Problem

You would like to enable Container-Managed Authentication in a Java EE web application fronted by a Shibboleth Native SP, in order to, for instance, leverage the platform's authorization capabilities, such as the EJB security model, from within your application's code. Your Application Server (AS) is, however, unaware of authentication performed by Shibboleth, effectively treating your users as anonymous. Thus, such API calls do not typically work right out of the box. What needs to be done is to somehow propagate the user identity at the SP to the AS, or in simple terms, a "caller" Principal 1 representing the authenticated user needs to be established there.

Solution

In order to communicate the fact that a user should be considered authenticated to your AS, you may either implement a container-specific JAAS LoginModule , or what is loosely termed its standard, Java EE counterpart, a JASPIC2 ServerAuthModule (SAM) . This how-to employs the standardized over the proprietary approach.

Assumptions Your SP passively protects your application's resources.

Your AS is an implementation of the Full Java EE 6+ Profile.

Your application comprises both "protected" and "public" resources.

Implement the SAM

SAMs SAMs closely resemble the functionality (e.g. manipulation or blocking of HttpServletRequest s and HttpServletResponse s) provided by common Servlet Filter s; they may in fact be implemented as such. Unlike a Filter , however, a SAM is always invoked before the first Filter Chain's Filter and/or after the last one, it is used by potentially multiple applications and is capable of communicating authentication decisions to the AS.

The following example is a simplistic "bridge" SAM, which, for every --which is obviously not ideal-- incoming request:

Probes the received HttpServletRequest for presence of the "eduPersonPrincipalName" and "eduPersonAffiliation" attributes. If both are present, registers a "caller" Principal and one or multiple "group" Principal s --enclosing the values of "eduPersonPrincipalName" and "eduPersonAffiliation" as their respective names-- at the AS to represent the authenticated user. Otherwise: If the targeted request is "public", it treats the user as a guest. Otherwise, it redirects the request to the SP's SessionInitiator .

Step 3.b. also occurs whenever the user explicitly asks to be authenticated, e.g. by clicking a "Login" button in the UI. Similarly, when the user wishes to be logged out, the SAM redirects her request to the SP's LogoutInitiator .

SAM Expand source package org.my; import java.io.IOException; import java.security.Principal; import java.util.Map; import javax.security.auth.Subject; import javax.security.auth.callback.Callback; import javax.security.auth.callback.CallbackHandler; import javax.security.auth.callback.UnsupportedCallbackException; import javax.security.auth.message.AuthException; import javax.security.auth.message.AuthStatus; import javax.security.auth.message.MessageInfo; import javax.security.auth.message.MessagePolicy; import javax.security.auth.message.callback.CallerPrincipalCallback; import javax.security.auth.message.callback.GroupPrincipalCallback; import javax.security.auth.message.module.ServerAuthModule; import javax.servlet.ServletException; import javax.servlet.http.HttpServletRequest; import javax.servlet.http.HttpServletResponse; import javax.servlet.http.HttpSession; public class SpAsBridgeSam implements ServerAuthModule { public static class MyOrgPrincipal implements Principal { public MyOrgPrincipal(String name) { this.name = name; } private final String name; @Override public String getName() { return name; } } private static final Class<?>[] SUPPORTED_MESSAGE_TYPES = new Class<?>[] { HttpServletRequest.class, HttpServletResponse.class }; private static final String LOGIN_URL = "http://my.org/Shibboleth.sso/Login"; private static final String LOGOUT_URL = "http://my.org/Shibboleth.sso/Logout"; private boolean isProtectedResource; private CallbackHandler ch; // Post-construct initialization goes here @Override public void initialize(MessagePolicy requestPolicy, MessagePolicy responsePolicy, CallbackHandler ch, Map options) throws AuthException { this.ch = ch; isProtectedResource = requestPolicy.isMandatory(); } // Authentication logic and optional request pre-processing goes here @Override public AuthStatus validateRequest(MessageInfo mi, Subject client, Subject service) throws AuthException { HttpServletRequest hreq = (HttpServletRequest) mi.getRequestMessage(); HttpServletResponse hres = (HttpServletResponse) mi.getResponseMessage(); String username = getUsername(hreq); String[] groups = getUsergroups(hreq); if ((username != null) && (!username.trim().isEmpty()) && (groups != null)) { try { ch.handle(new Callback[] { new CallerPrincipalCallback(client, new MyOrgPrincipal(username)), new GroupPrincipalCallback(client, groups) }); } catch (UnsupportedCallbackException | IOException e) { e.printStackTrace(); throw new AuthException("Could not authenticate user."); } return AuthStatus.SUCCESS; } else if (!isProtectedResource) { return AuthStatus.SUCCESS; } else { try { hres.sendRedirect(LOGIN_URL); } catch (IOException ioe) { ioe.printStackTrace(); throw new AuthException("Could not authenticate user."); } return AuthStatus.SEND_CONTINUE; } } // Validation of response and optional post-processing goes here // Not typically used, as --unless it had initially been wrapped-- the response is already committed // by the time this method is called @Override public AuthStatus secureResponse(MessageInfo messageInfo, Subject service) throws AuthException { return AuthStatus.SEND_SUCCESS; } // Logout logic goes here // The spec is a bit unclear regarding this method, thus I'm unsure whether it's best to directly modify the Subject // or use container facilities @Override public void cleanSubject(MessageInfo mi, Subject client) throws AuthException { HttpServletRequest hreq = (HttpServletRequest) mi.getRequestMessage(); HttpServletResponse hres = (HttpServletResponse) mi.getResponseMessage(); HttpSession hs = hreq.getSession(false); if (hs != null) { try { hs.invalidate(); } catch (IllegalStateException ise) { ise.printStackTrace(); throw new AuthException("Could not invalidate user session."); } } try { hreq.logout(); hres.sendRedirect(LOGOUT_URL); } catch (ServletException | IOException e) { e.printStackTrace(); throw new AuthException("Could not complete user logout."); } } @Override public Class<?>[] getSupportedMessageTypes() { return SUPPORTED_MESSAGE_TYPES; } private String getUsername(HttpServletRequest hreq) { return (String) hreq.getAttribute("eduPersonPrincipalName"); } private String[] getUsergroups(HttpServletRequest hreq) { String groupsAttribute = (String) hreq.getAttribute("eduPersonAffiliation"); String[] groups = null; if (groupsAttribute != null) { groups = groupsAttribute.split(";"); for (int i = 0; i < groups.length; i++) { groups[i] = groups[i].trim(); } } return groups; } }

Deploy the SAM

SAMs are typically deployed autonomously on the AS, at a location monitored by the common class loader; you may however be able to deploy yours as part of your application. As, unfortunately, this step is vendor-specific, you will have to consult the documentation of your AS to complete it. On GlassFish 4+, directories where SAMs can be placed are by default <as-install>/lib and <as-install>/ domains/<domain_name>/lib .

Here is an example GlassFish domain.xml snippet:

<as-install>/domains/<domain_name>/config/domain.xml Expand source <?xml version="1.0" encoding="UTF-8"?> <domain log-root="${com.sun.aas.instanceRoot}/logs" application-root="${com.sun.aas.instanceRoot}/applications" version="13"> ... <configs> ... <config name="server-config"> ... <security-service> ... <message-security-config auth-layer="HttpServlet"> ... <!-- "provider-type" attribute is typically "server" --> <provider-config provider-type="server" provider-id="SpAsBridgeSam" class-name="org.my.SpAsBridgeSam"> <!-- Options that will be passed to your SAM via the "options" Map argument of its initialize method --> <property name="org.my.SpAsBridgeSam.FOO" value="BAR"/> ... <request-policy/> <response-policy/> </provider-config> ... </message-security-config> ... </security-service> ... </config> ... </configs> ... </domain>

Declare Application Roles

Now you will have to declare your application's roles, by annotating types or placing appropriate elements within the various Deployment Descriptors (DD), e.g. for a web module:

WEB-INF/web.xml Expand source <?xml version="1.0" encoding="UTF-8"?> <web-app xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://xmlns.jcp.org/xml/ns/javaee" xsi:schemaLocation="http://xmlns.jcp.org/xml/ns/javaee http://xmlns.jcp.org/xml/ns/javaee/web-app_3_1.xsd" id="WebApp_ID" version="3.1" metadata-complete="false" > ... <security-constraint> <web-resource-collection> <web-resource-name>myOrgProtectedResources</web-resource-name> <url-pattern>/protected/*</url-pattern> </web-resource-collection> <auth-constraint> <role-name>staff</role-name> <role-name>student</role-name> </auth-constraint> </security-constraint> <security-role> <role-name>staff</role-name> <role-name>student</role-name> </security-role> </web-app>

Map SAM Groups to Application Roles

This final step is once again a vendor-specific (and somewhat frustrating) one. You will have to provide --via a proprietary DD or your product's administration console / cli tools-- a mapping between groups returned by the SAM and the Java EE roles used by your application (even if they are the same, as they commonly are).

Here is an example GlassFish 4 glassfish-web.xml snippet :

WEB-INF/glassfish-web.xml Expand source <?xml version="1.0" encoding="UTF-8"?> <!DOCTYPE glassfish-web-app PUBLIC "-//GlassFish.org//DTD GlassFish Application Server 3.1 Servlet 3.0//EN" "http://glassfish.org/dtds/glassfish-web-app_3_0-1.dtd"> <glassfish-web-app httpservlet-security-provider="SpAsBridgeSam"> <context-root>/myApp</context-root> <security-role-mapping> <role-name>staff</role-name> <group-name>staff</group-name> </security-role-mapping> <security-role-mapping> <role-name>student</role-name> <group-name>student</group-name> </security-role-mapping> </glassfish-web-app>

Restart AS, Deploy Application

Now What?

You should now be able to leverage Java EE declarative or programmatic authorization from within your code, e.g.:

Expand source @Stateless public class SomeService { @RolesAllowed("staff") public void deleteEverything() { ... } }

...inject Principal s into your beans via CDI, use methods like authenticate() and isCallerInRole() , or, if you are brave, venture into the arcane world of JACC.

1 Java EE mostly disregards javax.security.auth.Subject s; all what's left of them, that is, what most Java EE specifications tend to use, is this one "caller" Principal , along with potential "group" Principal s. A blog entry by Arjan Tijms titled "JAAS in Java EE is not the universal standard you may think it is" examines some common misconceptions surrounding JAAS in this scope.

2 JSR 196, Authentication Service Provider Interface for Containers (JASPIC, JASPI) is available in the Full Java EE 6+ Profile, and Servlet 3+ Containers included in compatible implementations have been mandated to support JASPIC's Servlet Profile.