-
LdapLoginModule
-
USERNAME_KEY: String
-
PASSWORD_KEY: String
-
USER_PROVIDER: String
-
USER_FILTER: String
-
AUTHC_IDENTITY: String
-
AUTHZ_IDENTITY: String
-
USERNAME_TOKEN: String
-
USERNAME_PATTERN: Pattern
-
userProvider: String
-
userFilter: String
-
authcIdentity: String
-
authzIdentity: String
-
authzIdentityAttr: String
-
useSSL: boolean
-
authFirst: boolean
-
authOnly: boolean
-
useFirstPass: boolean
-
tryFirstPass: boolean
-
storePass: boolean
-
clearPass: boolean
-
debug: boolean
-
succeeded: boolean
-
commitSucceeded: boolean
-
username: String
-
password: char[]
-
ldapPrincipal: LdapPrincipal
-
userPrincipal: UserPrincipal
-
authzPrincipal: UserPrincipal
-
subject: Subject
-
callbackHandler: CallbackHandler
-
sharedState: Map<String, Object>
-
options: Map<String, Object>
-
ctx: LdapContext
-
identityMatcher: Matcher
-
filterMatcher: Matcher
-
ldapEnvironment: Hashtable<String, Object>
-
constraints: SearchControls
-
initialize(Subject, CallbackHandler, Map<String, Object>, Map<String, Object>): void
-
login(): boolean
-
commit(): boolean
-
abort(): boolean
-
logout(): boolean
-
attemptAuthentication(boolean): void
-
findUserDN(LdapContext): String
-
escapeUsernameChars(): String
-
replaceUsernameToken(Matcher, String, String): String
-
getUsernamePassword(boolean): void
-
cleanState(): void
-
/*
* Copyright (c) 2005, 2017, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package com.sun.security.auth.module;
import java.net.SocketPermission;
import java.security.Principal;
import java.util.Arrays;
import java.util.Hashtable;
import java.util.Map;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import java.util.Set;
import javax.naming.*;
import javax.naming.directory.*;
import javax.naming.ldap.*;
import javax.security.auth.*;
import javax.security.auth.callback.*;
import javax.security.auth.login.*;
import javax.security.auth.spi.*;
import com.sun.security.auth.LdapPrincipal;
import com.sun.security.auth.UserPrincipal;
import static sun.security.util.ResourcesMgr.getAuthResourceString;
This LoginModule performs LDAP-based authentication. A username and password is verified against the corresponding user credentials stored in an LDAP directory. This module requires the supplied CallbackHandler to support a NameCallback and a PasswordCallback. If authentication is successful then a new LdapPrincipal is created using the user's distinguished name and a new UserPrincipal is created using the user's username and both are associated with the current Subject. This module operates in one of three modes: search-first,
authentication-first or authentication-only.
A mode is selected by specifying a particular set of options.
In search-first mode, the LDAP directory is searched to determine the user's distinguished name and then authentication is attempted. An (anonymous) search is performed using the supplied username in conjunction with a specified search filter. If successful then authentication is attempted using the user's distinguished name and the supplied password. To enable this mode, set the userFilter option and omit the authIdentity option. Use search-first mode when the user's distinguished name is not known in advance.
In authentication-first mode, authentication is attempted using the supplied username and password and then the LDAP directory is searched. If authentication is successful then a search is performed using the supplied username in conjunction with a specified search filter. To enable this mode, set the authIdentity and the userFilter options. Use authentication-first mode when accessing an LDAP directory that has been configured to disallow anonymous searches.
In authentication-only mode, authentication is attempted using the supplied username and password. The LDAP directory is not searched because the user's distinguished name is already known. To enable this mode, set the authIdentity option to a valid distinguished name and omit the userFilter option. Use authentication-only mode when the user's distinguished name is known in advance.
The following option is mandatory and must be specified in this module's login Configuration:
-
userProvider=ldap_urls
- This option identifies the LDAP directory that stores user entries.
ldap_urls is a list of space-separated LDAP URLs
(RFC 2255) that identifies the LDAP server to use and the position in its directory tree where user entries are located. When several LDAP URLs are specified then each is attempted, in turn, until the first successful connection is established. Spaces in the distinguished name component of the URL must be escaped using the standard mechanism of percent character ('
%') followed by two hexadecimal digits (see URI). Query components must also be omitted from the URL.
Automatic discovery of the LDAP server via DNS
(RFC 2782)
is supported (once DNS has been configured to support such a service).
It is enabled by omitting the hostname and port number components from
the LDAP URL.
This module also recognizes the following optional Configuration options:
-
userFilter=ldap_filter
- This option specifies the search filter to use to locate a user's
entry in the LDAP directory. It is used to determine a user's
distinguished name.
ldap_filter is an LDAP filter string
(RFC 2254).
If it contains the special token "{USERNAME}"
then that token will be replaced with the supplied username value
before the filter is used to search the directory.
-
authIdentity=auth_id
- This option specifies the identity to use when authenticating a user
to the LDAP directory.
auth_id may be an LDAP distinguished name string
(RFC 2253) or some
other string name.
It must contain the special token "{USERNAME}" which will be replaced with the supplied username value before the name is used for authentication. Note that if this option does not contain a distinguished name then the userFilter option must also be specified.
-
authzIdentity=authz_id
- This option specifies an authorization identity for the user.
authz_id is any string name. If it comprises a single special token with curly braces then that token is treated as a attribute name and will be replaced with a single value of that attribute from the user's LDAP entry. If the attribute cannot be found then the option is ignored. When this option is supplied and the user has been successfully authenticated then an additional UserPrincipal is created using the authorization identity and it is associated with the current Subject.
-
useSSL
- if
false, this module does not establish an SSL connection to the LDAP server before attempting authentication. SSL is used to protect the privacy of the user's password because it is transmitted in the clear over LDAP. By default, this module uses SSL.
-
useFirstPass
- if
true, this module retrieves the username and password from the module's shared state, using "javax.security.auth.login.name" and "javax.security.auth.login.password" as the respective keys. The retrieved values are used for authentication. If authentication fails, no attempt for a retry is made, and the failure is reported back to the calling application.
-
tryFirstPass
- if
true, this module retrieves the username and password from the module's shared state, using "javax.security.auth.login.name" and "javax.security.auth.login.password" as the respective keys. The retrieved values are used for authentication. If authentication fails, the module uses the CallbackHandler to retrieve a new username and password, and another attempt to authenticate is made. If the authentication fails, the failure is reported back to the calling application.
-
storePass
- if
true, this module stores the username and password obtained from the CallbackHandler in the module's shared state, using "javax.security.auth.login.name" and "javax.security.auth.login.password" as the respective keys. This is not performed if existing values already exist for the username and password in the shared state, or if authentication fails.
-
clearPass
- if
true, this module clears the username and password stored in the module's shared state after both phases of authentication (login and commit) have completed.
-
debug
- if
true, debug messages are displayed on the standard output stream.
Arbitrary {@extLink jndi_ldap_gl_prop "JNDI properties"} may also be specified in the Configuration. They are added to the environment and passed to the LDAP provider. Note that the following four JNDI properties are set by this module directly and are ignored if also present in the configuration:
-
java.naming.provider.url -
java.naming.security.principal -
java.naming.security.credentials -
java.naming.security.protocol
Three sample Configurations are shown below. The first one activates search-first mode. It identifies the LDAP server and specifies that users' entries be located by their uid and objectClass attributes. It also specifies that an identity based on the user's employeeNumber attribute should be created. The second one activates authentication-first mode. It requests that the LDAP server be located dynamically, that authentication be performed using the supplied username directly but without the protection of SSL and that users' entries be located by one of three naming attributes and their objectClass attribute. The third one activates authentication-only mode. It identifies alternative LDAP servers, it specifies the distinguished name to use for authentication and a fixed identity to use for authorization. No directory search is performed.
ExampleApplication {
com.sun.security.auth.module.LdapLoginModule REQUIRED
userProvider="ldap://ldap-svr/ou=people,dc=example,dc=com"
userFilter="(&(uid={USERNAME})(objectClass=inetOrgPerson))"
authzIdentity="{EMPLOYEENUMBER}"
debug=true;
};
ExampleApplication {
com.sun.security.auth.module.LdapLoginModule REQUIRED
userProvider="ldap:///cn=users,dc=example,dc=com"
authIdentity="{USERNAME}"
userFilter="(&(|(samAccountName={USERNAME})(userPrincipalName={USERNAME})(cn={USERNAME}))(objectClass=user))"
useSSL=false
debug=true;
};
ExampleApplication {
com.sun.security.auth.module.LdapLoginModule REQUIRED
userProvider="ldap://ldap-svr1 ldap://ldap-svr2"
authIdentity="cn={USERNAME},ou=people,dc=example,dc=com"
authzIdentity="staff"
debug=true;
};
- Note:
- When a
SecurityManager is active then an application that creates a LoginContext and uses a LoginModule must be granted certain permissions.
If the application creates a login context using an installed Configuration then the application must be granted the AuthPermission to create login contexts. For example, the following security policy allows an application in the user's current directory to instantiate any login context:
grant codebase "file:${user.dir}/" {
permission javax.security.auth.AuthPermission "createLoginContext.*";
};
Alternatively, if the application creates a login context using a
caller-specified Configuration then the application must be granted the permissions required by the LoginModule. This module requires the following two permissions:
- The
SocketPermission to connect to an LDAP server. - The
AuthPermission to modify the set of Principals associated with a Subject.
For example, the following security policy grants an application in the
user's current directory all the permissions required by this module:
grant codebase "file:${user.dir}/" {
permission java.net.SocketPermission "*:389", "connect";
permission java.net.SocketPermission "*:636", "connect";
permission javax.security.auth.AuthPermission "modifyPrincipals";
};
Since: 1.6
/**
* This {@link LoginModule} performs LDAP-based authentication.
* A username and password is verified against the corresponding user
* credentials stored in an LDAP directory.
* This module requires the supplied {@link CallbackHandler} to support a
* {@link NameCallback} and a {@link PasswordCallback}.
* If authentication is successful then a new {@link LdapPrincipal} is created
* using the user's distinguished name and a new {@link UserPrincipal} is
* created using the user's username and both are associated
* with the current {@link Subject}.
*
* <p> This module operates in one of three modes: <i>search-first</i>,
* <i>authentication-first</i> or <i>authentication-only</i>.
* A mode is selected by specifying a particular set of options.
*
* <p> In search-first mode, the LDAP directory is searched to determine the
* user's distinguished name and then authentication is attempted.
* An (anonymous) search is performed using the supplied username in
* conjunction with a specified search filter.
* If successful then authentication is attempted using the user's
* distinguished name and the supplied password.
* To enable this mode, set the {@code userFilter} option and omit the
* {@code authIdentity} option.
* Use search-first mode when the user's distinguished name is not
* known in advance.
*
* <p> In authentication-first mode, authentication is attempted using the
* supplied username and password and then the LDAP directory is searched.
* If authentication is successful then a search is performed using the
* supplied username in conjunction with a specified search filter.
* To enable this mode, set the {@code authIdentity} and the
* {@code userFilter} options.
* Use authentication-first mode when accessing an LDAP directory
* that has been configured to disallow anonymous searches.
*
* <p> In authentication-only mode, authentication is attempted using the
* supplied username and password. The LDAP directory is not searched because
* the user's distinguished name is already known.
* To enable this mode, set the {@code authIdentity} option to a valid
* distinguished name and omit the {@code userFilter} option.
* Use authentication-only mode when the user's distinguished name is
* known in advance.
*
* <p> The following option is mandatory and must be specified in this
* module's login {@link Configuration}:
* <dl>
* <dt> <code>userProvider=<b>ldap_urls</b></code>
* </dt>
* <dd> This option identifies the LDAP directory that stores user entries.
* <b>ldap_urls</b> is a list of space-separated LDAP URLs
* (<a href="http://www.ietf.org/rfc/rfc2255.txt">RFC 2255</a>)
* that identifies the LDAP server to use and the position in
* its directory tree where user entries are located.
* When several LDAP URLs are specified then each is attempted,
* in turn, until the first successful connection is established.
* Spaces in the distinguished name component of the URL must be escaped
* using the standard mechanism of percent character ('{@code %}')
* followed by two hexadecimal digits (see {@link java.net.URI}).
* Query components must also be omitted from the URL.
*
* <p>
* Automatic discovery of the LDAP server via DNS
* (<a href="http://www.ietf.org/rfc/rfc2782.txt">RFC 2782</a>)
* is supported (once DNS has been configured to support such a service).
* It is enabled by omitting the hostname and port number components from
* the LDAP URL. </dd>
* </dl>
*
* <p> This module also recognizes the following optional {@link Configuration}
* options:
* <dl>
* <dt> <code>userFilter=<b>ldap_filter</b></code> </dt>
* <dd> This option specifies the search filter to use to locate a user's
* entry in the LDAP directory. It is used to determine a user's
* distinguished name.
* <b>{@code ldap_filter}</b> is an LDAP filter string
* (<a href="http://www.ietf.org/rfc/rfc2254.txt">RFC 2254</a>).
* If it contains the special token "<b>{@code {USERNAME}}</b>"
* then that token will be replaced with the supplied username value
* before the filter is used to search the directory. </dd>
*
* <dt> <code>authIdentity=<b>auth_id</b></code> </dt>
* <dd> This option specifies the identity to use when authenticating a user
* to the LDAP directory.
* <b>{@code auth_id}</b> may be an LDAP distinguished name string
* (<a href="http://www.ietf.org/rfc/rfc2253.txt">RFC 2253</a>) or some
* other string name.
* It must contain the special token "<b>{@code {USERNAME}}</b>"
* which will be replaced with the supplied username value before the
* name is used for authentication.
* Note that if this option does not contain a distinguished name then
* the {@code userFilter} option must also be specified. </dd>
*
* <dt> <code>authzIdentity=<b>authz_id</b></code> </dt>
* <dd> This option specifies an authorization identity for the user.
* <b>{@code authz_id}</b> is any string name.
* If it comprises a single special token with curly braces then
* that token is treated as a attribute name and will be replaced with a
* single value of that attribute from the user's LDAP entry.
* If the attribute cannot be found then the option is ignored.
* When this option is supplied and the user has been successfully
* authenticated then an additional {@link UserPrincipal}
* is created using the authorization identity and it is associated with
* the current {@link Subject}. </dd>
*
* <dt> {@code useSSL} </dt>
* <dd> if {@code false}, this module does not establish an SSL connection
* to the LDAP server before attempting authentication. SSL is used to
* protect the privacy of the user's password because it is transmitted
* in the clear over LDAP.
* By default, this module uses SSL. </dd>
*
* <dt> {@code useFirstPass} </dt>
* <dd> if {@code true}, this module retrieves the username and password
* from the module's shared state, using "javax.security.auth.login.name"
* and "javax.security.auth.login.password" as the respective keys. The
* retrieved values are used for authentication. If authentication fails,
* no attempt for a retry is made, and the failure is reported back to
* the calling application.</dd>
*
* <dt> {@code tryFirstPass} </dt>
* <dd> if {@code true}, this module retrieves the username and password
* from the module's shared state, using "javax.security.auth.login.name"
* and "javax.security.auth.login.password" as the respective keys. The
* retrieved values are used for authentication. If authentication fails,
* the module uses the {@link CallbackHandler} to retrieve a new username
* and password, and another attempt to authenticate is made. If the
* authentication fails, the failure is reported back to the calling
* application.</dd>
*
* <dt> {@code storePass} </dt>
* <dd> if {@code true}, this module stores the username and password
* obtained from the {@link CallbackHandler} in the module's shared state,
* using
* "javax.security.auth.login.name" and
* "javax.security.auth.login.password" as the respective keys. This is
* not performed if existing values already exist for the username and
* password in the shared state, or if authentication fails.</dd>
*
* <dt> {@code clearPass} </dt>
* <dd> if {@code true}, this module clears the username and password
* stored in the module's shared state after both phases of authentication
* (login and commit) have completed.</dd>
*
* <dt> {@code debug} </dt>
* <dd> if {@code true}, debug messages are displayed on the standard
* output stream.</dd>
* </dl>
*
* <p>
* Arbitrary
* {@extLink jndi_ldap_gl_prop "JNDI properties"}
* may also be specified in the {@link Configuration}.
* They are added to the environment and passed to the LDAP provider.
* Note that the following four JNDI properties are set by this module directly
* and are ignored if also present in the configuration:
* <ul>
* <li> {@code java.naming.provider.url}
* <li> {@code java.naming.security.principal}
* <li> {@code java.naming.security.credentials}
* <li> {@code java.naming.security.protocol}
* </ul>
*
* <p>
* Three sample {@link Configuration}s are shown below.
* The first one activates search-first mode. It identifies the LDAP server
* and specifies that users' entries be located by their {@code uid} and
* {@code objectClass} attributes. It also specifies that an identity
* based on the user's {@code employeeNumber} attribute should be created.
* The second one activates authentication-first mode. It requests that the
* LDAP server be located dynamically, that authentication be performed using
* the supplied username directly but without the protection of SSL and that
* users' entries be located by one of three naming attributes and their
* {@code objectClass} attribute.
* The third one activates authentication-only mode. It identifies alternative
* LDAP servers, it specifies the distinguished name to use for
* authentication and a fixed identity to use for authorization. No directory
* search is performed.
*
* <pre>{@literal
*
* ExampleApplication {
* com.sun.security.auth.module.LdapLoginModule REQUIRED
* userProvider="ldap://ldap-svr/ou=people,dc=example,dc=com"
* userFilter="(&(uid={USERNAME})(objectClass=inetOrgPerson))"
* authzIdentity="{EMPLOYEENUMBER}"
* debug=true;
* };
*
* ExampleApplication {
* com.sun.security.auth.module.LdapLoginModule REQUIRED
* userProvider="ldap:///cn=users,dc=example,dc=com"
* authIdentity="{USERNAME}"
* userFilter="(&(|(samAccountName={USERNAME})(userPrincipalName={USERNAME})(cn={USERNAME}))(objectClass=user))"
* useSSL=false
* debug=true;
* };
*
* ExampleApplication {
* com.sun.security.auth.module.LdapLoginModule REQUIRED
* userProvider="ldap://ldap-svr1 ldap://ldap-svr2"
* authIdentity="cn={USERNAME},ou=people,dc=example,dc=com"
* authzIdentity="staff"
* debug=true;
* };
*
* }</pre>
*
* <dl>
* <dt><b>Note:</b> </dt>
* <dd>When a {@link SecurityManager} is active then an application
* that creates a {@link LoginContext} and uses a {@link LoginModule}
* must be granted certain permissions.
* <p>
* If the application creates a login context using an <em>installed</em>
* {@link Configuration} then the application must be granted the
* {@link AuthPermission} to create login contexts.
* For example, the following security policy allows an application in
* the user's current directory to instantiate <em>any</em> login context:
* <pre>
*
* grant codebase "file:${user.dir}/" {
* permission javax.security.auth.AuthPermission "createLoginContext.*";
* };
* </pre>
*
* Alternatively, if the application creates a login context using a
* <em>caller-specified</em> {@link Configuration} then the application
* must be granted the permissions required by the {@link LoginModule}.
* <em>This</em> module requires the following two permissions:
* <ul>
* <li> The {@link SocketPermission} to connect to an LDAP server.
* <li> The {@link AuthPermission} to modify the set of {@link Principal}s
* associated with a {@link Subject}.
* </ul>
* <p>
* For example, the following security policy grants an application in the
* user's current directory all the permissions required by this module:
* <pre>
*
* grant codebase "file:${user.dir}/" {
* permission java.net.SocketPermission "*:389", "connect";
* permission java.net.SocketPermission "*:636", "connect";
* permission javax.security.auth.AuthPermission "modifyPrincipals";
* };
* </pre>
* </dd>
* </dl>
*
* @since 1.6
*/
public class LdapLoginModule implements LoginModule {
// Keys to retrieve the stored username and password
private static final String USERNAME_KEY = "javax.security.auth.login.name";
private static final String PASSWORD_KEY =
"javax.security.auth.login.password";
// Option names
private static final String USER_PROVIDER = "userProvider";
private static final String USER_FILTER = "userFilter";
private static final String AUTHC_IDENTITY = "authIdentity";
private static final String AUTHZ_IDENTITY = "authzIdentity";
// Used for the username token replacement
private static final String USERNAME_TOKEN = "{USERNAME}";
private static final Pattern USERNAME_PATTERN =
Pattern.compile("\\{USERNAME\\}");
// Configurable options
private String userProvider;
private String userFilter;
private String authcIdentity;
private String authzIdentity;
private String authzIdentityAttr = null;
private boolean useSSL = true;
private boolean authFirst = false;
private boolean authOnly = false;
private boolean useFirstPass = false;
private boolean tryFirstPass = false;
private boolean storePass = false;
private boolean clearPass = false;
private boolean debug = false;
// Authentication status
private boolean succeeded = false;
private boolean commitSucceeded = false;
// Supplied username and password
private String username;
private char[] password;
// User's identities
private LdapPrincipal ldapPrincipal;
private UserPrincipal userPrincipal;
private UserPrincipal authzPrincipal;
// Initial state
private Subject subject;
private CallbackHandler callbackHandler;
private Map<String, Object> sharedState;
private Map<String, ?> options;
private LdapContext ctx;
private Matcher identityMatcher = null;
private Matcher filterMatcher = null;
private Hashtable<String, Object> ldapEnvironment;
private SearchControls constraints = null;
Initialize this LoginModule. Params: - subject – the
Subject to be authenticated. - callbackHandler – a
CallbackHandler to acquire the username and password. - sharedState – shared
LoginModule state. - options – options specified in the login
Configuration for this particular LoginModule.
/**
* Initialize this {@code LoginModule}.
*
* @param subject the {@code Subject} to be authenticated.
* @param callbackHandler a {@code CallbackHandler} to acquire the
* username and password.
* @param sharedState shared {@code LoginModule} state.
* @param options options specified in the login
* {@code Configuration} for this particular
* {@code LoginModule}.
*/
// Unchecked warning from (Map<String, Object>)sharedState is safe
// since javax.security.auth.login.LoginContext passes a raw HashMap.
@SuppressWarnings("unchecked")
public void initialize(Subject subject, CallbackHandler callbackHandler,
Map<String, ?> sharedState, Map<String, ?> options) {
this.subject = subject;
this.callbackHandler = callbackHandler;
this.sharedState = (Map<String, Object>)sharedState;
this.options = options;
ldapEnvironment = new Hashtable<String, Object>(9);
ldapEnvironment.put(Context.INITIAL_CONTEXT_FACTORY,
"com.sun.jndi.ldap.LdapCtxFactory");
// Add any JNDI properties to the environment
for (String key : options.keySet()) {
if (key.indexOf('.') > -1) {
ldapEnvironment.put(key, options.get(key));
}
}
// initialize any configured options
userProvider = (String)options.get(USER_PROVIDER);
if (userProvider != null) {
ldapEnvironment.put(Context.PROVIDER_URL, userProvider);
}
authcIdentity = (String)options.get(AUTHC_IDENTITY);
if (authcIdentity != null &&
(authcIdentity.indexOf(USERNAME_TOKEN) != -1)) {
identityMatcher = USERNAME_PATTERN.matcher(authcIdentity);
}
userFilter = (String)options.get(USER_FILTER);
if (userFilter != null) {
if (userFilter.indexOf(USERNAME_TOKEN) != -1) {
filterMatcher = USERNAME_PATTERN.matcher(userFilter);
}
constraints = new SearchControls();
constraints.setSearchScope(SearchControls.SUBTREE_SCOPE);
constraints.setReturningAttributes(new String[0]); //return no attrs
}
authzIdentity = (String)options.get(AUTHZ_IDENTITY);
if (authzIdentity != null &&
authzIdentity.startsWith("{") && authzIdentity.endsWith("}")) {
if (constraints != null) {
authzIdentityAttr =
authzIdentity.substring(1, authzIdentity.length() - 1);
constraints.setReturningAttributes(
new String[]{authzIdentityAttr});
}
authzIdentity = null; // set later, from the specified attribute
}
// determine mode
if (authcIdentity != null) {
if (userFilter != null) {
authFirst = true; // authentication-first mode
} else {
authOnly = true; // authentication-only mode
}
}
if ("false".equalsIgnoreCase((String)options.get("useSSL"))) {
useSSL = false;
ldapEnvironment.remove(Context.SECURITY_PROTOCOL);
} else {
ldapEnvironment.put(Context.SECURITY_PROTOCOL, "ssl");
}
tryFirstPass =
"true".equalsIgnoreCase((String)options.get("tryFirstPass"));
useFirstPass =
"true".equalsIgnoreCase((String)options.get("useFirstPass"));
storePass = "true".equalsIgnoreCase((String)options.get("storePass"));
clearPass = "true".equalsIgnoreCase((String)options.get("clearPass"));
debug = "true".equalsIgnoreCase((String)options.get("debug"));
if (debug) {
if (authFirst) {
System.out.println("\t\t[LdapLoginModule] " +
"authentication-first mode; " +
(useSSL ? "SSL enabled" : "SSL disabled"));
} else if (authOnly) {
System.out.println("\t\t[LdapLoginModule] " +
"authentication-only mode; " +
(useSSL ? "SSL enabled" : "SSL disabled"));
} else {
System.out.println("\t\t[LdapLoginModule] " +
"search-first mode; " +
(useSSL ? "SSL enabled" : "SSL disabled"));
}
}
}
Begin user authentication.
Acquire the user's credentials and verify them against the
specified LDAP directory.
Throws: - FailedLoginException – if the authentication fails.
- LoginException – if this
LoginModule is unable to perform the authentication.
Returns: true always, since this LoginModule should not be ignored.
/**
* Begin user authentication.
*
* <p> Acquire the user's credentials and verify them against the
* specified LDAP directory.
*
* @return true always, since this {@code LoginModule}
* should not be ignored.
* @exception FailedLoginException if the authentication fails.
* @exception LoginException if this {@code LoginModule}
* is unable to perform the authentication.
*/
public boolean login() throws LoginException {
if (userProvider == null) {
throw new LoginException
("Unable to locate the LDAP directory service");
}
if (debug) {
System.out.println("\t\t[LdapLoginModule] user provider: " +
userProvider);
}
// attempt the authentication
if (tryFirstPass) {
try {
// attempt the authentication by getting the
// username and password from shared state
attemptAuthentication(true);
// authentication succeeded
succeeded = true;
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"tryFirstPass succeeded");
}
return true;
} catch (LoginException le) {
// authentication failed -- try again below by prompting
cleanState();
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"tryFirstPass failed: " + le.toString());
}
}
} else if (useFirstPass) {
try {
// attempt the authentication by getting the
// username and password from shared state
attemptAuthentication(true);
// authentication succeeded
succeeded = true;
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"useFirstPass succeeded");
}
return true;
} catch (LoginException le) {
// authentication failed
cleanState();
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"useFirstPass failed");
}
throw le;
}
}
// attempt the authentication by prompting for the username and pwd
try {
attemptAuthentication(false);
// authentication succeeded
succeeded = true;
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"authentication succeeded");
}
return true;
} catch (LoginException le) {
cleanState();
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"authentication failed");
}
throw le;
}
}
Complete user authentication.
This method is called if the LoginContext's
overall authentication succeeded
(the relevant REQUIRED, REQUISITE, SUFFICIENT and OPTIONAL LoginModules
succeeded).
If this LoginModule's own authentication attempt succeeded (checked by retrieving the private state saved by the login method), then this method associates an LdapPrincipal and one or more UserPrincipals with the Subject located in the LoginModule. If this LoginModule's own authentication attempted failed, then this method removes any state that was originally saved.
Throws: - LoginException – if the commit fails
Returns: true if this LoginModule's own login and commit
attempts succeeded, or false otherwise.
/**
* Complete user authentication.
*
* <p> This method is called if the LoginContext's
* overall authentication succeeded
* (the relevant REQUIRED, REQUISITE, SUFFICIENT and OPTIONAL LoginModules
* succeeded).
*
* <p> If this LoginModule's own authentication attempt
* succeeded (checked by retrieving the private state saved by the
* {@code login} method), then this method associates an
* {@code LdapPrincipal} and one or more {@code UserPrincipal}s
* with the {@code Subject} located in the
* {@code LoginModule}. If this LoginModule's own
* authentication attempted failed, then this method removes
* any state that was originally saved.
*
* @exception LoginException if the commit fails
* @return true if this LoginModule's own login and commit
* attempts succeeded, or false otherwise.
*/
public boolean commit() throws LoginException {
if (succeeded == false) {
return false;
} else {
if (subject.isReadOnly()) {
cleanState();
throw new LoginException ("Subject is read-only");
}
// add Principals to the Subject
Set<Principal> principals = subject.getPrincipals();
if (! principals.contains(ldapPrincipal)) {
principals.add(ldapPrincipal);
}
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"added LdapPrincipal \"" +
ldapPrincipal +
"\" to Subject");
}
if (! principals.contains(userPrincipal)) {
principals.add(userPrincipal);
}
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"added UserPrincipal \"" +
userPrincipal +
"\" to Subject");
}
if (authzPrincipal != null &&
(! principals.contains(authzPrincipal))) {
principals.add(authzPrincipal);
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"added UserPrincipal \"" +
authzPrincipal +
"\" to Subject");
}
}
}
// in any case, clean out state
cleanState();
commitSucceeded = true;
return true;
}
Abort user authentication.
This method is called if the overall authentication failed.
(the relevant REQUIRED, REQUISITE, SUFFICIENT and OPTIONAL LoginModules
did not succeed).
If this LoginModule's own authentication attempt succeeded (checked by retrieving the private state saved by the login and commit methods), then this method cleans up any state that was originally saved.
Throws: - LoginException – if the abort fails.
Returns: false if this LoginModule's own login and/or commit attempts
failed, and true otherwise.
/**
* Abort user authentication.
*
* <p> This method is called if the overall authentication failed.
* (the relevant REQUIRED, REQUISITE, SUFFICIENT and OPTIONAL LoginModules
* did not succeed).
*
* <p> If this LoginModule's own authentication attempt
* succeeded (checked by retrieving the private state saved by the
* {@code login} and {@code commit} methods),
* then this method cleans up any state that was originally saved.
*
* @exception LoginException if the abort fails.
* @return false if this LoginModule's own login and/or commit attempts
* failed, and true otherwise.
*/
public boolean abort() throws LoginException {
if (debug)
System.out.println("\t\t[LdapLoginModule] " +
"aborted authentication");
if (succeeded == false) {
return false;
} else if (succeeded == true && commitSucceeded == false) {
// Clean out state
succeeded = false;
cleanState();
ldapPrincipal = null;
userPrincipal = null;
authzPrincipal = null;
} else {
// overall authentication succeeded and commit succeeded,
// but someone else's commit failed
logout();
}
return true;
}
Logout a user.
This method removes the Principals that were added by the commit method.
Throws: - LoginException – if the logout fails.
Returns: true in all cases since this LoginModule should not be ignored.
/**
* Logout a user.
*
* <p> This method removes the Principals
* that were added by the {@code commit} method.
*
* @exception LoginException if the logout fails.
* @return true in all cases since this {@code LoginModule}
* should not be ignored.
*/
public boolean logout() throws LoginException {
if (subject.isReadOnly()) {
cleanState();
throw new LoginException ("Subject is read-only");
}
Set<Principal> principals = subject.getPrincipals();
principals.remove(ldapPrincipal);
principals.remove(userPrincipal);
if (authzIdentity != null) {
principals.remove(authzPrincipal);
}
// clean out state
cleanState();
succeeded = false;
commitSucceeded = false;
ldapPrincipal = null;
userPrincipal = null;
authzPrincipal = null;
if (debug) {
System.out.println("\t\t[LdapLoginModule] logged out Subject");
}
return true;
}
Attempt authentication
Params: - getPasswdFromSharedState – boolean that tells this method whether
to retrieve the password from the sharedState.
Throws: - LoginException – if the authentication attempt fails.
/**
* Attempt authentication
*
* @param getPasswdFromSharedState boolean that tells this method whether
* to retrieve the password from the sharedState.
* @exception LoginException if the authentication attempt fails.
*/
private void attemptAuthentication(boolean getPasswdFromSharedState)
throws LoginException {
// first get the username and password
getUsernamePassword(getPasswdFromSharedState);
if (password == null || password.length == 0) {
throw (LoginException)
new FailedLoginException("No password was supplied");
}
String dn = "";
if (authFirst || authOnly) {
String id =
replaceUsernameToken(identityMatcher, authcIdentity, username);
// Prepare to bind using user's username and password
ldapEnvironment.put(Context.SECURITY_CREDENTIALS, password);
ldapEnvironment.put(Context.SECURITY_PRINCIPAL, id);
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"attempting to authenticate user: " + username);
}
try {
// Connect to the LDAP server (using simple bind)
ctx = new InitialLdapContext(ldapEnvironment, null);
} catch (NamingException e) {
throw (LoginException)
new FailedLoginException("Cannot bind to LDAP server")
.initCause(e);
}
// Authentication has succeeded
// Locate the user's distinguished name
if (userFilter != null) {
dn = findUserDN(ctx);
} else {
dn = id;
}
} else {
try {
// Connect to the LDAP server (using anonymous bind)
ctx = new InitialLdapContext(ldapEnvironment, null);
} catch (NamingException e) {
throw (LoginException)
new FailedLoginException("Cannot connect to LDAP server")
.initCause(e);
}
// Locate the user's distinguished name
dn = findUserDN(ctx);
try {
// Prepare to bind using user's distinguished name and password
ctx.addToEnvironment(Context.SECURITY_AUTHENTICATION, "simple");
ctx.addToEnvironment(Context.SECURITY_PRINCIPAL, dn);
ctx.addToEnvironment(Context.SECURITY_CREDENTIALS, password);
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"attempting to authenticate user: " + username);
}
// Connect to the LDAP server (using simple bind)
ctx.reconnect(null);
// Authentication has succeeded
} catch (NamingException e) {
throw (LoginException)
new FailedLoginException("Cannot bind to LDAP server")
.initCause(e);
}
}
// Save input as shared state only if authentication succeeded
if (storePass &&
!sharedState.containsKey(USERNAME_KEY) &&
!sharedState.containsKey(PASSWORD_KEY)) {
sharedState.put(USERNAME_KEY, username);
sharedState.put(PASSWORD_KEY, password);
}
// Create the user principals
userPrincipal = new UserPrincipal(username);
if (authzIdentity != null) {
authzPrincipal = new UserPrincipal(authzIdentity);
}
try {
ldapPrincipal = new LdapPrincipal(dn);
} catch (InvalidNameException e) {
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"cannot create LdapPrincipal: bad DN");
}
throw (LoginException)
new FailedLoginException("Cannot create LdapPrincipal")
.initCause(e);
}
}
Search for the user's entry.
Determine the distinguished name of the user's entry and optionally
an authorization identity for the user.
Params: - ctx – an LDAP context to use for the search
Throws: - LoginException – if the user's entry cannot be found.
Returns: the user's distinguished name or an empty string if none
was found.
/**
* Search for the user's entry.
* Determine the distinguished name of the user's entry and optionally
* an authorization identity for the user.
*
* @param ctx an LDAP context to use for the search
* @return the user's distinguished name or an empty string if none
* was found.
* @exception LoginException if the user's entry cannot be found.
*/
private String findUserDN(LdapContext ctx) throws LoginException {
String userDN = "";
// Locate the user's LDAP entry
if (userFilter != null) {
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"searching for entry belonging to user: " + username);
}
} else {
if (debug) {
System.out.println("\t\t[LdapLoginModule] " +
"cannot search for entry belonging to user: " + username);
}
throw (LoginException)
new FailedLoginException("Cannot find user's LDAP entry");
}
try {
// Sanitize username and substitute into LDAP filter
String canonicalUserFilter =
replaceUsernameToken(filterMatcher, userFilter,
escapeUsernameChars());
NamingEnumeration<SearchResult> results =
ctx.search("", canonicalUserFilter, constraints);
// Extract the distinguished name of the user's entry
// (Use the first entry if more than one is returned)
if (results.hasMore()) {
SearchResult entry = results.next();
userDN = entry.getNameInNamespace();
if (debug) {
System.out.println("\t\t[LdapLoginModule] found entry: " +
userDN);
}
// Extract a value from user's authorization identity attribute
if (authzIdentityAttr != null) {
Attribute attr =
entry.getAttributes().get(authzIdentityAttr);
if (attr != null) {
Object val = attr.get();
if (val instanceof String) {
authzIdentity = (String) val;
}
}
}
results.close();
} else {
// Bad username
if (debug) {
System.out.println("\t\t[LdapLoginModule] user's entry " +
"not found");
}
}
} catch (NamingException e) {
// ignore
}
if (userDN.equals("")) {
throw (LoginException)
new FailedLoginException("Cannot find user's LDAP entry");
} else {
return userDN;
}
}
Modify the supplied username to encode characters that must be escaped
according to RFC 4515: LDAP: String Representation of Search Filters.
The following characters are encoded as a backslash "\" (ASCII 0x5c)
followed by the two hexadecimal digits representing the value of the
escaped character:
'*' (ASCII 0x2a)
'(' (ASCII 0x28)
')' (ASCII 0x29)
'\' (ASCII 0x5c)
'\0'(ASCII 0x00)
Returns: the modified username with its characters escaped as needed
/**
* Modify the supplied username to encode characters that must be escaped
* according to RFC 4515: LDAP: String Representation of Search Filters.
*
* The following characters are encoded as a backslash "\" (ASCII 0x5c)
* followed by the two hexadecimal digits representing the value of the
* escaped character:
* '*' (ASCII 0x2a)
* '(' (ASCII 0x28)
* ')' (ASCII 0x29)
* '\' (ASCII 0x5c)
* '\0'(ASCII 0x00)
*
* @return the modified username with its characters escaped as needed
*/
private String escapeUsernameChars() {
int len = username.length();
StringBuilder escapedUsername = new StringBuilder(len + 16);
for (int i = 0; i < len; i++) {
char c = username.charAt(i);
switch (c) {
case '*':
escapedUsername.append("\\\\2A");
break;
case '(':
escapedUsername.append("\\\\28");
break;
case ')':
escapedUsername.append("\\\\29");
break;
case '\\':
escapedUsername.append("\\\\5C");
break;
case '\0':
escapedUsername.append("\\\\00");
break;
default:
escapedUsername.append(c);
}
}
return escapedUsername.toString();
}
Replace the username token
Params: - matcher – the replacement pattern
- string – the target string
- username – the supplied username
Returns: the modified string
/**
* Replace the username token
*
* @param matcher the replacement pattern
* @param string the target string
* @param username the supplied username
* @return the modified string
*/
private String replaceUsernameToken(Matcher matcher, String string,
String username) {
return matcher != null ? matcher.replaceAll(username) : string;
}
Get the username and password.
This method does not return any value.
Instead, it sets global name and password variables.
Also note that this method will set the username and password
values in the shared state in case subsequent LoginModules
want to use them via use/tryFirstPass.
Params: - getPasswdFromSharedState – boolean that tells this method whether
to retrieve the password from the sharedState.
Throws: - LoginException – if the username/password cannot be acquired.
/**
* Get the username and password.
* This method does not return any value.
* Instead, it sets global name and password variables.
*
* <p> Also note that this method will set the username and password
* values in the shared state in case subsequent LoginModules
* want to use them via use/tryFirstPass.
*
* @param getPasswdFromSharedState boolean that tells this method whether
* to retrieve the password from the sharedState.
* @exception LoginException if the username/password cannot be acquired.
*/
private void getUsernamePassword(boolean getPasswdFromSharedState)
throws LoginException {
if (getPasswdFromSharedState) {
// use the password saved by the first module in the stack
username = (String)sharedState.get(USERNAME_KEY);
password = (char[])sharedState.get(PASSWORD_KEY);
return;
}
// prompt for a username and password
if (callbackHandler == null)
throw new LoginException("No CallbackHandler available " +
"to acquire authentication information from the user");
Callback[] callbacks = new Callback[2];
callbacks[0] = new NameCallback(getAuthResourceString("username."));
callbacks[1] = new PasswordCallback(getAuthResourceString("password."), false);
try {
callbackHandler.handle(callbacks);
username = ((NameCallback)callbacks[0]).getName();
char[] tmpPassword = ((PasswordCallback)callbacks[1]).getPassword();
password = new char[tmpPassword.length];
System.arraycopy(tmpPassword, 0,
password, 0, tmpPassword.length);
((PasswordCallback)callbacks[1]).clearPassword();
} catch (java.io.IOException ioe) {
throw new LoginException(ioe.toString());
} catch (UnsupportedCallbackException uce) {
throw new LoginException("Error: " + uce.getCallback().toString() +
" not available to acquire authentication information" +
" from the user");
}
}
Clean out state because of a failed authentication attempt
/**
* Clean out state because of a failed authentication attempt
*/
private void cleanState() {
username = null;
if (password != null) {
Arrays.fill(password, ' ');
password = null;
}
try {
if (ctx != null) {
ctx.close();
}
} catch (NamingException e) {
// ignore
}
ctx = null;
if (clearPass) {
sharedState.remove(USERNAME_KEY);
sharedState.remove(PASSWORD_KEY);
}
}
}