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/*
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 * published by the Free Software Foundation.  Oracle designates this
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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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 * 2 along with this work; if not, write to the Free Software Foundation,
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 *
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/*
 *
 *  (C) Copyright IBM Corp. 1999 All Rights Reserved.
 *  Copyright 1997 The Open Group Research Institute.  All rights reserved.
 */
package sun.security.jgss.spi;

import org.ietf.jgss.*;
import java.io.InputStream;
import java.io.OutputStream;
import java.security.Provider;

/**
 * This interface is implemented by a mechanism specific instance of a GSS
 * security context.
 * A GSSContextSpi object can be thought of having 3 states:
 *    -before initialization
 *    -during initialization with its peer
 *    -after it is established
 * <p>
 * The context options can only be requested in state 1. In state 3,
 * the per message operations are available to the callers. The get
 * methods for the context options will return the requested options
 * while in state 1 and 2, and the established values in state 3.
 * Some mechanisms may allow the access to the per-message operations
 * and the context flags before the context is fully established. The
 * isProtReady method is used to indicate that these services are
 * available.
 * <p>
 * <strong>
 * Context establishment tokens are defined in a mechanism independent
 * format in section 3.1 of RFC 2743. The GSS-Framework will add
 * and remove the mechanism independent header portion of this token format
 * depending on whether a token is received or is being sent. The mechanism
 * should only generate or expect to read the inner-context token portion.
 * <br>
 * On the other hands, tokens used for per-message calls are generated
 * entirely by the mechanism. It is possible that the mechanism chooses to
 * encase inner-level per-message tokens in a header similar to that used
 * for initial tokens, however, this is upto the mechanism to do. The token
 * to/from the per-message calls are opaque to the GSS-Framework.
 * </strong>
 * <p>
 * An attempt has been made to allow for reading the peer's tokens from an
 * InputStream and writing tokens for the peer to an OutputStream. This
 * allows applications to pass in streams that are obtained from their network
 * connections and thus minimize the buffer copies that will happen. This
 * is especially important for tokens generated by wrap() which are
 * proportional in size to the length of the application data being
 * wrapped, and are probably also the most frequently used type of tokens.
 * <p>
 * It is anticipated that most applications will want to use wrap() in a
 * fashion where they obtain the application bytes to wrap from a byte[]
 * but want to output the wrap token straight to an
 * OutputStream. Similarly, they will want to use unwrap() where they read
 * the token directly form an InputStream but output it to some byte[] for
 * the application to process. Unfortunately the high level GSS bindings
 * do not contain overloaded forms of wrap() and unwrap() that do just
 * this, however we have accomodated those cases here with the expectation
 * that this will be rolled into the high level bindings sooner or later.
 *
 * @author Mayank Upadhyay
 */

public interface GSSContextSpi {

    public Provider getProvider();

    // The specification for the following methods mirrors the
    // specification of the same methods in the GSSContext interface, as
    // defined in RFC 2853.

    public void requestLifetime(int lifetime) throws GSSException;

    public void requestMutualAuth(boolean state) throws GSSException;

    public void requestReplayDet(boolean state) throws GSSException;

    public void requestSequenceDet(boolean state) throws GSSException;

    public void requestCredDeleg(boolean state) throws GSSException;

    public void requestAnonymity(boolean state) throws GSSException;

    public void requestConf(boolean state) throws GSSException;

    public void requestInteg(boolean state) throws GSSException;

    public void requestDelegPolicy(boolean state) throws GSSException;

    public void setChannelBinding(ChannelBinding cb) throws GSSException;

    public boolean getCredDelegState();

    public boolean getMutualAuthState();

    public boolean getReplayDetState();

    public boolean getSequenceDetState();

    public boolean getAnonymityState();

    public boolean getDelegPolicyState();

    public boolean isTransferable() throws GSSException;

    public boolean isProtReady();

    public boolean isInitiator();

    public boolean getConfState();

    public boolean getIntegState();

    public int getLifetime();

    public boolean isEstablished();

    public GSSNameSpi getSrcName() throws GSSException;

    public GSSNameSpi getTargName() throws GSSException;

    public Oid getMech() throws GSSException;

    public GSSCredentialSpi getDelegCred() throws GSSException;

    /**
     * Initiator context establishment call. This method may be
     * required to be called several times. A CONTINUE_NEEDED return
     * call indicates that more calls are needed after the next token
     * is received from the peer.
     * <p>
     * This method is called by the GSS-Framework when the application
     * calls the initSecContext method on the GSSContext implementation
     * that it has a reference to.
     * <p>
     * All overloaded forms of GSSContext.initSecContext() can be handled
     * with this mechanism level initSecContext. Since the output token
     * from this method is a fixed size, not exeedingly large, and a one
     * time deal, an overloaded form that takes an OutputStream has not
     * been defined. The GSS-Framwork can write the returned byte[] to any
     * application provided OutputStream. Similarly, any application input
     * int he form of byte arrays will be wrapped in an input stream by the
     * GSS-Framework and then passed here.
     * <p>
     * <strong>
     * The GSS-Framework will strip off the leading mechanism independent
     * GSS-API header. In other words, only the mechanism specific
     * inner-context token of RFC 2743 section 3.1 will be available on the
     * InputStream.
     * </strong>
     *
     * @param is contains the inner context token portion of the GSS token
     * received from the peer. On the first call to initSecContext, there
     * will be no token hence it will be ignored.
     * @param mechTokenSize the size of the inner context token as read by
     * the GSS-Framework from the mechanism independent GSS-API level
     * header.
     * @return any inner-context token required to be sent to the peer as
     * part of a GSS token. The mechanism should not add the mechanism
     * independent part of the token. The GSS-Framework will add that on
     * the way out.
     * @exception GSSException may be thrown
     */
    public byte[] initSecContext(InputStream is, int mechTokenSize)
                        throws GSSException;

    /**
     * Acceptor's context establishment call. This method may be
     * required to be called several times. A CONTINUE_NEEDED return
     * call indicates that more calls are needed after the next token
     * is received from the peer.
     * <p>
     * This method is called by the GSS-Framework when the application
     * calls the acceptSecContext method on the GSSContext implementation
     * that it has a reference to.
     * <p>
     * All overloaded forms of GSSContext.acceptSecContext() can be handled
     * with this mechanism level acceptSecContext. Since the output token
     * from this method is a fixed size, not exeedingly large, and a one
     * time deal, an overloaded form that takes an OutputStream has not
     * been defined. The GSS-Framwork can write the returned byte[] to any
     * application provided OutputStream. Similarly, any application input
     * int he form of byte arrays will be wrapped in an input stream by the
     * GSS-Framework and then passed here.
     * <p>
     * <strong>
     * The GSS-Framework will strip off the leading mechanism independent
     * GSS-API header. In other words, only the mechanism specific
     * inner-context token of RFC 2743 section 3.1 will be available on the
     * InputStream.
     * </strong>
     *
     * @param is contains the inner context token portion of the GSS token
     * received from the peer.
     * @param mechTokenSize the size of the inner context token as read by
     * the GSS-Framework from the mechanism independent GSS-API level
     * header.
     * @return any inner-context token required to be sent to the peer as
     * part of a GSS token. The mechanism should not add the mechanism
     * independent part of the token. The GSS-Framework will add that on
     * the way out.
     * @exception GSSException may be thrown
     */
    public byte[] acceptSecContext(InputStream is, int mechTokenSize)
                        throws GSSException;

    /**
     * Queries the context for largest data size to accommodate
     * the specified protection and for the token to remain less then
     * maxTokSize.
     *
     * @param qop the quality of protection that the context will be
     *    asked to provide.
     * @param confReq a flag indicating whether confidentiality will be
     *    requested or not
     * @param maxTokSize the maximum size of the output token
     * @return the maximum size for the input message that can be
     *    provided to the wrap() method in order to guarantee that these
     *    requirements are met.
     * @exception GSSException may be thrown
     */
    public int getWrapSizeLimit(int qop, boolean confReq, int maxTokSize)
                        throws GSSException;

    /**
     * Provides per-message token encapsulation.
     *
     * @param is the user-provided message to be protected
     * @param os the token to be sent to the peer. It includes
     *    the message from <i>is</i> with the requested protection.
     * @param msgProp on input it contains the requested qop and
     *    confidentiality state, on output, the applied values
     * @exception GSSException may be thrown
     * @see unwrap
     */
    public void wrap(InputStream is, OutputStream os, MessageProp msgProp)
        throws GSSException;

    /**
     * For apps that want simplicity and don't care about buffer copies.
     */
    public byte[] wrap(byte[] inBuf, int offset, int len,
                       MessageProp msgProp) throws GSSException;

    /**
     * For apps that care about buffer copies but either cannot use streams
     * or want to avoid them for whatever reason. (Say, they are using
     * block ciphers.)
     *
     * NOTE: This method is not defined in public class org.ietf.jgss.GSSContext
     *
    public int wrap(byte[] inBuf, int inOffset, int len,
                    byte[] outBuf, int outOffset,
                    MessageProp msgProp) throws GSSException;

    */

    /**
     * For apps that want to read from a specific application provided
     * buffer but want to write directly to the network stream.
     */
    /*
     * Can be achieved by converting the input buffer to a
     * ByteInputStream. Provided to keep the API consistent
     * with unwrap.
     *
     * NOTE: This method is not defined in public class org.ietf.jgss.GSSContext
     *
    public void wrap(byte[] inBuf, int offset, int len,
                     OutputStream os, MessageProp msgProp)
        throws GSSException;
    */

    /**
     * Retrieves the message token previously encapsulated in the wrap
     * call.
     *
     * @param is the token from the peer
     * @param os unprotected message data
     * @param msgProp will contain the applied qop and confidentiality
     *    of the input token and any informatory status values
     * @exception GSSException may be thrown
     * @see wrap
     */
    public void unwrap(InputStream is, OutputStream os,
                        MessageProp msgProp) throws GSSException;

    /**
     * For apps that want simplicity and don't care about buffer copies.
     */
    public byte[] unwrap(byte[] inBuf, int offset, int len,
                         MessageProp msgProp) throws GSSException;

    /**
     * For apps that care about buffer copies but either cannot use streams
     * or want to avoid them for whatever reason. (Say, they are using
     * block ciphers.)
     *
     * NOTE: This method is not defined in public class org.ietf.jgss.GSSContext
     *
    public int unwrap(byte[] inBuf, int inOffset, int len,
                      byte[] outBuf, int outOffset,
                      MessageProp msgProp) throws GSSException;

    */

    /**
     * For apps that care about buffer copies and want to read
     * straight from the network, but also want the output in a specific
     * application provided buffer, say to reduce buffer allocation or
     * subsequent copy.
     *
     * NOTE: This method is not defined in public class org.ietf.jgss.GSSContext
     *
    public int unwrap(InputStream is,
                       byte[] outBuf, int outOffset,
                       MessageProp msgProp) throws GSSException;
    */

    /**
     * Applies per-message integrity services.
     *
     * @param is the user-provided message
     * @param os the token to be sent to the peer along with the
     *    message token. The message token <b>is not</b> encapsulated.
     * @param msgProp on input the desired QOP and output the applied QOP
     * @exception GSSException
     */
    public void getMIC(InputStream is, OutputStream os,
                        MessageProp msgProp)
                throws GSSException;

    public byte[] getMIC(byte[] inMsg, int offset, int len,
                         MessageProp msgProp) throws GSSException;

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