I am building a WebApi service using OWIN self-hosting (runnable in either console mode or as a Windows service - final deployment to be a service, console mode is for debugging/development). I am having problems with per-request lifetime for Unity injection.
I have previously built other services deployed as IIS WebApi; I added the Unity Mvc nuget along with the basic Unity nuget, follow the directions, and it all works.
In the OWIN self-host environment, I have no problem with default type registrations and ContainerControlledLifetimeManager
registrations, but I can't get PerRequestLifetimeManager
to work. For one thing, UnityMvcActivator
doesn't start automatically under OWIN self-host as it does for IIS. If I explicitly call UnityMvcActivator.Start
when I do, a resolution attempt for type registered with PerRequestLifetimeManager
results in an InvalidOperationException with the following message:
The PerRequestLifetimeManager can only be used in the context of an HTTP request.Possible causes for this error are using the lifetime manager on a non-ASP.NET application, or using it in a thread that is not associated with the appropriate synchronization context.
Can PerRequestLifetimeManager
work with OWIN self-host, or is it dependent on IIS? If it will work under OWIN self-host, how do I get UnityMvcActivator
to start properly and my injected types registered? If PerRequestLifetimeManager
is not compatible with OWIN self-host, how else can I register types with per-request lifetimes?
Portion of UnityConfig:
public static void RegisterTypes(IUnityContainer container)
{
// NOTE: To load from web.config uncomment the line below.
// Make sure to add a Unity.Configuration to the using statements.
// container.LoadConfiguration();
// TODO: Register your type's mappings here.
// container.RegisterType<IProductRepository, ProductRepository>();
// My test registration:
container.RegisterType<ITestService, TestService>(new PerRequestLifetimeManager());
}
UnityMvcActivator (as provided in the NuGet, except for the one un-commented line):
[assembly: WebActivatorEx.PreApplicationStartMethod(typeof(Accounting.Service.UnityMvcActivator), nameof(Accounting.Service.UnityMvcActivator.Start))]
[assembly: WebActivatorEx.ApplicationShutdownMethod(typeof(Accounting.Service.UnityMvcActivator), nameof(Accounting.Service.UnityMvcActivator.Shutdown))]
namespace Accounting.Service
{
/// <summary>
/// Provides the bootstrapping for integrating Unity with ASP.NET MVC.
/// </summary>
public static class UnityMvcActivator
{
/// <summary>
/// Integrates Unity when the application starts.
/// </summary>
public static void Start()
{
var container = UnityConfig.Container;
FilterProviders.Providers.Remove(FilterProviders.Providers.OfType<FilterAttributeFilterProvider>().First());
FilterProviders.Providers.Add(new UnityFilterAttributeFilterProvider(container));
DependencyResolver.SetResolver(new UnityDependencyResolver(container));
// TODO: Uncomment if you want to use PerRequestLifetimeManager
Microsoft.Web.Infrastructure.DynamicModuleHelper.DynamicModuleUtility.RegisterModule(typeof(UnityPerRequestHttpModule));
}
/// <summary>
/// Disposes the Unity container when the application is shut down.
/// </summary>
public static void Shutdown()
{
UnityConfig.Container.Dispose();
}
}
}
EDIT
It seems that the MVC PerRequestLifetimeManager
won't work in the context I am trying to use it, but I have devised what I think is a work-around using OWIN middleware as follows:
public class PerRequestMiddleware : OwinMiddleware
{
[ThreadStatic] static Dictionary<Type, object> _instances;
public PerRequestMiddleware(OwinMiddleware next) : base(next)
{
}
public override async Task Invoke(IOwinContext context)
{
_instances = null;
await Next.Invoke(context);
if (_instances != null)
{
foreach (var disposable in _instances.Values.OfType<IDisposable>())
{
disposable.Dispose();
}
}
}
public static T GetInstance<T>(Func<T> constructor)
{
if (_instances == null)
{
_instances = new Dictionary<Type, object>();
}
var type = typeof(T);
if (!_instances.TryGetValue(type, out var instance))
{
instance = constructor();
_instances[type] = instance;
}
return (T)instance;
}
}
Instead of registering by type, I register factories like this:
public static class UnityConfig
{
#region Unity Container
private static Lazy<IUnityContainer> container =
new Lazy<IUnityContainer>(() =>
{
var container = new UnityContainer();
RegisterTypes(container);
return container;
});
/// <summary>
/// Configured Unity Container.
/// </summary>
public static IUnityContainer Container => container.Value;
#endregion
/// <summary>
/// Registers the type mappings with the Unity container.
/// </summary>
/// <param name="container">The unity container to configure.</param>
/// <remarks>
/// There is no need to register concrete types such as controllers or
/// API controllers (unless you want to change the defaults), as Unity
/// allows resolving a concrete type even if it was not previously
/// registered.
/// </remarks>
public static void RegisterTypes(IUnityContainer container)
{
// NOTE: To load from web.config uncomment the line below.
// Make sure to add a Unity.Configuration to the using statements.
// container.LoadConfiguration();
// TODO: Register your type's mappings here.
// container.RegisterType<IProductRepository, ProductRepository>();
container.RegisterFactory<ITestService>(c => PerRequestMiddleware.GetInstance(() => new TestService()));
}
}
My question now is: does my work-around contain any flaws or weaknesses?