Looking at the examples of how to use db context pool I see it was designed to be used with ServiceCollection:

var serviceProvider = new ServiceCollection()
    .AddDbContextPool<AdventureWorksContext>(options => { //options })
    .BuildServiceProvider();

But what about Simple Injector? is it possible to register DB pooling in the Simple Injector container?

p.s. My app is not ASP.NET MVC, it's just a kinda DAL

  • 1
    Are you following Simple Injector's integration guide? If you cross-wire your DbContext (either by calling CrossWire<EfQueries>() or by using AutoCrossWireAspNetComponents, you'll that that pooling behavior for free. – Steven Aug 31 at 9:10
  • Steven, thank you for your reply, but I'm afraid that can't be done as it's not mvc application. It's just a class library, that may be called from a console application. Are there any other workarounds? – user1178399 Sep 5 at 8:21
  • Your class library should not use a DI Container, so that would solve your problem elegantly. Only startup projects, like the console application, should make registrations and resolve them. – Steven Sep 5 at 15:06
  • @Steven how would you achieve this in a .net core console app? – mscrivo Dec 5 at 15:48

EF Core DbContext pooling in ASP.NET Core

When integrating Simple Injector in ASP.NET Core, you keep framework and third-party components inside the .NET Core configuration system. This means that enabling Entity Framework Core context pooling is done exactly as Microsoft documents it:

services.AddDbContextPool<BloggingContext>(
    options => options.UseSqlServer(connectionString));

As Simple Injector does not replace the built-in configuration system, however, you will have to instruct Simple Injector to automatically load missing registrations (such as your DbContext) from the .NET Core configuration system. This can be done by using the EnableSimpleInjectorCrossWiring and AutoCrossWireAspNetComponents extension methods, as shown here.

private SimpleInjector.Container container;

public void ConfigureServices(IServiceCollection services) {
    ...

    services.EnableSimpleInjectorCrossWiring(this.container);
}

public void Configure(IApplicationBuilder app, IHostingEnvironment env) {
    ...

    container.AutoCrossWireAspNetComponents(app);
}

Using this setup, the BloggingContext can be injected into any component that is resolved from Simple Injector, while the BloggingContext is pooled by Entity Framework.

EF Core DbContext pooling in a .NET (Core) Console application

When it comes to using Entity Framework Core context pooling in a .NET Core console application, unfortunately, is a bit more involved. That's because context pooling is very much integrated with the new MS.DI abstraction mechanism, while Simple Injector's cross wiring functionality currently requires ASP.NET Core (which is something we might improve in a future release).

Setting up EF context pooling in a .NET Core console application can currently be done as follows:

static void Main(string[] args)
{
    var container = new Container();
    container.Options.DefaultScopedLifestyle = new AsyncScopedLifestyle();

    // Register stuff
    RegisterBloggingContext(container);

    container.Verify();

    // Start using Simple Injector as usual:
    using (AsyncScopedLifestyle.BeginScope(container))
    {
        var c = container.GetInstance<SomeComponentDependingOnBloggingContext>();
    }
}
// Magic starts here:
private static void RegisterBloggingContext(Container container)
{
    // Build an IServiceProvider with DbContext pooling and resolve a scope factory.
    var scopeFactory = new ServiceCollection()
        .AddDbContextPool<BloggingContext>(o => o.UseSqlServer(connectionString))
        .BuildServiceProvider(validateScopes: true)
        .GetRequiredService<IServiceScopeFactory>();

    // Use that scope factory to register an IServiceScope into Simple Injector
    container.Register<IServiceScope>(scopeFactory.CreateScope, Lifestyle.Scoped);

    // Cross wire the DbContext by resolving the IServiceScope and requesting the
    // DbContext from that scope.
    container.Register(() => container.GetInstance<IServiceScope>().ServiceProvider
        .GetService<BloggingContext>(),
        Lifestyle.Scoped);
}

What this code does is allowing EF to register its components into MS.DI ServiceCollection class. Using that service collection an IServiceProvider (the MS.DI container) is built and from that container, an IServiceScopeFactory is requested.

That IServiceScopeFactory is used to register an IServiceScope. This is MS.DI's scoping mechanism. By registering it in Simple Injector, the MS.DI scope will be managed by Simple Injector. This means that when a Simple Injector Scope is disposed, so will the IServiceScope (as IServiceScope implements IDisposable) be and with it the registered DbContext will be sent back to the pool (as this happens when DbContext is disposed).

Last part is the 'cross wiring' of the DbContext itself. This is done by registering a delegate that will first request the IServiceScope from Simple Injector. Again, because the IServiceScope is resolved from Simple Injector, it will also be disposed by Simple Injector (as IServiceScope implements IDisposable). With the resolved IServiceScope, the DbContext can be requested from that MS.DI scope.

So in the end, the DbContext's lifetime is managed by the MS.DI scope, but that scope is managed by Simple Injector's scope.

This is a bit nasty, but unfortunately, EF Core's context pooling is deeply integrated into the service collection model.

EF Core DbContext pooling in a library

In case you are building a library, i.e. a non-startup project, please stop what you're doing. Only the application's startup assembly should have a Composition Root, and only the Composition Root should use a DI Container (such as Simple Injector or MS.DI's `ServiceCollection). All other libraries in your application should stay oblivious of the (possible) existence of a Container:

In case you use a DI Container, the Composition Root should be the only place where you use the DI Container. Using a DI Container outside the Composition Root leads to the Service Locator anti-pattern (source)

  • Thanks @Steven, this is very helpful! So if I'm understanding this correctly, everywhere you want to use an injected DbContext, you need to wrap it in: using (AsyncScopedLifestyle.BeginScope(container)) { } if it will be called by the console app? That's not needed in ASP.NET Core given that each request is scoped already, but if you had shared code and wrapped it in the SI scope, will that have any effect if called in as ASP.NET Core request? – mscrivo Dec 7 at 3:37
  • I'm not sure I fully understand the question, but in general, you should resolve stuff within an active scope. That's what happens in ASP.NET Core when you configured UseSimpleInjectorAspNetRequestScoping. Starting a scope is something you should only do inside your Composition Root; nowhere else. Never inside a library. – Steven Dec 7 at 7:54
  • Right, that makes perfect sense. Thanks again. – mscrivo Dec 7 at 14:56

You could use

container.Register(() => serviceProvider.GetRequiredService<AdventureWorksContext>());

to have the ServiceProvider resolve the dependency as it's requested.

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.