Intercept async method that returns generic Task<> via DynamicProxy

After extensive research, I was able to create a solution that works for intercepting Synchronous Methods as well as Async Task and Async Task< TResult >.

Here is my code for an Exception Handling interceptor that works on all those method types, using Castle Dynamic Proxy. This pattern is adaptable for doing any sort of intercept you wish. The syntax will be a little cleaner for standard BeforeInvoke/AfterInvoke actions, but the concept should be the same.

(Other note: the IExceptionHandler interface in the example is a custom type, and not a common object.)

    private class AsyncExceptionHandlingInterceptor : IInterceptor
    {
        private static readonly MethodInfo handleAsyncMethodInfo = typeof(AsyncExceptionHandlingInterceptor).GetMethod("HandleAsyncWithResult", BindingFlags.Instance | BindingFlags.NonPublic);
        private readonly IExceptionHandler _handler;

        public AsyncExceptionHandlingInterceptor(IExceptionHandler handler)
        {
            _handler = handler;
        }

        public void Intercept(IInvocation invocation)
        {
            var delegateType = GetDelegateType(invocation);
            if (delegateType == MethodType.Synchronous)
            {
                _handler.HandleExceptions(() => invocation.Proceed());
            }
            if (delegateType == MethodType.AsyncAction)
            {
                invocation.Proceed();
                invocation.ReturnValue = HandleAsync((Task)invocation.ReturnValue);
            }
            if (delegateType == MethodType.AsyncFunction)
            {
                invocation.Proceed();
                ExecuteHandleAsyncWithResultUsingReflection(invocation);
            }
        }

        private void ExecuteHandleAsyncWithResultUsingReflection(IInvocation invocation)
        {
            var resultType = invocation.Method.ReturnType.GetGenericArguments()[0];
            var mi = handleAsyncMethodInfo.MakeGenericMethod(resultType);
            invocation.ReturnValue = mi.Invoke(this, new[] { invocation.ReturnValue });
        }

        private async Task HandleAsync(Task task)
        {
            await _handler.HandleExceptions(async () => await task);
        }

        private async Task<T> HandleAsyncWithResult<T>(Task<T> task)
        {
            return await _handler.HandleExceptions(async () => await task);
        }

        private MethodType GetDelegateType(IInvocation invocation)
        {
            var returnType = invocation.Method.ReturnType;
            if (returnType == typeof(Task))
                return MethodType.AsyncAction;
            if (returnType.IsGenericType && returnType.GetGenericTypeDefinition() == typeof(Task<>))
                return MethodType.AsyncFunction;
            return MethodType.Synchronous;
        }

        private enum MethodType
        {
            Synchronous,
            AsyncAction,
            AsyncFunction
        }
    }

A better solution would be to use the dynamic keyword to bypass the compiler type checking and resolve the operation at run time:

public void Intercept(IInvocation invocation)
{
    invocation.Proceed();
    var method = invocation.MethodInvocationTarget;
    var isAsync = method.GetCustomAttribute(typeof(AsyncStateMachineAttribute)) != null;
    if (isAsync && typeof(Task).IsAssignableFrom(method.ReturnType))
    {
        invocation.ReturnValue = InterceptAsync((dynamic)invocation.ReturnValue);
    }
}

private static async Task InterceptAsync(Task task)
{
    await task.ConfigureAwait(false);
    // do the continuation work for Task...
}

private static async Task<T> InterceptAsync<T>(Task<T> task)
{
    T result = await task.ConfigureAwait(false);
    // do the continuation work for Task<T>...
    return result;
}