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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.catalina.authenticator;

import java.io.IOException;
import java.security.Principal;
import java.util.Locale;
import java.util.Map;
import java.util.Optional;
import java.util.Set;

import javax.security.auth.Subject;
import javax.security.auth.callback.CallbackHandler;

import jakarta.security.auth.message.AuthException;
import jakarta.security.auth.message.AuthStatus;
import jakarta.security.auth.message.MessageInfo;
import jakarta.security.auth.message.config.AuthConfigFactory;
import jakarta.security.auth.message.config.AuthConfigProvider;
import jakarta.security.auth.message.config.RegistrationListener;
import jakarta.security.auth.message.config.ServerAuthConfig;
import jakarta.security.auth.message.config.ServerAuthContext;
import jakarta.servlet.DispatcherType;
import jakarta.servlet.ServletContext;
import jakarta.servlet.ServletException;
import jakarta.servlet.http.Cookie;
import jakarta.servlet.http.HttpServletRequest;
import jakarta.servlet.http.HttpServletResponse;

import org.apache.catalina.Authenticator;
import org.apache.catalina.Contained;
import org.apache.catalina.Container;
import org.apache.catalina.Context;
import org.apache.catalina.Globals;
import org.apache.catalina.LifecycleException;
import org.apache.catalina.Realm;
import org.apache.catalina.Session;
import org.apache.catalina.TomcatPrincipal;
import org.apache.catalina.Valve;
import org.apache.catalina.authenticator.jaspic.MessageInfoImpl;
import org.apache.catalina.connector.Request;
import org.apache.catalina.connector.Response;
import org.apache.catalina.filters.CorsFilter;
import org.apache.catalina.filters.RemoteIpFilter;
import org.apache.catalina.realm.GenericPrincipal;
import org.apache.catalina.util.FilterUtil;
import org.apache.catalina.util.SessionIdGeneratorBase;
import org.apache.catalina.util.StandardSessionIdGenerator;
import org.apache.catalina.valves.RemoteIpValve;
import org.apache.catalina.valves.ValveBase;
import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;
import org.apache.tomcat.util.ExceptionUtils;
import org.apache.tomcat.util.descriptor.web.FilterDef;
import org.apache.tomcat.util.descriptor.web.FilterMap;
import org.apache.tomcat.util.descriptor.web.LoginConfig;
import org.apache.tomcat.util.descriptor.web.SecurityConstraint;
import org.apache.tomcat.util.http.FastHttpDateFormat;
import org.apache.tomcat.util.http.RequestUtil;
import org.apache.tomcat.util.res.StringManager;

/**
 * Basic implementation of the Valve interface that enforces the <security-constraint>
 * elements in the web application deployment descriptor. This functionality is implemented as a Valve so that it can be
 * omitted in environments that do not require these features. Individual implementations of each supported
 * authentication method can subclass this base class as required.
 * 

* USAGE CONSTRAINT: When this class is utilized, the Context to which it is attached (or a parent Container in a * hierarchy) must have an associated Realm that can be used for authenticating users and enumerating the roles to which * they have been assigned. *

* USAGE CONSTRAINT: This Valve is only useful when processing HTTP requests. Requests of any other type will * simply be passed through. * * @author Craig R. McClanahan */ public abstract class AuthenticatorBase extends ValveBase implements Authenticator, RegistrationListener { private final Log log = LogFactory.getLog(AuthenticatorBase.class); // must not be static /** * "Expires" header always set to Date(1), so generate once only */ private static final String DATE_ONE = FastHttpDateFormat.formatDate(1); /** * The string manager for this package. */ protected static final StringManager sm = StringManager.getManager(AuthenticatorBase.class); /** * Authentication header */ protected static final String AUTH_HEADER_NAME = "WWW-Authenticate"; /** * Default authentication realm name. */ protected static final String REALM_NAME = "Authentication required"; protected static String getRealmName(Context context) { if (context == null) { // Very unlikely return REALM_NAME; } LoginConfig config = context.getLoginConfig(); if (config == null) { return REALM_NAME; } String result = config.getRealmName(); if (result == null) { return REALM_NAME; } return result; } // ------------------------------------------------------ Constructor public AuthenticatorBase() { super(true); } // ----------------------------------------------------- Instance Variables /** * Should a session always be used once a user is authenticated? This may offer some performance benefits since the * session can then be used to cache the authenticated Principal, hence removing the need to authenticate the user * via the Realm on every request. This may be of help for combinations such as BASIC authentication used with the * JNDIRealm or DataSourceRealms. However there will also be the performance cost of creating and GC'ing the * session. By default, a session will not be created. */ protected boolean alwaysUseSession = false; /** * Should we cache authenticated Principals if the request is part of an HTTP session? */ protected boolean cache = true; /** * Should the session ID, if any, be changed upon a successful authentication to prevent a session fixation attack? */ protected boolean changeSessionIdOnAuthentication = true; /** * The Context to which this Valve is attached. */ protected Context context = null; /** * Flag to determine if we disable proxy caching, or leave the issue up to the webapp developer. */ protected boolean disableProxyCaching = true; /** * Flag to determine if we disable proxy caching with headers incompatible with IE. */ protected boolean securePagesWithPragma = false; /** * The Java class name of the secure random number generator class to be used when generating SSO session * identifiers. The random number generator class must be self-seeding and have a zero-argument constructor. If not * specified, an instance of {@link java.security.SecureRandom} will be generated. */ protected String secureRandomClass = null; /** * The name of the algorithm to use to create instances of {@link java.security.SecureRandom} which are used to * generate SSO session IDs. If no algorithm is specified, SHA1PRNG is used. If SHA1PRNG is not available, the * platform default will be used. To use the platform default (which may be SHA1PRNG), specify the empty string. If * an invalid algorithm and/or provider is specified the SecureRandom instances will be created using the defaults. * If that fails, the SecureRandom instances will be created using platform defaults. */ protected String secureRandomAlgorithm = SessionIdGeneratorBase.DEFAULT_SECURE_RANDOM_ALGORITHM; /** * The name of the provider to use to create instances of {@link java.security.SecureRandom} which are used to * generate session SSO IDs. If no provider is specified the platform default is used. If an invalid algorithm * and/or provider is specified the SecureRandom instances will be created using the defaults. If that fails, the * SecureRandom instances will be created using platform defaults. */ protected String secureRandomProvider = null; /** * The name of the JASPIC callback handler class. If none is specified the default * {@link org.apache.catalina.authenticator.jaspic.CallbackHandlerImpl} will be used. */ protected String jaspicCallbackHandlerClass = "org.apache.catalina.authenticator.jaspic.CallbackHandlerImpl"; /** * Should the auth information (remote user and auth type) be returned as response headers for a forwarded/proxied * request? When the {@link RemoteIpValve} or {@link RemoteIpFilter} mark a forwarded request with the * {@link Globals#REQUEST_FORWARDED_ATTRIBUTE} this authenticator can return the values of * {@link HttpServletRequest#getRemoteUser()} and {@link HttpServletRequest#getAuthType()} as response headers * {@code remote-user} and {@code auth-type} to a reverse proxy. This is useful, e.g., for access log consistency or * other decisions to make. */ protected boolean sendAuthInfoResponseHeaders = false; protected SessionIdGeneratorBase sessionIdGenerator = null; /** * The SingleSignOn implementation in our request processing chain, if there is one. */ protected SingleSignOn sso = null; private AllowCorsPreflight allowCorsPreflight = AllowCorsPreflight.NEVER; private volatile String jaspicAppContextID = null; private volatile Optional jaspicProvider = null; private volatile CallbackHandler jaspicCallbackHandler = null; // ------------------------------------------------------------- Properties public String getAllowCorsPreflight() { return allowCorsPreflight.name().toLowerCase(Locale.ENGLISH); } public void setAllowCorsPreflight(String allowCorsPreflight) { this.allowCorsPreflight = AllowCorsPreflight.valueOf(allowCorsPreflight.trim().toUpperCase(Locale.ENGLISH)); } public boolean getAlwaysUseSession() { return alwaysUseSession; } public void setAlwaysUseSession(boolean alwaysUseSession) { this.alwaysUseSession = alwaysUseSession; } /** * Return the cache authenticated Principals flag. * * @return true if authenticated Principals will be cached, otherwise false */ public boolean getCache() { return this.cache; } /** * Set the cache authenticated Principals flag. * * @param cache The new cache flag */ public void setCache(boolean cache) { this.cache = cache; } @Override public Container getContainer() { return this.context; } @Override public void setContainer(Container container) { if (container != null && !(container instanceof Context)) { throw new IllegalArgumentException(sm.getString("authenticator.notContext")); } super.setContainer(container); this.context = (Context) container; } /** * Return the flag that states if we add headers to disable caching by proxies. * * @return true if the headers will be added, otherwise false */ public boolean getDisableProxyCaching() { return disableProxyCaching; } /** * Set the value of the flag that states if we add headers to disable caching by proxies. * * @param nocache true if we add headers to disable proxy caching, false if we leave the * headers alone. */ public void setDisableProxyCaching(boolean nocache) { disableProxyCaching = nocache; } /** * Return the flag that states, if proxy caching is disabled, what headers we add to disable the caching. * * @return true if a Pragma header should be used, otherwise false */ public boolean getSecurePagesWithPragma() { return securePagesWithPragma; } /** * Set the value of the flag that states what headers we add to disable proxy caching. * * @param securePagesWithPragma true if we add headers which are incompatible with downloading office * documents in IE under SSL but which fix a caching problem in Mozilla. */ public void setSecurePagesWithPragma(boolean securePagesWithPragma) { this.securePagesWithPragma = securePagesWithPragma; } /** * Return the flag that states if we should change the session ID of an existing session upon successful * authentication. * * @return true to change session ID upon successful authentication, false to do not * perform the change. */ public boolean getChangeSessionIdOnAuthentication() { return changeSessionIdOnAuthentication; } /** * Set the value of the flag that states if we should change the session ID of an existing session upon successful * authentication. * * @param changeSessionIdOnAuthentication true to change session ID upon successful authentication, * false to do not perform the change. */ public void setChangeSessionIdOnAuthentication(boolean changeSessionIdOnAuthentication) { this.changeSessionIdOnAuthentication = changeSessionIdOnAuthentication; } /** * Return the secure random number generator class name. * * @return The fully qualified name of the SecureRandom implementation to use */ public String getSecureRandomClass() { return this.secureRandomClass; } /** * Set the secure random number generator class name. * * @param secureRandomClass The new secure random number generator class name */ public void setSecureRandomClass(String secureRandomClass) { this.secureRandomClass = secureRandomClass; } /** * Return the secure random number generator algorithm name. * * @return The name of the SecureRandom algorithm used */ public String getSecureRandomAlgorithm() { return secureRandomAlgorithm; } /** * Set the secure random number generator algorithm name. * * @param secureRandomAlgorithm The new secure random number generator algorithm name */ public void setSecureRandomAlgorithm(String secureRandomAlgorithm) { this.secureRandomAlgorithm = secureRandomAlgorithm; } /** * Return the secure random number generator provider name. * * @return The name of the SecureRandom provider */ public String getSecureRandomProvider() { return secureRandomProvider; } /** * Set the secure random number generator provider name. * * @param secureRandomProvider The new secure random number generator provider name */ public void setSecureRandomProvider(String secureRandomProvider) { this.secureRandomProvider = secureRandomProvider; } /** * Return the JASPIC callback handler class name * * @return The name of the JASPIC callback handler */ public String getJaspicCallbackHandlerClass() { return jaspicCallbackHandlerClass; } /** * Set the JASPIC callback handler class name * * @param jaspicCallbackHandlerClass The new JASPIC callback handler class name */ public void setJaspicCallbackHandlerClass(String jaspicCallbackHandlerClass) { this.jaspicCallbackHandlerClass = jaspicCallbackHandlerClass; } /** * Returns the flag whether authentication information will be sent to a reverse proxy on a forwarded request. * * @return {@code true} if response headers shall be sent, {@code false} otherwise */ public boolean isSendAuthInfoResponseHeaders() { return sendAuthInfoResponseHeaders; } /** * Sets the flag whether authentication information will be send to a reverse proxy on a forwarded request. * * @param sendAuthInfoResponseHeaders {@code true} if response headers shall be sent, {@code false} otherwise */ public void setSendAuthInfoResponseHeaders(boolean sendAuthInfoResponseHeaders) { this.sendAuthInfoResponseHeaders = sendAuthInfoResponseHeaders; } // --------------------------------------------------------- Public Methods /** * Enforce the security restrictions in the web application deployment descriptor of our associated Context. * * @param request Request to be processed * @param response Response to be processed * * @exception IOException if an input/output error occurs * @exception ServletException if thrown by a processing element */ @Override public void invoke(Request request, Response response) throws IOException, ServletException { if (log.isTraceEnabled()) { log.trace("Security checking request " + request.getMethod() + " " + request.getRequestURI()); } // Have we got a cached authenticated Principal to record? if (cache) { Principal principal = request.getUserPrincipal(); if (principal == null) { Session session = request.getSessionInternal(false); if (session != null) { principal = session.getPrincipal(); if (principal != null) { if (log.isTraceEnabled()) { log.trace("We have cached auth type " + session.getAuthType() + " for principal " + principal); } request.setAuthType(session.getAuthType()); request.setUserPrincipal(principal); } } } } boolean authRequired = isContinuationRequired(request); Realm realm = this.context.getRealm(); // Is this request URI subject to a security constraint? SecurityConstraint[] constraints = realm.findSecurityConstraints(request, this.context); AuthConfigProvider jaspicProvider = getJaspicProvider(); if (jaspicProvider != null) { authRequired = true; } if (constraints == null && !context.getPreemptiveAuthentication() && !authRequired) { if (log.isTraceEnabled()) { log.trace("Not subject to any constraint"); } getNext().invoke(request, response); return; } // Make sure that constrained resources are not cached by web proxies // or browsers as caching can provide a security hole if (constraints != null && disableProxyCaching && !"POST".equalsIgnoreCase(request.getMethod())) { if (securePagesWithPragma) { // Note: These can cause problems with downloading files with IE response.setHeader("Pragma", "No-cache"); response.setHeader("Cache-Control", "no-cache"); response.setHeader("Expires", DATE_ONE); } else { response.setHeader("Cache-Control", "private"); } } if (constraints != null) { // Enforce any user data constraint for this security constraint if (log.isTraceEnabled()) { log.trace("Calling hasUserDataPermission()"); } if (!realm.hasUserDataPermission(request, response, constraints)) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.userDataPermissionFail")); } /* * ASSERT: Authenticator already set the appropriate HTTP status code, so we do not have to do anything * special */ return; } } // Since authenticate modifies the response on failure, // we have to check for allow-from-all first. boolean hasAuthConstraint = false; if (constraints != null) { hasAuthConstraint = true; for (int i = 0; i < constraints.length && hasAuthConstraint; i++) { if (!constraints[i].getAuthConstraint()) { hasAuthConstraint = false; } else if (!constraints[i].getAllRoles() && !constraints[i].getAuthenticatedUsers()) { String[] roles = constraints[i].findAuthRoles(); if (roles == null || roles.length == 0) { hasAuthConstraint = false; } } } } if (!authRequired && hasAuthConstraint) { authRequired = true; } if (!authRequired && context.getPreemptiveAuthentication() && isPreemptiveAuthPossible(request)) { authRequired = true; } JaspicState jaspicState = null; if ((authRequired || constraints != null) && allowCorsPreflightBypass(request)) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.corsBypass")); } getNext().invoke(request, response); return; } if (authRequired) { if (log.isTraceEnabled()) { log.trace("Calling authenticate()"); } if (jaspicProvider != null) { jaspicState = getJaspicState(jaspicProvider, request, response, hasAuthConstraint); if (jaspicState == null) { return; } } if (jaspicProvider == null && !doAuthenticate(request, response) || jaspicProvider != null && !authenticateJaspic(request, response, jaspicState, false)) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.authenticationFail")); } /* * ASSERT: Authenticator already set the appropriate HTTP status code, so we do not have to do anything * special */ return; } } if (constraints != null) { if (log.isTraceEnabled()) { log.trace("Calling accessControl()"); } if (!realm.hasResourcePermission(request, response, constraints, this.context)) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.userPermissionFail", request.getUserPrincipal().getName())); } /* * ASSERT: AccessControl method has already set the appropriate HTTP status code, so we do not have to * do anything special */ return; } } // Any and all specified constraints have been satisfied if (log.isTraceEnabled()) { log.trace("Successfully passed all security constraints"); } getNext().invoke(request, response); if (jaspicProvider != null) { secureResponseJspic(request, response, jaspicState); } } protected boolean allowCorsPreflightBypass(Request request) { boolean allowBypass = false; if (allowCorsPreflight != AllowCorsPreflight.NEVER) { // First check to see if this is a CORS Preflight request // This is a subset of the tests in CorsFilter.checkRequestType if ("OPTIONS".equals(request.getMethod())) { String originHeader = request.getHeader(CorsFilter.REQUEST_HEADER_ORIGIN); if (originHeader != null && !originHeader.isEmpty() && RequestUtil.isValidOrigin(originHeader) && !RequestUtil.isSameOrigin(request, originHeader)) { String accessControlRequestMethodHeader = request.getHeader(CorsFilter.REQUEST_HEADER_ACCESS_CONTROL_REQUEST_METHOD); if (accessControlRequestMethodHeader != null && !accessControlRequestMethodHeader.isEmpty()) { // This appears to be a CORS Preflight request if (allowCorsPreflight == AllowCorsPreflight.ALWAYS) { allowBypass = true; } else if (allowCorsPreflight == AllowCorsPreflight.FILTER) { if (DispatcherType.REQUEST == request.getDispatcherType()) { // Look at Filter configuration for the Context // Can't cache this unless we add a listener to // the Context to clear the cache on reload for (FilterDef filterDef : request.getContext().findFilterDefs()) { if (CorsFilter.class.getName().equals(filterDef.getFilterClass())) { for (FilterMap filterMap : context.findFilterMaps()) { if (filterMap.getFilterName().equals(filterDef.getFilterName())) { if ((filterMap.getDispatcherMapping() & FilterMap.REQUEST) > 0) { String requestPath = FilterUtil.getRequestPath(request); if (FilterUtil.matchFiltersURL(filterMap, requestPath)) { allowBypass = true; } } // Found mappings for CORS filter. // No need to look further break; } } // Found the CORS filter. No need to look further. break; } } } } else { // Unexpected enum type } } } } } return allowBypass; } @Override public boolean authenticate(Request request, HttpServletResponse httpResponse) throws IOException { AuthConfigProvider jaspicProvider = getJaspicProvider(); if (jaspicProvider == null) { return doAuthenticate(request, httpResponse); } else { Response response = request.getResponse(); JaspicState jaspicState = getJaspicState(jaspicProvider, request, response, true); if (jaspicState == null) { return false; } boolean result = authenticateJaspic(request, response, jaspicState, true); secureResponseJspic(request, response, jaspicState); return result; } } private void secureResponseJspic(Request request, Response response, JaspicState state) { try { state.serverAuthContext.secureResponse(state.messageInfo, null); request.setRequest((HttpServletRequest) state.messageInfo.getRequestMessage()); response.setResponse((HttpServletResponse) state.messageInfo.getResponseMessage()); } catch (AuthException e) { log.warn(sm.getString("authenticator.jaspicSecureResponseFail"), e); } } private JaspicState getJaspicState(AuthConfigProvider jaspicProvider, Request request, Response response, boolean authMandatory) throws IOException { JaspicState jaspicState = new JaspicState(); jaspicState.messageInfo = new MessageInfoImpl(request.getRequest(), response.getResponse(), authMandatory); try { CallbackHandler callbackHandler = getCallbackHandler(); ServerAuthConfig serverAuthConfig = jaspicProvider.getServerAuthConfig("HttpServlet", jaspicAppContextID, callbackHandler); String authContextID = serverAuthConfig.getAuthContextID(jaspicState.messageInfo); jaspicState.serverAuthContext = serverAuthConfig.getAuthContext(authContextID, null, null); } catch (AuthException e) { log.warn(sm.getString("authenticator.jaspicServerAuthContextFail"), e); response.sendError(HttpServletResponse.SC_INTERNAL_SERVER_ERROR); return null; } return jaspicState; } private CallbackHandler getCallbackHandler() { CallbackHandler handler = jaspicCallbackHandler; if (handler == null) { handler = createCallbackHandler(); } return handler; } private CallbackHandler createCallbackHandler() { CallbackHandler callbackHandler = null; Class clazz = null; try { clazz = Class.forName(jaspicCallbackHandlerClass, true, Thread.currentThread().getContextClassLoader()); } catch (ClassNotFoundException e) { // Proceed with the retry below } try { if (clazz == null) { clazz = Class.forName(jaspicCallbackHandlerClass); } callbackHandler = (CallbackHandler) clazz.getConstructor().newInstance(); } catch (ReflectiveOperationException e) { throw new SecurityException(e); } if (callbackHandler instanceof Contained) { ((Contained) callbackHandler).setContainer(getContainer()); } jaspicCallbackHandler = callbackHandler; return callbackHandler; } // ------------------------------------------------------ Protected Methods /** * Provided for sub-classes to implement their specific authentication mechanism. * * @param request The request that triggered the authentication * @param response The response associated with the request * * @return {@code true} if the the user was authenticated, otherwise {@code * false}, in which case an authentication challenge will have been written to the response * * @throws IOException If an I/O problem occurred during the authentication process */ protected abstract boolean doAuthenticate(Request request, HttpServletResponse response) throws IOException; /** * Does this authenticator require that {@link #authenticate(Request, HttpServletResponse)} is called to continue an * authentication process that started in a previous request? * * @param request The request currently being processed * * @return {@code true} if authenticate() must be called, otherwise {@code false} */ protected boolean isContinuationRequired(Request request) { return false; } /** * Associate the specified single sign on identifier with the specified Session. * * @param ssoId Single sign on identifier * @param session Session to be associated */ protected void associate(String ssoId, Session session) { if (sso == null) { return; } sso.associate(ssoId, session); } private boolean authenticateJaspic(Request request, Response response, JaspicState state, boolean requirePrincipal) { boolean cachedAuth = checkForCachedAuthentication(request, response, false); Subject client = new Subject(); AuthStatus authStatus; try { authStatus = state.serverAuthContext.validateRequest(state.messageInfo, client, null); } catch (AuthException e) { log.debug(sm.getString("authenticator.loginFail"), e); // Need to explicitly set the return code as the ServerAuthContext may not have done. response.setStatus(HttpServletResponse.SC_INTERNAL_SERVER_ERROR); return false; } request.setRequest((HttpServletRequest) state.messageInfo.getRequestMessage()); response.setResponse((HttpServletResponse) state.messageInfo.getResponseMessage()); if (authStatus == AuthStatus.SUCCESS) { GenericPrincipal principal = getPrincipal(client); if (log.isTraceEnabled()) { log.trace("Authenticated user: " + principal); } if (principal == null) { request.setUserPrincipal(null); request.setAuthType(null); if (requirePrincipal) { return false; } } else if (cachedAuth == false || !principal.getUserPrincipal().equals(request.getUserPrincipal())) { // Skip registration if authentication credentials were // cached and the Principal did not change. // Check to see if any of the JASPIC properties were set Boolean register = null; String authType = "JASPIC"; @SuppressWarnings("rawtypes") // JASPIC API uses raw types Map map = state.messageInfo.getMap(); String registerValue = (String) map.get("jakarta.servlet.http.registerSession"); if (registerValue != null) { register = Boolean.valueOf(registerValue); } String authTypeValue = (String) map.get("jakarta.servlet.http.authType"); if (authTypeValue != null) { authType = authTypeValue; } /* * Need to handle three cases. See https://bz.apache.org/bugzilla/show_bug.cgi?id=64713 1. * registerSession TRUE always use session, always cache 2. registerSession NOT SET config for session, * config for cache 3. registerSession FALSE config for session, never cache */ if (register != null) { register(request, response, principal, authType, null, null, alwaysUseSession || register.booleanValue(), register.booleanValue()); } else { register(request, response, principal, authType, null, null); } } request.setNote(Constants.REQ_JASPIC_SUBJECT_NOTE, client); return true; } return false; } private GenericPrincipal getPrincipal(Subject subject) { if (subject == null) { return null; } Set principals = subject.getPrivateCredentials(GenericPrincipal.class); if (principals.isEmpty()) { return null; } return principals.iterator().next(); } /** * Check to see if the user has already been authenticated earlier in the processing chain or if there is enough * information available to authenticate the user without requiring further user interaction. * * @param request The current request * @param response The current response * @param useSSO Should information available from SSO be used to attempt to authenticate the current user? * * @return true if the user was authenticated via the cache, otherwise false */ protected boolean checkForCachedAuthentication(Request request, HttpServletResponse response, boolean useSSO) { // Has the user already been authenticated? Principal principal = request.getUserPrincipal(); String ssoId = (String) request.getNote(Constants.REQ_SSOID_NOTE); if (principal != null) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.check.found", principal.getName())); } // Associate the session with any existing SSO session. Even if // useSSO is false, this will ensure coordinated session // invalidation at log out. if (ssoId != null) { associate(ssoId, request.getSessionInternal(true)); } return true; } // Is there an SSO session against which we can try to reauthenticate? if (useSSO && ssoId != null) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.check.sso", ssoId)); } /* * Try to reauthenticate using data cached by SSO. If this fails, either the original SSO logon was of * DIGEST or SSL (which we can't reauthenticate ourselves because there is no cached username and password), * or the realm denied the user's reauthentication for some reason. In either case we have to prompt the * user for a logon */ if (reauthenticateFromSSO(ssoId, request)) { return true; } } // Has the Connector provided a pre-authenticated Principal that now // needs to be authorized? if (request.getCoyoteRequest().getRemoteUserNeedsAuthorization()) { String username = request.getCoyoteRequest().getRemoteUser().toString(); if (username != null) { if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.check.authorize", username)); } Principal authorized = context.getRealm().authenticate(username); if (authorized == null) { // Realm doesn't recognise user. Create a user with no roles // from the authenticated user name if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.check.authorizeFail", username)); } authorized = new GenericPrincipal(username); } String authType = request.getAuthType(); if (authType == null || authType.length() == 0) { authType = getAuthMethod(); } register(request, response, authorized, authType, username, null); return true; } } return false; } /** * Attempts reauthentication to the Realm using the credentials included in argument * entry. * * @param ssoId identifier of SingleSignOn session with which the caller is associated * @param request the request that needs to be authenticated * * @return true if the reauthentication from SSL occurred */ protected boolean reauthenticateFromSSO(String ssoId, Request request) { if (sso == null || ssoId == null) { return false; } boolean reauthenticated = false; Container parent = getContainer(); if (parent != null) { Realm realm = parent.getRealm(); if (realm != null) { reauthenticated = sso.reauthenticate(ssoId, realm, request); } } if (reauthenticated) { associate(ssoId, request.getSessionInternal(true)); if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.reauthentication", request.getUserPrincipal().getName(), request.getAuthType())); } } return reauthenticated; } /** * Register an authenticated Principal and authentication type in our request, in the current session (if there is * one), and with our SingleSignOn valve, if there is one. Set the appropriate cookie to be returned. * * @param request The servlet request we are processing * @param response The servlet response we are generating * @param principal The authenticated Principal to be registered * @param authType The authentication type to be registered * @param username Username used to authenticate (if any) * @param password Password used to authenticate (if any) */ public void register(Request request, HttpServletResponse response, Principal principal, String authType, String username, String password) { register(request, response, principal, authType, username, password, alwaysUseSession, cache); } /** * Register an authenticated Principal and authentication type in our request, in the current session (if there is * one), and with our SingleSignOn valve, if there is one. Set the appropriate cookie to be returned. * * @param request The servlet request we are processing * @param response The servlet response we are generating * @param principal The authenticated Principal to be registered * @param authType The authentication type to be registered * @param username Username used to authenticate (if any) * @param password Password used to authenticate (if any) * @param alwaysUseSession Should a session always be used once a user is authenticated? * @param cache Should we cache authenticated Principals if the request is part of an HTTP session? */ protected void register(Request request, HttpServletResponse response, Principal principal, String authType, String username, String password, boolean alwaysUseSession, boolean cache) { if (log.isDebugEnabled()) { String name = (principal == null) ? "none" : principal.getName(); log.debug(sm.getString("authenticator.authentication", name, authType)); } // Cache the authentication information in our request request.setAuthType(authType); request.setUserPrincipal(principal); if (sendAuthInfoResponseHeaders && Boolean.TRUE.equals(request.getAttribute(Globals.REQUEST_FORWARDED_ATTRIBUTE))) { response.setHeader("remote-user", request.getRemoteUser()); response.setHeader("auth-type", request.getAuthType()); } Session session = request.getSessionInternal(false); if (session != null) { // If the principal is null then this is a logout. No need to change // the session ID. See BZ 59043. if (getChangeSessionIdOnAuthentication() && principal != null) { String newSessionId = changeSessionID(request, session); // If the current session ID is being tracked, update it. if (session.getNote(Constants.SESSION_ID_NOTE) != null) { session.setNote(Constants.SESSION_ID_NOTE, newSessionId); } } } else if (alwaysUseSession) { session = request.getSessionInternal(true); } // Cache the authentication information in our session, if any if (session != null && cache) { session.setAuthType(authType); session.setPrincipal(principal); } // Construct a cookie to be returned to the client if (sso == null) { return; } // Only create a new SSO entry if the SSO did not already set a note // for an existing entry (as it would do with subsequent requests // for DIGEST and SSL authenticated contexts) String ssoId = (String) request.getNote(Constants.REQ_SSOID_NOTE); if (ssoId == null) { // Construct a cookie to be returned to the client ssoId = sessionIdGenerator.generateSessionId(); Cookie cookie = new Cookie(sso.getCookieName(), ssoId); cookie.setMaxAge(-1); cookie.setPath("/"); // Bugzilla 41217 cookie.setSecure(request.isSecure()); // Bugzilla 34724 String ssoDomain = sso.getCookieDomain(); if (ssoDomain != null) { cookie.setDomain(ssoDomain); } // Configure httpOnly on SSO cookie using same rules as session cookies if (request.getServletContext().getSessionCookieConfig().isHttpOnly() || request.getContext().getUseHttpOnly()) { cookie.setHttpOnly(true); } // Configure Partitioned on SSO cookie using same rules as session cookies cookie.setAttribute(Constants.COOKIE_PARTITIONED_ATTR, Boolean.toString(request.getContext().getUsePartitioned())); response.addCookie(cookie); // Register this principal with our SSO valve sso.register(ssoId, principal, authType, username, password); request.setNote(Constants.REQ_SSOID_NOTE, ssoId); } else { if (principal == null) { // Registering a programmatic logout sso.deregister(ssoId); request.removeNote(Constants.REQ_SSOID_NOTE); return; } else { // Update the SSO session with the latest authentication data sso.update(ssoId, principal, authType, username, password); } } // Fix for Bug 10040 // Always associate a session with a new SSO registration. // SSO entries are only removed from the SSO registry map when // associated sessions are destroyed; if a new SSO entry is created // above for this request and the user never revisits the context, the // SSO entry will never be cleared if we don't associate the session if (session == null) { session = request.getSessionInternal(true); } sso.associate(ssoId, session); } protected String changeSessionID(Request request, Session session) { String oldId = null; if (log.isDebugEnabled()) { oldId = session.getId(); } String newId = request.changeSessionId(); if (log.isDebugEnabled()) { log.debug(sm.getString("authenticator.changeSessionId", oldId, newId)); } return newId; } @Override public void login(String username, String password, Request request) throws ServletException { Principal principal = doLogin(request, username, password); register(request, request.getResponse(), principal, getAuthMethod(), username, password); } /** * Return the authentication method, which is vendor-specific and not defined by HttpServletRequest. * * @return the authentication method, which is vendor-specific and not defined by HttpServletRequest. */ protected abstract String getAuthMethod(); /** * Process the login request. * * @param request Associated request * @param username The user * @param password The password * * @return The authenticated Principal * * @throws ServletException No principal was authenticated with the specified credentials */ protected Principal doLogin(Request request, String username, String password) throws ServletException { Principal p = context.getRealm().authenticate(username, password); if (p == null) { throw new ServletException(sm.getString("authenticator.loginFail")); } return p; } @Override public void logout(Request request) { AuthConfigProvider provider = getJaspicProvider(); if (provider != null) { MessageInfo messageInfo = new MessageInfoImpl(request, request.getResponse(), true); Subject client = (Subject) request.getNote(Constants.REQ_JASPIC_SUBJECT_NOTE); if (client != null) { ServerAuthContext serverAuthContext; try { ServerAuthConfig serverAuthConfig = provider.getServerAuthConfig("HttpServlet", jaspicAppContextID, getCallbackHandler()); String authContextID = serverAuthConfig.getAuthContextID(messageInfo); serverAuthContext = serverAuthConfig.getAuthContext(authContextID, null, null); serverAuthContext.cleanSubject(messageInfo, client); } catch (AuthException e) { log.debug(sm.getString("authenticator.jaspicCleanSubjectFail"), e); } } } Principal p = request.getPrincipal(); if (p instanceof TomcatPrincipal) { try { ((TomcatPrincipal) p).logout(); } catch (Throwable t) { ExceptionUtils.handleThrowable(t); log.debug(sm.getString("authenticator.tomcatPrincipalLogoutFail"), t); } } register(request, request.getResponse(), null, null, null, null); } @Override protected void startInternal() throws LifecycleException { ServletContext servletContext = context.getServletContext(); jaspicAppContextID = servletContext.getVirtualServerName() + " " + servletContext.getContextPath(); // Look up the SingleSignOn implementation in our request processing // path, if there is one Container parent = context.getParent(); while ((sso == null) && (parent != null)) { Valve valves[] = parent.getPipeline().getValves(); for (Valve valve : valves) { if (valve instanceof SingleSignOn) { sso = (SingleSignOn) valve; break; } } if (sso == null) { parent = parent.getParent(); } } if (log.isDebugEnabled()) { if (sso != null) { log.debug(sm.getString("authenticator.sso", sso)); } else { log.trace("No SingleSignOn Valve is present"); } } sessionIdGenerator = new StandardSessionIdGenerator(); sessionIdGenerator.setSecureRandomAlgorithm(getSecureRandomAlgorithm()); sessionIdGenerator.setSecureRandomClass(getSecureRandomClass()); sessionIdGenerator.setSecureRandomProvider(getSecureRandomProvider()); super.startInternal(); } @Override protected void stopInternal() throws LifecycleException { super.stopInternal(); sso = null; } /** * Can the authenticator perform preemptive authentication for the given request? * * @param request The request to check for credentials * * @return {@code true} if preemptive authentication is possible, otherwise {@code false} */ protected boolean isPreemptiveAuthPossible(Request request) { return false; } private AuthConfigProvider getJaspicProvider() { Optional provider = jaspicProvider; if (provider == null) { provider = findJaspicProvider(); } return provider.orElse(null); } private Optional findJaspicProvider() { AuthConfigFactory factory = AuthConfigFactory.getFactory(); Optional provider; if (factory == null) { provider = Optional.empty(); } else { provider = Optional.ofNullable(factory.getConfigProvider("HttpServlet", jaspicAppContextID, this)); } jaspicProvider = provider; return provider; } @Override public void notify(String layer, String appContext) { findJaspicProvider(); } private static class JaspicState { public MessageInfo messageInfo = null; public ServerAuthContext serverAuthContext = null; } protected enum AllowCorsPreflight { NEVER, FILTER, ALWAYS } }





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