ojluni/src/main/java/sun/net/www/protocol/http/AuthenticationInfo.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 1995, 2010, 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 sun.net.www.protocol.http;

 import java.io.IOException;
 import java.io.ObjectInputStream;
 import java.net.PasswordAuthentication;
 import java.net.URL;
 import java.util.HashMap;

 import sun.net.www.HeaderParser;


 /**
  * AuthenticationInfo: Encapsulate the information needed to
  * authenticate a user to a server.
  *
  * @author Jon Payne
  * @author Herb Jellinek
  * @author Bill Foote
  */
 // REMIND:  It would be nice if this class understood about partial matching.
 //      If you're authorized for foo.com, chances are high you're also
 //      authorized for baz.foo.com.
 // NB:  When this gets implemented, be careful about the uncaching
 //      policy in HttpURLConnection.  A failure on baz.foo.com shouldn't
 //      uncache foo.com!

 public abstract class AuthenticationInfo extends AuthCacheValue implements Cloneable {

     // Constants saying what kind of authroization this is.  This determines
     // the namespace in the hash table lookup.
     public static final char SERVER_AUTHENTICATION = 's';
     public static final char PROXY_AUTHENTICATION = 'p';

     /**
      * If true, then simultaneous authentication requests to the same realm/proxy
      * are serialized, in order to avoid a user having to type the same username/passwords
      * repeatedly, via the Authenticator. Default is false, which means that this
      * behavior is switched off.
      */
     static boolean serializeAuth;

     static {
         serializeAuth = java.security.AccessController.doPrivileged(
             new sun.security.action.GetBooleanAction(
                 "http.auth.serializeRequests")).booleanValue();
     }

     /* AuthCacheValue: */

     transient protected PasswordAuthentication pw;

     public PasswordAuthentication credentials() {
         return pw;
     }

     public AuthCacheValue.Type getAuthType() {
         return type == SERVER_AUTHENTICATION ?
             AuthCacheValue.Type.Server:
             AuthCacheValue.Type.Proxy;
     }

     AuthScheme getAuthScheme() {
         return authScheme;
     }

     public String getHost() {
         return host;
     }
     public int getPort() {
         return port;
     }
     public String getRealm() {
         return realm;
     }
     public String getPath() {
         return path;
     }
     public String getProtocolScheme() {
         return protocol;
     }

     /**
      * requests is used to ensure that interaction with the
      * Authenticator for a particular realm is single threaded.
      * ie. if multiple threads need to get credentials from the user
      * at the same time, then all but the first will block until
      * the first completes its authentication.
      */
     static private HashMap<String,Thread> requests = new HashMap<>();

     /* check if a request for this destination is in progress
      * return false immediately if not. Otherwise block until
      * request is finished and return true
      */
     static private boolean requestIsInProgress (String key) {
         if (!serializeAuth) {
             /* behavior is disabled. Revert to concurrent requests */
             return false;
         }
         synchronized (requests) {
             Thread t, c;
             c = Thread.currentThread();
             if ((t = requests.get(key)) == null) {
                 requests.put (key, c);
                 return false;
             }
             if (t == c) {
                 return false;
             }
             while (requests.containsKey(key)) {
                 try {
                     requests.wait ();
                 } catch (InterruptedException e) {}
             }
         }
         /* entry may be in cache now. */
         return true;
     }

     /* signal completion of an authentication (whether it succeeded or not)
      * so that other threads can continue.
      */
     static private void requestCompleted (String key) {
         synchronized (requests) {
             Thread thread = requests.get(key);
             if (thread != null && thread == Thread.currentThread()) {
                 boolean waspresent = requests.remove(key) != null;
                 assert waspresent;
             }
             requests.notifyAll();
         }
     }

     //public String toString () {
         //return ("{"+type+":"+authScheme+":"+protocol+":"+host+":"+port+":"+realm+":"+path+"}");
     //}

     // REMIND:  This cache just grows forever.  We should put in a bounded
     //          cache, or maybe something using WeakRef's.

     /** The type (server/proxy) of authentication this is.  Used for key lookup */
     char type;

     /** The authentication scheme (basic/digest). Also used for key lookup */
     AuthScheme authScheme;

     /** The protocol/scheme (i.e. http or https ). Need to keep the caches
      *  logically separate for the two protocols. This field is only used
      *  when constructed with a URL (the normal case for server authentication)
      *  For proxy authentication the protocol is not relevant.
      */
     String protocol;

     /** The host we're authenticating against. */
     String host;

     /** The port on the host we're authenticating against. */
     int port;

     /** The realm we're authenticating against. */
     String realm;

     /** The shortest path from the URL we authenticated against. */
     String path;

     /** Use this constructor only for proxy entries */
     public AuthenticationInfo(char type, AuthScheme authScheme, String host, int port, String realm) {
         this.type = type;
         this.authScheme = authScheme;
         this.protocol = "";
         this.host = host.toLowerCase();
         this.port = port;
         this.realm = realm;
         this.path = null;
     }

     public Object clone() {
         try {
             return super.clone ();
         } catch (CloneNotSupportedException e) {
             // Cannot happen because Cloneable implemented by AuthenticationInfo
             return null;
         }
     }

     /*
      * Constructor used to limit the authorization to the path within
      * the URL. Use this constructor for origin server entries.
      */
     public AuthenticationInfo(char type, AuthScheme authScheme, URL url, String realm) {
         this.type = type;
         this.authScheme = authScheme;
         this.protocol = url.getProtocol().toLowerCase();
         this.host = url.getHost().toLowerCase();
         this.port = url.getPort();
         if (this.port == -1) {
             this.port = url.getDefaultPort();
         }
         this.realm = realm;

         String urlPath = url.getPath();
         if (urlPath.length() == 0)
             this.path = urlPath;
         else {
             this.path = reducePath (urlPath);
         }

     }

     /*
      * reduce the path to the root of where we think the
      * authorization begins. This could get shorter as
      * the url is traversed up following a successful challenge.
      */
     static String reducePath (String urlPath) {
         int sepIndex = urlPath.lastIndexOf('/');
         int targetSuffixIndex = urlPath.lastIndexOf('.');
         if (sepIndex != -1)
             if (sepIndex < targetSuffixIndex)
                 return urlPath.substring(0, sepIndex+1);
             else
                 return urlPath;
         else
             return urlPath;
     }

     /**
      * Returns info for the URL, for an HTTP server auth.  Used when we
      * don't yet know the realm
      * (i.e. when we're preemptively setting the auth).
      */
     static AuthenticationInfo getServerAuth(URL url) {
         int port = url.getPort();
         if (port == -1) {
             port = url.getDefaultPort();
         }
         String key = SERVER_AUTHENTICATION + ":" + url.getProtocol().toLowerCase()
                 + ":" + url.getHost().toLowerCase() + ":" + port;
         return getAuth(key, url);
     }

     /**
      * Returns info for the URL, for an HTTP server auth.  Used when we
      * do know the realm (i.e. when we're responding to a challenge).
      * In this case we do not use the path because the protection space
      * is identified by the host:port:realm only
      */
     static String getServerAuthKey(URL url, String realm, AuthScheme scheme) {
         int port = url.getPort();
         if (port == -1) {
             port = url.getDefaultPort();
         }
         String key = SERVER_AUTHENTICATION + ":" + scheme + ":" + url.getProtocol().toLowerCase()
                      + ":" + url.getHost().toLowerCase() + ":" + port + ":" + realm;
         return key;
     }

     static AuthenticationInfo getServerAuth(String key) {
         AuthenticationInfo cached = getAuth(key, null);
         if ((cached == null) && requestIsInProgress (key)) {
             /* check the cache again, it might contain an entry */
             cached = getAuth(key, null);
         }
         return cached;
     }


     /**
      * Return the AuthenticationInfo object from the cache if it's path is
      * a substring of the supplied URLs path.
      */
     static AuthenticationInfo getAuth(String key, URL url) {
         if (url == null) {
             return (AuthenticationInfo)cache.get (key, null);
         } else {
             return (AuthenticationInfo)cache.get (key, url.getPath());
         }
     }

     /**
      * Returns a firewall authentication, for the given host/port.  Used
      * for preemptive header-setting. Note, the protocol field is always
      * blank for proxies.
      */
     static AuthenticationInfo getProxyAuth(String host, int port) {
         String key = PROXY_AUTHENTICATION + "::" + host.toLowerCase() + ":" + port;
         AuthenticationInfo result = (AuthenticationInfo) cache.get(key, null);
         return result;
     }

     /**
      * Returns a firewall authentication, for the given host/port and realm.
      * Used in response to a challenge. Note, the protocol field is always
      * blank for proxies.
      */
     static String getProxyAuthKey(String host, int port, String realm, AuthScheme scheme) {
         String key = PROXY_AUTHENTICATION + ":" + scheme + "::" + host.toLowerCase()
                         + ":" + port + ":" + realm;
         return key;
     }

     static AuthenticationInfo getProxyAuth(String key) {
         AuthenticationInfo cached = (AuthenticationInfo) cache.get(key, null);
         if ((cached == null) && requestIsInProgress (key)) {
             /* check the cache again, it might contain an entry */
             cached = (AuthenticationInfo) cache.get(key, null);
         }
         return cached;
     }


     /**
      * Add this authentication to the cache
      */
     void addToCache() {
         String key = cacheKey(true);
         cache.put(key, this);
         if (supportsPreemptiveAuthorization()) {
             cache.put(cacheKey(false), this);
         }
         endAuthRequest(key);
     }

     static void endAuthRequest (String key) {
         if (!serializeAuth) {
             return;
         }
         synchronized (requests) {
             requestCompleted(key);
         }
     }

     /**
      * Remove this authentication from the cache
      */
     void removeFromCache() {
         cache.remove(cacheKey(true), this);
         if (supportsPreemptiveAuthorization()) {
             cache.remove(cacheKey(false), this);
         }
     }

     /**
      * @return true if this authentication supports preemptive authorization
      */
     public abstract boolean supportsPreemptiveAuthorization();

     /**
      * @return the name of the HTTP header this authentication wants set.
      *          This is used for preemptive authorization.
      */
     public String getHeaderName() {
         if (type == SERVER_AUTHENTICATION) {
             return "Authorization";
         } else {
             return "Proxy-authorization";
         }
     }

     /**
      * Calculates and returns the authentication header value based
      * on the stored authentication parameters. If the calculation does not depend
      * on the URL or the request method then these parameters are ignored.
      * @param url The URL
      * @param method The request method
      * @return the value of the HTTP header this authentication wants set.
      *          Used for preemptive authorization.
      */
     public abstract String getHeaderValue(URL url, String method);

     /**
      * Set header(s) on the given connection.  Subclasses must override
      * This will only be called for
      * definitive (i.e. non-preemptive) authorization.
      * @param conn The connection to apply the header(s) to
      * @param p A source of header values for this connection, if needed.
      * @param raw The raw header field (if needed)
      * @return true if all goes well, false if no headers were set.
      */
     public abstract boolean setHeaders(HttpURLConnection conn, HeaderParser p, String raw);

     /**
      * Check if the header indicates that the current auth. parameters are stale.
      * If so, then replace the relevant field with the new value
      * and return true. Otherwise return false.
      * returning true means the request can be retried with the same userid/password
      * returning false means we have to go back to the user to ask for a new
      * username password.
      */
     public abstract boolean isAuthorizationStale (String header);

     /**
      * Give a key for hash table lookups.
      * @param includeRealm if you want the realm considered.  Preemptively
      *          setting an authorization is done before the realm is known.
      */
     String cacheKey(boolean includeRealm) {
         // This must be kept in sync with the getXXXAuth() methods in this
         // class.
         if (includeRealm) {
             return type + ":" + authScheme + ":" + protocol + ":"
                         + host + ":" + port + ":" + realm;
         } else {
             return type + ":" + protocol + ":" + host + ":" + port;
         }
     }

     String s1, s2;  /* used for serialization of pw */

     private void readObject(ObjectInputStream s)
         throws IOException, ClassNotFoundException
     {
         s.defaultReadObject ();
         pw = new PasswordAuthentication (s1, s2.toCharArray());
         s1 = null; s2= null;
     }

     private synchronized void writeObject(java.io.ObjectOutputStream s)
         throws IOException
     {
         s1 = pw.getUserName();
         s2 = new String (pw.getPassword());
         s.defaultWriteObject ();
     }
 }
	/*
	* Copyright (c) 1995, 2010, 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 sun.net.www.protocol.http;

	import java.io.IOException;
	import java.io.ObjectInputStream;
	import java.net.PasswordAuthentication;
	import java.net.URL;
	import java.util.HashMap;

	import sun.net.www.HeaderParser;


	/**
	* AuthenticationInfo: Encapsulate the information needed to
	* authenticate a user to a server.
	*
	* @author Jon Payne
	* @author Herb Jellinek
	* @author Bill Foote
	*/
	// REMIND: It would be nice if this class understood about partial matching.
	// If you're authorized for foo.com, chances are high you're also
	// authorized for baz.foo.com.
	// NB: When this gets implemented, be careful about the uncaching
	// policy in HttpURLConnection. A failure on baz.foo.com shouldn't
	// uncache foo.com!

	public abstract class AuthenticationInfo extends AuthCacheValue implements Cloneable {

	// Constants saying what kind of authroization this is. This determines
	// the namespace in the hash table lookup.
	public static final char SERVER_AUTHENTICATION = 's';
	public static final char PROXY_AUTHENTICATION = 'p';

	/**
	* If true, then simultaneous authentication requests to the same realm/proxy
	* are serialized, in order to avoid a user having to type the same username/passwords
	* repeatedly, via the Authenticator. Default is false, which means that this
	* behavior is switched off.
	*/
	static boolean serializeAuth;

	static {
	serializeAuth = java.security.AccessController.doPrivileged(
	new sun.security.action.GetBooleanAction(
	"http.auth.serializeRequests")).booleanValue();
	}

	/* AuthCacheValue: */

	transient protected PasswordAuthentication pw;

	public PasswordAuthentication credentials() {
	return pw;
	}

	public AuthCacheValue.Type getAuthType() {
	return type == SERVER_AUTHENTICATION ?
	AuthCacheValue.Type.Server:
	AuthCacheValue.Type.Proxy;
	}

	AuthScheme getAuthScheme() {
	return authScheme;
	}

	public String getHost() {
	return host;
	}
	public int getPort() {
	return port;
	}
	public String getRealm() {
	return realm;
	}
	public String getPath() {
	return path;
	}
	public String getProtocolScheme() {
	return protocol;
	}

	/**
	* requests is used to ensure that interaction with the
	* Authenticator for a particular realm is single threaded.
	* ie. if multiple threads need to get credentials from the user
	* at the same time, then all but the first will block until
	* the first completes its authentication.
	*/
	static private HashMap<String,Thread> requests = new HashMap<>();

	/* check if a request for this destination is in progress
	* return false immediately if not. Otherwise block until
	* request is finished and return true
	*/
	static private boolean requestIsInProgress (String key) {
	if (!serializeAuth) {
	/* behavior is disabled. Revert to concurrent requests */
	return false;
	}
	synchronized (requests) {
	Thread t, c;
	c = Thread.currentThread();
	if ((t = requests.get(key)) == null) {
	requests.put (key, c);
	return false;
	}
	if (t == c) {
	return false;
	}
	while (requests.containsKey(key)) {
	try {
	requests.wait ();
	} catch (InterruptedException e) {}
	}
	}
	/* entry may be in cache now. */
	return true;
	}

	/* signal completion of an authentication (whether it succeeded or not)
	* so that other threads can continue.
	*/
	static private void requestCompleted (String key) {
	synchronized (requests) {
	Thread thread = requests.get(key);
	if (thread != null && thread == Thread.currentThread()) {
	boolean waspresent = requests.remove(key) != null;
	assert waspresent;
	}
	requests.notifyAll();
	}
	}

	//public String toString () {
	//return ("{"+type+":"+authScheme+":"+protocol+":"+host+":"+port+":"+realm+":"+path+"}");
	//}

	// REMIND: This cache just grows forever. We should put in a bounded
	// cache, or maybe something using WeakRef's.

	/** The type (server/proxy) of authentication this is. Used for key lookup */
	char type;

	/** The authentication scheme (basic/digest). Also used for key lookup */
	AuthScheme authScheme;

	/** The protocol/scheme (i.e. http or https ). Need to keep the caches
	* logically separate for the two protocols. This field is only used
	* when constructed with a URL (the normal case for server authentication)
	* For proxy authentication the protocol is not relevant.
	*/
	String protocol;

	/** The host we're authenticating against. */
	String host;

	/** The port on the host we're authenticating against. */
	int port;

	/** The realm we're authenticating against. */
	String realm;

	/** The shortest path from the URL we authenticated against. */
	String path;

	/** Use this constructor only for proxy entries */
	public AuthenticationInfo(char type, AuthScheme authScheme, String host, int port, String realm) {
	this.type = type;
	this.authScheme = authScheme;
	this.protocol = "";
	this.host = host.toLowerCase();
	this.port = port;
	this.realm = realm;
	this.path = null;
	}

	public Object clone() {
	try {
	return super.clone ();
	} catch (CloneNotSupportedException e) {
	// Cannot happen because Cloneable implemented by AuthenticationInfo
	return null;
	}
	}

	/*
	* Constructor used to limit the authorization to the path within
	* the URL. Use this constructor for origin server entries.
	*/
	public AuthenticationInfo(char type, AuthScheme authScheme, URL url, String realm) {
	this.type = type;
	this.authScheme = authScheme;
	this.protocol = url.getProtocol().toLowerCase();
	this.host = url.getHost().toLowerCase();
	this.port = url.getPort();
	if (this.port == -1) {
	this.port = url.getDefaultPort();
	}
	this.realm = realm;

	String urlPath = url.getPath();
	if (urlPath.length() == 0)
	this.path = urlPath;
	else {
	this.path = reducePath (urlPath);
	}

	}

	/*
	* reduce the path to the root of where we think the
	* authorization begins. This could get shorter as
	* the url is traversed up following a successful challenge.
	*/
	static String reducePath (String urlPath) {
	int sepIndex = urlPath.lastIndexOf('/');
	int targetSuffixIndex = urlPath.lastIndexOf('.');
	if (sepIndex != -1)
	if (sepIndex < targetSuffixIndex)
	return urlPath.substring(0, sepIndex+1);
	else
	return urlPath;
	else
	return urlPath;
	}

	/**
	* Returns info for the URL, for an HTTP server auth. Used when we
	* don't yet know the realm
	* (i.e. when we're preemptively setting the auth).
	*/
	static AuthenticationInfo getServerAuth(URL url) {
	int port = url.getPort();
	if (port == -1) {
	port = url.getDefaultPort();
	}
	String key = SERVER_AUTHENTICATION + ":" + url.getProtocol().toLowerCase()
	+ ":" + url.getHost().toLowerCase() + ":" + port;
	return getAuth(key, url);
	}

	/**
	* Returns info for the URL, for an HTTP server auth. Used when we
	* do know the realm (i.e. when we're responding to a challenge).
	* In this case we do not use the path because the protection space
	* is identified by the host:port:realm only
	*/
	static String getServerAuthKey(URL url, String realm, AuthScheme scheme) {
	int port = url.getPort();
	if (port == -1) {
	port = url.getDefaultPort();
	}
	String key = SERVER_AUTHENTICATION + ":" + scheme + ":" + url.getProtocol().toLowerCase()
	+ ":" + url.getHost().toLowerCase() + ":" + port + ":" + realm;
	return key;
	}

	static AuthenticationInfo getServerAuth(String key) {
	AuthenticationInfo cached = getAuth(key, null);
	if ((cached == null) && requestIsInProgress (key)) {
	/* check the cache again, it might contain an entry */
	cached = getAuth(key, null);
	}
	return cached;
	}


	/**
	* Return the AuthenticationInfo object from the cache if it's path is
	* a substring of the supplied URLs path.
	*/
	static AuthenticationInfo getAuth(String key, URL url) {
	if (url == null) {
	return (AuthenticationInfo)cache.get (key, null);
	} else {
	return (AuthenticationInfo)cache.get (key, url.getPath());
	}
	}

	/**
	* Returns a firewall authentication, for the given host/port. Used
	* for preemptive header-setting. Note, the protocol field is always
	* blank for proxies.
	*/
	static AuthenticationInfo getProxyAuth(String host, int port) {
	String key = PROXY_AUTHENTICATION + "::" + host.toLowerCase() + ":" + port;
	AuthenticationInfo result = (AuthenticationInfo) cache.get(key, null);
	return result;
	}

	/**
	* Returns a firewall authentication, for the given host/port and realm.
	* Used in response to a challenge. Note, the protocol field is always
	* blank for proxies.
	*/
	static String getProxyAuthKey(String host, int port, String realm, AuthScheme scheme) {
	String key = PROXY_AUTHENTICATION + ":" + scheme + "::" + host.toLowerCase()
	+ ":" + port + ":" + realm;
	return key;
	}

	static AuthenticationInfo getProxyAuth(String key) {
	AuthenticationInfo cached = (AuthenticationInfo) cache.get(key, null);
	if ((cached == null) && requestIsInProgress (key)) {
	/* check the cache again, it might contain an entry */
	cached = (AuthenticationInfo) cache.get(key, null);
	}
	return cached;
	}


	/**
	* Add this authentication to the cache
	*/
	void addToCache() {
	String key = cacheKey(true);
	cache.put(key, this);
	if (supportsPreemptiveAuthorization()) {
	cache.put(cacheKey(false), this);
	}
	endAuthRequest(key);
	}

	static void endAuthRequest (String key) {
	if (!serializeAuth) {
	return;
	}
	synchronized (requests) {
	requestCompleted(key);
	}
	}

	/**
	* Remove this authentication from the cache
	*/
	void removeFromCache() {
	cache.remove(cacheKey(true), this);
	if (supportsPreemptiveAuthorization()) {
	cache.remove(cacheKey(false), this);
	}
	}

	/**
	* @return true if this authentication supports preemptive authorization
	*/
	public abstract boolean supportsPreemptiveAuthorization();

	/**
	* @return the name of the HTTP header this authentication wants set.
	* This is used for preemptive authorization.
	*/
	public String getHeaderName() {
	if (type == SERVER_AUTHENTICATION) {
	return "Authorization";
	} else {
	return "Proxy-authorization";
	}
	}

	/**
	* Calculates and returns the authentication header value based
	* on the stored authentication parameters. If the calculation does not depend
	* on the URL or the request method then these parameters are ignored.
	* @param url The URL
	* @param method The request method
	* @return the value of the HTTP header this authentication wants set.
	* Used for preemptive authorization.
	*/
	public abstract String getHeaderValue(URL url, String method);

	/**
	* Set header(s) on the given connection. Subclasses must override
	* This will only be called for
	* definitive (i.e. non-preemptive) authorization.
	* @param conn The connection to apply the header(s) to
	* @param p A source of header values for this connection, if needed.
	* @param raw The raw header field (if needed)
	* @return true if all goes well, false if no headers were set.
	*/
	public abstract boolean setHeaders(HttpURLConnection conn, HeaderParser p, String raw);

	/**
	* Check if the header indicates that the current auth. parameters are stale.
	* If so, then replace the relevant field with the new value
	* and return true. Otherwise return false.
	* returning true means the request can be retried with the same userid/password
	* returning false means we have to go back to the user to ask for a new
	* username password.
	*/
	public abstract boolean isAuthorizationStale (String header);

	/**
	* Give a key for hash table lookups.
	* @param includeRealm if you want the realm considered. Preemptively
	* setting an authorization is done before the realm is known.
	*/
	String cacheKey(boolean includeRealm) {
	// This must be kept in sync with the getXXXAuth() methods in this
	// class.
	if (includeRealm) {
	return type + ":" + authScheme + ":" + protocol + ":"
	+ host + ":" + port + ":" + realm;
	} else {
	return type + ":" + protocol + ":" + host + ":" + port;
	}
	}

	String s1, s2; /* used for serialization of pw */

	private void readObject(ObjectInputStream s)
	throws IOException, ClassNotFoundException
	{
	s.defaultReadObject ();
	pw = new PasswordAuthentication (s1, s2.toCharArray());
	s1 = null; s2= null;
	}

	private synchronized void writeObject(java.io.ObjectOutputStream s)
	throws IOException
	{
	s1 = pw.getUserName();
	s2 = new String (pw.getPassword());
	s.defaultWriteObject ();
	}
	}