Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I need to implement a throttling mechanism (requests per second) when using HttpWebRequest for making parallel requests towards one application server. My C# app must issue no more than 80 requests per second to a remote server. The limit is imposed by the remote service admins not as a hard limit but as "SLA" between my platform and theirs.

How can I control the number of requests per second when using HttpWebRequest?

share|improve this question

3 Answers 3

up vote 3 down vote accepted

I had the same problem and couldn't find a ready solution so I made one, and here it is. The idea is to use a BlockingCollection<T> to add items that need processing and use Reactive Extensions to subscribe with a rate-limited processor.

Throttle class is the renamed version of this rate limiter

public static class BlockingCollectionExtensions
    // TODO: devise a way to avoid problems if collection gets too big (produced faster than consumed)
    public static IObservable<T> AsRateLimitedObservable<T>(this BlockingCollection<T> sequence, int items, TimeSpan timePeriod, CancellationToken producerToken)
        Subject<T> subject = new Subject<T>();

        // this is a dummyToken just so we can recreate the TokenSource
        // which we will pass the proxy class so it can cancel the task
        // on disposal
        CancellationToken dummyToken = new CancellationToken();
        CancellationTokenSource tokenSource = CancellationTokenSource.CreateLinkedTokenSource(producerToken, dummyToken);

        var consumingTask = new Task(() =>
            using (var throttle = new Throttle(items, timePeriod))
                while (!sequence.IsCompleted)
                        T item = sequence.Take(producerToken);
                        catch (Exception ex)
                    catch (OperationCanceledException)
        }, TaskCreationOptions.LongRunning);

        return new TaskAwareObservable<T>(subject, consumingTask, tokenSource);

    private class TaskAwareObservable<T> : IObservable<T>, IDisposable
        private readonly Task task;
        private readonly Subject<T> subject;
        private readonly CancellationTokenSource taskCancellationTokenSource;

        public TaskAwareObservable(Subject<T> subject, Task task, CancellationTokenSource tokenSource)
            this.task = task;
            this.subject = subject;
            this.taskCancellationTokenSource = tokenSource;

        public IDisposable Subscribe(IObserver<T> observer)
            var disposable = subject.Subscribe(observer);
            if (task.Status == TaskStatus.Created)
            return disposable;

        public void Dispose()
            // cancel consumption and wait task to finish

            // dispose tokenSource and task

            // dispose subject

Unit test:

class BlockCollectionExtensionsTest
    public void AsRateLimitedObservable()
        const int maxItems = 1; // fix this to 1 to ease testing
        TimeSpan during = TimeSpan.FromSeconds(1);

        // populate collection
        int[] items = new[] { 1, 2, 3, 4 };
        BlockingCollection<int> collection = new BlockingCollection<int>();
        foreach (var i in items) collection.Add(i);

        IObservable<int> observable = collection.AsRateLimitedObservable(maxItems, during, CancellationToken.None);
        BlockingCollection<int> processedItems = new BlockingCollection<int>();
        ManualResetEvent completed = new ManualResetEvent(false);
        DateTime last = DateTime.UtcNow;
            // this is so we'll receive exceptions
            .ObserveOn(new SynchronizationContext()) 
            .Subscribe(item =>
                    if (item == 1)
                        last = DateTime.UtcNow;
                        TimeSpan diff = (DateTime.UtcNow - last);
                        last = DateTime.UtcNow;

                            during.TotalMilliseconds - 30,
                            during.TotalMilliseconds + 30);
                () => completed.Set()
        Assert.Equal(items, processedItems, new CollectionEqualityComparer<int>());
share|improve this answer

The Throttle() and Sample() extension methods (On Observable) allow you to regulate a fast sequence of events into a "slower" sequence.

Here is a blog post with an example of Sample(Timespan) that ensures a maxium rate.

share|improve this answer
The problem with Sample() and Throttle() is that they skip/throw away samples to achieve the specified rate. –  georgiosd May 2 '12 at 10:26

My original post discussed how to add a throttling mechanism to WCF via client behavior extensions, but then was pointed out that I misread the question (doh!).

Overall the approach can be to check with a class that determines if we are violating the rate limit or not. There's already been a lot of discussion around how to check for rate violations.

Throttling method calls to M requests in N seconds

If you are violating the rate limit, then sleep for a fix interval and check again. If not, then go ahead and make the HttpWebRequest call.

share|improve this answer
In the question, I am not referring to a WCF webservice. It is about a simple HttpWebRequest class usage. –  Robert Mircea Apr 21 '12 at 8:29
Ah it's late and I should have read the question more closely :) You can still try the approach of before making a call to HttpWebRequest, check with another class to ensure that you will not violate the 80 requests/sec rate. I'll update my code above. –  David Z. Apr 21 '12 at 8:39
It asked for C# not Java. –  Student T May 15 '14 at 2:10

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.