Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have a rather complex bit of resolving going on in Autofac. Basically I want all the objects in the container which implement a specifically named method with a specific argument type. I have implemented some somewhat insane code to get it for me

var services = (from registrations in _componentContext.ComponentRegistry.Registrations
                            from service in registrations.Services
                            select service).Distinct();
foreach (var service in services.OfType<Autofac.Core.TypedService>())
    foreach (var method in service.ServiceType.GetMethods().Where(m => m.Name == "Handle"
                                                                    && m.GetParameters().Where(p => p.ParameterType.IsAssignableFrom(implementedInterface)).Count() > 0))
        var handler = _componentContext.Resolve(service.ServiceType);
        method.Invoke(handler, new Object[] { convertedMessage });

My problem arises in that the handler returned the the resolution step is always the same handler and I cannot see a way to resolve a collection of the the registrations which are tied to the service as one might normally do with container.Resolve>().

I feel like I'm pushing pretty hard against what AutoFac was designed to do and might do better with a MEF based solution. Is there an easy AutoFac based solution to this issue or should I hop over to a more composition based approach?

share|improve this question
up vote 1 down vote accepted


In MEF you could use 'Method Exports' for this (http://mef.codeplex.com/wikipage?title=Declaring%20Exports) but that might be a bit drastic. There are a couple of ways to achieve what you want in Autofac.

You can make the above code work by searching for registrations rather than services:

var implementorMethods = _componentContext.ComponentRegistry.Registrations
    .Select(r => new {
        Registration = r,
        HandlerMethod = r.Services.OfType<TypedService>()
            .SelectMany(ts => ts.ServiceType.GetMethods()
                .Where(m => m.Name == "Handle" && ...))
    .Where(im => im.HandlerMethod != null);

foreach (var im in implementorMethods)
    var handler = _componentContext.ResolveComponent(im.Registration, new List<Parameter>());
    im.HandlerMethod.Invoke(handler, new object[] { convertedMessage });

I.e. implementorMethods is a list of the components implementing a handler method, along with the method itself. ResolveComponent() doesn't rely on a service to identify the implementation, so there's no problem with the service not uniquely identifying a particular implementor.

This technique in general will probably perform poorly (if perf is a concern here) but also as you suspect will work against the design goals of Autofac (and MEF,) eliminating some of the benefits.

Ideally you need to define a contract for handlers that will let you look up all handlers for a message type in a single operation.

The typical recipe looks like:

interface IHandler<TMessage>
    void Handle(TMessage message);

Handlers then implement the appropriate interface:

class FooHandler : IHandler<Foo> { ... }

...and get registered at build-time like so:

var builder = new ContainerBuilder();

To invoke the handlers, define a message dispatcher contract:

interface IMessageDispatcher
    void Dispatch(object message);

...and then its implementation:

class AutofacMessageDispatcher : IMessageDispatcher
    static readonly MethodInfo GenericDispatchMethod =
            "GenericDispatch", BindingFlags.NonPublic | BindingFlags.Instance);

    IComponentContext _cc;

    public AutofacMessageDispatcher(IComponentContext cc)
         _cc = cc;

    public void Dispatch(object message)
        var dispatchMethod = GenericDispatchMethod

        dispatchMethod.Invoke(this, new[] { message });

    void GenericDispatch<TMessage>(TMessage message)
        var handlers = _cc.Resolve<IEnumerable<IHandler<TMessage>>>();
        foreach (var handler in handlers)

...which is registered like so:


The component that feeds in the messages will then resolve/use IMessageDispatcher to get the messages to the handlers.

var dispatcher = _cc.Resolve<IMessageDispatcher>();

There are still ways to do this without the interface, but all rely on creating some kind of contract that uniquely defines handlers for a particular message (e.g. a delegate.)

In the long run the generic handler pattern will be the easiest to maintain.

Hope this helps, Nick.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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