I have a public async void Foo() method that I want to call from synchronous method. So far all I have seen from MSDN documentation is calling async methods via async methods, but my whole program is not built with async methods.

Is this even possible?

Here's one example of calling these methods from an asynchronous method: http://msdn.microsoft.com/en-us/library/hh300224(v=vs.110).aspx

Now I'm looking into calling these async methods from sync methods.

  • 1
    I ran into this as well. Overriding a RoleProvider you cannot change the method signature of the GetRolesForUser method so you can not make the method async and so cannot use await to call out to api asyncronously. My temporary solution was to add synchronous methods to my generic HttpClient class but would like to know if this is possible (and what the implications might be). – Timothy Lee Russell Aug 5 '12 at 4:16
  • see Tohid answer below it works – Mauricio Gracia Gutierrez Apr 27 at 15:04
  • 1
    Because your async void Foo() method does not return a Task it means a caller cannot know when it completes, it must return Task instead. – Dai May 7 at 2:27

12 Answers 12

up vote 427 down vote accepted

Asynchronous programming does "grow" through the code base. It has been compared to a zombie virus. The best solution is to allow it to grow, but sometimes that's not possible.

I have written a few types in my Nito.AsyncEx library for dealing with a partially-asynchronous code base. There's no solution that works in every situation, though.

Solution A

If you have a simple asynchronous method that doesn't need to synchronize back to its context, then you can use Task.WaitAndUnwrapException:

var task = MyAsyncMethod();
var result = task.WaitAndUnwrapException();

You do not want to use Task.Wait or Task.Result because they wrap exceptions in AggregateException.

This solution is only appropriate if MyAsyncMethod does not synchronize back to its context. In other words, every await in MyAsyncMethod should end with ConfigureAwait(false). This means it can't update any UI elements or access the ASP.NET request context.

Solution B

If MyAsyncMethod does need to synchronize back to its context, then you may be able to use AsyncContext.RunTask to provide a nested context:

var result = AsyncContext.RunTask(MyAsyncMethod).Result;

*Update 4/14/2014: In more recent versions of the library the API is as follows:

var result = AsyncContext.Run(MyAsyncMethod);

(It's OK to use Task.Result in this example because RunTask will propagate Task exceptions).

The reason you may need AsyncContext.RunTask instead of Task.WaitAndUnwrapException is because of a rather subtle deadlock possibility that happens on WinForms/WPF/SL/ASP.NET:

  1. A synchronous method calls an async method, obtaining a Task.
  2. The synchronous method does a blocking wait on the Task.
  3. The async method uses await without ConfigureAwait.
  4. The Task cannot complete in this situation because it only completes when the async method is finished; the async method cannot complete because it is attempting to schedule its continuation to the SynchronizationContext, and WinForms/WPF/SL/ASP.NET will not allow the continuation to run because the synchronous method is already running in that context.

This is one reason why it's a good idea to use ConfigureAwait(false) within every async method as much as possible.

Solution C

AsyncContext.RunTask won't work in every scenario. For example, if the async method awaits something that requires a UI event to complete, then you'll deadlock even with the nested context. In that case, you could start the async method on the thread pool:

var task = TaskEx.RunEx(async () => await MyAsyncMethod());
var result = task.WaitAndUnwrapException();

However, this solution requires a MyAsyncMethod that will work in the thread pool context. So it can't update UI elements or access the ASP.NET request context. And in that case, you may as well add ConfigureAwait(false) to its await statements, and use solution A.

  • 4
    Solution A seems like what I want, but it looks like task.WaitAndUnwrapException() didn't make it into the .Net 4.5 RC; it only has task.Wait(). Any idea how to do this with the new version? Or is this a custom extension method you wrote? – deadlydog Jul 25 '12 at 23:17
  • 1
    WaitAndUnwrapException is my own method from my AsyncEx library. The official .NET libs don't provide much help for mixing sync and async code (and in general, you shouldn't do it!). I'm waiting for .NET 4.5 RTW and a new non-XP laptop before updating AsyncEx to run on 4.5 (I cannot currently develop for 4.5 because I'm stuck on XP for a few more weeks). – Stephen Cleary Jul 25 '12 at 23:33
  • 5
    AsyncContext now has a Run method that takes a lambda expression, so you should use var result = AsyncContext.Run(() => MyAsyncMethod()); – Stephen Cleary Jun 23 '13 at 12:42
  • 1
    I got your library off Nuget, but it doesn't actually seem to have a RunTask method. Closest thing I could find was Run, but that doesn't have a Result property. – Asad Saeeduddin Apr 14 '14 at 23:43
  • 3
    @Asad: Yes, more than 2 years later the API has changed. You can now simply say var result = AsyncContext.Run(MyAsyncMethod); – Stephen Cleary Apr 14 '14 at 23:55

Microsoft built an AsyncHelper (internal) class to run Async as Sync. The source looks like:

internal static class AsyncHelper
{
    private static readonly TaskFactory _myTaskFactory = new 
      TaskFactory(CancellationToken.None, 
                  TaskCreationOptions.None, 
                  TaskContinuationOptions.None, 
                  TaskScheduler.Default);

    public static TResult RunSync<TResult>(Func<Task<TResult>> func)
    {
        return AsyncHelper._myTaskFactory
          .StartNew<Task<TResult>>(func)
          .Unwrap<TResult>()
          .GetAwaiter()
          .GetResult();
    }

    public static void RunSync(Func<Task> func)
    {
        AsyncHelper._myTaskFactory
          .StartNew<Task>(func)
          .Unwrap()
          .GetAwaiter()
          .GetResult();
    }
}

The Microsoft.AspNet.Identity base classes only have Async methods and in order to call them as Sync there are classes with extension methods that look like (example usage):

public static TUser FindById<TUser, TKey>(this UserManager<TUser, TKey> manager, TKey userId) where TUser : class, IUser<TKey> where TKey : IEquatable<TKey>
{
    if (manager == null)
    {
        throw new ArgumentNullException("manager");
    }
    return AsyncHelper.RunSync<TUser>(() => manager.FindByIdAsync(userId));
}

public static bool IsInRole<TUser, TKey>(this UserManager<TUser, TKey> manager, TKey userId, string role) where TUser : class, IUser<TKey> where TKey : IEquatable<TKey>
{
    if (manager == null)
    {
        throw new ArgumentNullException("manager");
    }
    return AsyncHelper.RunSync<bool>(() => manager.IsInRoleAsync(userId, role));
}

For those concerned about the licensing terms of code, here is a link to very similar code (just adds support for culture on the thread) that has comments to indicate that it is MIT Licensed by Microsoft. https://github.com/aspnet/AspNetIdentity/blob/master/src/Microsoft.AspNet.Identity.Core/AsyncHelper.cs

  • 1
    My async methods await other async methods. I do NOT decorate any of my await calls with ConfigureAwait(false). I tried using AsyncHelper.RunSync to call an async function from the Application_Start() function in Global.asax and it seems to work. Does this mean that AsyncHelper.RunSync is reliably not prone to the "marshal back to the caller's context" deadlock issue I read about elsewhere in this posting? – Bob.at.Indigo.Health May 21 '15 at 23:00
  • 1
    @Bob.at.SBS depends on what you code does. It's not as simple as if I use this code am I safe. This is very minimal and semi-safe way to run async commands synchronously, it can be easily used inappropriately to cause deadlocks. – Erik Philips May 22 '15 at 3:56
  • Thanks. 2 follow-up questions: 1) Can you give an example of something the async method wants to avoid that would cause a deadlock, and 2) are deadlocks in this context often timing-dependent? If it works in practice, might I still have a timing-dependent deadlock lurking in my code? – Bob.at.Indigo.Health May 23 '15 at 4:57
  • @Bob.at.SBS I would recommend asking question by using the Ask Question button at the top right. You can include a link to this question or answer in your question as a reference. – Erik Philips Sep 15 '15 at 16:27
  • 1
    @Bob.at... the code provided by Erik works perfect under Asp. net mvc5 and EF6, but not when I tried any of the other solutions (ConfigureAwait(false).GetAwaiter().GetResult() or .result) which hangs completely my web app – LeonardoX Sep 17 '17 at 1:50

Adding a solution that finally solved my problem, hopefully saves somebody's time.

Firstly read a couple articles of Stephen Cleary:

From the "two best practices" in "Don't Block on Async Code", the first one didn't work for me and the second one wasn't applicable (basically if I can use await, I do!).

So here is my workaround: wrap the call inside a Task.Run<>(async () => await FunctionAsync()); and hopefully no deadlock anymore.

Here is my code:

public class LogReader
{
    ILogger _logger;

    public LogReader(ILogger logger)
    {
        _logger = logger;
    }

    public LogEntity GetLog()
    {
        Task<LogEntity> task = Task.Run<LogEntity>(async () => await GetLogAsync());
        return task.Result;
    }

    public async Task<LogEntity> GetLogAsync()
    {
        var result = await _logger.GetAsync();
        // more code here...
        return result as LogEntity;
    }
}
  • 16
    this answer should be engraved in stone – giammin May 11 '17 at 14:51
  • 1
    Two years on, I'm curious to know how this solution is holding up. Any news? Is there subtlety to this approach that is lost on newbies? – Dan Esparza Aug 18 '17 at 12:17
  • 7
    This won't deadlock, true, but simply because it's forced to run in a new thread, outside of the synchronization context of the originating thread. However, there's certain environments where this is very ill-advised: particularly web applications. This could effectively halve the available threads for the web server (one thread for the request and one for this). The more you do this, the worse it gets. You could potentially end up deadlocking your entire web server. – Chris Pratt Oct 11 '17 at 14:16
  • 7
    @ChrisPratt - You may be right, because Task.Run() is not a best practice in an async code. But, again, what's the answer to the original question? Never call an async method synchronously? We wish, but in a real world, sometimes we have to. – Tohid Oct 28 '17 at 6:44
  • 1
    I am intrigued to start creating new accountsin SO answering questions just to get enough points to upvote this one.... – Giannis Paraskevopoulos Dec 15 '17 at 15:20

async Main is now part of C# 7.2 and can be enabled in the projects advanced build settings.

For C# < 7.2, the correct way is:

static void Main(string[] args)
{
   MainAsync().GetAwaiter().GetResult();
}


static async Task MainAsync()
{
   /*await stuff here*/
}
  • 4
    I have no idea WHY someone voted this down. This worked great for me. Without this fix, I would have had to propagate ASYCH EVERYWHERE. – Prisoner ZERO Jun 28 '15 at 1:14
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    Why is this better than MainAsync().Wait()? – crush Oct 28 '15 at 23:05
  • 4
    I agree. You just need MainAsync().Wait() instead of all this. – Hajjat Dec 24 '15 at 3:23
  • 1
    @crush This pattern can help avoid deadlocks in some situations. Results can be returned by switching to .Result. – David Feb 1 '16 at 19:45
  • 4
    @crush I was describing how this can avoid some deadlocks. In some situations calling .Wait() from a UI or asp.net thread causes a deadlock. async deadlocks – David Feb 3 '16 at 20:02
public async Task<string> StartMyTask()
{
    await Foo()
    // code to execute once foo is done
}

static void Main()
{
     var myTask = StartMyTask(); // call your method which will return control once it hits await
     // now you can continue executing code here
     string result = myTask.Result; // wait for the task to complete to continue
     // use result

}

You read the 'await' keyword as "start this long running task, then return control to the calling method". Once the long-running task is done, then it executes the code after it. The code after the await is similar to what used to be CallBack methods. The big difference being the logical flow is not interrupted which makes it much easier to write and read.

  • 7
    Wait wraps exceptions and has the possibility of a deadlock. – Stephen Cleary Feb 18 '12 at 18:17
  • I thought if you called an async method without using await, it would be executed synchronously. At least that works for me (without calling myTask.Wait). Actually, I got an exception when I tried to call myTask.RunSynchronously() because it had already been executed! – awe Mar 11 '13 at 10:44
  • 2
    I like this answer. Good comments for editing, small, and elegant. Thank you for contributing! I still learning concurrency, so everything helps :) – kayleeFrye_onDeck Feb 13 '15 at 0:23
  • 2
    Should this answer still work as of today? I just tried it in an MVC Razor project and the app just hangs on accessing .Result. – Gone Coding Feb 23 '15 at 15:24
  • 5
    @TrueBlueAussie That's the synchronization context deadlock. Your async code marshalls back to the synchronization context, but that's being blocked by the Result call at the time, so it never gets there. And Result never ends, because it's waiting for someone who's waiting for the Result to end, basically :D – Luaan Feb 23 '15 at 17:37

I'm not 100% sure, but I believe the technique described in this blog should work in many circumstances:

You can thus use task.GetAwaiter().GetResult() if you want to directly invoke this propagation logic.

  • 2
    Solution A in Stephen Cleary's answer above uses this method. See WaitAndUnwrapException source. – orad Mar 29 '17 at 17:30
  • do you need use GetResult() if the function you are calling is void or task? I mean if you dont want to get any results back – batmaci Jul 4 '17 at 16:47
  • Yes, otherwise it will not block until task completion. Alternatively instead of calling GetAwaiter().GetResult() you can call .Wait() – NStuke Jul 11 '17 at 0:57
  • not deadlock using that solution ? – PreguntonCojoneroCabrón Mar 27 at 6:14
  • That's the "many circumstances" part. It depends on the overall threading model and what other threads are doing to determine if there's a risk of deadlock or not. – NStuke Mar 29 at 4:09

The most accepted answer is not entirely correct. There IS a solution that works in every situation: an ad-hoc message pump (SynchronizationContext).

The calling thread will be blocked as expected, while still ensuring that all continuations called from the async function don't deadlock as they'll be marshaled to the ad-hoc SynchronizationContext (message pump) running on the calling thread.

The code of the ad-hoc message pump helper:

using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Threading;
using System.Threading.Tasks;

namespace Microsoft.Threading
{
    /// <summary>Provides a pump that supports running asynchronous methods on the current thread.</summary>
    public static class AsyncPump
    {
        /// <summary>Runs the specified asynchronous method.</summary>
        /// <param name="asyncMethod">The asynchronous method to execute.</param>
        public static void Run(Action asyncMethod)
        {
            if (asyncMethod == null) throw new ArgumentNullException("asyncMethod");

            var prevCtx = SynchronizationContext.Current;
            try
            {
                // Establish the new context
                var syncCtx = new SingleThreadSynchronizationContext(true);
                SynchronizationContext.SetSynchronizationContext(syncCtx);

                // Invoke the function
                syncCtx.OperationStarted();
                asyncMethod();
                syncCtx.OperationCompleted();

                // Pump continuations and propagate any exceptions
                syncCtx.RunOnCurrentThread();
            }
            finally { SynchronizationContext.SetSynchronizationContext(prevCtx); }
        }

        /// <summary>Runs the specified asynchronous method.</summary>
        /// <param name="asyncMethod">The asynchronous method to execute.</param>
        public static void Run(Func<Task> asyncMethod)
        {
            if (asyncMethod == null) throw new ArgumentNullException("asyncMethod");

            var prevCtx = SynchronizationContext.Current;
            try
            {
                // Establish the new context
                var syncCtx = new SingleThreadSynchronizationContext(false);
                SynchronizationContext.SetSynchronizationContext(syncCtx);

                // Invoke the function and alert the context to when it completes
                var t = asyncMethod();
                if (t == null) throw new InvalidOperationException("No task provided.");
                t.ContinueWith(delegate { syncCtx.Complete(); }, TaskScheduler.Default);

                // Pump continuations and propagate any exceptions
                syncCtx.RunOnCurrentThread();
                t.GetAwaiter().GetResult();
            }
            finally { SynchronizationContext.SetSynchronizationContext(prevCtx); }
        }

        /// <summary>Runs the specified asynchronous method.</summary>
        /// <param name="asyncMethod">The asynchronous method to execute.</param>
        public static T Run<T>(Func<Task<T>> asyncMethod)
        {
            if (asyncMethod == null) throw new ArgumentNullException("asyncMethod");

            var prevCtx = SynchronizationContext.Current;
            try
            {
                // Establish the new context
                var syncCtx = new SingleThreadSynchronizationContext(false);
                SynchronizationContext.SetSynchronizationContext(syncCtx);

                // Invoke the function and alert the context to when it completes
                var t = asyncMethod();
                if (t == null) throw new InvalidOperationException("No task provided.");
                t.ContinueWith(delegate { syncCtx.Complete(); }, TaskScheduler.Default);

                // Pump continuations and propagate any exceptions
                syncCtx.RunOnCurrentThread();
                return t.GetAwaiter().GetResult();
            }
            finally { SynchronizationContext.SetSynchronizationContext(prevCtx); }
        }

        /// <summary>Provides a SynchronizationContext that's single-threaded.</summary>
        private sealed class SingleThreadSynchronizationContext : SynchronizationContext
        {
            /// <summary>The queue of work items.</summary>
            private readonly BlockingCollection<KeyValuePair<SendOrPostCallback, object>> m_queue =
                new BlockingCollection<KeyValuePair<SendOrPostCallback, object>>();
            /// <summary>The processing thread.</summary>
            private readonly Thread m_thread = Thread.CurrentThread;
            /// <summary>The number of outstanding operations.</summary>
            private int m_operationCount = 0;
            /// <summary>Whether to track operations m_operationCount.</summary>
            private readonly bool m_trackOperations;

            /// <summary>Initializes the context.</summary>
            /// <param name="trackOperations">Whether to track operation count.</param>
            internal SingleThreadSynchronizationContext(bool trackOperations)
            {
                m_trackOperations = trackOperations;
            }

            /// <summary>Dispatches an asynchronous message to the synchronization context.</summary>
            /// <param name="d">The System.Threading.SendOrPostCallback delegate to call.</param>
            /// <param name="state">The object passed to the delegate.</param>
            public override void Post(SendOrPostCallback d, object state)
            {
                if (d == null) throw new ArgumentNullException("d");
                m_queue.Add(new KeyValuePair<SendOrPostCallback, object>(d, state));
            }

            /// <summary>Not supported.</summary>
            public override void Send(SendOrPostCallback d, object state)
            {
                throw new NotSupportedException("Synchronously sending is not supported.");
            }

            /// <summary>Runs an loop to process all queued work items.</summary>
            public void RunOnCurrentThread()
            {
                foreach (var workItem in m_queue.GetConsumingEnumerable())
                    workItem.Key(workItem.Value);
            }

            /// <summary>Notifies the context that no more work will arrive.</summary>
            public void Complete() { m_queue.CompleteAdding(); }

            /// <summary>Invoked when an async operation is started.</summary>
            public override void OperationStarted()
            {
                if (m_trackOperations)
                    Interlocked.Increment(ref m_operationCount);
            }

            /// <summary>Invoked when an async operation is completed.</summary>
            public override void OperationCompleted()
            {
                if (m_trackOperations &&
                    Interlocked.Decrement(ref m_operationCount) == 0)
                    Complete();
            }
        }
    }
}

Usage:

AsyncPump.Run(() => FooAsync(...));

More detailed description of the async pump is available here.

You can call any asynchronous method from synchronous code, that is, until you need to await on them, in which case they have to be marked async too.

As a lot of people are suggesting here, you could call Wait() or Result on the resulting task in your synchronous method, but then you end up with a blocking call in that method, which sort of defeats the purpose of async.

I you really can't make your method async and you don't want to lock up the synchronous method, then you're going to have to use a callback method by passing it as parameter to the ContinueWith method on task.

  • 3
    Then that wouldn't be calling the method synchronously now would it? – Jeff Mercado Feb 18 '12 at 18:05
  • 2
    As I understand, the question was can you call an async method from a non-async method. This does not imply having to call the async method in a blocking manner. – base2 Feb 18 '12 at 18:23
  • Sorry, your "they have to be marked async too" drew my attention away from what you were really saying. – Jeff Mercado Feb 18 '12 at 22:56
  • If I don't really care about the asynchronousness, is it OK to call it this way (and what about the possibility of deadlocks in wrapped exceptions that Stephen Cleary keeps nagging about?) I have some test methods (that must be executed synchronously) that tests asynchronous methods. I must wait for the result before continuing, so I can test the result of the asynchronous method. – awe Mar 11 '13 at 11:20
var result = Task.Run(async () => await configManager.GetConfigurationAsync()).ConfigureAwait(false);

OpenIdConnectConfiguration config = result.GetAwaiter().GetResult();

Or use this:

var result=result.GetAwaiter().GetResult().AccessToken
   //Example from non UI thread -    
   private void SaveAssetAsDraft()
    {
        SaveAssetDataAsDraft();
    }
    private async Task<bool> SaveAssetDataAsDraft()
    {
       var id = await _assetServiceManager.SavePendingAssetAsDraft();
       return true;   
    }
   //UI Thread - 
   var result = Task.Run(() => SaveAssetDataAsDraft().Result).Result;

Those windows async methods have a nifty little method called AsTask(). You can use this to have the method return itself as a task so that you can manually call Wait() on it.

For example, on a Windows Phone 8 Silverlight application, you can do the following:

private void DeleteSynchronous(string path)
{
    StorageFolder localFolder = Windows.Storage.ApplicationData.Current.LocalFolder;
    Task t = localFolder.DeleteAsync(StorageDeleteOption.PermanentDelete).AsTask();
    t.Wait();
}

private void FunctionThatNeedsToBeSynchronous()
{
    // Do some work here
    // ....

    // Delete something in storage synchronously
    DeleteSynchronous("pathGoesHere");

    // Do other work here 
    // .....
}

Hope this helps!

Use Task.Run<> method to do this.

Also that's how I execute all the LINQ queries and Entity Framework operations that don't have the -Async methods.

If you're using MVVM, check out these videos on async and await.

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