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/*
 * Copyright (c) 1997, 2012, 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.
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 * 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).
 *
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package javax.net.ssl;

import java.security.Principal;

/**
 * In SSL, sessions are used to describe an ongoing relationship between
 * two entities.  Each SSL connection involves one session at a time, but
 * that session may be used on many connections between those entities,
 * simultaneously or sequentially.  The session used on a connection may
 * also be replaced by a different session.  Sessions are created, or
 * rejoined, as part of the SSL handshaking protocol. Sessions may be
 * invalidated due to policies affecting security or resource usage,
 * or by an application explicitly calling invalidate.
 * Session management policies are typically used to tune performance.
 *
 * 

In addition to the standard session attributes, SSL sessions expose * these read-only attributes:

    * *
  • Peer Identity. Sessions are between a particular * client and a particular server. The identity of the peer may * have been established as part of session setup. Peers are * generally identified by X.509 certificate chains. * *
  • Cipher Suite Name. Cipher suites describe the * kind of cryptographic protection that's used by connections * in a particular session. * *
  • Peer Host. All connections in a session are * between the same two hosts. The address of the host on the other * side of the connection is available. * *
* *

Sessions may be explicitly invalidated. Invalidation may also * be done implicitly, when faced with certain kinds of errors. * * @since 1.4 * @author David Brownell */ public interface SSLSession { /** * Returns the identifier assigned to this Session. * * @return the Session identifier */ public byte[] getId(); /** * Returns the context in which this session is bound. *

* This context may be unavailable in some environments, * in which case this method returns null. *

* If the context is available and there is a * security manager installed, the caller may require * permission to access it or a security exception may be thrown. * In a Java environment, the security manager's * checkPermission method is called with a * SSLPermission("getSSLSessionContext") permission. * * @throws SecurityException if the calling thread does not have * permission to get SSL session context. * @return the session context used for this session, or null * if the context is unavailable. */ public SSLSessionContext getSessionContext(); /** * Returns the time at which this Session representation was created, * in milliseconds since midnight, January 1, 1970 UTC. * * @return the time this Session was created */ public long getCreationTime(); /** * Returns the last time this Session representation was accessed by the * session level infrastructure, in milliseconds since * midnight, January 1, 1970 UTC. *

* Access indicates a new connection being established using session data. * Application level operations, such as getting or setting a value * associated with the session, are not reflected in this access time. * *

This information is particularly useful in session management * policies. For example, a session manager thread could leave all * sessions in a given context which haven't been used in a long time; * or, the sessions might be sorted according to age to optimize some task. * * @return the last time this Session was accessed */ public long getLastAccessedTime(); /** * Invalidates the session. *

* Future connections will not be able to * resume or join this session. However, any existing connection * using this session can continue to use the session until the * connection is closed. * * @see #isValid() */ public void invalidate(); /** * Returns whether this session is valid and available for resuming or * joining. * * @return true if this session may be rejoined. * @see #invalidate() * * @since 1.5 */ public boolean isValid(); /** * * Binds the specified value object into the * session's application layer data * with the given name. *

* Any existing binding using the same name is * replaced. If the new (or existing) value implements the * SSLSessionBindingListener interface, the object * represented by value is notified appropriately. *

* For security reasons, the same named values may not be * visible across different access control contexts. * * @param name the name to which the data object will be bound. * This may not be null. * @param value the data object to be bound. This may not be null. * @throws IllegalArgumentException if either argument is null. */ public void putValue(String name, Object value); /** * Returns the object bound to the given name in the session's * application layer data. Returns null if there is no such binding. *

* For security reasons, the same named values may not be * visible across different access control contexts. * * @param name the name of the binding to find. * @return the value bound to that name, or null if the binding does * not exist. * @throws IllegalArgumentException if the argument is null. */ public Object getValue(String name); /** * Removes the object bound to the given name in the session's * application layer data. Does nothing if there is no object * bound to the given name. If the bound existing object * implements the SessionBindingListener interface, * it is notified appropriately. *

* For security reasons, the same named values may not be * visible across different access control contexts. * * @param name the name of the object to remove visible * across different access control contexts * @throws IllegalArgumentException if the argument is null. */ public void removeValue(String name); /** * Returns an array of the names of all the application layer * data objects bound into the Session. *

* For security reasons, the same named values may not be * visible across different access control contexts. * * @return a non-null (possibly empty) array of names of the objects * bound to this Session. */ public String [] getValueNames(); /** * Returns the identity of the peer which was established as part * of defining the session. *

* Note: This method can be used only when using certificate-based * cipher suites; using it with non-certificate-based cipher suites, * such as Kerberos, will throw an SSLPeerUnverifiedException. * * @return an ordered array of peer certificates, * with the peer's own certificate first followed by any * certificate authorities. * @exception SSLPeerUnverifiedException if the peer's identity has not * been verified * @see #getPeerPrincipal() */ public java.security.cert.Certificate [] getPeerCertificates() throws SSLPeerUnverifiedException; /** * Returns the certificate(s) that were sent to the peer during * handshaking. *

* Note: This method is useful only when using certificate-based * cipher suites. *

* When multiple certificates are available for use in a * handshake, the implementation chooses what it considers the * "best" certificate chain available, and transmits that to * the other side. This method allows the caller to know * which certificate chain was actually used. * * @return an ordered array of certificates, * with the local certificate first followed by any * certificate authorities. If no certificates were sent, * then null is returned. * * @see #getLocalPrincipal() */ public java.security.cert.Certificate [] getLocalCertificates(); /** * Returns the identity of the peer which was identified as part * of defining the session. *

* Note: This method can be used only when using certificate-based * cipher suites; using it with non-certificate-based cipher suites, * such as Kerberos, will throw an SSLPeerUnverifiedException. * *

Note: this method exists for compatibility with previous * releases. New applications should use * {@link #getPeerCertificates} instead.

* * @return an ordered array of peer X.509 certificates, * with the peer's own certificate first followed by any * certificate authorities. (The certificates are in * the original JSSE certificate * {@link javax.security.cert.X509Certificate} format.) * @exception SSLPeerUnverifiedException if the peer's identity * has not been verified * @see #getPeerPrincipal() */ public javax.security.cert.X509Certificate [] getPeerCertificateChain() throws SSLPeerUnverifiedException; /** * Returns the identity of the peer which was established as part of * defining the session. * * @return the peer's principal. Returns an X500Principal of the * end-entity certiticate for X509-based cipher suites, and * KerberosPrincipal for Kerberos cipher suites. * * @throws SSLPeerUnverifiedException if the peer's identity has not * been verified * * @see #getPeerCertificates() * @see #getLocalPrincipal() * * @since 1.5 */ public Principal getPeerPrincipal() throws SSLPeerUnverifiedException; /** * Returns the principal that was sent to the peer during handshaking. * * @return the principal sent to the peer. Returns an X500Principal * of the end-entity certificate for X509-based cipher suites, and * KerberosPrincipal for Kerberos cipher suites. If no principal was * sent, then null is returned. * * @see #getLocalCertificates() * @see #getPeerPrincipal() * * @since 1.5 */ public Principal getLocalPrincipal(); /** * Returns the name of the SSL cipher suite which is used for all * connections in the session. * *

This defines the level of protection * provided to the data sent on the connection, including the kind * of encryption used and most aspects of how authentication is done. * * @return the name of the session's cipher suite */ public String getCipherSuite(); /** * Returns the standard name of the protocol used for all * connections in the session. * *

This defines the protocol used in the connection. * * @return the standard name of the protocol used for all * connections in the session. */ public String getProtocol(); /** * Returns the host name of the peer in this session. *

* For the server, this is the client's host; and for * the client, it is the server's host. The name may not be * a fully qualified host name or even a host name at all as * it may represent a string encoding of the peer's network address. * If such a name is desired, it might * be resolved through a name service based on the value returned * by this method. *

* This value is not authenticated and should not be relied upon. * It is mainly used as a hint for SSLSession caching * strategies. * * @return the host name of the peer host, or null if no information * is available. */ public String getPeerHost(); /** * Returns the port number of the peer in this session. *

* For the server, this is the client's port number; and for * the client, it is the server's port number. *

* This value is not authenticated and should not be relied upon. * It is mainly used as a hint for SSLSession caching * strategies. * * @return the port number of the peer host, or -1 if no information * is available. * * @since 1.5 */ public int getPeerPort(); /** * Gets the current size of the largest SSL/TLS packet that is expected * when using this session. *

* A SSLEngine using this session may generate SSL/TLS * packets of any size up to and including the value returned by this * method. All SSLEngine network buffers should be sized * at least this large to avoid insufficient space problems when * performing wrap and unwrap calls. * * @return the current maximum expected network packet size * * @see SSLEngine#wrap(ByteBuffer, ByteBuffer) * @see SSLEngine#unwrap(ByteBuffer, ByteBuffer) * * @since 1.5 */ public int getPacketBufferSize(); /** * Gets the current size of the largest application data that is * expected when using this session. *

* SSLEngine application data buffers must be large * enough to hold the application data from any inbound network * application data packet received. Typically, outbound * application data buffers can be of any size. * * @return the current maximum expected application packet size * * @see SSLEngine#wrap(ByteBuffer, ByteBuffer) * @see SSLEngine#unwrap(ByteBuffer, ByteBuffer) * * @since 1.5 */ public int getApplicationBufferSize(); }





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