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I'm maintaining a integration package that allows my users to integrate my library with ASP.NET Core. This package must be compatible with all versions of ASP.NET Core starting at 2.1. At application shutdown my integration package must be able to execute asynchronous cleanup, and unfortunately can't take a dependency on IAsyncDisposable through Microsoft.Bcl.AsyncInterfaces (see below).

The only way this, therefore, seems feasible is by registering an IHostedService implementation. It's StopAsync method is called at shutdown:

public sealed class ShutdownHostedService : IHostedService
{
    public MyLibaryCleanupObject Obj;
    public Task StartAsync(CancellationToken token) => Task.CompletedTask;
    public Task StopAsync(CancellationToken token) => this.Obj.CleanupAsync();
}

services.AddSingleton<IHostedService>(new ShutdownHostedService { Obj = ... });

Application developers, however, can of course add their own IHostedService implementations, which might interact with my library. This is why it is important for my own IHostedService implementation to be called last. But here lies the problem.

With the introduction of ASP.NET Core 2.1 application developers can choose between using the new Microsoft.Extensions.Hosting.Host and the (now deprecated) Microsoft.AspNetCore.WebHost. With WebHost, at shutdown, IHostedService implementations are called in order of registration, whereas with Host, IHostedService implementations are called in opposite order of registration.

This is problematic for me, because my hosted service should be called last. As application developers might use my integration package in their existing ASP.NET Core application, they might still use WebHost, which is why it is important to support that scenario.

Question: What would be a reliable way to determine in what 'mode' the ASP.NET Core application runs, so I can decide to add my hosted service first or last?

Alternatively, to prevent falling into the XY-problem trap, I'm open to completely different solutions that solve my problem of implementing "asynchronous shutdown".

Note on IAsyncDisposable:

One solution that would come to mind (as Ian rightfully notes in the comments) is to add an IAsyncDisposable Singleton registration to the ServiceCollection. This would allow asynchronous cleanup at shutdown. Unfortunately, due to constraints (explained here) it's impossible for my integration package to take a dependency on Microsoft.Bcl.AsyncInterfaces and, therefore, not on IAsyncDisposable. This is an unfortunate situation that certainly complicates the matter. As a matter of fact, the reason for not being able to take a dependency on IAsyncDisposable is the reason I'm looking for alternative ways of implementing asynchronous shutdown code.

  • I strongly doubt that background services are intended to be used this way, and I'm certain that the order they're stopped in is an implementation detail, therefore completely unguaranteed and subject to change at any time, so I would definitely suggest looking into other ways to accomplish this. My suggestion would be IAsyncDisposable, which is supported natively on Core 3.0 and up, and has a shim for older versions via the Microsoft.Bcl.AsyncInterfaces NuGet package. Alternatively, ask directly on the ASP.NET Core GitHub repo. – Ian Kemp Dec 8 '20 at 15:18
  • Hi @IanKemp, thank you for your comment. Unfortunately using IAsyncDisposable is out of the picture (I should have stated this more clearly in my question). IAsyncDisposable is exactly the problem why I'm in this situation. The new version of the library I'm developing, purposely removes the dependency on Microsoft.Bcl.AsyncInterfaces which disallows me from adding an IAsyncDisposable registration to the IServiceCollection. – Steven Dec 8 '20 at 15:23
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    As a worst case if no automated solution is found, create a configuration option (flag) that can be used to indicate the desired order. (just off the top of my head) – Nkosi Dec 8 '20 at 15:59
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    Another option could be to register a handler to IApplicationLifetime either ApplicationStopping or ApplicaionStopped – Nkosi Dec 8 '20 at 16:06
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    Agreed with Nkosi, utilizing the application lifetime seems like a better bet for this kind of task, especially considering that you only want a cleanup step but not an actual startup. The problem is that the lifetime events do not support asynchronous work. What might work would be to provide a custom IHostLifetime but that makes things also a bit more complicated since you need to support the different lifetimes… – poke Dec 8 '20 at 16:47
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The solution I end up using is identical to the solution chosen by Microsoft's Microsoft.Extensions.Hosting.Internal.Host class and doesn't involve using IHostedService instances. The Host class contains the following Dispose method:

public void Dispose()
{
    this.DisposeAsync().GetAwaiter().GetResult();
}

This might raise some eyebrows and might be seen as a bad practice, but don't forget that:

  • This code is guaranteed to run in the context of ASP.NET Core, where this code can't cause a deadlock
  • This code runs just once at shutdown, so performance isn't an issue here.

This is why Microsoft's Host class can take this approach, and it means that it is a safe approach for my library to do as well.

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