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 * and Distribution License("CDDL") (collectively, the "License").  You
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package com.sun.mail.util;

import java.security.*;
import java.net.*;
import java.io.*;
import java.nio.channels.SocketChannel;
import java.lang.reflect.*;
import java.util.*;
import java.util.regex.*;
import java.util.logging.Level;
import java.security.cert.*;
import javax.net.*;
import javax.net.ssl.*;
import javax.security.auth.x500.X500Principal;

/**
 * This class is used to get Sockets. Depending on the arguments passed
 * it will either return a plain java.net.Socket or dynamically load
 * the SocketFactory class specified in the classname param and return
 * a socket created by that SocketFactory.
 *
 * @author Max Spivak
 * @author Bill Shannon
 */
public class SocketFetcher {

    private static MailLogger logger = new MailLogger(
	SocketFetcher.class,
	"socket",
	"DEBUG SocketFetcher",
	PropUtil.getBooleanSystemProperty("mail.socket.debug", false),
	System.out);

    // No one should instantiate this class.
    private SocketFetcher() {
    }

    /**
     * This method returns a Socket.  Properties control the use of
     * socket factories and other socket characteristics.  The properties
     * used are:
     * 
    *
  • prefix.socketFactory *
  • prefix.socketFactory.class *
  • prefix.socketFactory.fallback *
  • prefix.socketFactory.port *
  • prefix.ssl.socketFactory *
  • prefix.ssl.socketFactory.class *
  • prefix.ssl.socketFactory.port *
  • prefix.timeout *
  • prefix.connectiontimeout *
  • prefix.localaddress *
  • prefix.localport *
  • prefix.usesocketchannels *

* If we're making an SSL connection, the ssl.socketFactory * properties are used first, if set.

* * If the socketFactory property is set, the value is an * instance of a SocketFactory class, not a string. The * instance is used directly. If the socketFactory property * is not set, the socketFactory.class property is considered. * (Note that the SocketFactory property must be set using the * put method, not the setProperty * method.)

* * If the socketFactory.class property isn't set, the socket * returned is an instance of java.net.Socket connected to the * given host and port. If the socketFactory.class property is set, * it is expected to contain a fully qualified classname of a * javax.net.SocketFactory subclass. In this case, the class is * dynamically instantiated and a socket created by that * SocketFactory is returned.

* * If the socketFactory.fallback property is set to false, don't * fall back to using regular sockets if the socket factory fails.

* * The socketFactory.port specifies a port to use when connecting * through the socket factory. If unset, the port argument will be * used.

* * If the connectiontimeout property is set, the timeout is passed * to the socket connect method.

* * If the timeout property is set, it is used to set the socket timeout. *

* * If the localaddress property is set, it's used as the local address * to bind to. If the localport property is also set, it's used as the * local port number to bind to.

* * If the usesocketchannels property is set, and we create the Socket * ourself, and the selection of other properties allows, create a * SocketChannel and get the Socket from it. This allows us to later * retrieve the SocketChannel from the Socket and use it with Select. * * @param host The host to connect to * @param port The port to connect to at the host * @param props Properties object containing socket properties * @param prefix Property name prefix, e.g., "mail.imap" * @param useSSL use the SSL socket factory as the default * @return the Socket * @exception IOException for I/O errors */ public static Socket getSocket(String host, int port, Properties props, String prefix, boolean useSSL) throws IOException { if (logger.isLoggable(Level.FINER)) logger.finer("getSocket" + ", host " + host + ", port " + port + ", prefix " + prefix + ", useSSL " + useSSL); if (prefix == null) prefix = "socket"; if (props == null) props = new Properties(); // empty int cto = PropUtil.getIntProperty(props, prefix + ".connectiontimeout", -1); Socket socket = null; String localaddrstr = props.getProperty(prefix + ".localaddress", null); InetAddress localaddr = null; if (localaddrstr != null) localaddr = InetAddress.getByName(localaddrstr); int localport = PropUtil.getIntProperty(props, prefix + ".localport", 0); boolean fb = PropUtil.getBooleanProperty(props, prefix + ".socketFactory.fallback", true); int sfPort = -1; String sfErr = "unknown socket factory"; int to = PropUtil.getIntProperty(props, prefix + ".timeout", -1); try { /* * If using SSL, first look for SSL-specific class name or * factory instance. */ SocketFactory sf = null; String sfPortName = null; if (useSSL) { Object sfo = props.get(prefix + ".ssl.socketFactory"); if (sfo instanceof SocketFactory) { sf = (SocketFactory)sfo; sfErr = "SSL socket factory instance " + sf; } if (sf == null) { String sfClass = props.getProperty(prefix + ".ssl.socketFactory.class"); sf = getSocketFactory(sfClass); sfErr = "SSL socket factory class " + sfClass; } sfPortName = ".ssl.socketFactory.port"; } if (sf == null) { Object sfo = props.get(prefix + ".socketFactory"); if (sfo instanceof SocketFactory) { sf = (SocketFactory)sfo; sfErr = "socket factory instance " + sf; } if (sf == null) { String sfClass = props.getProperty(prefix + ".socketFactory.class"); sf = getSocketFactory(sfClass); sfErr = "socket factory class " + sfClass; } sfPortName = ".socketFactory.port"; } // if we now have a socket factory, use it if (sf != null) { sfPort = PropUtil.getIntProperty(props, prefix + sfPortName, -1); // if port passed in via property isn't valid, use param if (sfPort == -1) sfPort = port; socket = createSocket(localaddr, localport, host, sfPort, cto, to, props, prefix, sf, useSSL); } } catch (SocketTimeoutException sex) { throw sex; } catch (Exception ex) { if (!fb) { if (ex instanceof InvocationTargetException) { Throwable t = ((InvocationTargetException)ex).getTargetException(); if (t instanceof Exception) ex = (Exception)t; } if (ex instanceof IOException) throw (IOException)ex; throw new SocketConnectException("Using " + sfErr, ex, host, sfPort, cto); } } if (socket == null) { socket = createSocket(localaddr, localport, host, port, cto, to, props, prefix, null, useSSL); } else { if (to >= 0) { if (logger.isLoggable(Level.FINEST)) logger.finest("set socket read timeout " + to); socket.setSoTimeout(to); } } return socket; } public static Socket getSocket(String host, int port, Properties props, String prefix) throws IOException { return getSocket(host, port, props, prefix, false); } /** * Create a socket with the given local address and connected to * the given host and port. Use the specified connection timeout * and read timeout. * If a socket factory is specified, use it. Otherwise, use the * SSLSocketFactory if useSSL is true. */ private static Socket createSocket(InetAddress localaddr, int localport, String host, int port, int cto, int to, Properties props, String prefix, SocketFactory sf, boolean useSSL) throws IOException { Socket socket = null; if (logger.isLoggable(Level.FINEST)) logger.finest("create socket: prefix " + prefix + ", localaddr " + localaddr + ", localport " + localport + ", host " + host + ", port " + port + ", connection timeout " + cto + ", timeout " + to + ", socket factory " + sf + ", useSSL " + useSSL); String socksHost = props.getProperty(prefix + ".socks.host", null); int socksPort = 1080; String err = null; if (socksHost != null) { int i = socksHost.indexOf(':'); if (i >= 0) { socksHost = socksHost.substring(0, i); try { socksPort = Integer.parseInt(socksHost.substring(i + 1)); } catch (NumberFormatException ex) { // ignore it } } socksPort = PropUtil.getIntProperty(props, prefix + ".socks.port", socksPort); err = "Using SOCKS host, port: " + socksHost + ", " + socksPort; if (logger.isLoggable(Level.FINER)) logger.finer("socks host " + socksHost + ", port " + socksPort); } if (sf != null && !(sf instanceof SSLSocketFactory)) socket = sf.createSocket(); if (socket == null) { if (socksHost != null) { socket = new Socket( new java.net.Proxy(java.net.Proxy.Type.SOCKS, new InetSocketAddress(socksHost, socksPort))); } else if (PropUtil.getBooleanProperty(props, prefix + ".usesocketchannels", false)) { logger.finer("using SocketChannels"); socket = SocketChannel.open().socket(); } else socket = new Socket(); } if (to >= 0) { if (logger.isLoggable(Level.FINEST)) logger.finest("set socket read timeout " + to); socket.setSoTimeout(to); } int writeTimeout = PropUtil.getIntProperty(props, prefix + ".writetimeout", -1); if (writeTimeout != -1) { // wrap original if (logger.isLoggable(Level.FINEST)) logger.finest("set socket write timeout " + writeTimeout); socket = new WriteTimeoutSocket(socket, writeTimeout); } if (localaddr != null) socket.bind(new InetSocketAddress(localaddr, localport)); try { logger.finest("connecting..."); if (cto >= 0) socket.connect(new InetSocketAddress(host, port), cto); else socket.connect(new InetSocketAddress(host, port)); logger.finest("success!"); } catch (IOException ex) { logger.log(Level.FINEST, "connection failed", ex); throw new SocketConnectException(err, ex, host, port, cto); } /* * If we want an SSL connection and we didn't get an SSLSocket, * wrap our plain Socket with an SSLSocket. */ if ((useSSL || sf instanceof SSLSocketFactory) && !(socket instanceof SSLSocket)) { String trusted; SSLSocketFactory ssf; if ((trusted = props.getProperty(prefix + ".ssl.trust")) != null) { try { MailSSLSocketFactory msf = new MailSSLSocketFactory(); if (trusted.equals("*")) msf.setTrustAllHosts(true); else msf.setTrustedHosts(trusted.split("\\s+")); ssf = msf; } catch (GeneralSecurityException gex) { IOException ioex = new IOException( "Can't create MailSSLSocketFactory"); ioex.initCause(gex); throw ioex; } } else if (sf instanceof SSLSocketFactory) ssf = (SSLSocketFactory)sf; else ssf = (SSLSocketFactory)SSLSocketFactory.getDefault(); socket = ssf.createSocket(socket, host, port, true); sf = ssf; } /* * No matter how we created the socket, if it turns out to be an * SSLSocket, configure it. */ configureSSLSocket(socket, host, props, prefix, sf); return socket; } /** * Return a socket factory of the specified class. */ private static SocketFactory getSocketFactory(String sfClass) throws ClassNotFoundException, NoSuchMethodException, IllegalAccessException, InvocationTargetException { if (sfClass == null || sfClass.length() == 0) return null; // dynamically load the class ClassLoader cl = getContextClassLoader(); Class clsSockFact = null; if (cl != null) { try { clsSockFact = Class.forName(sfClass, false, cl); } catch (ClassNotFoundException cex) { } } if (clsSockFact == null) clsSockFact = Class.forName(sfClass); // get & invoke the getDefault() method Method mthGetDefault = clsSockFact.getMethod("getDefault", new Class[]{}); SocketFactory sf = (SocketFactory) mthGetDefault.invoke(new Object(), new Object[]{}); return sf; } /** * Start TLS on an existing socket. * Supports the "STARTTLS" command in many protocols. * This version for compatibility with possible third party code * that might've used this API even though it shouldn't. * * @param socket the existing socket * @return the wrapped Socket * @exception IOException for I/O errors * @deprecated */ @Deprecated public static Socket startTLS(Socket socket) throws IOException { return startTLS(socket, new Properties(), "socket"); } /** * Start TLS on an existing socket. * Supports the "STARTTLS" command in many protocols. * This version for compatibility with possible third party code * that might've used this API even though it shouldn't. * * @param socket the existing socket * @param props the properties * @param prefix the property prefix * @return the wrapped Socket * @exception IOException for I/O errors * @deprecated */ @Deprecated public static Socket startTLS(Socket socket, Properties props, String prefix) throws IOException { InetAddress a = socket.getInetAddress(); String host = a.getHostName(); return startTLS(socket, host, props, prefix); } /** * Start TLS on an existing socket. * Supports the "STARTTLS" command in many protocols. * * @param socket the existing socket * @param host the host the socket is connected to * @param props the properties * @param prefix the property prefix * @return the wrapped Socket * @exception IOException for I/O errors */ public static Socket startTLS(Socket socket, String host, Properties props, String prefix) throws IOException { int port = socket.getPort(); if (logger.isLoggable(Level.FINER)) logger.finer("startTLS host " + host + ", port " + port); String sfErr = "unknown socket factory"; try { SSLSocketFactory ssf = null; SocketFactory sf = null; // first, look for an SSL socket factory Object sfo = props.get(prefix + ".ssl.socketFactory"); if (sfo instanceof SocketFactory) { sf = (SocketFactory)sfo; sfErr = "SSL socket factory instance " + sf; } if (sf == null) { String sfClass = props.getProperty(prefix + ".ssl.socketFactory.class"); sf = getSocketFactory(sfClass); sfErr = "SSL socket factory class " + sfClass; } if (sf != null && sf instanceof SSLSocketFactory) ssf = (SSLSocketFactory)sf; // next, look for a regular socket factory that happens to be // an SSL socket factory if (ssf == null) { sfo = props.get(prefix + ".socketFactory"); if (sfo instanceof SocketFactory) { sf = (SocketFactory)sfo; sfErr = "socket factory instance " + sf; } if (sf == null) { String sfClass = props.getProperty(prefix + ".socketFactory.class"); sf = getSocketFactory(sfClass); sfErr = "socket factory class " + sfClass; } if (sf != null && sf instanceof SSLSocketFactory) ssf = (SSLSocketFactory)sf; } // finally, use the default SSL socket factory if (ssf == null) { String trusted; if ((trusted = props.getProperty(prefix + ".ssl.trust")) != null) { try { MailSSLSocketFactory msf = new MailSSLSocketFactory(); if (trusted.equals("*")) msf.setTrustAllHosts(true); else msf.setTrustedHosts(trusted.split("\\s+")); ssf = msf; sfErr = "mail SSL socket factory"; } catch (GeneralSecurityException gex) { IOException ioex = new IOException( "Can't create MailSSLSocketFactory"); ioex.initCause(gex); throw ioex; } } else { ssf = (SSLSocketFactory)SSLSocketFactory.getDefault(); sfErr = "default SSL socket factory"; } } socket = ssf.createSocket(socket, host, port, true); configureSSLSocket(socket, host, props, prefix, ssf); } catch (Exception ex) { if (ex instanceof InvocationTargetException) { Throwable t = ((InvocationTargetException)ex).getTargetException(); if (t instanceof Exception) ex = (Exception)t; } if (ex instanceof IOException) throw (IOException)ex; // wrap anything else before sending it on IOException ioex = new IOException( "Exception in startTLS using " + sfErr + ": host, port: " + host + ", " + port + "; Exception: " + ex); ioex.initCause(ex); throw ioex; } return socket; } /** * Configure the SSL options for the socket (if it's an SSL socket), * based on the mail..ssl.protocols and * mail..ssl.ciphersuites properties. * Check the identity of the server as specified by the * mail..ssl.checkserveridentity property. */ private static void configureSSLSocket(Socket socket, String host, Properties props, String prefix, SocketFactory sf) throws IOException { if (!(socket instanceof SSLSocket)) return; SSLSocket sslsocket = (SSLSocket)socket; String protocols = props.getProperty(prefix + ".ssl.protocols", null); if (protocols != null) sslsocket.setEnabledProtocols(stringArray(protocols)); else { /* * The UW IMAP server insists on at least the TLSv1 * protocol for STARTTLS, and won't accept the old SSLv2 * or SSLv3 protocols. Here we enable only the non-SSL * protocols. XXX - this should probably be parameterized. */ String[] prots = sslsocket.getEnabledProtocols(); if (logger.isLoggable(Level.FINER)) logger.finer("SSL enabled protocols before " + Arrays.asList(prots)); List eprots = new ArrayList(); for (int i = 0; i < prots.length; i++) { if (prots[i] != null && !prots[i].startsWith("SSL")) eprots.add(prots[i]); } sslsocket.setEnabledProtocols( eprots.toArray(new String[eprots.size()])); } String ciphers = props.getProperty(prefix + ".ssl.ciphersuites", null); if (ciphers != null) sslsocket.setEnabledCipherSuites(stringArray(ciphers)); if (logger.isLoggable(Level.FINER)) { logger.finer("SSL enabled protocols after " + Arrays.asList(sslsocket.getEnabledProtocols())); logger.finer("SSL enabled ciphers after " + Arrays.asList(sslsocket.getEnabledCipherSuites())); } /* * Force the handshake to be done now so that we can report any * errors (e.g., certificate errors) to the caller of the startTLS * method. */ sslsocket.startHandshake(); /* * Check server identity and trust. */ boolean idCheck = PropUtil.getBooleanProperty(props, prefix + ".ssl.checkserveridentity", false); if (idCheck) checkServerIdentity(host, sslsocket); if (sf instanceof MailSSLSocketFactory) { MailSSLSocketFactory msf = (MailSSLSocketFactory)sf; if (!msf.isServerTrusted(host, sslsocket)) { try { sslsocket.close(); } finally { throw new IOException("Server is not trusted: " + host); } } } } /** * Check the server from the Socket connection against the server name(s) * as expressed in the server certificate (RFC 2595 check). * * @param server name of the server expected * @param sslSocket SSLSocket connected to the server * @exception IOException if we can't verify identity of server */ private static void checkServerIdentity(String server, SSLSocket sslSocket) throws IOException { // Check against the server name(s) as expressed in server certificate try { java.security.cert.Certificate[] certChain = sslSocket.getSession().getPeerCertificates(); if (certChain != null && certChain.length > 0 && certChain[0] instanceof X509Certificate && matchCert(server, (X509Certificate)certChain[0])) return; } catch (SSLPeerUnverifiedException e) { sslSocket.close(); IOException ioex = new IOException( "Can't verify identity of server: " + server); ioex.initCause(e); throw ioex; } // If we get here, there is nothing to consider the server as trusted. sslSocket.close(); throw new IOException("Can't verify identity of server: " + server); } /** * Do any of the names in the cert match the server name? * * @param server name of the server expected * @param cert X509Certificate to get the subject's name from * @return true if it matches */ private static boolean matchCert(String server, X509Certificate cert) { if (logger.isLoggable(Level.FINER)) logger.finer("matchCert server " + server + ", cert " + cert); /* * First, try to use sun.security.util.HostnameChecker, * which exists in Sun's JDK starting with 1.4.1. * We use reflection to access it in case it's not available * in the JDK we're running on. */ try { Class hnc = Class.forName("sun.security.util.HostnameChecker"); // invoke HostnameChecker.getInstance(HostnameChecker.TYPE_LDAP) // HostnameChecker.TYPE_LDAP == 2 // LDAP requires the same regex handling as we need Method getInstance = hnc.getMethod("getInstance", new Class[] { byte.class }); Object hostnameChecker = getInstance.invoke(new Object(), new Object[] { Byte.valueOf((byte)2) }); // invoke hostnameChecker.match( server, cert) if (logger.isLoggable(Level.FINER)) logger.finer("using sun.security.util.HostnameChecker"); Method match = hnc.getMethod("match", new Class[] { String.class, X509Certificate.class }); try { match.invoke(hostnameChecker, new Object[] { server, cert }); return true; } catch (InvocationTargetException cex) { logger.log(Level.FINER, "HostnameChecker FAIL", cex); return false; } } catch (Exception ex) { logger.log(Level.FINER, "NO sun.security.util.HostnameChecker", ex); // ignore failure and continue below } /* * Lacking HostnameChecker, we implement a crude version of * the same checks ourselves. */ try { /* * Check each of the subjectAltNames. * XXX - only checks DNS names, should also handle * case where server name is a literal IP address */ Collection> names = cert.getSubjectAlternativeNames(); if (names != null) { boolean foundName = false; for (Iterator> it = names.iterator(); it.hasNext(); ) { List nameEnt = it.next(); Integer type = (Integer)nameEnt.get(0); if (type.intValue() == 2) { // 2 == dNSName foundName = true; String name = (String)nameEnt.get(1); if (logger.isLoggable(Level.FINER)) logger.finer("found name: " + name); if (matchServer(server, name)) return true; } } if (foundName) // found a name, but no match return false; } } catch (CertificateParsingException ex) { // ignore it } // XXX - following is a *very* crude parse of the name and ignores // all sorts of important issues such as quoting Pattern p = Pattern.compile("CN=([^,]*)"); Matcher m = p.matcher(cert.getSubjectX500Principal().getName()); if (m.find() && matchServer(server, m.group(1).trim())) return true; return false; } /** * Does the server we're expecting to connect to match the * given name from the server's certificate? * * @param server name of the server expected * @param name name from the server's certificate */ private static boolean matchServer(String server, String name) { if (logger.isLoggable(Level.FINER)) logger.finer("match server " + server + " with " + name); if (name.startsWith("*.")) { // match "foo.example.com" with "*.example.com" String tail = name.substring(2); if (tail.length() == 0) return false; int off = server.length() - tail.length(); if (off < 1) return false; // if tail matches and is preceeded by "." return server.charAt(off - 1) == '.' && server.regionMatches(true, off, tail, 0, tail.length()); } else return server.equalsIgnoreCase(name); } /** * Parse a string into whitespace separated tokens * and return the tokens in an array. */ private static String[] stringArray(String s) { StringTokenizer st = new StringTokenizer(s); List tokens = new ArrayList(); while (st.hasMoreTokens()) tokens.add(st.nextToken()); return tokens.toArray(new String[tokens.size()]); } /** * Convenience method to get our context class loader. * Assert any privileges we might have and then call the * Thread.getContextClassLoader method. */ private static ClassLoader getContextClassLoader() { return AccessController.doPrivileged(new PrivilegedAction() { public ClassLoader run() { ClassLoader cl = null; try { cl = Thread.currentThread().getContextClassLoader(); } catch (SecurityException ex) { } return cl; } }); } }





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