CAS Authentication :: Spring Security

Spring Security and CAS Interaction Sequence

The basic interaction between a web browser, CAS server and a Spring Security-secured service is as follows:

The web user is browsing the service’s public pages. CAS or Spring Security is not involved.

The user eventually requests a page that is either secure or one of the beans it uses is secure. Spring Security’s ExceptionTranslationFilter will detect the AccessDeniedException or AuthenticationException .

Because the user’s Authentication object (or lack thereof) caused an AuthenticationException , the ExceptionTranslationFilter will call the configured AuthenticationEntryPoint . If using CAS, this will be the CasAuthenticationEntryPoint class.

The CasAuthenticationEntryPoint will redirect the user’s browser to the CAS server. It will also indicate a service parameter, which is the callback URL for the Spring Security service (your application). For example, the URL to which the browser is redirected might be my.company.com/cas/login?service=https%3A%2F%2Fserver3.company.com%2Fwebapp%2Flogin/cas .

After the user’s browser redirects to CAS, they will be prompted for their username and password. If the user presents a session cookie which indicates they’ve previously logged on, they will not be prompted to login again (there is an exception to this procedure, which we’ll cover later). CAS will use the PasswordHandler (or AuthenticationHandler if using CAS 3.0) discussed above to decide whether the username and password is valid.

Upon successful login, CAS will redirect the user’s browser back to the original service. It will also include a ticket parameter, which is an opaque string representing the "service ticket". Continuing our earlier example, the URL the browser is redirected to might be server3.company.com/webapp/login/cas?ticket=ST-0-ER94xMJmn6pha35CQRoZ .

Back in the service web application, the CasAuthenticationFilter is always listening for requests to /login/cas (this is configurable, but we’ll use the defaults in this introduction). The processing filter will construct a UsernamePasswordAuthenticationToken representing the service ticket. The principal will be equal to CasAuthenticationFilter.CAS_STATEFUL_IDENTIFIER , whilst the credentials will be the service ticket opaque value. This authentication request will then be handed to the configured AuthenticationManager .

The AuthenticationManager implementation will be the ProviderManager , which is in turn configured with the CasAuthenticationProvider . The CasAuthenticationProvider only responds to UsernamePasswordAuthenticationToken s containing the CAS-specific principal (such as CasAuthenticationFilter.CAS_STATEFUL_IDENTIFIER ) and CasAuthenticationToken s (discussed later).

CasAuthenticationProvider will validate the service ticket using a TicketValidator implementation. This will typically be a Cas20ServiceTicketValidator which is one of the classes included in the CAS client library. In the event the application needs to validate proxy tickets, the Cas20ProxyTicketValidator is used. The TicketValidator makes an HTTPS request to the CAS server in order to validate the service ticket. It may also include a proxy callback URL, which is included in this example: my.company.com/cas/proxyValidate?service=https%3A%2F%2Fserver3.company.com%2Fwebapp%2Flogin/cas&ticket=ST-0-ER94xMJmn6pha35CQRoZ&pgtUrl=https://server3.company.com/webapp/login/cas/proxyreceptor .

Back on the CAS server, the validation request will be received. If the presented service ticket matches the service URL the ticket was issued to, CAS will provide an affirmative response in XML indicating the username. If any proxy was involved in the authentication (discussed below), the list of proxies is also included in the XML response.

[OPTIONAL] If the request to the CAS validation service included the proxy callback URL (in the pgtUrl parameter), CAS will include a pgtIou string in the XML response. This pgtIou represents a proxy-granting ticket IOU. The CAS server will then create its own HTTPS connection back to the pgtUrl . This is to mutually authenticate the CAS server and the claimed service URL. The HTTPS connection will be used to send a proxy granting ticket to the original web application. For example, server3.company.com/webapp/login/cas/proxyreceptor?pgtIou=PGTIOU-0-R0zlgrl4pdAQwBvJWO3vnNpevwqStbSGcq3vKB2SqSFFRnjPHt&pgtId=PGT-1-si9YkkHLrtACBo64rmsi3v2nf7cpCResXg5MpESZFArbaZiOKH .

The Cas20TicketValidator will parse the XML received from the CAS server. It will return to the CasAuthenticationProvider a TicketResponse , which includes the username (mandatory), proxy list (if any were involved), and proxy-granting ticket IOU (if the proxy callback was requested).

Next CasAuthenticationProvider will call a configured CasProxyDecider . The CasProxyDecider indicates whether the proxy list in the TicketResponse is acceptable to the service. Several implementations are provided with Spring Security: RejectProxyTickets , AcceptAnyCasProxy and NamedCasProxyDecider . These names are largely self-explanatory, except NamedCasProxyDecider which allows a List of trusted proxies to be provided.

CasAuthenticationProvider will next request a AuthenticationUserDetailsService to load the GrantedAuthority objects that apply to the user contained in the Assertion .

If there were no problems, CasAuthenticationProvider constructs a CasAuthenticationToken including the details contained in the TicketResponse and the GrantedAuthority s.

Control then returns to CasAuthenticationFilter , which places the created CasAuthenticationToken in the security context.

The user’s browser is redirected to the original page that caused the AuthenticationException (or a custom destination depending on the configuration).

The web application side of CAS is made easy due to Spring Security. It is assumed you already know the basics of using Spring Security, so these are not covered again below. We’ll assume a namespace based configuration is being used and add in the CAS beans as required. Each section builds upon the previous section. A full CAS sample application can be found in the Spring Security Samples .

Service Ticket Authentication

This section describes how to setup Spring Security to authenticate Service Tickets. Often times this is all a web application requires. You will need to add a ServiceProperties bean to your application context. This represents your CAS service:

<bean id="serviceProperties"
	class="org.springframework.security.cas.ServiceProperties">
<property name="service"
	value="https://localhost:8443/cas-sample/login/cas"/>
<property name="sendRenew" value="false"/>
</bean>

The service must equal a URL that will be monitored by the CasAuthenticationFilter . The sendRenew defaults to false, but should be set to true if your application is particularly sensitive. What this parameter does is tell the CAS login service that a single sign on login is unacceptable. Instead, the user will need to re-enter their username and password in order to gain access to the service.

The following beans should be configured to commence the CAS authentication process (assuming you’re using a namespace configuration):

<security:http entry-point-ref="casEntryPoint">
<security:custom-filter position="CAS_FILTER" ref="casFilter" />
</security:http>
<bean id="casFilter"
	class="org.springframework.security.cas.web.CasAuthenticationFilter">
<property name="authenticationManager" ref="authenticationManager"/>
</bean>
<bean id="casEntryPoint"
	class="org.springframework.security.cas.web.CasAuthenticationEntryPoint">
<property name="loginUrl" value="https://localhost:9443/cas/login"/>
<property name="serviceProperties" ref="serviceProperties"/>
</bean>

For CAS to operate, the ExceptionTranslationFilter must have its authenticationEntryPoint property set to the CasAuthenticationEntryPoint bean. This can easily be done using entry-point-ref as is done in the example above. The CasAuthenticationEntryPoint must refer to the ServiceProperties bean (discussed above), which provides the URL to the enterprise’s CAS login server. This is where the user’s browser will be redirected.

The CasAuthenticationFilter has very similar properties to the UsernamePasswordAuthenticationFilter (used for form-based logins). You can use these properties to customize things like behavior for authentication success and failure.

Next you need to add a CasAuthenticationProvider and its collaborators:

<security:authentication-manager alias="authenticationManager">
<security:authentication-provider ref="casAuthenticationProvider" />
</security:authentication-manager>
<bean id="casAuthenticationProvider"
	class="org.springframework.security.cas.authentication.CasAuthenticationProvider">
<property name="authenticationUserDetailsService">
	<bean class="org.springframework.security.core.userdetails.UserDetailsByNameServiceWrapper">
	<constructor-arg ref="userService" />
	</bean>
</property>
<property name="serviceProperties" ref="serviceProperties" />
<property name="ticketValidator">
	<bean class="org.apereo.cas.client.validation.Cas20ServiceTicketValidator">
	<constructor-arg index="0" value="https://localhost:9443/cas" />
	</bean>
</property>
<property name="key" value="an_id_for_this_auth_provider_only"/>
</bean>
<security:user-service id="userService">
<!-- Password is prefixed with {noop} to indicate to DelegatingPasswordEncoder that
NoOpPasswordEncoder should be used.
This is not safe for production, but makes reading
in samples easier.
Normally passwords should be hashed using BCrypt -->
<security:user name="joe" password="{noop}joe" authorities="ROLE_USER" />
</security:user-service>

The CasAuthenticationProvider uses a UserDetailsService instance to load the authorities for a user, once they have been authenticated by CAS. We’ve shown a simple in-memory setup here. Note that the CasAuthenticationProvider does not actually use the password for authentication, but it does use the authorities.

The beans are all reasonably self-explanatory if you refer back to the How CAS Works section.

This completes the most basic configuration for CAS. If you haven’t made any mistakes, your web application should happily work within the framework of CAS single sign on. No other parts of Spring Security need to be concerned about the fact CAS handled authentication. In the following sections we will discuss some (optional) more advanced configurations.

Single Logout

The CAS protocol supports Single Logout and can be easily added to your Spring Security configuration. Below are updates to the Spring Security configuration that handle Single Logout

<security:http entry-point-ref="casEntryPoint">
<security:logout logout-success-url="/cas-logout.jsp"/>
<security:custom-filter ref="requestSingleLogoutFilter" before="LOGOUT_FILTER"/>
<security:custom-filter ref="singleLogoutFilter" before="CAS_FILTER"/>
</security:http>
<!-- This filter handles a Single Logout Request from the CAS Server -->
<bean id="singleLogoutFilter" class="org.apereo.cas.client.session.SingleSignOutFilter"/>
<!-- This filter redirects to the CAS Server to signal Single Logout should be performed -->
<bean id="requestSingleLogoutFilter"
	class="org.springframework.security.web.authentication.logout.LogoutFilter">
<constructor-arg value="https://localhost:9443/cas/logout"/>
<constructor-arg>
	<bean class=
		"org.springframework.security.web.authentication.logout.SecurityContextLogoutHandler"/>
</constructor-arg>
<property name="filterProcessesUrl" value="/logout/cas"/>
</bean>

The logout element logs the user out of the local application, but does not end the session with the CAS server or any other applications that have been logged into. The requestSingleLogoutFilter filter will allow the URL of /spring_security_cas_logout to be requested to redirect the application to the configured CAS Server logout URL. Then the CAS Server will send a Single Logout request to all the services that were signed into. The singleLogoutFilter handles the Single Logout request by looking up the HttpSession in a static Map and then invalidating it.

It might be confusing why both the logout element and the singleLogoutFilter are needed. It is considered best practice to logout locally first since the SingleSignOutFilter just stores the HttpSession in a static Map in order to call invalidate on it. With the configuration above, the flow of logout would be:

The user requests /logout which would log the user out of the local application and send the user to the logout success page.

The logout success page, /cas-logout.jsp , should instruct the user to click a link pointing to /logout/cas in order to logout out of all applications.

When the user clicks the link, the user is redirected to the CAS single logout URL ( localhost:9443/cas/logout ).

On the CAS Server side, the CAS single logout URL then submits single logout requests to all the CAS Services. On the CAS Service side, Apereo’s SingleSignOutFilter processes the logout request by invalidating the original session.

<filter-name>characterEncodingFilter</filter-name> <filter-class> org.springframework.web.filter.CharacterEncodingFilter </filter-class> <init-param> <param-name>encoding</param-name> <param-value>UTF-8</param-value> </init-param> </filter> <filter-mapping> <filter-name>characterEncodingFilter</filter-name> <url-pattern>/*</url-pattern> </filter-mapping> <listener> <listener-class> org.apereo.cas.client.session.SingleSignOutHttpSessionListener </listener-class> </listener>

When using the SingleSignOutFilter you might encounter some encoding issues. Therefore it is recommended to add the CharacterEncodingFilter to ensure that the character encoding is correct when using the SingleSignOutFilter . Again, refer to Apereo CAS’s documentation for details. The SingleSignOutHttpSessionListener ensures that when an HttpSession expires, the mapping used for single logout is removed.

Authenticating to a Stateless Service with CAS

This section describes how to authenticate to a service using CAS. In other words, this section discusses how to setup a client that uses a service that authenticates with CAS. The next section describes how to setup a stateless service to Authenticate using CAS.

Configuring CAS to Obtain Proxy Granting Tickets

In order to authenticate to a stateless service, the application needs to obtain a proxy granting ticket (PGT). This section describes how to configure Spring Security to obtain a PGT building upon thencas-st[Service Ticket Authentication] configuration.

The first step is to include a ProxyGrantingTicketStorage in your Spring Security configuration. This is used to store PGT’s that are obtained by the CasAuthenticationFilter so that they can be used to obtain proxy tickets. An example configuration is shown below

NOTE: In a real application you should not use an in memory implementation. You will also want to ensure to clean up expired tickets by calling ProxyGrantingTicketStorage.cleanup() <bean id="pgtStorage" class="org.apereo.cas.client.proxy.ProxyGrantingTicketStorageImpl"/>

The next step is to update the CasAuthenticationProvider to be able to obtain proxy tickets. To do this replace the Cas20ServiceTicketValidator with a Cas20ProxyTicketValidator . The proxyCallbackUrl should be set to a URL that the application will receive PGT’s at. Last, the configuration should also reference the ProxyGrantingTicketStorage so it can use a PGT to obtain proxy tickets. You can find an example of the configuration changes that should be made below.

<bean id="casAuthenticationProvider"
	class="org.springframework.security.cas.authentication.CasAuthenticationProvider">
<property name="ticketValidator">
	<bean class="org.apereo.cas.client.validation.Cas20ProxyTicketValidator">
	<constructor-arg value="https://localhost:9443/cas"/>
		<property name="proxyCallbackUrl"
		value="https://localhost:8443/cas-sample/login/cas/proxyreceptor"/>
	<property name="proxyGrantingTicketStorage" ref="pgtStorage"/>
	</bean>
</property>
</bean>

The last step is to update the CasAuthenticationFilter to accept PGT and to store them in the ProxyGrantingTicketStorage . It is important the proxyReceptorUrl matches the proxyCallbackUrl of the Cas20ProxyTicketValidator . An example configuration is shown below.

<bean id="casFilter"
		class="org.springframework.security.cas.web.CasAuthenticationFilter">
	<property name="proxyGrantingTicketStorage" ref="pgtStorage"/>
	<property name="proxyReceptorUrl" value="/login/cas/proxyreceptor"/>
</bean>

Calling a Stateless Service Using a Proxy Ticket

Now that Spring Security obtains PGTs, you can use them to create proxy tickets which can be used to authenticate to a stateless service. The CAS sample application contains a working example in the ProxyTicketSampleServlet . Example code can be found below:

protected void doGet(HttpServletRequest request, HttpServletResponse response)
	throws ServletException, IOException {
// NOTE: The CasAuthenticationToken can also be obtained using
// SecurityContextHolder.getContext().getAuthentication()
final CasAuthenticationToken token = (CasAuthenticationToken) request.getUserPrincipal();
// proxyTicket could be reused to make calls to the CAS service even if the
// target url differs
final String proxyTicket = token.getAssertion().getPrincipal().getProxyTicketFor(targetUrl);
// Make a remote call using the proxy ticket
final String serviceUrl = targetUrl+"?ticket="+URLEncoder.encode(proxyTicket, "UTF-8");
String proxyResponse = CommonUtils.getResponseFromServer(serviceUrl, "UTF-8");
protected fun doGet(request: HttpServletRequest, response: HttpServletResponse?) {
    // NOTE: The CasAuthenticationToken can also be obtained using
    // SecurityContextHolder.getContext().getAuthentication()
    val token = request.userPrincipal as CasAuthenticationToken
    // proxyTicket could be reused to make calls to the CAS service even if the
    // target url differs
    val proxyTicket = token.assertion.principal.getProxyTicketFor(targetUrl)
    // Make a remote call using the proxy ticket
    val serviceUrl: String = targetUrl + "?ticket=" + URLEncoder.encode(proxyTicket, "UTF-8")
    val proxyResponse = CommonUtils.getResponseFromServer(serviceUrl, "UTF-8")
Proxy Ticket Authentication

The CasAuthenticationProvider distinguishes between stateful and stateless clients.
A stateful client is considered any that submits to the filterProcessesUrl of the CasAuthenticationFilter.
A stateless client is any that presents an authentication request to CasAuthenticationFilter on a URL other than the filterProcessesUrl.
Because remoting protocols have no way of presenting themselves within the context of an HttpSession, it isn’t possible to rely on the default practice of storing the security context in the session between requests.
Furthermore, because the CAS server invalidates a ticket after it has been validated by the TicketValidator, presenting the same proxy ticket on subsequent requests will not work.
One obvious option is to not use CAS at all for remoting protocol clients.
However, this would eliminate many of the desirable features of CAS.
As a middle-ground, the CasAuthenticationProvider uses a StatelessTicketCache.
This is used solely for stateless clients which use a principal equal to CasAuthenticationFilter.CAS_STATELESS_IDENTIFIER.
What happens is the CasAuthenticationProvider will store the resulting CasAuthenticationToken in the StatelessTicketCache, keyed on the proxy ticket.
Accordingly, remoting protocol clients can present the same proxy ticket and the CasAuthenticationProvider will not need to contact the CAS server for validation (aside from the first request).
Once authenticated, the proxy ticket could be used for URLs other than the original target service.
This section builds upon the previous sections to accommodate proxy ticket authentication.
The first step is to specify to authenticate all artifacts as shown below.
<bean id="serviceProperties"
	class="org.springframework.security.cas.ServiceProperties">
<property name="authenticateAllArtifacts" value="true"/>
</bean>
The next step is to specify serviceProperties and the authenticationDetailsSource for the CasAuthenticationFilter.
The serviceProperties property instructs the CasAuthenticationFilter to attempt to authenticate all artifacts instead of only ones present on the filterProcessesUrl.
The ServiceAuthenticationDetailsSource creates a ServiceAuthenticationDetails that ensures the current URL, based upon the HttpServletRequest, is used as the service URL when validating the ticket.
The method for generating the service URL can be customized by injecting a custom AuthenticationDetailsSource that returns a custom ServiceAuthenticationDetails.
<bean id="casFilter"
	class="org.springframework.security.cas.web.CasAuthenticationFilter">
<property name="serviceProperties" ref="serviceProperties"/>
<property name="authenticationDetailsSource">
	<bean class=
	"org.springframework.security.cas.web.authentication.ServiceAuthenticationDetailsSource">
	<constructor-arg ref="serviceProperties"/>
	</bean>
</property>
</bean>
You will also need to update the CasAuthenticationProvider to handle proxy tickets.
To do this replace the Cas20ServiceTicketValidator with a Cas20ProxyTicketValidator.
You will need to configure the statelessTicketCache and which proxies you want to accept.
You can find an example of the updates required to accept all proxies below.
<bean id="casAuthenticationProvider"
	class="org.springframework.security.cas.authentication.CasAuthenticationProvider">
<property name="ticketValidator">
	<bean class="org.apereo.cas.client.validation.Cas20ProxyTicketValidator">
	<constructor-arg value="https://localhost:9443/cas"/>
	<property name="acceptAnyProxy" value="true"/>
	</bean>
</property>
<property name="statelessTicketCache">
	<bean class="org.springframework.security.cas.authentication.EhCacheBasedTicketCache">
	<property name="cache">
		<bean class="net.sf.ehcache.Cache"
			init-method="initialise" destroy-method="dispose">
		<constructor-arg value="casTickets"/>
		<constructor-arg value="50"/>
		<constructor-arg value="true"/>
		<constructor-arg value="false"/>
		<constructor-arg value="3600"/>
		<constructor-arg value="900"/>
		</bean>
	</property>
	</bean>
</property>
</bean>
        Apache®, Apache Tomcat®, Apache Kafka®, Apache Cassandra™, and Apache Geode™ are trademarks or registered trademarks of the Apache Software Foundation in the United States and/or other countries. Java™, Java™ SE, Java™ EE, and OpenJDK™ are trademarks of Oracle and/or its affiliates. Kubernetes® is a registered trademark of the Linux Foundation in the United States and other countries. Linux® is the registered trademark of Linus Torvalds in the United States and other countries. Windows® and Microsoft® Azure are registered trademarks of Microsoft Corporation. “AWS” and “Amazon Web Services” are trademarks or registered trademarks of Amazon.com Inc. or its affiliates. All other trademarks and copyrights are property of their respective owners and are only mentioned for informative purposes. Other names may be trademarks of their respective owners.