17

I am trying to figure out how to inject UserManager and SignInManager. I have installed Ninject in my application and I am using it in the following manner:

Please consider this to be a brand new project. Inside Startup.cs I have the following:

public partial class Startup
{
    public void Configuration(IAppBuilder app)
    {
        ConfigureAuth(app);

        app.UseNinjectMiddleware(CreateKernel);
    }

    private static IKernel CreateKernel()
    {
        var kernel = new StandardKernel();
        kernel.Load(Assembly.GetExecutingAssembly());


        return kernel;
    }
}

now if I were to create some Dummy class and try to inject it based on its interface that works. I have tested it. What I am trying to figure out is how would I now strip out the following out of Startup.Auth.cs and inject it. Having no interfaces I can rely on, I am not sure how this is done:

app.CreatePerOwinContext(ApplicationDbContext.Create);
app.CreatePerOwinContext<ApplicationUserManager>(ApplicationUserManager.Create);
app.CreatePerOwinContext<ApplicationSignInManager>(ApplicationSignInManager.Create);

Just to clarify one more time, my question is: How do I instantiate ApplicationUserManager and ApplicationSignInManager and inject it in my controller parameters. Here is the controller that I am trying to inject this into:

public AccountController(ApplicationUserManager userManager, ApplicationSignInManager signInManager)
{
    UserManager = userManager;
    SignInManager = signInManager;
}

EDIT:

Here is what I tried:

private static IKernel CreateKernel()
{
    var kernel = new StandardKernel();
    kernel.Load(Assembly.GetExecutingAssembly());

    kernel.Bind<IUserStore<ApplicationUser>>().To<UserStore<ApplicationUser>>();
    kernel.Bind<UserManager<ApplicationUser>>().ToSelf();

    return kernel;
}

But with this I get null reference error

  • You should take a look at the following hands-on lab ASP.NET MVC 4 Dependency Injection – Nkosi Mar 26 '16 at 20:08
  • @Nkosi i have just gone through the article you have given me. This uses unity and I have gone through a similar guide like this before and they confuse the jesus out of me. I'm looking for a very simple example that is straight forward to my question. Do you know any I can look at? I've spend a week now on trying to make heads and tails out of all of this. Would really appreciate a straightforward answer at this point. – Bojan Mar 26 '16 at 20:39
  • Have you tried kernel.Bind<ApplicationUserManager>().ToMethod(ctx => ApplicationUserManager.Create()).InRequestScope() (etc.)? – BatteryBackupUnit Mar 26 '16 at 20:49
  • 2
    There are walkthroughs for configuring the MVC5 template for DI here and here. The latter one is better in my opinion, although it left out the changes required to the ManageController. Once you refactor the stock classes and controllers to use constructor injection, dropping a different DI container in is pretty straightforward. – NightOwl888 Mar 26 '16 at 21:22
  • 2
    Here is a Gist with the changes to the project (ignore the changes to Startup.cs for now). I would suggest opening an issue on Ninject.Web.Common for instructions, as the documentation is very unclear what you are supposed to do for OWIN MVC 5 integration. I tried to work it out, but Ninject is doing things in a strange way that requires a bootstrapper, where OWIN also already has one (and passes its configuration in). Another option - you could always change to a different container. – NightOwl888 Mar 27 '16 at 7:21
23
+100

Prerequisites

Start a new MVC5 application using the MVC template. This will install all the necessary dependencies as well as deploy the Startup.Auth.cs file which contains the bootstrap code for Microsoft.AspNet.Identity (it als includes the all the references for Microsoft.AspNet.Identity).

Install the following packages and update them to the latest afterwards.

Install-Package Ninject
Install-Package Ninject.MVC5

Configuration

Remove the default constructor on the AccountController so only the parameterized constructor remains. It should have the follownig signature.

public AccountController(ApplicationUserManager userManager, ApplicationSignInManager signInManager)

This will ensure that you will get an error if injection fails which is what we want.

NInject Configuration

The NInject NuGet package deployment will have created a file named NinjectWebCommon.cs where the boiler plate NInject registration takes place. This has a method with the following signature which you can extend with your registrations.

private static void RegisterServices(IKernel kernel)

Now we will add the following code to this method to get NInject automatically inject the ApplicationSignInManager and ApplicationUserManager instances.

private static void RegisterServices(IKernel kernel) {
    kernel.Bind<IUserStore<ApplicationUser>>().To<UserStore<ApplicationUser>>();
    kernel.Bind<UserManager<ApplicationUser>>().ToSelf();

    kernel.Bind<HttpContextBase>().ToMethod(ctx => new HttpContextWrapper(HttpContext.Current)).InTransientScope();

    kernel.Bind<ApplicationSignInManager>().ToMethod((context)=>
    {
        var cbase = new HttpContextWrapper(HttpContext.Current);
        return cbase.GetOwinContext().Get<ApplicationSignInManager>();
    });

    kernel.Bind<ApplicationUserManager>().ToSelf();
}

Thats it. Now you should be able to navigate to the Login or Register links and injection will occur.

Alternate Approach

I prefer a Proxy approach that exposes limited functionality for the ApplicationSignInManager and the ApplicationUserManager instances. I then inject this proxy into the necessary controllers. It helps abstract some of the Identity information away from the controllers which makes it easier to change in the future. This is not a new concept by any means and whether you do this or not depends on the size and complexity of your project as well as how you want to handle dependencies. So the benefits are (common actually for any proxy):

  • You can abstract some of the dependencies away from your code
  • You can streamline some of the calls within the api
  • You can expose only that functionality that you want to use including configurable parts
  • Change management should be easier if the interfaces ever change, now you change the calls in your proxy instead of all the calling code across your controllers.

Code example:

public interface IAuthManager
{
    Task<SignInStatus> PasswordSignInAsync(string userName, string password, bool rememberMe);
}

public class AuthManager : IAuthManager
{
    private ApplicationUserManager _userManager;
    ApplicationSignInManager _signInManager;

    public AuthManager(ApplicationUserManager userManager, ApplicationSignInManager signInManager)
    {
        this._userManager = userManager;
        this._signInManager = signInManager;
    }

    public Task<SignInStatus> PasswordSignInAsync(string userName, string password, bool rememberMe)
    {
        return _signInManager.PasswordSignInAsync(userName, password, rememberMe, true);
    }
}

Add the following line in your NInject dependency registration.

kernel.Bind<IAuthManager>().To<AuthManager>();

Alter your AccountController constructor to take in an instance of IAuthManager. Finally change your methods to refer to this proxy instead of the ASP.NET Identity classes directly.

Disclaimer - I did not wire up a complex call, just a very simple one to illustrate my point. This is also entirely optional and whether you do it or not really should depend on the scope and size of your project and how you plan on using the ASP.NET Identity framework

  • 1
    The alternate approach is the most important part. The service should be used to create a repo of sorts. Injecting such a service is no more valuable than instantiating it. Would you really replace it with another service that has the exact same exposed methods? – Dave Alperovich Mar 29 '16 at 22:57
  • 1
    @DaveAlperovich - I started a project not to long ago where I abstracted all the ASP.NET Identity libraries to its own isolated assembly (csproj) and exposed limited functionality with interfaces. This project is very large in scope and LoC so it made sense. I also have a couple of in house projects that are very limited in size and scope and took a couple of days to create, here I did no abstraction at all because it was not worth the time or effort. Although I prefer using a proxy/facade I believer whether you should depends on the ROI which is probably based on a number of factors. – Igor Mar 29 '16 at 23:51
  • 1
    I'd go one step further. It's not a popular opinion, but I don't believe there's any ROI in injecting services like UserManager. Wrap them, abstract them, create a repo with functional divisions. DI has become an end in itself, sadly. – Dave Alperovich Mar 30 '16 at 0:27
  • @Igor with your example, did you have to modify UserManager.Create method and move into constructor like I have? – Bojan Mar 30 '16 at 14:26
  • @Bagzli - no. The only changes I had to make are the ones I listed above. If you need though I can zip my sample project and put it somewhere for you to download. – Igor Mar 30 '16 at 14:28
18

To give an exact answer to what my question stated, here is the code and instructions:

Step 1: Create custom User Store

public class ApplicationUserStore : UserStore<ApplicationUser>
{
    public ApplicationUserStore(ApplicationDbContext context)
        : base(context)
    {
    }
}

Step 2: Update ApplicationUserManager and move code from Create method into constructor

public class ApplicationUserManager : UserManager<ApplicationUser>
{
    public ApplicationUserManager(IUserStore<ApplicationUser> store, IdentityFactoryOptions<ApplicationUserManager> options)
        : base(store)
    {
        this.UserValidator = new UserValidator<ApplicationUser>(this)
        {
            AllowOnlyAlphanumericUserNames = false,
            RequireUniqueEmail = true
        };

        // Configure validation logic for passwords
        this.PasswordValidator = new PasswordValidator
        {
            RequiredLength = 6,
            RequireNonLetterOrDigit = true,
            RequireDigit = true,
            RequireLowercase = true,
            RequireUppercase = true,
        };

        // Configure user lockout defaults
        this.UserLockoutEnabledByDefault = true;
        this.DefaultAccountLockoutTimeSpan = TimeSpan.FromMinutes(5);
        this.MaxFailedAccessAttemptsBeforeLockout = 5;

        // Register two-factor authentication providers. This application uses Phone and Emails as a step of receiving a code for verifying the user
        // You can write your own provider and plug it in here.
        this.RegisterTwoFactorProvider("Phone Code", new PhoneNumberTokenProvider<ApplicationUser>
        {
            MessageFormat = "Your security code is {0}"
        });
        this.RegisterTwoFactorProvider("Email Code", new EmailTokenProvider<ApplicationUser>
        {
            Subject = "Security Code",
            BodyFormat = "Your security code is {0}"
        });
        this.EmailService = new EmailService();
        this.SmsService = new SmsService();
        var dataProtectionProvider = options.DataProtectionProvider;
        if (dataProtectionProvider != null)
        {
            this.UserTokenProvider =
                new DataProtectorTokenProvider<ApplicationUser>(dataProtectionProvider.Create("ASP.NET Identity"));
        }
    }
}

Step 3: Modify the Startup.Auth class and comment out the following code

//app.CreatePerOwinContext(ApplicationDbContext.Create);
//app.CreatePerOwinContext<ApplicationUserManager>(ApplicationUserManager.Create);
//app.CreatePerOwinContext<ApplicationSignInManager>(ApplicationSignInManager.Create);

Step 4: Update Account Controller (or any other controller in question) and add the following constructor

public AccountController(ApplicationUserManager userManager, ApplicationSignInManager signInManager, IAuthenticationManager authManager)
{
    _userManager = userManager;
    _signInManager = signInManager;
    _authManager = authManager;
}

Step 5: Update Account Controller and make properties only retrivable as so:

public ApplicationSignInManager SignInManager
{
    get
    {
        return _signInManager;
    }
}

public ApplicationUserManager UserManager
{
    get
    {
        return _userManager;
    }
}

private IAuthenticationManager AuthenticationManager
{
    get
    {
        return _authManager;
    }
}

Step 6: Update Startup.cs

public partial class Startup
{
    private IAppBuilder _app;
    public void Configuration(IAppBuilder app)
    {
        ConfigureAuth(app);
        _app = app;
        app.UseNinjectMiddleware(CreateKernel);
    }

    private IKernel CreateKernel()
    {
        var kernel = new StandardKernel();
        kernel.Load(Assembly.GetExecutingAssembly());

        kernel.Bind<ApplicationDbContext>().ToSelf().InRequestScope();
        kernel.Bind<IUserStore<ApplicationUser>>().To<ApplicationUserStore>();
        kernel.Bind<ApplicationUserManager>().ToSelf();
        kernel.Bind<ApplicationSignInManager>().ToSelf();
        kernel.Bind<IAuthenticationManager>().ToMethod(x => HttpContext.Current.GetOwinContext().Authentication);
        kernel.Bind<IDataProtectionProvider>().ToMethod(x => _app.GetDataProtectionProvider());

        return kernel;
    }
}

To further expand the answer to this question, based on the comments I have received:

These managers should not be injected as classes as then you are not accomplishing DI. What should be done instead is create multiple interfaces that further separate and group methods of UserManager according to your needs. Here is an example:

public interface IUserManagerSegment
{
    Task<IdentityResult> CreateAsync(ApplicationUser user, string password);
    Task<IdentityResult> CreateAsync(ApplicationUser user);
    Task<IdentityResult> ConfirmEmailAsync(string userId, string token);
    Task<ApplicationUser> FindByNameAsync(string userName);
    Task<bool> IsEmailConfirmedAsync(string userId);
    Task<IdentityResult> ResetPasswordAsync(string userId, string token, string newPassword);
    Task<IList<string>> GetValidTwoFactorProvidersAsync(string userId);
    Task<IdentityResult> AddLoginAsync(string userId, UserLoginInfo login);
    void Dispose(bool disposing);
    void Dispose();
}

The above method has a list of few random methods I chose just to illustrate the point. With this said, we would now inject the method based on the interface such as this:

kernel.Bind<IUserManagerSegment>().To<ApplicationUserManager>();

And now our AccountController constructor would look like this:

public AccountController(IUserManagerSegment userManager, ApplicationSignInManager signInManager, IAuthenticationManager authManager)  
{
    _userManager = userManager;
    _signInManager = signInManager;
    _authManager = authManager;
}

Same thing should be done to SignInManager and AuthenticationManager.

The code above has been tested and is working. Just ensure you have referenced the following DLLs:

Ninject.dll
Ninject.Web.Common
Ninject.Web.Common.OwinHost
Ninject.Web.Mvc

  • 1
    Nice, saw you posted this right as I was posting my solution. I tested everything with a new setup using VS 2015. Let me know if you still have any questions or need to see anything else? – Igor Mar 29 '16 at 22:48
  • 1
    Take a look at @Igor 's answer. TBH, while you have achieved something technically here, injecting the UserManager misses the point. DI is meant to de-couple, so you can replace one service with another. But would you ever replace this UserManager with another? It would have to expose the exact same methods. Better to create a User Repo with methods like findUser(userid), ChangePasswordUser(userid, newpswd), etc. This kind of repository is worth Injecting... and can be replaced in a worthwhile manner – Dave Alperovich Mar 29 '16 at 23:03
  • 1
    Yes. If you Inject against an interface that exposes every method on the UserManager, you haven't achieved much. If you wanted to replace the service because you moved to a different Authentication Provider, or new version, your code would still change unless all methods remained the same. That's why you want to inject more chunk services with a simpler Interface. For that, you want to wrap your UserManager with a UserRepo that does fewer things, and the logic is nested. – Dave Alperovich Mar 30 '16 at 14:16
  • 1
    @DaveAlperovich - agreed. Bagzil - my example above with the interface is very weak in that it was more designed to illustrate how to inject it and get it's implementation to still have access to the signinmanager and usermanager. You actual implementation should more closely mirror a Facade pattern where you abstract away the details of the ASP.NET Identity Framework and expose your own limited simplified interface where the wiring and details are hidden away. – Igor Mar 30 '16 at 14:45
  • 1
    @Bagzli - about your addition. The idea is to hide the UserManager and SignInManager from your controllers and only access functionality through your new IUserManagerSegment. This would make it easier to test as well as change an implementation later on. Also if you want something Disposable then implement System.IDisposable so your signature would be public interface IUserManagerSegment:IDisposable and then remove your Dispose methods from your interface. This way the CLR recognizes it as such and you can use a using block if you wanted. – Igor Apr 2 '16 at 10:08

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