Clients: (v4.5)
A Client
represents a web authentication mechanism. It performs the login process and returns (if successful) a user profile. Many clients are available for the:
- OAuth protocol
- SAML protocol
- CAS protocol
- OpenID Connect protocol
- HTTP protocol
- OpenID protocol
- Google App Engine support
- Kerberos (SPNEGO Negotiate) protocol
While most clients are self-sufficient, the HTTP clients require defining an Authenticator to handle the credentials validation.
Clients (like authorizers and matchers) are generally defined in a security configuration.
Each client has a name which is by default the class name (like FacebookClient
), but it can be explicitly set to another value with the setName
method.
Understanding the main features:
- Direct vs indirect clients
- Compute roles and permissions
- The callback URL
- Profile definition
- AJAX requests
- The
Client
methods - The originally requested URL
- Silent login
1) Direct vs indirect clients
Clients are of two kinds: direct clients are for web services authentication and indirect clients are for UI authentication.
Here are their behaviors and differences:
Direct clients = web services authentication | Indirect clients = UI authentication | |
---|---|---|
Authentication flows | 1) Credentials are passed for each HTTP request (to the “security filter”) | 1) The originally requested URL is saved in session (by the “security filter”) 2) The user is redirected to the identity provider (by the “security filter”) 3) Authentication happens at the identity provider (or locally for the FormClient and the IndirectBasicAuthClient )4) The user is redirected back to the callback endpoint/URL (“callback endpoint”) 5) The user is redirected to the originally requested URL (by the “callback endpoint”) |
How many times the login process occurs? | The authentication happens for every HTTP request (in the “security filter”) via the defined Authenticator and ProfileCreator .For performance reasons, a cache may be used by wrapping the current Authenticator in a LocalCachingAuthenticator or the “security filter” can be configured to save the profile in session (ProfileStorageDecision ) |
The authentication happens only once (in the “callback filter”) |
Where is the user profile saved by default? | In the HTTP request (stateless) | In the web session (stateful) |
Where are the credentials? | Passed for every HTTP request (processed by the “security filter”) | On the callback endpoint returned by the identity provider (and retrieved by the “callback endpoint”) |
What are the protected URLs? | The URLs of the web service are protected by the “security filter” | The URLs of the web application are protected by the “security filter”, but the callback URL is not protected as it is used during the login process when the user is still anonymous |
2) Compute roles and permissions
To compute the appropriate roles and permissions of the authenticated user profile, you need to define an AuthorizationGenerator
and attach it to the client.
Example:
AuthorizationGenerator authGen = (ctx, profile) -> {
String roles = profile.getAttribute("roles");
for (String role: roles.split(",")) {
profile.addRole(role);
}
return Optional.of(profile);
};
client.addAuthorizationGenerator(authGen);
You can add as many authorization generators as you want using the addAuthorizationGenerator
method or a list of authorization generators using the setAuthorizationGenerators
method.
3) The callback URL
For an indirect client, you must define the callback URL which will be used in the login process: after a successful login, the identity provider will redirect the user back to the application on the callback URL.
On this callback URL, the “callback endpoint” must be defined to finish the login process.
As the callback URL can be shared between multiple clients, the callback URL must hold the information of the client (to be able to distinguish between the different clients), as a query parameter or as a path parameter.
Example:
FacebookClient facebookClient = new FacebookClient(fbKey, fbSecret);
TwitterClient twitterClient = new TwitterClient(twKey, twSecret);
Config config = new Config("http://localhost:8080/callback", facebookClient, twitterClient);
In this case, the callback URL of the FacebookClient
is http://localhost:8080/callback?client_name=FacebookClient
and the callback URL of the TwitterClient
is http://localhost:8080/callback?client_name=TwitterClient
.
This is the callback URL you must define on the identity provider side.
This happens because the default CallbackUrlResolver
of the clients is the QueryParameterCallbackUrlResolver
.
You can change the client_name
parameter using the setClientNameParameter
method of the QueryParameterCallbackUrlResolver
.
But you can also use the PathParameterCallbackUrlResolver
, which adds the client name as a path parameter.
Example:
OidcConfiguration configuration = new OidcConfiguration();
configuration.setClientId("788339d7-1c44-4732-97c9-134cb201f01f");
configuration.setSecret("we/31zi+JYa7zOugO4TbSw0hzn+hv2wmENO9AS3T84s=");
configuration.setDiscoveryURI("https://login.microsoftonline.com/38c46e5a-21f0-46e5-940d-3ca06fd1a330/.well-known/openid-configuration");
AzureAdClient azureAdClient = new AzureAdClient(configuration);
client.setCallbackUrlResolver(new PathParameterCallbackUrlResolver());
Clients clients = new Clients("http://localhost:8080/callback", azureAdClient);
Config config = new Config(clients);
In that case, the callback URL will be http://localhost:8080/callback/AzureAdClient
for the AzureAdClient
.
You may even use the NoParameterCallbackUrlResolver
which left the callback URL untouched.
In that case, no parameter will be added to the callback URL and no client will be retrieved on the callback endpoint. You will be forced to define a “default client” at the CallbackLogic
level.
Example:
defaultCallbackLogic.setClient("FacebookClient");
The CallbackUrlResolver
relies on a UrlResolver
to complement the URL according to the current web context.
The UrlResolver
can be retrieved via the getUrlResolver()
method of the client.
You can use the DefaultUrlResolver
and handle relative URLs by using: defaultUrlResolver.setCompleteRelativeUrl(true)
.
Or provide your own UrlResolver
using the setUrlResolver
method.
4) Profile definition
Most clients rely on the Authenticator
and ProfileCreator
components to validate credentials and create the user profile.
At the end of the login process, the returned user profile is created by the (internal) Authenticator
or ProfileCreator
, which holds a profile definition.
This profile definition can be overridden using the setProfileDefinition
method.
5) AJAX requests
For an indirect client, if the user tries to access a protected URL, he will be redirected to the identity provider for login.
Though, if the incoming HTTP request is an AJAX one, no redirection will be performed and a 401 error page will be returned.
The HTTP request is considered to be an AJAX one if the value of the X-Requested-With
header is XMLHttpRequest
or if the is_ajax_request
parameter or header is true
. This is the behaviour of the DefaultAjaxRequestResolver
.
The DefaultAjaxRequestResolver
will only compute the redirection URL and add it as a header if the addRedirectionUrlAsHeader
property is set to true
.
But you can provide your own AjaxRequestResolver
with: client.setAjaxRequestResolver(myAjaxRequestResolver);
.
6) The Client
methods
The Client
interface has the following methods:
Method | Usage |
---|---|
Optional<RedirectionAction> getRedirectionAction(WebContext context) |
It returns the redirection action to redirect the user to the identity provider for login. It only makes sense for indirect clients. The redirection of the user to the identity provider is internally computed via a RedirectionActionBuilder |
Optional<C> getCredentials(WebContext context) |
It extracts the credentials from the HTTP request and validates them. The extraction of the credentials are done by a CredentialsExtractor while the credentials validation is ensured by an Authenticator |
Optional<UserProfile> getUserProfile(C credentials, WebContext context |
It builds the authenticated user profile. The creation of the authenticated user profile is performed by a ProfileCreator |
Optional<UserProfile> renewUserProfile(UserProfile profile, WebContext context) |
It returns the renewed user profile |
Optional<RedirectionAction> getLogoutAction(WebContext context, UserProfile currentProfile, String targetUrl) |
It returns the redirection action to call the identity provider logout. The logout redirection action computation is done by a LogoutActionBuilder |
Clients are generally populated with default sub-components: RedirectionActionBuilder
, CredentialsExtractor
, ProfileCreator
, LogoutActionBuilder
and Authenticator
, except for HTTP clients where the Authenticator
must be explicitely defined. Sub-components can of course be changed for various customizations.
7) The originally requested URL
The originally requested URL is the URL called before the authenticated process starts: it is restored by the “callback endpoint” after the login process has been completed.
It is handled in the DefaultSecurityLogic
and in the DefaultCallbackLogic
by the SavedRequestHandler
component.
By default, it’s the DefaultSavedRequestHandler
which handles GET and POST requests.
8) Silent login
When using an IndirectClient
, the login process can fail or be cancelled at the external identity provider level.
Thus, no user profile is created and the access is not granted to the secured resources (401 error).
Though, you may still want to access the web resources if the login process has failed or been cancelled.
For that, you can return a custom profile instead of no profile by using the setProfileFactoryWhenNotAuthenticated
method of the client.
Example:
myClient.setProfileFactoryWhenNotAuthenticated(p -> AnonymousProfile.INSTANCE);