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256 lines
15 KiB
256 lines
15 KiB
using System;
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using System.Collections.Generic;
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using System.Linq;
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using System.Security.Claims;
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using System.Threading.Tasks;
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using System.Web;
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using System.Web.Mvc;
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using Microsoft.Owin.Security;
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using Microsoft.Owin.Security.Cookies;
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using OpenIddict.Client.Owin;
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using static OpenIddict.Abstractions.OpenIddictConstants;
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using static OpenIddict.Client.WebIntegration.OpenIddictClientWebIntegrationConstants;
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namespace OpenIddict.Sandbox.AspNet.Client.Controllers
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{
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public class AuthenticationController : Controller
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{
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[HttpPost, Route("~/login"), ValidateAntiForgeryToken]
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public ActionResult LogIn(string provider, string returnUrl)
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{
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var context = HttpContext.GetOwinContext();
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// Note: OpenIddict always validates the specified provider name when handling the challenge operation,
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// but the provider can also be validated earlier to return an error page or a special HTTP error code.
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if (!string.Equals(provider, "Local", StringComparison.Ordinal) &&
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!string.Equals(provider, "Local+GitHub", StringComparison.Ordinal) &&
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!string.Equals(provider, Providers.GitHub, StringComparison.Ordinal) &&
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!string.Equals(provider, Providers.Google, StringComparison.Ordinal) &&
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!string.Equals(provider, Providers.Twitter, StringComparison.Ordinal))
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{
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return new HttpStatusCodeResult(400);
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}
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// The local authorization server sample allows the client to select the external
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// identity provider that will be used to eventually authenticate the user. For that,
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// a custom "identity_provider" parameter is sent to the authorization server so that
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// the user is directly redirected to GitHub (in this case, no login page is shown).
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if (string.Equals(provider, "Local+GitHub", StringComparison.Ordinal))
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{
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var properties = new AuthenticationProperties(new Dictionary<string, string>
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{
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// Note: when only one client is registered in the client options,
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// specifying the issuer URI or the provider name is not required.
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[OpenIddictClientOwinConstants.Properties.ProviderName] = "Local",
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// Note: the OWIN host requires appending the #string suffix to indicate
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// that the "identity_provider" property is a public string parameter.
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[Parameters.IdentityProvider + OpenIddictClientOwinConstants.PropertyTypes.String] = "GitHub"
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})
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{
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// Only allow local return URLs to prevent open redirect attacks.
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RedirectUri = Url.IsLocalUrl(returnUrl) ? returnUrl : "/"
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};
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// Ask the OpenIddict client middleware to redirect the user agent to the identity provider.
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context.Authentication.Challenge(properties, OpenIddictClientOwinDefaults.AuthenticationType);
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return new EmptyResult();
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}
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else
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{
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var properties = new AuthenticationProperties(new Dictionary<string, string>
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{
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// Note: when only one client is registered in the client options,
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// specifying the issuer URI or the provider name is not required.
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[OpenIddictClientOwinConstants.Properties.ProviderName] = provider
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})
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{
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// Only allow local return URLs to prevent open redirect attacks.
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RedirectUri = Url.IsLocalUrl(returnUrl) ? returnUrl : "/"
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};
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// Ask the OpenIddict client middleware to redirect the user agent to the identity provider.
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context.Authentication.Challenge(properties, OpenIddictClientOwinDefaults.AuthenticationType);
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return new EmptyResult();
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}
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}
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[HttpPost, Route("~/logout"), ValidateAntiForgeryToken]
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public async Task<ActionResult> LogOut(string returnUrl)
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{
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var context = HttpContext.GetOwinContext();
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// Retrieve the identity stored in the local authentication cookie. If it's not available,
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// this indicate that the user is already logged out locally (or has not logged in yet).
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var result = await context.Authentication.AuthenticateAsync(CookieAuthenticationDefaults.AuthenticationType);
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if (result is not { Identity: ClaimsIdentity identity })
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{
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// Only allow local return URLs to prevent open redirect attacks.
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return Redirect(Url.IsLocalUrl(returnUrl) ? returnUrl : "/");
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}
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// Remove the local authentication cookie before triggering a redirection to the remote server.
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context.Authentication.SignOut(CookieAuthenticationDefaults.AuthenticationType);
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// Resolve the issuer of the user identifier claim stored in the local authentication cookie.
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// If the issuer is known to support remote sign-out, ask OpenIddict to initiate a logout request.
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var issuer = identity.Claims.Select(claim => claim.Issuer).First();
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if (issuer is "https://localhost:44349/")
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{
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var properties = new AuthenticationProperties(new Dictionary<string, string>
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{
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// Note: when only one client is registered in the client options,
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// setting the issuer property is not required and can be omitted.
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[OpenIddictClientOwinConstants.Properties.Issuer] = issuer,
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// While not required, the specification encourages sending an id_token_hint
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// parameter containing an identity token returned by the server for this user.
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[OpenIddictClientOwinConstants.Properties.IdentityTokenHint] =
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result.Properties.Dictionary[OpenIddictClientOwinConstants.Tokens.BackchannelIdentityToken]
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})
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{
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// Only allow local return URLs to prevent open redirect attacks.
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RedirectUri = Url.IsLocalUrl(returnUrl) ? returnUrl : "/"
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};
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// Ask the OpenIddict client middleware to redirect the user agent to the identity provider.
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context.Authentication.SignOut(properties, OpenIddictClientOwinDefaults.AuthenticationType);
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return new EmptyResult();
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}
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// Only allow local return URLs to prevent open redirect attacks.
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return Redirect(Url.IsLocalUrl(returnUrl) ? returnUrl : "/");
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}
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// Note: this controller uses the same callback action for all providers
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// but for users who prefer using a different action per provider,
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// the following action can be split into separate actions.
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[AcceptVerbs("GET", "POST"), Route("~/callback/login/{provider}")]
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public async Task<ActionResult> LogInCallback()
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{
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var context = HttpContext.GetOwinContext();
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// Retrieve the authorization data validated by OpenIddict as part of the callback handling.
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var result = await context.Authentication.AuthenticateAsync(OpenIddictClientOwinDefaults.AuthenticationType);
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// Multiple strategies exist to handle OAuth 2.0/OpenID Connect callbacks, each with their pros and cons:
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//
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// * Directly using the tokens to perform the necessary action(s) on behalf of the user, which is suitable
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// for applications that don't need a long-term access to the user's resources or don't want to store
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// access/refresh tokens in a database or in an authentication cookie (which has security implications).
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// It is also suitable for applications that don't need to authenticate users but only need to perform
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// action(s) on their behalf by making API calls using the access token returned by the remote server.
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//
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// * Storing the external claims/tokens in a database (and optionally keeping the essential claims in an
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// authentication cookie so that cookie size limits are not hit). For the applications that use ASP.NET
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// Core Identity, the UserManager.SetAuthenticationTokenAsync() API can be used to store external tokens.
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//
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// Note: in this case, it's recommended to use column encryption to protect the tokens in the database.
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//
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// * Storing the external claims/tokens in an authentication cookie, which doesn't require having
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// a user database but may be affected by the cookie size limits enforced by most browser vendors
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// (e.g Safari for macOS and Safari for iOS/iPadOS enforce a per-domain 4KB limit for all cookies).
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//
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// Note: this is the approach used here, but the external claims are first filtered to only persist
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// a few claims like the user identifier. The same approach is used to store the access/refresh tokens.
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// Important: if the remote server doesn't support OpenID Connect and doesn't expose a userinfo endpoint,
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// result.Principal.Identity will represent an unauthenticated identity and won't contain any claim.
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//
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// Such identities cannot be used as-is to build an authentication cookie in ASP.NET (as the
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// antiforgery stack requires at least a name claim to bind CSRF cookies to the user's identity) but
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// the access/refresh tokens can be retrieved using result.Properties.GetTokens() to make API calls.
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if (result.Identity is not ClaimsIdentity { IsAuthenticated: true })
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{
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throw new InvalidOperationException("The external authorization data cannot be used for authentication.");
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}
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// Build an identity based on the external claims and that will be used to create the authentication cookie.
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//
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// By default, all claims extracted during the authorization dance are available. The claims collection stored
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// in the cookie can be filtered out or mapped to different names depending the claim name or its issuer.
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var claims = new List<Claim>(result.Identity.Claims
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.Select(claim => claim switch
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{
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// Map the standard "sub" and custom "id" claims to ClaimTypes.NameIdentifier, which is
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// the default claim type used by .NET and is required by the antiforgery components.
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{ Type: Claims.Subject } or
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{ Type: "id", Issuer: "https://github.com/" or "https://twitter.com/" }
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=> new Claim(ClaimTypes.NameIdentifier, claim.Value, claim.ValueType, claim.Issuer),
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// Map the standard "name" claim to ClaimTypes.Name.
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{ Type: Claims.Name }
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=> new Claim(ClaimTypes.Name, claim.Value, claim.ValueType, claim.Issuer),
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// The antiforgery components require an "identityprovider" claim, which
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// is mapped from the authorization server claim returned by OpenIddict.
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{ Type: Claims.AuthorizationServer }
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=> new Claim("http://schemas.microsoft.com/accesscontrolservice/2010/07/claims/identityprovider",
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claim.Value, claim.ValueType, claim.Issuer),
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_ => claim
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})
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.Where(claim => claim switch
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{
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// Preserve the basic claims that are necessary for the application to work correctly.
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{
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Type: ClaimTypes.NameIdentifier or
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ClaimTypes.Name or
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"http://schemas.microsoft.com/accesscontrolservice/2010/07/claims/identityprovider"
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} => true,
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// Applications that use multiple client registrations can filter claims based on the issuer.
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{ Type: "bio", Issuer: "https://github.com/" } => true,
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// Don't preserve the other claims.
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_ => false
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}));
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var identity = new ClaimsIdentity(claims,
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authenticationType: CookieAuthenticationDefaults.AuthenticationType,
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nameType: ClaimTypes.Name,
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roleType: ClaimTypes.Role);
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// Build the authentication properties based on the properties that were added when the challenge was triggered.
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var properties = new AuthenticationProperties(result.Properties.Dictionary
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.Where(item => item switch
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{
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// Preserve the redirect URL.
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{ Key: ".redirect" } => true,
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// If needed, the tokens returned by the authorization server can be stored in the authentication cookie.
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{
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Key: OpenIddictClientOwinConstants.Tokens.BackchannelAccessToken or
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OpenIddictClientOwinConstants.Tokens.BackchannelIdentityToken or
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OpenIddictClientOwinConstants.Tokens.RefreshToken
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} => true,
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// Don't add the other properties to the external cookie.
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_ => false
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})
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.ToDictionary(pair => pair.Key, pair => pair.Value));
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context.Authentication.SignIn(properties, identity);
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return Redirect(properties.RedirectUri);
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}
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// Note: this controller uses the same callback action for all providers
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// but for users who prefer using a different action per provider,
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// the following action can be split into separate actions.
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[AcceptVerbs("GET", "POST"), Route("~/callback/logout/{provider}")]
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public async Task<ActionResult> LogOutCallback()
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{
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var context = HttpContext.GetOwinContext();
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// Retrieve the data stored by OpenIddict in the state token created when the logout was triggered.
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var result = await context.Authentication.AuthenticateAsync(OpenIddictClientOwinDefaults.AuthenticationType);
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// In this sample, the local authentication cookie is always removed before the user agent is redirected
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// to the authorization server. Applications that prefer delaying the removal of the local cookie can
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// remove the corresponding code from the logout action and remove the authentication cookie in this action.
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return Redirect(result.Properties.RedirectUri);
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}
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}
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}
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