The exact situation is I'm doing E2E tests with Protractor.NET (.NET port of AngularJS's Protractor E2E framework) and I would like to make some web requests (and the API -- System.Net.Http.HttpClient -- has all Async/Task methods) to Arrange my test before I Act/Assert, only I need to do this same Arrange-ing for several tests.

I'm using xUnit.net as my test runner they use an interface (IUseFixture<T>) for per-fixture setup code. It would be nice if there was a IAsyncUseFixture<T> that had a Task SetFixtureAsync(T t); or something. I don't think such a thing exists. Additionally I don't think constructors can use await either, and constructors are the only other way to execute the same block of code per-test in xUnit.net.

What are my options? .Result? Isn't that bad practice (deadlock)?

  • 8
    .Result can create a deadlock if it runs on a thread with a special synchronization context, like UI threads. In other contexts - such as console application - it would run without a problem. Do you know the context of a xUnit test?
    – Dirk
    Aug 27, 2014 at 5:42
  • Thanks for the reply. I have no idea. Aug 27, 2014 at 5:56
  • 1
    You can use a synchronous api via WebClient Aug 27, 2014 at 7:58

2 Answers 2


xUnit has an IAsyncLifetime interface for async setup/teardown. The methods you need to implement are Task InitializeAsync() and Task DisposeAsync().

InitializeAsync is called immediately after the class has been created, before it is used.

DisposeAsync is called just before IDisposable.Dispose if the class also implements IDisposable.


public class MyTestFixture : IAsyncLifetime
    private string someState;

    public async Task InitializeAsync()
        await Task.Run(() => someState = "Hello");

    public Task DisposeAsync()
        return Task.CompletedTask;

    public void TestFoo()
        Assert.Equal("Hello", someState);

I would use AsyncLazy


In my case I want to run some integration tests against a self hosted web api.

public class BaseTest() 
    private const string baseUrl = "http://mywebsite.web:9999";

    private static readonly AsyncLazy<HttpSelfHostServer> server = new AsyncLazy<HttpSelfHostServer>(async () =>
            Log.Information("Starting web server");

            var config = new HttpSelfHostConfiguration(baseUrl);

            new Startup()

            var server = new HttpSelfHostServer(config);
            await server.OpenAsync();

            Log.Information("Web server started: {0}", baseUrl);

            return server;
        catch (Exception e)
            Log.Error(e, "Unable to start web server");

    public BaseTest() 

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