// let's say there is a list of 1000+ URLs
string[] urls = { "http://google.com", "http://yahoo.com", ... };

// now let's send HTTP requests to each of these URLs in parallel
urls.AsParallel().ForAll(async (url) => {
    var client = new HttpClient();
    var html = await client.GetStringAsync(url);
});

Here is the problem, it starts 1000+ simultaneous web requests. Is there an easy way to limit the concurrent amount of these async http requests? So that no more than 20 web pages are downloaded at any given time. How to do it in the most efficient manner?

12 Answers 12

up vote 127 down vote accepted

You can definitely do this in the latest versions of async for .NET, using .NET 4.5 Beta. The previous post from 'usr' points to a good article written by Stephen Toub, but the less announced news is that the async semaphore actually made it into the Beta release of .NET 4.5

If you look at our beloved SemaphoreSlim class (which you should be using since it's more performant than the original Semaphore), it now boasts the WaitAsync(...) series of overloads, with all of the expected arguments - timeout intervals, cancellation tokens, all of your usual scheduling friends :)

Stephen's also written a more recent blog post about the new .NET 4.5 goodies that came out with beta see What’s New for Parallelism in .NET 4.5 Beta.

Last, here's some sample code about how to use SemaphoreSlim for async method throttling:

public async Task MyOuterMethod()
{
    // let's say there is a list of 1000+ URLs
    var urls = { "http://google.com", "http://yahoo.com", ... };

    // now let's send HTTP requests to each of these URLs in parallel
    var allTasks = new List<Task>();
    var throttler = new SemaphoreSlim(initialCount: 20);
    foreach (var url in urls)
    {
        // do an async wait until we can schedule again
        await throttler.WaitAsync();

        // using Task.Run(...) to run the lambda in its own parallel
        // flow on the threadpool
        allTasks.Add(
            Task.Run(async () =>
            {
                try
                {
                    var client = new HttpClient();
                    var html = await client.GetStringAsync(url);
                }
                finally
                {
                    throttler.Release();
                }
            }));
    }

    // won't get here until all urls have been put into tasks
    await Task.WhenAll(allTasks);

    // won't get here until all tasks have completed in some way
    // (either success or exception)
}

Last, but probably a worthy mention is a solution that uses TPL-based scheduling. You can create delegate-bound tasks on the TPL that have not yet been started, and allow for a custom task scheduler to limit the concurrency. In fact, there's an MSDN sample for it here:

See also TaskScheduler .

  • 3
    isn't a parallel.foreach with a limited degree of parallelism a nicer approach? msdn.microsoft.com/en-us/library/… – GreyCloud Mar 19 '13 at 11:59
  • 1
    Please note, that WaitAsync will implicitly increase the internal counter. I've ran into an issue when not staring a task for every, but some of the elements in the source collection. Make sure you only call WaitAsync when you're scheduling a task. – GameScripting Nov 6 '13 at 15:28
  • 2
    Why don't you dispose you HttpClient – Shimmy Aug 19 '15 at 6:52
  • 2
    @GreyCloud: Parallel.ForEach works with synchronous code. This allows you to call asynchronous code. – Josh Noe Jun 6 '16 at 2:46
  • 10
    Given how popular this answer is, it's worth pointing out that HttpClient can and should be a single common instance rather than an instance per request. – Rupert Rawnsley Oct 4 '17 at 14:20

Unfortunately, the .NET Framework is missing most important combinators for orchestrating parallel async tasks. There is no such thing built-in.

Look at the AsyncSemaphore class built by the most respectable Stephen Toub. What you want is called a semaphore, and you need an async version of it.

  • 12
    Note that "Unfortunately, the .NET Framework is missing most important combinators for orchestrating parallel async tasks. There is no such thing built-in." is no longer correct as of .NET 4.5 Beta. SemaphoreSlim now offers WaitAsync(...) functionality :) – Theo Yaung May 30 '12 at 6:03
  • Should SemaphoreSlim (with its new async methods) be preferred over AsyncSemphore, or does Toub's implementation still have some advantage? – Todd Menier Apr 18 '13 at 17:53
  • In my opinion, the built-in type should be preferred because it is likely to be well-tested and well-designed. – usr Apr 18 '13 at 18:02
  • 4
    Stephen added a comment in response to a question on his blog post confirming that using SemaphoreSlim for .NET 4.5 would generally be the way to go. – jdasilva Jun 15 '13 at 20:52

If you have an IEnumerable (ie. strings of URL s) and you want to do an I/O bound operation with each of these (ie. make an async http request) concurrently AND optionally you also want to set the maximum number of concurrent I/O requests in real time, here is how you can do that. This way you do not use thread pool et al, the method uses semaphoreslim to control max concurrent I/O requests similar to a sliding window pattern one request completes, leaves the semaphore and the next one gets in.

usage: await ForEachAsync(urlStrings, YourAsyncFunc, optionalMaxDegreeOfConcurrency);

public static Task ForEachAsync<TIn>(
        IEnumerable<TIn> inputEnumerable,
        Func<TIn, Task> asyncProcessor,
        int? maxDegreeOfParallelism = null)
    {
        int maxAsyncThreadCount = maxDegreeOfParallelism ?? DefaultMaxDegreeOfParallelism;
        SemaphoreSlim throttler = new SemaphoreSlim(maxAsyncThreadCount, maxAsyncThreadCount);

        IEnumerable<Task> tasks = inputEnumerable.Select(async input =>
        {
            await throttler.WaitAsync().ConfigureAwait(false);
            try
            {
                await asyncProcessor(input).ConfigureAwait(false);
            }
            finally
            {
                throttler.Release();
            }
        });

        return Task.WhenAll(tasks);
    }
  • no you should not need to explicitly dispose SemaphoreSlim in this implementation and usage as it is used internally inside the method and the method does not access its AvailableWaitHandle property in which case we would have needed to either dispose or wrap it within a using block. – Dogu Arslan Oct 21 '17 at 19:53
  • Just thinking of the best practices and lessons we teach other people. A using would be nice. – AgentFire Oct 21 '17 at 20:43

Theo Yaung example is nice, but there is a variant without list of waiting tasks.

 class SomeChecker
 {
    private const int ThreadCount=20;
    private CountdownEvent _countdownEvent;
    private SemaphoreSlim _throttler;

    public Task Check(IList<string> urls)
    {
        _countdownEvent = new CountdownEvent(urls.Count);
        _throttler = new SemaphoreSlim(ThreadCount); 

        return Task.Run( // prevent UI thread lock
            async  () =>{
                foreach (var url in urls)
                {
                    // do an async wait until we can schedule again
                    await _throttler.WaitAsync();
                    ProccessUrl(url); // NOT await
                }
                //instead of await Task.WhenAll(allTasks);
                _countdownEvent.Wait();
            });
    }

    private async Task ProccessUrl(string url)
    {
        try
        {
            var page = await new WebClient()
                       .DownloadStringTaskAsync(new Uri(url)); 
            ProccessResult(page);
        }
        finally
        {
            _throttler.Release();
            _countdownEvent.Signal();
        }
    }

    private void ProccessResult(string page){/*....*/}
}
  • 2
    Note, there is one danger of using this approach - any exceptions that occur in ProccessUrl or its subfunctions will actually get ignored. They will be captured into Tasks, but not percolated back to the original caller of Check(...). Personally, that's why I still use Tasks and their combinator functions like WhenAll and WhenAny -- to get better error propagation. :) – Theo Yaung May 14 '16 at 1:13

There are a lot of pitfalls and direct use of a semaphore can be tricky in error cases, so I would suggest to use AsyncEnumerator NuGet Package instead of re-inventing the wheel:

// let's say there is a list of 1000+ URLs
string[] urls = { "http://google.com", "http://yahoo.com", ... };

// now let's send HTTP requests to each of these URLs in parallel
await urls.ParallelForEachAsync(async (url) => {
    var client = new HttpClient();
    var html = await client.GetStringAsync(url);
}, maxDegreeOfParallelism: 20);

SemaphoreSlim can be very helpful here. Here's the extension method I've created.

    /// <summary>
    /// Concurrently Executes async actions for each item of <see cref="IEnumerable<typeparamref name="T"/>
    /// </summary>
    /// <typeparam name="T">Type of IEnumerable</typeparam>
    /// <param name="enumerable">instance of <see cref="IEnumerable<typeparamref name="T"/>"/></param>
    /// <param name="action">an async <see cref="Action" /> to execute</param>
    /// <param name="maxActionsToRunInParallel">Optional, max numbers of the actions to run in parallel,
    /// Must be grater than 0</param>
    /// <returns>A Task representing an async operation</returns>
    /// <exception cref="ArgumentOutOfRangeException">If the maxActionsToRunInParallel is less than 1</exception>
    public static async Task ForEachAsyncConcurrent<T>(
        this IEnumerable<T> enumerable,
        Func<T, Task> action,
        int? maxActionsToRunInParallel = null)
    {
        if (maxActionsToRunInParallel.HasValue)
        {
            using (var semaphoreSlim = new SemaphoreSlim(
                maxActionsToRunInParallel.Value, maxActionsToRunInParallel.Value))
            {
                var tasksWithThrottler = new List<Task>();

                foreach (var item in enumerable)
                {
                    // Increment the number of currently running tasks and wait if they are more than limit.
                    await semaphoreSlim.WaitAsync();

                    tasksWithThrottler.Add(Task.Run(async () =>
                    {
                        await action(item);

                        // action is completed, so decrement the number of currently running tasks
                        semaphoreSlim.Release();
                    }));
                }

                // Wait for all of the provided tasks to complete.
                await Task.WhenAll(tasksWithThrottler.ToArray());
            }
        }
        else
        {
            await Task.WhenAll(enumerable.Select(item => action(item)));
        }
    }

Sample Usage:

await enumerable.ForEachAsyncConcurrent(
    async item =>
    {
        await SomeAsyncMethod(item);
    },
    5);

Just a more succinct version of https://stackoverflow.com/a/10810730/1186165:

static async Task WhenAll(IEnumerable<Task> tasks, int maxThreadCount) {
    using (var guard = new SemaphoreSlim(initialCount: maxThreadCount)) {
        await Task.WhenAll(tasks.Select(async task => {
            await guard.WaitAsync();

            return task.ContinueWith(t => guard.Release());
        }));
    }
}

Although 1000 tasks might be queued very quickly, the Parallel Tasks library can only handle concurrent tasks equal to the amount of CPU cores in the machine. That means that if you have a four-core machine, only 4 tasks will be executing at a given time (unless you lower the MaxDegreeOfParallelism).

  • 5
    Yep, but that doesn't relate to async I/O operations. The code above will fire up 1000+ simultaneous downloads even if it is running on a single thread. – Grief Coder May 29 '12 at 21:36
  • Didn't see the await keyword in there. Removing that should solve the problem, correct? – scottm May 29 '12 at 21:37
  • 3
    And introduce another one, correct? – GregC May 29 '12 at 21:38
  • 2
    The library certainly can handle more tasks running (with the Running status) concurrently than the amount of cores. This will be especially the case with a I/O bound Tasks. – svick May 29 '12 at 21:42
  • @svick: yep. Do you know how to efficiently control the max concurrent TPL tasks (not threads)? – Grief Coder May 29 '12 at 21:48

Parallel computations should be used for speeding up CPU-bound operations. Here we are talking about I/O bound operations. Your implementation should be purely async, unless you're overwhelming the busy single core on your multi-core CPU.

EDIT I like the suggestion made by usr to use an "async semaphore" here.

  • Good point! Though each task here will contain async and sync code (page downloaded asynchronously then processed in sync manner). I am trying to distribute the sync portion of the code accross CPUs and at the same time limit the amount of concurrent async I/O operations. – Grief Coder May 29 '12 at 21:39
  • Why? Because launching 1000+ http requests simultaneously might not be a task well suited to the user's network capacity. – spender May 29 '12 at 21:44
  • Parallel extensions can also be used as a way to multiplex I/O operations without having to manually implement a pure async solution. Which I agree could be considered sloppy, but as long as you keep a tight limit on the number of concurrent operations it probably won't strain the threadpool too much. – Sean U May 29 '12 at 21:48
  • 3
    I don't think this answer is providing an answer. Being purely async is not enough here: We really want to throttle the physical IOs in a non-blocking manner. – usr May 29 '12 at 21:50
  • 1
    Hmm.. not sure I agree... when working on a large project, if one too many developers takes this view, you'll get starvation even though each developer's contribution in isolation is not enough to tip things over the edge. Given that there is only one ThreadPool, even if you're treating it semi-respectfully... if everyone else is doing the same, trouble can follow. As such I always advise against running long stuff in the ThreadPool. – spender May 30 '12 at 15:15

Use MaxDegreeOfParallelism, which is an option you can specify in Parallel.ForEach():

var options = new ParallelOptions { MaxDegreeOfParallelism = 20 };

Parallel.ForEach(urls, options,
    url =>
        {
            var client = new HttpClient();
            var html = client.GetStringAsync(url);
            // do stuff with html
        });
  • 4
    I don't think this works. GetStringAsync(url) is meant to be called with await. If you inspect the type of var html, it is a Task<string>, not the result string. – Neal Ehardt Apr 6 '15 at 20:08
  • 2
    @NealEhardt is correct. Parallel.ForEach(...) is intended for running blocks of synchronous code in parallel (e.g. on different threads). – Theo Yaung May 14 '16 at 1:20

Old question, new answer. @vitidev had a block of code that was reused almost intact in a project I reviewed. After discussing with a few colleagues one asked "Why don't you just use the built-in TPL methods?" ActionBlock looks like the winner there. https://msdn.microsoft.com/en-us/library/hh194773(v=vs.110).aspx. Probably won't end up changing any existing code but will definitely look to adopt this nuget and reuse Mr. Softy's best practice for throttled parallelism.

Essentially you're going to want to create an Action or Task for each URL that you want to hit, put them in a List, and then process that list, limiting the number that can be processed in parallel.

My blog post shows how to do this both with Tasks and with Actions, and provides a sample project you can download and run to see both in action.

With Actions

If using Actions, you can use the built-in .Net Parallel.Invoke function. Here we limit it to running at most 20 threads in parallel.

var listOfActions = new List<Action>();
foreach (var url in urls)
{
    var localUrl = url;
    // Note that we create the Task here, but do not start it.
    listOfTasks.Add(new Task(() => CallUrl(localUrl)));
}

var options = new ParallelOptions {MaxDegreeOfParallelism = 20};
Parallel.Invoke(options, listOfActions.ToArray());

With Tasks

With Tasks there is no built-in function. However, you can use the one that I provide on my blog.

    /// <summary>
    /// Starts the given tasks and waits for them to complete. This will run, at most, the specified number of tasks in parallel.
    /// <para>NOTE: If one of the given tasks has already been started, an exception will be thrown.</para>
    /// </summary>
    /// <param name="tasksToRun">The tasks to run.</param>
    /// <param name="maxTasksToRunInParallel">The maximum number of tasks to run in parallel.</param>
    /// <param name="cancellationToken">The cancellation token.</param>
    public static async Task StartAndWaitAllThrottledAsync(IEnumerable<Task> tasksToRun, int maxTasksToRunInParallel, CancellationToken cancellationToken = new CancellationToken())
    {
        await StartAndWaitAllThrottledAsync(tasksToRun, maxTasksToRunInParallel, -1, cancellationToken);
    }

    /// <summary>
    /// Starts the given tasks and waits for them to complete. This will run the specified number of tasks in parallel.
    /// <para>NOTE: If a timeout is reached before the Task completes, another Task may be started, potentially running more than the specified maximum allowed.</para>
    /// <para>NOTE: If one of the given tasks has already been started, an exception will be thrown.</para>
    /// </summary>
    /// <param name="tasksToRun">The tasks to run.</param>
    /// <param name="maxTasksToRunInParallel">The maximum number of tasks to run in parallel.</param>
    /// <param name="timeoutInMilliseconds">The maximum milliseconds we should allow the max tasks to run in parallel before allowing another task to start. Specify -1 to wait indefinitely.</param>
    /// <param name="cancellationToken">The cancellation token.</param>
    public static async Task StartAndWaitAllThrottledAsync(IEnumerable<Task> tasksToRun, int maxTasksToRunInParallel, int timeoutInMilliseconds, CancellationToken cancellationToken = new CancellationToken())
    {
        // Convert to a list of tasks so that we don't enumerate over it multiple times needlessly.
        var tasks = tasksToRun.ToList();

        using (var throttler = new SemaphoreSlim(maxTasksToRunInParallel))
        {
            var postTaskTasks = new List<Task>();

            // Have each task notify the throttler when it completes so that it decrements the number of tasks currently running.
            tasks.ForEach(t => postTaskTasks.Add(t.ContinueWith(tsk => throttler.Release())));

            // Start running each task.
            foreach (var task in tasks)
            {
                // Increment the number of tasks currently running and wait if too many are running.
                await throttler.WaitAsync(timeoutInMilliseconds, cancellationToken);

                cancellationToken.ThrowIfCancellationRequested();
                task.Start();
            }

            // Wait for all of the provided tasks to complete.
            // We wait on the list of "post" tasks instead of the original tasks, otherwise there is a potential race condition where the throttler's using block is exited before some Tasks have had their "post" action completed, which references the throttler, resulting in an exception due to accessing a disposed object.
            await Task.WhenAll(postTaskTasks.ToArray());
        }
    }

And then creating your list of Tasks and calling the function to have them run, with say a maximum of 20 simultaneous at a time, you could do this:

var listOfTasks = new List<Task>();
foreach (var url in urls)
{
    var localUrl = url;
    // Note that we create the Task here, but do not start it.
    listOfTasks.Add(new Task(async () => await CallUrl(localUrl)));
}
await Tasks.StartAndWaitAllThrottledAsync(listOfTasks, 20);
  • I think you are just specifying initialCount for SemaphoreSlim and you need to specify 2nd parameter i.e. maxCount in the constructor of SemaphoreSlim. – Jay Shah May 9 at 13:17

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