog(logEvent)){ IsBackground = true }.Start()
The first method has the advantage of being managed and bounded, but there's the potential (if the article is correct) that the background tasks are then vying for threads with ASP.NET request-handlers. The second method frees up the ThreadPool, but at the cost of being unbounded and thus potentially using up too many resources.
So my question is, is the advice in the article correct?
If your site was getting so much traffic that your ThreadPool was getting full, then is it better to go out-of-band, or would a full ThreadPool imply that you're getting to the limit of your resources anyway, in which case you shouldn't be trying to start your own threads?
Clarification: I'm just asking in the scope of small non-critical asynchronous tasks (eg, remote logging), not expensive work items that would require a separate process (in these cases I agree you'll need a more robust solution).
Thread pools do not make sense when you need thread which perform entirely dissimilar and unrelated actions, which cannot be considered "jobs"; e.g., One thread for GUI event handling, another for backend processing. Thread pools also don't make sense when processing forms a pipeline.
QueueUserWorkItem(WaitCallback, Object) Queues a method for execution, and specifies an object containing data to be used by the method. The method executes when a thread pool thread becomes available.
Usually, the thread pool is required when we have number of threads are created to perform a number of tasks, in this organized in a queue. Typically, we have more tasks than threads. As soon as a thread completes its task, it will request the next task from the queue until all tasks have been completed.
A thread pool helps mitigate the issue of performance by reducing the number of threads needed and managing their lifecycle. Essentially, threads are kept in the thread pool until they're needed, after which they execute the task and return the pool to be reused later.
Other answers here seem to be leaving out the most important point:
Unless you are trying to parallelize a CPU-intensive operation in order to get it done faster on a low-load site, there is no point in using a worker thread at all.
That goes for both free threads, created by new Thread(...)
, and worker threads in the ThreadPool
that respond to QueueUserWorkItem
requests.
Yes, it's true, you can starve the ThreadPool
in an ASP.NET process by queuing too many work items. It will prevent ASP.NET from processing further requests. The information in the article is accurate in that respect; the same thread pool used for QueueUserWorkItem
is also used to serve requests.
But if you are actually queuing enough work items to cause this starvation, then you should be starving the thread pool! If you are running literally hundreds of CPU-intensive operations at the same time, what good would it do to have another worker thread to serve an ASP.NET request, when the machine is already overloaded? If you're running into this situation, you need to redesign completely!
Most of the time I see or hear about multi-threaded code being inappropriately used in ASP.NET, it's not for queuing CPU-intensive work. It's for queuing I/O-bound work. And if you want to do I/O work, then you should be using an I/O thread (I/O Completion Port).
Specifically, you should be using the async callbacks supported by whatever library class you're using. These methods are always very clearly labeled; they start with the words Begin
and End
. As in Stream.BeginRead
, Socket.BeginConnect
, WebRequest.BeginGetResponse
, and so on.
These methods do use the ThreadPool
, but they use IOCPs, which do not interfere with ASP.NET requests. They are a special kind of lightweight thread that can be "woken up" by an interrupt signal from the I/O system. And in an ASP.NET application, you normally have one I/O thread for each worker thread, so every single request can have one async operation queued up. That's literally hundreds of async operations without any significant performance degradation (assuming the I/O subsystem can keep up). It's way more than you'll ever need.
Just keep in mind that async delegates do not work this way - they'll end up using a worker thread, just like ThreadPool.QueueUserWorkItem
. It's only the built-in async methods of the .NET Framework library classes that are capable of doing this. You can do it yourself, but it's complicated and a little bit dangerous and probably beyond the scope of this discussion.
The best answer to this question, in my opinion, is don't use the ThreadPool
or a background Thread
instance in ASP.NET. It's not at all like spinning up a thread in a Windows Forms application, where you do it to keep the UI responsive and don't care about how efficient it is. In ASP.NET, your concern is throughput, and all that context switching on all those worker threads is absolutely going to kill your throughput whether you use the ThreadPool
or not.
Please, if you find yourself writing threading code in ASP.NET - consider whether or not it could be rewritten to use pre-existing asynchronous methods, and if it can't, then please consider whether or not you really, truly need the code to run in a background thread at all. In the majority of cases, you will probably be adding complexity for no net benefit.
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