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Edit: This question looks like it might be the same problem, but has no responses...

Edit: In test case 5 the task appears to be stuck in WaitingForActivation state.

I've encountered some odd behaviour using the System.Net.Http.HttpClient in .NET 4.5 - where "awaiting" the result of a call to (e.g.) httpClient.GetAsync(...) will never return.

This only occurs in certain circumstances when using the new async/await language functionality and Tasks API - the code always seems to work when using only continuations.

Here's some code which reproduces the problem - drop this into a new "MVC 4 WebApi project" in Visual Studio 11 to expose the following GET endpoints:

/api/test1
/api/test2
/api/test3
/api/test4
/api/test5 <--- never completes
/api/test6

Each of the endpoints here return the same data (the response headers from stackoverflow.com) except for /api/test5 which never completes.

Have I encountered a bug in the HttpClient class, or am I misusing the API in some way?

Code to reproduce:

public class BaseApiController : ApiController
{
    /// <summary>
    /// Retrieves data using continuations
    /// </summary>
    protected Task<string> Continuations_GetSomeDataAsync()
    {
        var httpClient = new HttpClient();

        var t = httpClient.GetAsync("http://stackoverflow.com", HttpCompletionOption.ResponseHeadersRead);

        return t.ContinueWith(t1 => t1.Result.Content.Headers.ToString());
    }

    /// <summary>
    /// Retrieves data using async/await
    /// </summary>
    protected async Task<string> AsyncAwait_GetSomeDataAsync()
    {
        var httpClient = new HttpClient();

        var result = await httpClient.GetAsync("http://stackoverflow.com", HttpCompletionOption.ResponseHeadersRead);

        return result.Content.Headers.ToString();
    }
}

public class Test1Controller : BaseApiController
{
    /// <summary>
    /// Handles task using Async/Await
    /// </summary>
    public async Task<string> Get()
    {
        var data = await Continuations_GetSomeDataAsync();

        return data;
    }
}

public class Test2Controller : BaseApiController
{
    /// <summary>
    /// Handles task by blocking the thread until the task completes
    /// </summary>
    public string Get()
    {
        var task = Continuations_GetSomeDataAsync();

        var data = task.GetAwaiter().GetResult();

        return data;
    }
}

public class Test3Controller : BaseApiController
{
    /// <summary>
    /// Passes the task back to the controller host
    /// </summary>
    public Task<string> Get()
    {
        return Continuations_GetSomeDataAsync();
    }
}

public class Test4Controller : BaseApiController
{
    /// <summary>
    /// Handles task using Async/Await
    /// </summary>
    public async Task<string> Get()
    {
        var data = await AsyncAwait_GetSomeDataAsync();

        return data;
    }
}

public class Test5Controller : BaseApiController
{
    /// <summary>
    /// Handles task by blocking the thread until the task completes
    /// </summary>
    public string Get()
    {
        var task = AsyncAwait_GetSomeDataAsync();

        var data = task.GetAwaiter().GetResult();

        return data;
    }
}

public class Test6Controller : BaseApiController
{
    /// <summary>
    /// Passes the task back to the controller host
    /// </summary>
    public Task<string> Get()
    {
        return AsyncAwait_GetSomeDataAsync();
    }
}
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2  
It doesn't appear to be the same issue, but just to make sure you know about it, there's an MVC4 bug in the beta WRT async methods that complete synchronously - see stackoverflow.com/questions/9627329/… –  James Manning Apr 27 '12 at 1:45
    
Thanks - I'll watch out for that. In this case I think that the method should always be asynchronous because of the call to HttpClient.GetAsync(...)? –  deadalus.ai Apr 27 '12 at 1:59
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3 Answers 3

up vote 85 down vote accepted

You are misusing the API.

Here's the situation: in ASP.NET, only one thread can handle a request at a time. You can do some parallel processing if necessary (borrowing additional threads from the thread pool), but only one thread would have the request context (the additional threads do not have the request context).

This is managed by the ASP.NET SynchronizationContext.

By default, when you await a Task, the method resumes on a captured SynchronizationContext (or a captured TaskScheduler, if there is no SynchronizationContext). Normally, this is just what you want: an asynchronous controller action will await something, and when it resumes, it resumes with the request context.

So, here's why test5 fails:

  • Test5Controller.Get executes AsyncAwait_GetSomeDataAsync (within the ASP.NET request context).
  • AsyncAwait_GetSomeDataAsync executes HttpClient.GetAsync (within the ASP.NET request context).
  • The HTTP request is sent out, and HttpClient.GetAsync returns an uncompleted Task.
  • AsyncAwait_GetSomeDataAsync awaits the Task; since it is not complete, AsyncAwait_GetSomeDataAsync returns an uncompleted Task.
  • Test5Controller.Get blocks the current thread until that Task completes.
  • The HTTP response comes in, and the Task returned by HttpClient.GetAsync is completed.
  • AsyncAwait_GetSomeDataAsync attempts to resume within the ASP.NET request context. However, there is already a thread in that context: the thread blocked in Test5Controller.Get.
  • Deadlock.

Here's why the other ones work:

  • (test1, test2, and test3): Continuations_GetSomeDataAsync schedules the continuation to the thread pool, outside the ASP.NET request context. This allows the Task returned by Continuations_GetSomeDataAsync to complete without having to re-enter the request context.
  • (test4 and test6): Since the Task is awaited, the ASP.NET request thread is not blocked. This allows AsyncAwait_GetSomeDataAsync to use the ASP.NET request context when it is ready to continue.

And here's the best practices:

  1. In your "library" async methods, use ConfigureAwait(false) whenever possible. In your case, this would change AsyncAwait_GetSomeDataAsync to be var result = await httpClient.GetAsync("http://stackoverflow.com", HttpCompletionOption.ResponseHeadersRead).ConfigureAwait(false);
  2. Don't block on Tasks; it's async all the way down. In other words, use await instead of GetResult (Task.Result and Task.Wait should also be replaced with await).

That way, you get both benefits: the continuation (the remainder of the AsyncAwait_GetSomeDataAsync method) is run on a basic thread pool thread that doesn't have to enter the ASP.NET request context; and the controller itself is async (which doesn't block a request thread).

More information:

Update 2012-07-13: Incorporated this answer into a blog post.

share|improve this answer
3  
It is not documented anywhere AFAIK. –  Stephen Cleary Apr 27 '12 at 13:50
1  
Thanks - awesome response. The difference in behaviour between (apparently) functionally identical code is frustrating but makes sense with your explanation. It would be useful if the framework was able to detect such deadlocks and raise an exception somewhere. –  deadalus.ai Apr 28 '12 at 1:46
1  
Are there situations where using .ConfigureAwait(false) in an asp.net context is NOT recommended? It would seem to me that it should always be used and that its only in a UI context that it should not be used since you need to sync to the UI. Or am I missing the point? –  AlexGad May 9 '12 at 16:50
1  
The ASP.NET SynchronizationContext does provide some important functionality: it flows the request context. This includes all kinds of stuff from authentication to cookies to culture. So in ASP.NET, instead of syncing back to the UI, you sync back to the request context. This may change shortly: the new ApiController does have an HttpRequestMessage context as a property - so it may not be required to flow the context through SynchronizationContext - but I don't yet know. –  Stephen Cleary May 10 '12 at 1:56
1  
Thank you! I misstakenly used Task.WaitAll instead of await Task.WhenAll. You answer put me on the right track –  Mikael Eliasson May 23 '13 at 7:41
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Quick fix from here. Instead of writing:

Task tsk = AsyncOperation();
tsk.Wait();

Try:

Task.Run(() => AsyncOperation()).Wait();

Or if you need a result:

var result = Task.Run(() => AsyncOperation()).Result;

From the source (edited to match the above example):

AsyncOperation will now be invoked on the ThreadPool, where there won’t be a SynchronizationContext, and the continuations used inside of AsyncOperation won’t be forced back to the invoking thread.

For me this looks like a great approach since I won't have to use ConfigureAwait all over the place (which as far as I can tell could also break proper async behavior in GUI), nor do I have to make it async all the way in my application (which is not currently an option anyway).

From the source:

Ensure that the await in the FooAsync method doesn’t find a context to marshal back to. The simplest way to do that is to invoke the asynchronous work from the ThreadPool, such as by wrapping the invocation in a Task.Run, e.g.

int Sync() { return Task.Run(() => Library.FooAsync()).Result; }

FooAsync will now be invoked on the ThreadPool, where there won’t be a SynchronizationContext, and the continuations used inside of FooAsync won’t be forced back to the thread that’s invoking Sync().

share|improve this answer
    
Might want to re-read your source link; the author recommends not doing this. Does it work? Yes, but only in the sense that you avoid deadlock. This solution negates all the benefits of async code on ASP.NET, and in fact can cause problems at scale. BTW, ConfigureAwait does not "break proper async behavior" in any scenario; it's exactly what you should use in library code. –  Stephen Cleary Nov 28 '13 at 19:15
    
I re-read my source link. Could not find what you were referring to. But if the chapter "Real-World Example" is mis-read it could sound like he is recommending not to do this, but he is in fact taking about a completely different case. –  Ykok Nov 29 '13 at 21:02
    
It's the entire first section, titled in bold Avoid Exposing Synchronous Wrappers for Asynchronous Implementations. The entire rest of the post is explaining a few different ways to do it if you absolutely need to. –  Stephen Cleary Nov 29 '13 at 21:24
    
Added the section I found in the source - I'll leave it up to future readers to decide. Note that you should generally try to avoid doing this and only do it as a last ditch resort (ie. when using async code you do not have control over). –  Ykok Dec 5 '13 at 13:22
    
I like all the answers here and as always.... they are all based on context (pun intended lol). I am wrapping HttpClient's Async calls with a synchronous version so I can't change that code to add ConfigureAwait to that library. So to prevent the deadlocks in production, I am wrapping the Async calls in a Task.Run. So as I understand it, this is going to use 1 extra thread per request and avoids the deadlock. I assume that to be completely compliant, I need to use WebClient's sync methods. That is a lot of work to justify so I'll need a compelling reason not stick with my current approach. –  samneric May 8 at 2:20
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I'm looking here:

http://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.taskawaiter(v=vs.110).aspx

And here:

http://msdn.microsoft.com/en-us/library/system.runtime.compilerservices.taskawaiter.getresult(v=vs.110).aspx

And seeing:

This type and its members are intended for use by the compiler.

Considering the await version works, and is the 'right' way of doing things, do you really need an answer to this question?

My vote is: Misusing the API.

share|improve this answer
    
I hadn't noticed that, though I have seen other language around which indicates that using the GetResult() API is a supported (and expected) use-case. –  deadalus.ai Apr 27 '12 at 2:15
    
Further to that, if you refactor Test5Controller.Get() to eliminate the awaiter with the following: var task = AsyncAwait_GetSomeDataAsync(); return task.Result; The same behaviour can be observed. –  deadalus.ai Apr 27 '12 at 2:16
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