My web site authentication is centralized and I authenticate my users with a web service and I don't store usernames and passwords. Web service returns details of valid user that I insert in my local db once user logins. I need authorize valid users in my web site and want to use ASP.NET Identity. I was confused how to use this method for authorization users. Can I use Identity without any code first authentication?
As far as I understand you want send user credential to remote server and if remote server accept it authorize the user in your MVC application. It this kind of scenario you don't need user manager or user store. You could simply generate an Identity object with proper claims and sign in the user with the generated Identity object. Consider this simply example as clue:
[HttpPost]
public ActionResult Login(string username, string password)
{
if (_remoteServer.IsValid(username, password))
{
var ident = new ClaimsIdentity(
new[]
{
// adding following 2 claim just for supporting default antiforgery provider
new Claim(ClaimTypes.NameIdentifier, username),
new Claim("http://schemas.microsoft.com/accesscontrolservice/2010/07/claims/identityprovider", "ASP.NET Identity", "http://www.w3.org/2001/XMLSchema#string"),
new Claim(ClaimTypes.Name, username),
// you could add extra claims like role or even custom one
new Claim(ClaimTypes.Role, "UserRoleName"),
new Claim("MyCustomClaim", "MyValue"),
},
DefaultAuthenticationTypes.ApplicationCookie);
HttpContext.GetOwinContext().Authentication.SignIn(
new AuthenticationProperties { IsPersistent = false }, ident);
return RedirectToAction("MyAction"); // auth succeed
}
// invalid username or password
ModelState.AddModelError("", "invalid username or password");
return View();
}
Now user is authenticated and injected in Identity's pipeline.
[Authorize]
public ActionResult Foo()
{
}
// since we injected user roles to Identity we could do this as well
[Authorize(Roles="UserRoleName")]
public ActionResult Foo()
{
// since we injected our authentication mechanism to Identity pipeline
// we have access current user principal by calling also
// HttpContext.User
}
Related
I am implementing two factor authentication in my ASP.NET MVC 5 application for all users. I have already implemented single factor (username and password) authentication using ASP.NET Identity.
Here is how I implemented single factor authentication:
Step 1: I created the startup.cs file to know application should use cookie authentication
public class Startup
{
public void Configuration(IAppBuilder app)
{
app.UseCookieAuthentication(new CookieAuthenticationOptions()
{
AuthenticationType = DefaultAuthenticationTypes.ApplicationCookie,
LoginPath = new PathString("/Account/Login"),
LogoutPath = new PathString("/Account/LogOut")
});
}
}
Step 2: User makes post request to login to application by sending username and password. Once username and password are verified, I used sign method from Owin Authentication Manager to sign in the user. This sign in method creates cookie and helps the authentication.
public ActionResult Login(LoginViewModel model)
{
Session.Clear();
if (!ModelState.IsValid)
{
return View(model);
}
var userManager = new ApplicationUserManager(new ApplicationUserStore(new ApplicationDbContext()));
var user = userManager.Find(model.Username,model.Password);
if (user != null)
{
var userIdentity = userManager.CreateIdentity(user, DefaultAuthenticationTypes.ApplicationCookie);
var authenticationManager = HttpContext.GetOwinContext().Authentication;
authenticationManager.SignIn(new AuthenticationProperties(), userIdentity);
}
}
But now I want to introduce OTP authentication after username and password login.I know how to generate OPT and I have SMS provider to send OTP to the user. I can easily put authenticationManager.SignIn() method after OTP verification. But my question is, is there any separate configuration we need provide during signIn to know application that we are doing two factor authentication.
If yes can somebody provide the code where to make such configuration?
I am using role based authentication in .Net Core 3.1 Api. I am using Jwt tokens and user claims. Role based authentication works fine. But in some controllers I want to make sure that user gets his/her own data. Because if an employee sends other employee id in a request he/she can get that resource data, I don't want that.
I have email, id and roles in token with some other data.
What I want is that something like [Authorize(Roles="Employee", Id={userId})]
[HttpGet("getUserInventory")]
//[Authorize(Roles="Employee", Claims.Id={userId})]
public IActionResult getUserInventory([FromQuery] int userId)
{
var inventories = _userInventoryExportService.GetGlobalInventory(userId);
if(inventories.Success)
{
return Ok(inventories.Data);
}
return BadRequest(inventories.Message);
}
Have a look at this tutorial we've created at Curity: Securing a .NET Core API. You will see there how to configure authorization based on claims found in a JWT access token.
had the same use case, to authorize user access to its own mailbox only.
controller:
[HttpPost("{address}/inbox/messages/list")]
[Authorize(Policy = "userAddress")]
public async Task<ActionResult<Response>> ListMessages([FromRoute] string address)
{
// return user mailbox data.
}
here i define the userAddress, and also the way i pull the address string from the url. it is not possible to pass this value from the controller, i had to pick it from a global request class:
//Program.cs
builder.Services.AddAuthorization(options =>
{
options.AddPolicy("userAddress", policy =>
{
policy.RequireAssertion(context =>
{
var userAddress = context.User.FindFirst(JWTClaim.Email).Value;
// /api/v1/mailbox/email#example.com/inbox/messages/list
var address = new HttpContextAccessor().HttpContext.Request.RouteValues["address"].ToString();
return address == userAddress;
});
});
});
it is worth to note that the context contains the actual request values, but is not publicly accessible, only via debugger:
context.Resource.HttpContext.Request.RouteValues["address"].ToString();
In my application, all my authentication happens with Google - ie - all my users are Google Accounts.
I don't need users to need to register in my app, just sign in using a Google account. However, I do want to manage Roles for the users with ASP.net Identity (I think)
With that in mind, on successful external authentication, I create an ASP.net Identity user (if one doesn't exist)
So, I've got my ExternalLoginCallback as follows:
[AllowAnonymous]
public async Task<ActionResult> ExternalLoginCallback(string returnUrl)
{
var authenticationManager = Request.GetOwinContext().Authentication;
var loginInfo = await authenticationManager.GetExternalLoginInfoAsync();
//successfully authenticated with google, so sign them in to our app
var id = new ClaimsIdentity(loginInfo.ExternalIdentity.Claims, DefaultAuthenticationTypes.ApplicationCookie);
authenticationManager.SignIn(id);
//Now we need to see if the user exists in our database
var user = UserManager.FindByName(loginInfo.Email);
if (user == null)
{
//user doesn't exist, so the user needs to be created
user = new ApplicationUser { UserName = loginInfo.Email, Email = loginInfo.Email };
await UserManager.CreateAsync(user);
//add the google login to the newly created user
await UserManager.AddLoginAsync(user.Id, loginInfo.Login);
}
return RedirectToLocal(returnUrl);
}
Idea being, I can now manage users, add roles, check if users are in roles, etc....
Firstly, is this a sensible approach? Or have I over complicated it?
One issue I'm having, however, is with logging out of my application
My Logout action looks like:
public ActionResult LogOut()
{
HttpContext.GetOwinContext().Authentication.SignOut();
return RedirectToAction("Index", "Home");
}
My Index action is decorated with the [Authorize] attribute -
However, when I 'logout' - it redirects to Home.Index - but I still seem to be logged in?
According to this ASPNet Identity Work Item, this is by design, and you need to call directly to Google's API in order to log the user out.
completing the post Logout link with return URL (OAuth)
Here is a solution that work for me :
[HttpPost]
[ValidateAntiForgeryToken]
public ActionResult LogOff()
{
AuthenticationManager.SignOut(DefaultAuthenticationTypes.ApplicationCookie);
return Redirect("https://www.google.com/accounts/Logout?continue=https://appengine.google.com/_ah/logout?continue=https://[url-of-your-site]");
}
I'm migrating a SaaS app from Classic ASP to .NET MVC5 and will use EF6 Database First. The login form for end users is customisable by each tenant (on their own subdomain but pointing to the same web application). We wish to use the existing database schema and the new authentication & authorization filters.
For example, a user on one tenant may login by entering their first name, surname and a code generated by our system. A user on another tenant may login by entering their email address and a password. Additionally, each tenant has a separate administrator login which uses a username and password. Another tenant may use LDAP authentication against a remote AD server.
Is there a definitive best practice way of doing custom authentication?
Almost every article appears to suggest different ways of accomplishing this: simply setting FormsAuthentication.SetAuthCookie, using a custom OWIN provider, override AuthorizeAttribute, etc.
In Classic ASP, we queried the database to find out the type of login for that tenant, displayed the appropriate fields on the login screen and then on post back, checked the fields match what's in the database and then set the session variables appropriately which were checked on each page request.
Thanks
I find that Identity framework is very flexible in terms of authentication options. Have a look on this bit of authentication code:
var identity = await this.CreateIdentityAsync(applicationUser, DefaultAuthenticationTypes.ApplicationCookie);
authenticationManager.SignIn(new AuthenticationProperties() { IsPersistent = isPersistent }, identity);
This is pretty standard run of the mill authentication part in Identity, you'll find this in every Identity sample on the web. If you look closely it is very flexible - all you need for authentication is ApplicationUser object that framework does not care how you get.
So in theory you can do things like this (pseudocode, I did not try to compile this):
// get user object from the database with whatever conditions you like
// this can be AuthCode which was pre-set on the user object in the db-table
// or some other property
var user = dbContext.Users.Where(u => u.Username == "BillyJoe" && u.Tenant == "ExpensiveClient" && u.AuthCode == "654")
// check user for null
// check if the password is correct - don't have to do that if you are doing
// super-custom auth.
var isCorrectPassword = await userManager.CheckPasswordAsync(user, "enteredPassword");
if (isCorrectPassword)
{
// password is correct, time to login
// this creates ClaimsIdentity object from the ApplicationUser object
var identity = await this.CreateIdentityAsync(user, DefaultAuthenticationTypes.ApplicationCookie);
// now we can set claims on the identity. Claims are stored in cookie and available without
// querying database
identity.AddClaim(new Claim("MyApp:TenantName", "ExpensiveClient"));
identity.AddClaim(new Claim("MyApp:LoginType", "AuthCode"));
identity.AddClaim(new Claim("MyApp:CanViewProducts", "true"));
// this tells OWIN that it can set auth cookie when it is time to send
// a reply back to the client
authenticationManager.SignIn(new AuthenticationProperties() { IsPersistent = isPersistent }, identity);
}
Using this authentication, you have set a few claims on the user - they are stored in the cookie and available everywhere via ClaimsPrincipal.Current.Claims. Claims are essentially a collection of key-value pairs of strings and you can store there anything you like.
I usually access claims from the user via extension method:
public static String GetTenantName(this ClaimsPrincipal principal)
{
var tenantClaim = principal.Claims.FirstOrDefault(c => c.Type == "MyApp:TenantName");
if (tenantClaim != null)
{
return tenantClaim.Value;
}
throw new ApplicationException("Tenant name is not set. Can not proceed");
}
public static String CanViewProducts(this ClaimsPrincipal principal)
{
var productClaim = principal.Claims.FirstOrDefault(c => c.Type == "MyApp:CanViewProducts");
if (productClaim == null)
{
return false;
}
return productClaim.Value == "true";
}
So in your controller/view/business layer you can always call to ClaimsPrincipal.Current.GetTenantName() and in this case you'd get "ExpensiveClient" back.
Or if you need to check if a specific feature is enabled for the user, you do
if(ClaimsPrincipal.Current.CanViewProducts())
{
// display products
}
It is up to you how you store your user properties, but as long as you set them as claims on the cookie, they will be available.
Alternatively you can add claims into the database for every user:
await userManager.AddClaimAsync(user.Id, new Claim("MyApp:TenantName", "ExpensiveClient"));
And this will persist the claim into the database. And by default, Identity framework adds this claim to the user when they login without you needing to add it manually.
But beware, you can't set too many claims on a cookie. Cookies have 4K limit set by browsers. And the way Identity cookie encryption works it increases encoded text by about 1.1, so you can have roughly 3.6K of text representing claims. I've run into this issue here
Update
To control access to controllers via claims you can use the following filter on the controller:
public class ClaimsAuthorizeAttribute : AuthorizeAttribute
{
public string Name { get; private set; }
public ClaimsAuthorizeAttribute(string name)
{
Name = name;
}
public override void OnAuthorization(AuthorizationContext filterContext)
{
var user = HttpContext.Current.User as ClaimsPrincipal;
if (user.HasClaim(Name, Name))
{
base.OnAuthorization(filterContext);
}
else
{
filterContext.Result = new RedirectToRouteResult(new RouteValueDictionary()
{
{"controller", "errors"},
{"action", "Unauthorised"}
});
}
}
}
and then use this attribute on controllers or separate actions like this:
[ClaimsAuthorize("Creating Something")]
public ActionResult CreateSomething()
{
return View();
}
User will require "Create Something" claim on them to access this action, otherwise they will be redirected to "Unauthenticated" page.
Recently I've played with claims authentication and made a prototype application similar to your requirement. Please have a look on the simple version: https://github.com/trailmax/ClaimsAuthorisation/tree/SimpleClaims where claims are stored individually for each user. Or there is more complex solution where claims belong to a role and when users login, role claims assigned to the user: https://github.com/trailmax/ClaimsAuthorisation/tree/master
There's two components you need. The authentication itself and the strategy each user gets for authentication.
The first is easy and is accomplished with these two lines...
var identity = await UserManager.CreateIdentityAsync(user,
DefaultAuthenticationTypes.ApplicationCookie);
AuthenticationManager.SignIn(new AuthenticationProperties()
{ IsPersistent = isPersistent }, identity);
When a user is Signed In, they get an identity which contains the user's claims on roles and who they are. These are given to the user as a cookie. After this point you just decorate controllers with [Authorize] to make sure only authenticated users can log in. Pretty standard here.
The only complicated part in the problem is the second part; The strategy for how each user gets authenticated set by the admin.
Some pseudocode for how this could work in actions is this...
// GET: /Account/Login
[AllowAnonymous]
public ActionResult Login(int tenantId)
{
var tenant = DB.GetTenant(tenantId);
return View(tenant);
}
In your view you would output the authentication strategy for the tenant. That may be email and password, a code and email, or whatever your requirements.
When the user enters their info and clicks to login, you then have to determine what strategy they were using, and check to see if their information matches.
//
// POST: /Account/Login
[HttpPost]
[AllowAnonymous]
[ValidateAntiForgeryToken]
public async Task<ActionResult> Login(LoginViewModel model)
{
var tenant = DB.GetTenant(model.tenantId);
//If user info matches what is expected for the tenants strategy
if(AuthenticateUserInfo(tenant, model.UserInputs))
{
//Sign the user in
var identity = await UserManager.CreateIdentityAsync(user,
DefaultAuthenticationTypes.ApplicationCookie);
AuthenticationManager.SignIn(new AuthenticationProperties()
{ IsPersistent = isPersistent }, identity);
}
}
I did a lot of hand-waving in the second part because of the complicated nature of how dynamic it is. Overall you should use the same strategies you used in your legacy application to generate the right inputs and such. Nothing has changed there, only the way you sign in is going to be different.
Using Visual Studio 2013 Update 3 you can create a new Web Application that comes with MVC5, EF6 and Identity already installed. Here is how to select Identity when you create a new Application:
With MVC Template selected, click Change Authentication and the highlighted window will pop up. Individual User Accounts = Identity. Click ok and continue.
Having done that, you have created an application with Identity. You can now customize your login and registration as follows.
You want to look at your AccountController.cs in the Controllers folder. Here you will find the script for Registration and Login.
If you look at the
public async Task<ActionResult> Register(RegisterViewModel model)
function, you'll notice it contains:
IdentityResult result = await UserManager.CreateAsync(new ApplicationUser() { UserName = newUser.UserName }, newUser.Password);
This is where the user gets created. If you want to use Identity, you should save the users username and password. You can use an e-mail as the username if you want. etc.
After doing that, I add the user a specified role (I find the user and then add it to the role):
ApplicationUser userIDN = UserManager.FindByName(newUser.UserName);
result = await UserManager.AddToRoleAsync(userIDN.Id, "Admin");
In my scenario, I have created an additional extended table where I hold their address, phone number, etc. In that table, you can hold any additional login information. You can add these new entries before or after creating the users account in Identity. I would create the extended information and then create the Identity account just to be sure.
IMPORTANT: For any scenarios where a user is logging in with something that is not a username or e-mail address that isn't saved into via Identity, you will have to do a custom solution.
Example: User types in their first name, surname and the code. You could do two things: Save the first name and surname into the username field of identity and the code into the password and verify the login that way
OR
you would check your custom table for those properties and make sure they match, if and when they do you could call this little beauty:
await SignInAsync(new ApplicationUser() { UserName = model.UserName }, isPersistent: false);
Once you call that SignInAsync function, you can go ahead and direct them to your protected page.
NOTE: I'm creating the ApplicationUser on the function call but if you use it more than once it would be ideal for you to declare the ApplicationUser as follows:
ApplicationUser user = new ApplicationUser() { UserName = model.UserName };
NOTE #2: If you don't want to user Async methods, those functions all have non-async versions of them.
Note #3: At the very top of any page using UserManagement, it is being declared. Make sure if you are creating your own controller that wasn't generated by Visual Studio to use Identity, you include the UserManagement declaration script at the top inside of the class:
namespace NameOfProject.Controllers
{
[Authorize]
public class AccountController : Controller
{
public AccountController() : this(new UserManager<ApplicationUser>(new UserStore<ApplicationUser>(new ApplicationDbContext()))) { }
public AccountController(UserManager<ApplicationUser> userManager) { UserManager = userManager; }
public UserManager<ApplicationUser> UserManager { get; private set; }
Please let me know if you have any questions and I hope this helps.
I have an api specific project in a large .net MVC 5 web solution. I am utilizing the WebApi2 templates out of the box to authenticate a user through the api. Using individual accounts to authenticate, the request body required to get an access token is:
grant_type=password&username={someuser}&password={somepassword}
This works as expected.
However, I need to add a 3rd dimension to the scaffolded method "GrantResourceOwnerCredentials". In addition to checking the username/password, i need to add a device id, which is meant to restrict access from a user account to a specific device. What's not clear is how to add these extra request parameters to the already defined "OAuthGrantResourceOwnerCredentialsContext". This context currently makes room for UserName and Password, but obviously i'll need to include more.
My question is simply, is there a standard way to extend the login requirements for the OWIN OAuth2 token request to include more data? And, how would you reliably do that in a .NET WebApi2 environment?
As it often is the case, I found the answer immediately after submitting the question...
ApplicationOAuthProvider.cs contains the following code out-of-the-box
public override async Task GrantResourceOwnerCredentials(OAuthGrantResourceOwnerCredentialsContext context)
{
using (UserManager<IdentityUser> userManager = _userManagerFactory())
{
IdentityUser user = await userManager.FindAsync(context.UserName, context.Password);
if (user == null)
{
context.SetError("invalid_grant", "The user name or password is incorrect.");
return;
}
ClaimsIdentity oAuthIdentity = await userManager.CreateIdentityAsync(user,
context.Options.AuthenticationType);
ClaimsIdentity cookiesIdentity = await userManager.CreateIdentityAsync(user,
CookieAuthenticationDefaults.AuthenticationType);
AuthenticationProperties properties = CreateProperties(context.UserName, data["udid"]);
AuthenticationTicket ticket = new AuthenticationTicket(oAuthIdentity, properties);
context.Validated(ticket);
context.Request.Context.Authentication.SignIn(cookiesIdentity);
}
}
By simply adding
var data = await context.Request.ReadFormAsync();
within the method, you can access all posted variables in the request body and use them as you like. In my case, I placed it immediately after the null-check on the user to perform a more restrictive security check.