/* * Copyright (c) 2000, 2006, 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.security.jgss; import org.ietf.jgss.GSSException; import java.io.InputStream; import java.io.OutputStream; import java.io.IOException; import sun.security.util.*; /** * This class represents the mechanism independent part of a GSS-API * context establishment token. Some mechanisms may choose to encode * all subsequent tokens as well such that they start with an encoding * of an instance of this class. e.g., The Kerberos v5 GSS-API Mechanism * uses this header for all GSS-API tokens. *

* The format is specified in RFC 2743 section 3.1. * * @author Mayank Upadhyay */ /* * The RFC states that implementations should explicitly follow the * encoding scheme descibed in this section rather than use ASN.1 * compilers. However, we should consider removing duplicate ASN.1 * like code from here and depend on sun.security.util if possible. */ public class GSSHeader { private ObjectIdentifier mechOid = null; private byte[] mechOidBytes = null; private int mechTokenLength = 0; /** * The tag defined in the GSS-API mechanism independent token * format. */ public static final int TOKEN_ID=0x60; /** * Creates a GSSHeader instance whose encoding can be used as the * prefix for a particular mechanism token. * @param mechOid the Oid of the mechanism which generated the token * @param mechTokenLength the length of the subsequent portion that * the mechanism will be adding. */ public GSSHeader(ObjectIdentifier mechOid, int mechTokenLength) throws IOException { this.mechOid = mechOid; DerOutputStream temp = new DerOutputStream(); temp.putOID(mechOid); mechOidBytes = temp.toByteArray(); this.mechTokenLength = mechTokenLength; } /** * Reads in a GSSHeader from an InputStream. Typically this would be * used as part of reading the complete token from an InputStream * that is obtained from a socket. */ public GSSHeader(InputStream is) throws IOException, GSSException { // debug("Parsing GSS token: "); int tag = is.read(); // debug("tag=" + tag); if (tag != TOKEN_ID) throw new GSSException(GSSException.DEFECTIVE_TOKEN, -1, "GSSHeader did not find the right tag"); int length = getLength(is); DerValue temp = new DerValue(is); mechOidBytes = temp.toByteArray(); mechOid = temp.getOID(); // debug (" oid=" + mechOid); // debug (" len starting with oid=" + length); mechTokenLength = length - mechOidBytes.length; // debug(" mechToken length=" + mechTokenLength); } /** * Used to obtain the Oid stored in this GSSHeader instance. * @return the Oid of the mechanism. */ public ObjectIdentifier getOid() { return mechOid; } /** * Used to obtain the length of the mechanism specific token that * will follow the encoding of this GSSHeader instance. * @return the length of the mechanism specific token portion that * will follow this GSSHeader. */ public int getMechTokenLength() { return mechTokenLength; } /** * Used to obtain the length of the encoding of this GSSHeader. * @return the lenght of the encoding of this GSSHeader instance. */ public int getLength() { int lenField = mechOidBytes.length + mechTokenLength; return (1 + getLenFieldSize(lenField) + mechOidBytes.length); } /** * Used to determine what the maximum possible mechanism token * size is if the complete GSSToken returned to the application * (including a GSSHeader) is not to exceed some pre-determined * value in size. * @param mechOid the Oid of the mechanism that will generate * this GSS-API token * @param maxTotalSize the pre-determined value that serves as a * maximum size for the complete GSS-API token (including a * GSSHeader) * @return the maximum size of mechanism token that can be used * so as to not exceed maxTotalSize with the GSS-API token */ public static int getMaxMechTokenSize(ObjectIdentifier mechOid, int maxTotalSize) { int mechOidBytesSize = 0; try { DerOutputStream temp = new DerOutputStream(); temp.putOID(mechOid); mechOidBytesSize = temp.toByteArray().length; } catch (IOException e) { } // Subtract bytes needed for 0x60 tag and mechOidBytes maxTotalSize -= (1 + mechOidBytesSize); // Subtract maximum len bytes maxTotalSize -= 5; return maxTotalSize; /* * Len field and mechanism token must fit in remaining * space. The range of the len field that we allow is * 1 through 5. * int mechTokenSize = 0; for (int lenFieldSize = 1; lenFieldSize <= 5; lenFieldSize++) { mechTokenSize = maxTotalSize - lenFieldSize; if (getLenFieldSize(mechTokenSize + mechOidBytesSize + lenFieldSize) <= lenFieldSize) break; } return mechTokenSize; */ } /** * Used to determine the number of bytes that will be need to encode * the length field of the GSSHeader. */ private int getLenFieldSize(int len) { int retVal = 1; if (len < 128) { retVal=1; } else if (len < (1 << 8)) { retVal=2; } else if (len < (1 << 16)) { retVal=3; } else if (len < (1 << 24)) { retVal=4; } else { retVal=5; // See getMaxMechTokenSize } return retVal; } /** * Encodes this GSSHeader instance onto the provided OutputStream. * @param os the OutputStream to which the token should be written. * @return the number of bytes that are output as a result of this * encoding */ public int encode(OutputStream os) throws IOException { int retVal = 1 + mechOidBytes.length; os.write(TOKEN_ID); int length = mechOidBytes.length + mechTokenLength; retVal += putLength(length, os); os.write(mechOidBytes); return retVal; } /** * Get a length from the input stream, allowing for at most 32 bits of * encoding to be used. (Not the same as getting a tagged integer!) * * @return the length or -1 if indefinite length found. * @exception IOException on parsing error or unsupported lengths. */ // shameless lifted from sun.security.util.DerInputStream. private int getLength(InputStream in) throws IOException { return getLength(in.read(), in); } /** * Get a length from the input stream, allowing for at most 32 bits of * encoding to be used. (Not the same as getting a tagged integer!) * * @return the length or -1 if indefinite length found. * @exception IOException on parsing error or unsupported lengths. */ // shameless lifted from sun.security.util.DerInputStream. private int getLength(int lenByte, InputStream in) throws IOException { int value, tmp; tmp = lenByte; if ((tmp & 0x080) == 0x00) { // short form, 1 byte datum value = tmp; } else { // long form or indefinite tmp &= 0x07f; /* * NOTE: tmp == 0 indicates indefinite length encoded data. * tmp > 4 indicates more than 4Gb of data. */ if (tmp == 0) return -1; if (tmp < 0 || tmp > 4) throw new IOException("DerInputStream.getLength(): lengthTag=" + tmp + ", " + ((tmp < 0) ? "incorrect DER encoding." : "too big.")); for (value = 0; tmp > 0; tmp --) { value <<= 8; value += 0x0ff & in.read(); } } return value; } /** * Put the encoding of the length in the specified stream. * * @params len the length of the attribute. * @param out the outputstream to write the length to * @return the number of bytes written * @exception IOException on writing errors. */ // Shameless lifted from sun.security.util.DerOutputStream. private int putLength(int len, OutputStream out) throws IOException { int retVal = 0; if (len < 128) { out.write((byte)len); retVal=1; } else if (len < (1 << 8)) { out.write((byte)0x081); out.write((byte)len); retVal=2; } else if (len < (1 << 16)) { out.write((byte)0x082); out.write((byte)(len >> 8)); out.write((byte)len); retVal=3; } else if (len < (1 << 24)) { out.write((byte)0x083); out.write((byte)(len >> 16)); out.write((byte)(len >> 8)); out.write((byte)len); retVal=4; } else { out.write((byte)0x084); out.write((byte)(len >> 24)); out.write((byte)(len >> 16)); out.write((byte)(len >> 8)); out.write((byte)len); retVal=5; } return retVal; } // XXX Call these two in some central class private void debug(String str) { System.err.print(str); } private String getHexBytes(byte[] bytes, int len) throws IOException { StringBuffer sb = new StringBuffer(); for (int i = 0; i < len; i++) { int b1 = (bytes[i]>>4) & 0x0f; int b2 = bytes[i] & 0x0f; sb.append(Integer.toHexString(b1)); sb.append(Integer.toHexString(b2)); sb.append(' '); } return sb.toString(); } }