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Smack/source/org/jivesoftware/smack/ConnectionConfiguration.java

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/**
* $RCSfile$
* $Revision: 3306 $
* $Date: 2006-01-16 14:34:56 -0300 (Mon, 16 Jan 2006) $
*
* Copyright 2003-2007 Jive Software.
*
* All rights reserved. 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;
import org.jivesoftware.smack.proxy.ProxyInfo;
import org.jivesoftware.smack.util.DNSUtil;
import org.jivesoftware.smack.util.dns.HostAddress;
import javax.net.SocketFactory;
import javax.net.ssl.SSLContext;
import javax.security.auth.callback.CallbackHandler;
import java.io.File;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
/**
* Configuration to use while establishing the connection to the server. It is possible to
* configure the path to the trustore file that keeps the trusted CA root certificates and
* enable or disable all or some of the checkings done while verifying server certificates.<p>
*
* It is also possible to configure if TLS, SASL, and compression are used or not.
*
* @author Gaston Dombiak
*/
public class ConnectionConfiguration implements Cloneable {
/**
* Hostname of the XMPP server. Usually servers use the same service name as the name
* of the server. However, there are some servers like google where host would be
* talk.google.com and the serviceName would be gmail.com.
*/
private String serviceName;
private String host;
private int port;
protected List<HostAddress> hostAddresses;
private String truststorePath;
private String truststoreType;
private String truststorePassword;
private String keystorePath;
private String keystoreType;
private String pkcs11Library;
private boolean verifyChainEnabled = false;
private boolean verifyRootCAEnabled = false;
private boolean selfSignedCertificateEnabled = false;
private boolean expiredCertificatesCheckEnabled = false;
private boolean notMatchingDomainCheckEnabled = false;
private SSLContext customSSLContext;
private boolean compressionEnabled = false;
private boolean saslAuthenticationEnabled = true;
/**
* Used to get information from the user
*/
private CallbackHandler callbackHandler;
private boolean debuggerEnabled = Connection.DEBUG_ENABLED;
// Flag that indicates if a reconnection should be attempted when abruptly disconnected
private boolean reconnectionAllowed = true;
// Holds the socket factory that is used to generate the socket in the connection
private SocketFactory socketFactory;
// Holds the authentication information for future reconnections
private String username;
private String password;
private String resource;
private boolean sendPresence = true;
private boolean rosterLoadedAtLogin = true;
private SecurityMode securityMode = SecurityMode.enabled;
// Holds the proxy information (such as proxyhost, proxyport, username, password etc)
protected ProxyInfo proxy;
/**
* Creates a new ConnectionConfiguration for the specified service name.
* A DNS SRV lookup will be performed to find out the actual host address
* and port to use for the connection.
*
* @param serviceName the name of the service provided by an XMPP server.
*/
public ConnectionConfiguration(String serviceName) {
// Perform DNS lookup to get host and port to use
hostAddresses = DNSUtil.resolveXMPPDomain(serviceName);
init(serviceName, ProxyInfo.forDefaultProxy());
}
/**
* Creates a new ConnectionConfiguration for the specified service name
* with specified proxy.
* A DNS SRV lookup will be performed to find out the actual host address
* and port to use for the connection.
*
* @param serviceName the name of the service provided by an XMPP server.
* @param proxy the proxy through which XMPP is to be connected
*/
public ConnectionConfiguration(String serviceName,ProxyInfo proxy) {
// Perform DNS lookup to get host and port to use
hostAddresses = DNSUtil.resolveXMPPDomain(serviceName);
init(serviceName, proxy);
}
/**
* Creates a new ConnectionConfiguration using the specified host, port and
* service name. This is useful for manually overriding the DNS SRV lookup
* process that's used with the {@link #ConnectionConfiguration(String)}
* constructor. For example, say that an XMPP server is running at localhost
* in an internal network on port 5222 but is configured to think that it's
* "example.com" for testing purposes. This constructor is necessary to connect
* to the server in that case since a DNS SRV lookup for example.com would not
* point to the local testing server.
*
* @param host the host where the XMPP server is running.
* @param port the port where the XMPP is listening.
* @param serviceName the name of the service provided by an XMPP server.
*/
public ConnectionConfiguration(String host, int port, String serviceName) {
initHostAddresses(host, port);
init(serviceName, ProxyInfo.forDefaultProxy());
}
/**
* Creates a new ConnectionConfiguration using the specified host, port and
* service name. This is useful for manually overriding the DNS SRV lookup
* process that's used with the {@link #ConnectionConfiguration(String)}
* constructor. For example, say that an XMPP server is running at localhost
* in an internal network on port 5222 but is configured to think that it's
* "example.com" for testing purposes. This constructor is necessary to connect
* to the server in that case since a DNS SRV lookup for example.com would not
* point to the local testing server.
*
* @param host the host where the XMPP server is running.
* @param port the port where the XMPP is listening.
* @param serviceName the name of the service provided by an XMPP server.
* @param proxy the proxy through which XMPP is to be connected
*/
public ConnectionConfiguration(String host, int port, String serviceName, ProxyInfo proxy) {
initHostAddresses(host, port);
init(serviceName, proxy);
}
/**
* Creates a new ConnectionConfiguration for a connection that will connect
* to the desired host and port.
*
* @param host the host where the XMPP server is running.
* @param port the port where the XMPP is listening.
*/
public ConnectionConfiguration(String host, int port) {
initHostAddresses(host, port);
init(host, ProxyInfo.forDefaultProxy());
}
/**
* Creates a new ConnectionConfiguration for a connection that will connect
* to the desired host and port with desired proxy.
*
* @param host the host where the XMPP server is running.
* @param port the port where the XMPP is listening.
* @param proxy the proxy through which XMPP is to be connected
*/
public ConnectionConfiguration(String host, int port, ProxyInfo proxy) {
initHostAddresses(host, port);
init(host, proxy);
}
protected void init(String serviceName, ProxyInfo proxy) {
this.serviceName = serviceName;
this.proxy = proxy;
// Build the default path to the cacert truststore file. By default we are
// going to use the file located in $JREHOME/lib/security/cacerts.
String javaHome = System.getProperty("java.home");
StringBuilder buffer = new StringBuilder();
buffer.append(javaHome).append(File.separator).append("lib");
buffer.append(File.separator).append("security");
buffer.append(File.separator).append("cacerts");
truststorePath = buffer.toString();
// Set the default store type
truststoreType = "jks";
// Set the default password of the cacert file that is "changeit"
truststorePassword = "changeit";
keystorePath = System.getProperty("javax.net.ssl.keyStore");
keystoreType = "jks";
pkcs11Library = "pkcs11.config";
//Setting the SocketFactory according to proxy supplied
socketFactory = proxy.getSocketFactory();
}
/**
* Sets the server name, also known as XMPP domain of the target server.
*
* @param serviceName the XMPP domain of the target server.
*/
public void setServiceName(String serviceName) {
this.serviceName = serviceName;
}
/**
* Returns the server name of the target server.
*
* @return the server name of the target server.
*/
public String getServiceName() {
return serviceName;
}
/**
* Returns the host to use when establishing the connection. The host and port to use
* might have been resolved by a DNS lookup as specified by the XMPP spec (and therefore
* may not match the {@link #getServiceName service name}.
*
* @return the host to use when establishing the connection.
*/
public String getHost() {
return host;
}
/**
* Returns the port to use when establishing the connection. The host and port to use
* might have been resolved by a DNS lookup as specified by the XMPP spec.
*
* @return the port to use when establishing the connection.
*/
public int getPort() {
return port;
}
public void setUsedHostAddress(HostAddress hostAddress) {
this.host = hostAddress.getFQDN();
this.port = hostAddress.getPort();
}
/**
* Returns the TLS security mode used when making the connection. By default,
* the mode is {@link SecurityMode#enabled}.
*
* @return the security mode.
*/
public SecurityMode getSecurityMode() {
return securityMode;
}
/**
* Sets the TLS security mode used when making the connection. By default,
* the mode is {@link SecurityMode#enabled}.
*
* @param securityMode the security mode.
*/
public void setSecurityMode(SecurityMode securityMode) {
this.securityMode = securityMode;
}
/**
* Retuns the path to the trust store file. The trust store file contains the root
* certificates of several well known CAs. By default, will attempt to use the
* the file located in $JREHOME/lib/security/cacerts.
*
* @return the path to the truststore file.
*/
public String getTruststorePath() {
return truststorePath;
}
/**
* Sets the path to the trust store file. The truststore file contains the root
* certificates of several well?known CAs. By default Smack is going to use
* the file located in $JREHOME/lib/security/cacerts.
*
* @param truststorePath the path to the truststore file.
*/
public void setTruststorePath(String truststorePath) {
this.truststorePath = truststorePath;
}
/**
* Returns the trust store type, or <tt>null</tt> if it's not set.
*
* @return the trust store type.
*/
public String getTruststoreType() {
return truststoreType;
}
/**
* Sets the trust store type.
*
* @param truststoreType the trust store type.
*/
public void setTruststoreType(String truststoreType) {
this.truststoreType = truststoreType;
}
/**
* Returns the password to use to access the trust store file. It is assumed that all
* certificates share the same password in the trust store.
*
* @return the password to use to access the truststore file.
*/
public String getTruststorePassword() {
return truststorePassword;
}
/**
* Sets the password to use to access the trust store file. It is assumed that all
* certificates share the same password in the trust store.
*
* @param truststorePassword the password to use to access the truststore file.
*/
public void setTruststorePassword(String truststorePassword) {
this.truststorePassword = truststorePassword;
}
/**
* Retuns the path to the keystore file. The key store file contains the
* certificates that may be used to authenticate the client to the server,
* in the event the server requests or requires it.
*
* @return the path to the keystore file.
*/
public String getKeystorePath() {
return keystorePath;
}
/**
* Sets the path to the keystore file. The key store file contains the
* certificates that may be used to authenticate the client to the server,
* in the event the server requests or requires it.
*
* @param keystorePath the path to the keystore file.
*/
public void setKeystorePath(String keystorePath) {
this.keystorePath = keystorePath;
}
/**
* Returns the keystore type, or <tt>null</tt> if it's not set.
*
* @return the keystore type.
*/
public String getKeystoreType() {
return keystoreType;
}
/**
* Sets the keystore type.
*
* @param keystoreType the keystore type.
*/
public void setKeystoreType(String keystoreType) {
this.keystoreType = keystoreType;
}
/**
* Returns the PKCS11 library file location, needed when the
* Keystore type is PKCS11.
*
* @return the path to the PKCS11 library file
*/
public String getPKCS11Library() {
return pkcs11Library;
}
/**
* Sets the PKCS11 library file location, needed when the
* Keystore type is PKCS11
*
* @param pkcs11Library the path to the PKCS11 library file
*/
public void setPKCS11Library(String pkcs11Library) {
this.pkcs11Library = pkcs11Library;
}
/**
* Returns true if the whole chain of certificates presented by the server are going to
* be checked. By default the certificate chain is not verified.
*
* @return true if the whole chaing of certificates presented by the server are going to
* be checked.
*/
public boolean isVerifyChainEnabled() {
return verifyChainEnabled;
}
/**
* Sets if the whole chain of certificates presented by the server are going to
* be checked. By default the certificate chain is not verified.
*
* @param verifyChainEnabled if the whole chaing of certificates presented by the server
* are going to be checked.
*/
public void setVerifyChainEnabled(boolean verifyChainEnabled) {
this.verifyChainEnabled = verifyChainEnabled;
}
/**
* Returns true if root CA checking is going to be done. By default checking is disabled.
*
* @return true if root CA checking is going to be done.
*/
public boolean isVerifyRootCAEnabled() {
return verifyRootCAEnabled;
}
/**
* Sets if root CA checking is going to be done. By default checking is disabled.
*
* @param verifyRootCAEnabled if root CA checking is going to be done.
*/
public void setVerifyRootCAEnabled(boolean verifyRootCAEnabled) {
this.verifyRootCAEnabled = verifyRootCAEnabled;
}
/**
* Returns true if self-signed certificates are going to be accepted. By default
* this option is disabled.
*
* @return true if self-signed certificates are going to be accepted.
*/
public boolean isSelfSignedCertificateEnabled() {
return selfSignedCertificateEnabled;
}
/**
* Sets if self-signed certificates are going to be accepted. By default
* this option is disabled.
*
* @param selfSignedCertificateEnabled if self-signed certificates are going to be accepted.
*/
public void setSelfSignedCertificateEnabled(boolean selfSignedCertificateEnabled) {
this.selfSignedCertificateEnabled = selfSignedCertificateEnabled;
}
/**
* Returns true if certificates presented by the server are going to be checked for their
* validity. By default certificates are not verified.
*
* @return true if certificates presented by the server are going to be checked for their
* validity.
*/
public boolean isExpiredCertificatesCheckEnabled() {
return expiredCertificatesCheckEnabled;
}
/**
* Sets if certificates presented by the server are going to be checked for their
* validity. By default certificates are not verified.
*
* @param expiredCertificatesCheckEnabled if certificates presented by the server are going
* to be checked for their validity.
*/
public void setExpiredCertificatesCheckEnabled(boolean expiredCertificatesCheckEnabled) {
this.expiredCertificatesCheckEnabled = expiredCertificatesCheckEnabled;
}
/**
* Returns true if certificates presented by the server are going to be checked for their
* domain. By default certificates are not verified.
*
* @return true if certificates presented by the server are going to be checked for their
* domain.
*/
public boolean isNotMatchingDomainCheckEnabled() {
return notMatchingDomainCheckEnabled;
}
/**
* Sets if certificates presented by the server are going to be checked for their
* domain. By default certificates are not verified.
*
* @param notMatchingDomainCheckEnabled if certificates presented by the server are going
* to be checked for their domain.
*/
public void setNotMatchingDomainCheckEnabled(boolean notMatchingDomainCheckEnabled) {
this.notMatchingDomainCheckEnabled = notMatchingDomainCheckEnabled;
}
/**
* Gets the custom SSLContext for SSL sockets. This is null by default.
*
* @return the SSLContext previously set with setCustomSSLContext() or null.
*/
public SSLContext getCustomSSLContext() {
return this.customSSLContext;
}
/**
* Sets a custom SSLContext for creating SSL sockets. A custom Context causes all other
* SSL/TLS realted settings to be ignored.
*
* @param context the custom SSLContext for new sockets; null to reset default behavior.
*/
public void setCustomSSLContext(SSLContext context) {
this.customSSLContext = context;
}
/**
* Returns true if the connection is going to use stream compression. Stream compression
* will be requested after TLS was established (if TLS was enabled) and only if the server
* offered stream compression. With stream compression network traffic can be reduced
* up to 90%. By default compression is disabled.
*
* @return true if the connection is going to use stream compression.
*/
public boolean isCompressionEnabled() {
return compressionEnabled;
}
/**
* Sets if the connection is going to use stream compression. Stream compression
* will be requested after TLS was established (if TLS was enabled) and only if the server
* offered stream compression. With stream compression network traffic can be reduced
* up to 90%. By default compression is disabled.
*
* @param compressionEnabled if the connection is going to use stream compression.
*/
public void setCompressionEnabled(boolean compressionEnabled) {
this.compressionEnabled = compressionEnabled;
}
/**
* Returns true if the client is going to use SASL authentication when logging into the
* server. If SASL authenticatin fails then the client will try to use non-sasl authentication.
* By default SASL is enabled.
*
* @return true if the client is going to use SASL authentication when logging into the
* server.
*/
public boolean isSASLAuthenticationEnabled() {
return saslAuthenticationEnabled;
}
/**
* Sets whether the client will use SASL authentication when logging into the
* server. If SASL authenticatin fails then the client will try to use non-sasl authentication.
* By default, SASL is enabled.
*
* @param saslAuthenticationEnabled if the client is going to use SASL authentication when
* logging into the server.
*/
public void setSASLAuthenticationEnabled(boolean saslAuthenticationEnabled) {
this.saslAuthenticationEnabled = saslAuthenticationEnabled;
}
/**
* Returns true if the new connection about to be establish is going to be debugged. By
* default the value of {@link Connection#DEBUG_ENABLED} is used.
*
* @return true if the new connection about to be establish is going to be debugged.
*/
public boolean isDebuggerEnabled() {
return debuggerEnabled;
}
/**
* Sets if the new connection about to be establish is going to be debugged. By
* default the value of {@link Connection#DEBUG_ENABLED} is used.
*
* @param debuggerEnabled if the new connection about to be establish is going to be debugged.
*/
public void setDebuggerEnabled(boolean debuggerEnabled) {
this.debuggerEnabled = debuggerEnabled;
}
/**
* Sets if the reconnection mechanism is allowed to be used. By default
* reconnection is allowed.
*
* @param isAllowed if the reconnection mechanism is allowed to use.
*/
public void setReconnectionAllowed(boolean isAllowed) {
this.reconnectionAllowed = isAllowed;
}
/**
* Returns if the reconnection mechanism is allowed to be used. By default
* reconnection is allowed.
*
* @return if the reconnection mechanism is allowed to be used.
*/
public boolean isReconnectionAllowed() {
return this.reconnectionAllowed;
}
/**
* Sets the socket factory used to create new xmppConnection sockets.
* This is useful when connecting through SOCKS5 proxies.
*
* @param socketFactory used to create new sockets.
*/
public void setSocketFactory(SocketFactory socketFactory) {
this.socketFactory = socketFactory;
}
/**
* Sets if an initial available presence will be sent to the server. By default
* an available presence will be sent to the server indicating that this presence
* is not online and available to receive messages. If you want to log in without
* being 'noticed' then pass a <tt>false</tt> value.
*
* @param sendPresence true if an initial available presence will be sent while logging in.
*/
public void setSendPresence(boolean sendPresence) {
this.sendPresence = sendPresence;
}
/**
* Returns true if the roster will be loaded from the server when logging in. This
* is the common behaviour for clients but sometimes clients may want to differ this
* or just never do it if not interested in rosters.
*
* @return true if the roster will be loaded from the server when logging in.
*/
public boolean isRosterLoadedAtLogin() {
return rosterLoadedAtLogin;
}
/**
* Sets if the roster will be loaded from the server when logging in. This
* is the common behaviour for clients but sometimes clients may want to differ this
* or just never do it if not interested in rosters.
*
* @param rosterLoadedAtLogin if the roster will be loaded from the server when logging in.
*/
public void setRosterLoadedAtLogin(boolean rosterLoadedAtLogin) {
this.rosterLoadedAtLogin = rosterLoadedAtLogin;
}
/**
* Returns a CallbackHandler to obtain information, such as the password or
* principal information during the SASL authentication. A CallbackHandler
* will be used <b>ONLY</b> if no password was specified during the login while
* using SASL authentication.
*
* @return a CallbackHandler to obtain information, such as the password or
* principal information during the SASL authentication.
*/
public CallbackHandler getCallbackHandler() {
return callbackHandler;
}
/**
* Sets a CallbackHandler to obtain information, such as the password or
* principal information during the SASL authentication. A CallbackHandler
* will be used <b>ONLY</b> if no password was specified during the login while
* using SASL authentication.
*
* @param callbackHandler to obtain information, such as the password or
* principal information during the SASL authentication.
*/
public void setCallbackHandler(CallbackHandler callbackHandler) {
this.callbackHandler = callbackHandler;
}
/**
* Returns the socket factory used to create new xmppConnection sockets.
* This is useful when connecting through SOCKS5 proxies.
*
* @return socketFactory used to create new sockets.
*/
public SocketFactory getSocketFactory() {
return this.socketFactory;
}
public List<HostAddress> getHostAddresses() {
return Collections.unmodifiableList(hostAddresses);
}
/**
* An enumeration for TLS security modes that are available when making a connection
* to the XMPP server.
*/
public static enum SecurityMode {
/**
* Securirty via TLS encryption is required in order to connect. If the server
* does not offer TLS or if the TLS negotiaton fails, the connection to the server
* will fail.
*/
required,
/**
* Security via TLS encryption is used whenever it's available. This is the
* default setting.
*/
enabled,
/**
* Security via TLS encryption is disabled and only un-encrypted connections will
* be used. If only TLS encryption is available from the server, the connection
* will fail.
*/
disabled
}
/**
* Returns the username to use when trying to reconnect to the server.
*
* @return the username to use when trying to reconnect to the server.
*/
String getUsername() {
return this.username;
}
/**
* Returns the password to use when trying to reconnect to the server.
*
* @return the password to use when trying to reconnect to the server.
*/
String getPassword() {
return this.password;
}
/**
* Returns the resource to use when trying to reconnect to the server.
*
* @return the resource to use when trying to reconnect to the server.
*/
String getResource() {
return resource;
}
/**
* Returns true if an available presence should be sent when logging in while reconnecting.
*
* @return true if an available presence should be sent when logging in while reconnecting
*/
boolean isSendPresence() {
return sendPresence;
}
void setLoginInfo(String username, String password, String resource) {
this.username = username;
this.password = password;
this.resource = resource;
}
private void initHostAddresses(String host, int port) {
hostAddresses = new ArrayList<HostAddress>(1);
HostAddress hostAddress;
try {
hostAddress = new HostAddress(host, port);
} catch (Exception e) {
throw new IllegalStateException(e);
}
hostAddresses.add(hostAddress);
}
}