SASLMechanism.java
/**
*
* Copyright 2003-2007 Jive Software, 2014-2019 Florian Schmaus
*
* Licensed 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.jivesoftware.smack.sasl;
import java.text.Normalizer;
import java.text.Normalizer.Form;
import javax.net.ssl.SSLSession;
import javax.security.auth.callback.CallbackHandler;
import org.jivesoftware.smack.ConnectionConfiguration;
import org.jivesoftware.smack.SmackException.NoResponseException;
import org.jivesoftware.smack.SmackException.NotConnectedException;
import org.jivesoftware.smack.SmackException.SmackSaslException;
import org.jivesoftware.smack.XMPPConnection;
import org.jivesoftware.smack.sasl.packet.SaslNonza.AuthMechanism;
import org.jivesoftware.smack.sasl.packet.SaslNonza.Response;
import org.jivesoftware.smack.util.StringUtils;
import org.jivesoftware.smack.util.stringencoder.Base64;
import org.jxmpp.jid.DomainBareJid;
import org.jxmpp.jid.EntityBareJid;
/**
* Base class for SASL mechanisms.
* Subclasses will likely want to implement their own versions of these methods:
* <ul>
* <li>{@link #authenticate(String, String, DomainBareJid, String, EntityBareJid, SSLSession)} -- Initiate authentication stanza using the
* deprecated method.</li>
* <li>{@link #authenticate(String, DomainBareJid, CallbackHandler, EntityBareJid, SSLSession)} -- Initiate authentication stanza
* using the CallbackHandler method.</li>
* <li>{@link #challengeReceived(String, boolean)} -- Handle a challenge from the server.</li>
* </ul>
*
* @author Jay Kline
* @author Florian Schmaus
*/
public abstract class SASLMechanism implements Comparable<SASLMechanism> {
public static final String CRAMMD5 = "CRAM-MD5";
public static final String DIGESTMD5 = "DIGEST-MD5";
public static final String EXTERNAL = "EXTERNAL";
public static final String GSSAPI = "GSSAPI";
public static final String PLAIN = "PLAIN";
/**
* Boolean indicating if SASL negotiation has finished and was successful.
*/
private boolean authenticationSuccessful;
/**
* Either of type {@link SmackSaslException},{@link SASLErrorException}, {@link NotConnectedException} or
* {@link InterruptedException}.
*/
private Exception exception;
protected XMPPConnection connection;
protected ConnectionConfiguration connectionConfiguration;
/**
* Then authentication identity (authcid). RFC 6120 § 6.3.7 informs us that some SASL mechanisms use this as a
* "simple user name". But the exact form is a matter of the mechanism and that it does not necessarily map to an
* localpart. But it usually is the localpart of the client JID, although sometimes other formats are used (e.g. the
* full JID).
* <p>
* Not to be confused with the authzid (see RFC 6120 § 6.3.8).
* </p>
*/
protected String authenticationId;
/**
* The authorization identifier (authzid).
* This is always a bare Jid, but can be null.
*/
protected EntityBareJid authorizationId;
/**
* The name of the XMPP service
*/
protected DomainBareJid serviceName;
/**
* The users password
*/
protected String password;
protected String host;
/**
* The used SSL/TLS session (if any).
*/
protected SSLSession sslSession;
/**
* Builds and sends the <code>auth</code> stanza to the server. Note that this method of
* authentication is not recommended, since it is very inflexible. Use
* {@link #authenticate(String, DomainBareJid, CallbackHandler, EntityBareJid, SSLSession)} whenever possible.
*
* Explanation of auth stanza:
*
* The client authentication stanza needs to include the digest-uri of the form: xmpp/serviceName
* From RFC-2831:
* digest-uri = "digest-uri" "=" digest-uri-value
* digest-uri-value = serv-type "/" host [ "/" serv-name ]
*
* digest-uri:
* Indicates the principal name of the service with which the client
* wishes to connect, formed from the serv-type, host, and serv-name.
* For example, the FTP service
* on "ftp.example.com" would have a "digest-uri" value of "ftp/ftp.example.com"; the SMTP
* server from the example above would have a "digest-uri" value of
* "smtp/mail3.example.com/example.com".
*
* host:
* The DNS host name or IP address for the service requested. The DNS host name
* must be the fully-qualified canonical name of the host. The DNS host name is the
* preferred form; see notes on server processing of the digest-uri.
*
* serv-name:
* Indicates the name of the service if it is replicated. The service is
* considered to be replicated if the client's service-location process involves resolution
* using standard DNS lookup operations, and if these operations involve DNS records (such
* as SRV, or MX) which resolve one DNS name into a set of other DNS names. In this case,
* the initial name used by the client is the "serv-name", and the final name is the "host"
* component. For example, the incoming mail service for "example.com" may be replicated
* through the use of MX records stored in the DNS, one of which points at an SMTP server
* called "mail3.example.com"; it's "serv-name" would be "example.com", it's "host" would be
* "mail3.example.com". If the service is not replicated, or the serv-name is identical to
* the host, then the serv-name component MUST be omitted
*
* digest-uri verification is needed for ejabberd 2.0.3 and higher
*
* @param username the username of the user being authenticated.
* @param host the hostname where the user account resides.
* @param serviceName the xmpp service location - used by the SASL client in digest-uri creation
* serviceName format is: host [ "/" serv-name ] as per RFC-2831
* @param password the password for this account.
* @param authzid the optional authorization identity.
* @param sslSession the optional SSL/TLS session (if one was established)
* @throws SmackSaslException if a SASL related error occurs.
* @throws NotConnectedException if the XMPP connection is not connected.
* @throws InterruptedException if the calling thread was interrupted.
*/
public final void authenticate(String username, String host, DomainBareJid serviceName, String password,
EntityBareJid authzid, SSLSession sslSession)
throws SmackSaslException, NotConnectedException, InterruptedException {
this.authenticationId = username;
this.host = host;
this.serviceName = serviceName;
this.password = password;
this.authorizationId = authzid;
this.sslSession = sslSession;
assert authorizationId == null || authzidSupported();
authenticateInternal();
authenticate();
}
protected void authenticateInternal() throws SmackSaslException {
}
/**
* Builds and sends the <code>auth</code> stanza to the server. The callback handler will handle
* any additional information, such as the authentication ID or realm, if it is needed.
*
* @param host the hostname where the user account resides.
* @param serviceName the xmpp service location
* @param cbh the CallbackHandler to obtain user information.
* @param authzid the optional authorization identity.
* @param sslSession the optional SSL/TLS session (if one was established)
* @throws SmackSaslException if a SASL related error occurs.
* @throws NotConnectedException if the XMPP connection is not connected.
* @throws InterruptedException if the calling thread was interrupted.
*/
public void authenticate(String host, DomainBareJid serviceName, CallbackHandler cbh, EntityBareJid authzid, SSLSession sslSession)
throws SmackSaslException, NotConnectedException, InterruptedException {
this.host = host;
this.serviceName = serviceName;
this.authorizationId = authzid;
this.sslSession = sslSession;
assert authorizationId == null || authzidSupported();
authenticateInternal(cbh);
authenticate();
}
protected abstract void authenticateInternal(CallbackHandler cbh) throws SmackSaslException;
private void authenticate() throws SmackSaslException, NotConnectedException, InterruptedException {
byte[] authenticationBytes = getAuthenticationText();
String authenticationText;
// Some SASL mechanisms do return an empty array (e.g. EXTERNAL from javax), so check that
// the array is not-empty. Mechanisms are allowed to return either 'null' or an empty array
// if there is no authentication text.
if (authenticationBytes != null && authenticationBytes.length > 0) {
authenticationText = Base64.encodeToString(authenticationBytes);
} else {
// RFC6120 6.4.2 "If the initiating entity needs to send a zero-length initial response,
// it MUST transmit the response as a single equals sign character ("="), which
// indicates that the response is present but contains no data."
authenticationText = "=";
}
// Send the authentication to the server
connection.sendNonza(new AuthMechanism(getName(), authenticationText));
}
/**
* Should return the initial response of the SASL mechanism. The returned byte array will be
* send base64 encoded to the server. SASL mechanism are free to return <code>null</code> or an
* empty array here.
*
* @return the initial response or null
* @throws SmackSaslException if a SASL specific error occurred.
*/
protected abstract byte[] getAuthenticationText() throws SmackSaslException;
/**
* The server is challenging the SASL mechanism for the stanza he just sent. Send a
* response to the server's challenge.
*
* @param challengeString a base64 encoded string representing the challenge.
* @param finalChallenge true if this is the last challenge send by the server within the success stanza
* @throws SmackSaslException if a SASL related error occurs.
* @throws InterruptedException if the connection is interrupted
* @throws NotConnectedException if the XMPP connection is not connected.
*/
public final void challengeReceived(String challengeString, boolean finalChallenge) throws SmackSaslException, InterruptedException, NotConnectedException {
byte[] challenge = Base64.decode((challengeString != null && challengeString.equals("=")) ? "" : challengeString);
byte[] response = evaluateChallenge(challenge);
if (finalChallenge) {
return;
}
Response responseStanza;
if (response == null) {
responseStanza = new Response();
}
else {
responseStanza = new Response(Base64.encodeToString(response));
}
// Send the authentication to the server
connection.sendNonza(responseStanza);
}
/**
* Evaluate the SASL challenge.
*
* @param challenge challenge to evaluate.
*
* @return null.
* @throws SmackSaslException If a SASL related error occurs.
*/
protected byte[] evaluateChallenge(byte[] challenge) throws SmackSaslException {
return null;
}
@Override
public final int compareTo(SASLMechanism other) {
Integer ourPriority = getPriority();
return Integer.compare(ourPriority, other.getPriority());
}
/**
* Returns the common name of the SASL mechanism. E.g.: PLAIN, DIGEST-MD5 or GSSAPI.
*
* @return the common name of the SASL mechanism.
*/
public abstract String getName();
/**
* Get the priority of this SASL mechanism. Lower values mean higher priority.
*
* @return the priority of this SASL mechanism.
*/
public abstract int getPriority();
/**
* Check if the SASL mechanism was successful and if it was, then mark it so.
*
* @throws SmackSaslException in case of an SASL error.
*/
public final void afterFinalSaslChallenge() throws SmackSaslException {
checkIfSuccessfulOrThrow();
authenticationSuccessful = true;
}
protected abstract void checkIfSuccessfulOrThrow() throws SmackSaslException;
public SASLMechanism instanceForAuthentication(XMPPConnection connection, ConnectionConfiguration connectionConfiguration) {
SASLMechanism saslMechansim = newInstance();
saslMechansim.connection = connection;
saslMechansim.connectionConfiguration = connectionConfiguration;
return saslMechansim;
}
public boolean authzidSupported() {
return false;
}
public boolean isAuthenticationSuccessful() {
return authenticationSuccessful;
}
public boolean isFinished() {
return isAuthenticationSuccessful() || exception != null;
}
public void throwExceptionIfRequired() throws SmackSaslException, SASLErrorException, NotConnectedException,
InterruptedException, NoResponseException {
if (exception != null) {
if (exception instanceof SmackSaslException) {
throw (SmackSaslException) exception;
} else if (exception instanceof SASLErrorException) {
throw (SASLErrorException) exception;
} else if (exception instanceof NotConnectedException) {
throw (NotConnectedException) exception;
} else if (exception instanceof InterruptedException) {
throw (InterruptedException) exception;
} else {
throw new IllegalStateException("Unexpected exception type", exception);
}
}
if (!authenticationSuccessful) {
throw NoResponseException.newWith(connection, "successful SASL authentication");
}
}
public void setException(Exception exception) {
this.exception = exception;
}
protected abstract SASLMechanism newInstance();
protected static byte[] toBytes(String string) {
return StringUtils.toUtf8Bytes(string);
}
/**
* SASLprep the given String. The resulting String is in UTF-8.
*
* @param string the String to sasl prep.
* @return the given String SASL preped
* @see <a href="http://tools.ietf.org/html/rfc4013">RFC 4013 - SASLprep: Stringprep Profile for User Names and Passwords</a>
*/
protected static String saslPrep(String string) {
return Normalizer.normalize(string, Form.NFKC);
}
@Override
public final String toString() {
return "SASL Mech: " + getName() + ", Prio: " + getPriority();
}
}