=== Other OpenID Connect libraries {{book.project.name}} can be secured by supplied adapters that usually are easier to use and provide better integration with {{book.project.name}}. However, if there is no adapter available for your programming language, framework or platform you may opt to use a generic OpenID Connect Resource Provider (RP) library instead. This chapter describes details specific to {{book.project.name}} and doesn't go into low-level details of the protocols. For more details refer to the http://openid.net/connect/[OpenID Connect specifications] and https://tools.ietf.org/html/rfc6749[OAuth2 specification]. ==== Endpoints The most important endpoint to know is the `well-known` configuration endpoint. It lists endpoints and other configuration options relevant to the OpenID Connect implementation in {{book.project.name}}. The endpoint is: .... /realms/REALM-NAME/.well-known/openid-configuration .... To get the full URL add the base URL for {{book.project.name}} and replace `REALM-NAME` with the name of your realm. For example: http://localhost:8080/auth/realms/master/.well-known/openid-configuration Some RP libraries will retrieve all required endpoints from this endpoint, but for others you may need to list the endpoints individually. ===== Authorization Endpoint .... /realms/master/protocol/openid-connect/auth .... Performs authentication of the end-user. This is done by redirecting user agent to this endpoint. For more details see http://openid.net/specs/openid-connect-core-1_0.html#AuthorizationEndpoint[Authorization Endpoint] section in OpenID Connect specification. ===== Token Endpoint .... /realms/master/protocol/openid-connect/token .... Used to obtain tokens. Tokens can either be obtained by exchanging an authorization code or by supplying credentials directly depending on what flow is used. The token endpoint is also used to obtain new access tokens when they expire. For more details see http://openid.net/specs/openid-connect-core-1_0.html#TokenEndpoint[Token Endpoint] section in OpenID Connect specification. ===== Userinfo Endpoint .... /realms/master/protocol/openid-connect/userinfo .... Returns standard claims about the authenticated user. Protected by a bearer token. For more details see http://openid.net/specs/openid-connect-core-1_0.html#UserInfo[Userinfo Endpoint] section in OpenID Connect specification. ===== Logout Endpoint .... /realms/master/protocol/openid-connect/logout .... Logs out the authenticated user. User agent can be redirected to the endpoint in which case the active user session will be logged out. Afterwards the user agent is redirected back to the application. The endpoint can also be invoked directly by the application. To invoke this endpoint directly the refresh token needs to be included as well as credentials required to authenticate the client. ===== Certificate Endpoint .... /realms/master/protocol/openid-connect/certs .... Public key used by realm encoded as a JSON Web Key (JWK). This key can be used to verify tokens issued by {{book.project.name}} without making invocations to the server. For more details see https://tools.ietf.org/html/rfc7517[JSON Web Key specification]. ===== Introspection Endpoint .... /realms/master/protocol/openid-connect/token/introspect .... Used to retrieve the active state of a token. Protected by a bearer token and can only be invoked by confidential clients. For more details see https://tools.ietf.org/html/rfc7662[OAuth 2.0 Token Introspection specification]. ===== Dynamic Client Registration Endpoint .... /realms/master/clients-registrations/openid-connect .... Used to dynamically register clients. For more details see <> and the https://openid.net/specs/openid-connect-registration-1_0.html[OpenID Connect Dynamic Client Registration specification]. ==== Flows ===== Authorization Code The Authorization Code flow redirects the user agent to {{book.project.name}}. Once the user has successfully authenticated with {{book.project.name}} an Authorization Code is created and the user agent is redirected back to the application. The application then uses the authorization code to along with its credentials to obtain an Access Roken, Refresh Token and ID Token from {{book.project.name}}. The flow is targeted towards web applications, but is also recommended for native applications, including mobile applications, where it is possible to embed a user agent. For more details refer to the http://openid.net/specs/openid-connect-core-1_0.html#CodeFlowAuth[Authorization Code Flow] in the OpenID Connect specification. ===== Implicit The Implicit flow redirects works similarly to the Authorization Code flow, but instead of returning a Authorization Code the Access Token and ID Token is returned. This reduces the need for the extra invocation to exchange the Authorization Code for an Access Token. However, it does not include a Refresh Token. This results in the need to either permit Access Tokens with a long expiration, which is problematic as it's very hard to invalidate these. Or requires a new redirect to obtain new Access Token once the initial Access Token has expired. The Implicit flow is useful if the application only wants to authenticate the user and deals with logout itself. There's also a Hybrid flow where both the Access Token and an Authorization Code is returned. One thing to note is that both the Implicit flow and Hybrid flow has potential security risks as the Access Token may be leaked through web server logs and browser history. This is somewhat mitigated by using short expiration for Access Tokens. For more details refer to the http://openid.net/specs/openid-connect-core-1_0.html#ImplicitFlowAuth[Implicit Flow] in the OpenID Connect specification. [[_resource_owner_password_credentials_flow]] ===== Resource Owner Password Credentials Resource Owner Password Credentials, referred to as Direct Grant in {{book.project.name}}, allows exchanging user credentials for tokens. It's not recommended to use this flow unless you absolutely need to. Examples where this could be useful are legacy applications and command-line interfaces. There are a number of limitations of using this flow, including: * User credentials are exposed to the application * Applications need login pages * Application needs to be aware of the authentication scheme * Changes to authentication flow requires changes to application * No support for identity brokering or social login * Flows are not supported (user self-registration, required actions, etc.) For a client to be permitted to use the Resource Owner Password Credentials grant the client has to have `Direct Access Grants Enabled` enabled. This flow is not included in OpenID Connect, but is a part of the OAuth 2.0 specification. For more details refer to the https://tools.ietf.org/html/rfc6749#section-4.3[Resource Owner Password Credentials Grant] chapter in the OAuth 2.0 specification. ====== Example using CURL The following example shows how to obtain an access token for a user in the realm `master` with username `user` and password `password`. The example is using the confidential client `myclient`: [source,bash] ---- curl \ -d "client_id=myclient" \ -d "client_secret=40cc097b-2a57-4c17-b36a-8fdf3fc2d578" \ -d "username=user" \ -d "password=password" \ -d "grant_type=password" \ "http://localhost:8080/auth/realms/master/protocol/openid-connect/token" ---- ===== Client Credentials Client Credentials is used when clients (applications and services) wants to obtain access on behalf of themselves rather than on behalf of a user. This can for example be useful for background services that applies changes to the system in general rather than for a specific user. {{book.project.name}} provides support for clients to authenticate either with a secret or with public/private keys. This flow is not included in OpenID Connect, but is a part of the OAuth 2.0 specification. For more details refer to the https://tools.ietf.org/html/rfc6749#section-4.4[Client Credentials Grant] chapter in the OAuth 2.0 specification. ==== Redirect URIs When using the redirect based flows it's important to use valid redirect uris for your clients. The redirect uris should be as specific as possible. This especially applies to client-side (public clients) applications. Failing to do so could result in: * Open redirects - this can allow attackers to create spoof links that looks like they are coming from your domain * Unauthorized entry - when users are already authenticated with {{book.project.name}} an attacker can use a public client where redirect uris have not be configured correctly to gain access by redirecting the user without the users knowledge In production for web applications always use `https` for all redirect URIs. Do not allow redirects to http. There's also a few special redirect URIs: [[_installed_applications_url]] `http://localhost`:: This redirect URI is useful for native applications and allows the native application to create a web server on a random port that can be used to obtain the authorization code. This redirect uri allows any port. [[_installed_applications_urn]] `urn:ietf:wg:oauth:2.0:oob`:: If its not possible to start a web server in the client (or a browser is not available) it is possible to use the special `urn:ietf:wg:oauth:2.0:oob` redirect uri. When this redirect uri is used {{book.project.name}} displays a page with the code in the title and in a box on the page. The application can either detect that the browser title has changed, or the user can copy/paste the code manually to the application. With this redirect uri it is also possible for a user to use a different device to obtain a code to paste back to the application.