llvm-gcc-4.2/libjava/classpath/gnu/java/security/key/dss/DSSKeyPairRawCodec.java - llvm-archive - Git at Google

 /* DSSKeyPairRawCodec.java --
    Copyright 2001, 2002, 2003, 2006 Free Software Foundation, Inc.

 This file is a part of GNU Classpath.

 GNU Classpath is free software; you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 2 of the License, or (at
 your option) any later version.

 GNU Classpath 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 for more details.

 You should have received a copy of the GNU General Public License
 along with GNU Classpath; if not, write to the Free Software
 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
 USA

 Linking this library statically or dynamically with other modules is
 making a combined work based on this library.  Thus, the terms and
 conditions of the GNU General Public License cover the whole
 combination.

 As a special exception, the copyright holders of this library give you
 permission to link this library with independent modules to produce an
 executable, regardless of the license terms of these independent
 modules, and to copy and distribute the resulting executable under
 terms of your choice, provided that you also meet, for each linked
 independent module, the terms and conditions of the license of that
 module.  An independent module is a module which is not derived from
 or based on this library.  If you modify this library, you may extend
 this exception to your version of the library, but you are not
 obligated to do so.  If you do not wish to do so, delete this
 exception statement from your version.  */


 package gnu.java.security.key.dss;

 import gnu.java.security.Registry;
 import gnu.java.security.key.IKeyPairCodec;

 import java.io.ByteArrayOutputStream;
 import java.math.BigInteger;
 import java.security.PrivateKey;
 import java.security.PublicKey;

 /**
  * An object that implements the {@link IKeyPairCodec} operations for the
  * <i>Raw</i> format to use with DSS keypairs.
  */
 public class DSSKeyPairRawCodec
     implements IKeyPairCodec
 {
   // implicit 0-arguments constructor

   public int getFormatID()
   {
     return RAW_FORMAT;
   }

   /**
    * Returns the encoded form of the designated DSS (Digital Signature Standard)
    * public key according to the <i>Raw</i> format supported by this library.
    * <p>
    * The <i>Raw</i> format for a DSA public key, in this implementation, is a
    * byte sequence consisting of the following:
    * <ol>
    * <li>4-byte magic consisting of the value of the literal
    * {@link Registry#MAGIC_RAW_DSS_PUBLIC_KEY},
    * <li>
    * <li>1-byte version consisting of the constant: 0x01,</li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>p</code> in internet order,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>p</code>,
    * </li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>q</code>,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>q</code>,
    * </li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>g</code>,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>g</code>,
    * </li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>y</code>,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>y</code>,
    * </li>
    * </ol>
    *
    * @param key the key to encode.
    * @return the <i>Raw</i> format encoding of the designated key.
    * @throws IllegalArgumentException if the designated key is not a DSS
    *           (Digital Signature Standard) one.
    * @see Registry#MAGIC_RAW_DSS_PUBLIC_KEY
    */
   public byte[] encodePublicKey(PublicKey key)
   {
     if (! (key instanceof DSSPublicKey))
       throw new IllegalArgumentException("key");

     DSSPublicKey dssKey = (DSSPublicKey) key;
     ByteArrayOutputStream baos = new ByteArrayOutputStream();
     // magic
     baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[0]);
     baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[1]);
     baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[2]);
     baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[3]);
     // version
     baos.write(0x01);
     // p
     byte[] buffer = dssKey.getParams().getP().toByteArray();
     int length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     // q
     buffer = dssKey.getParams().getQ().toByteArray();
     length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     // g
     buffer = dssKey.getParams().getG().toByteArray();
     length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     // y
     buffer = dssKey.getY().toByteArray();
     length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     return baos.toByteArray();
   }

   public PublicKey decodePublicKey(byte[] k)
   {
     // magic
     if (k[0] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[0]
         || k[1] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[1]
         || k[2] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[2]
         || k[3] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[3])
       throw new IllegalArgumentException("magic");

     // version
     if (k[4] != 0x01)
       throw new IllegalArgumentException("version");

     int i = 5;
     int l;
     byte[] buffer;
     // p
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger p = new BigInteger(1, buffer);
     // q
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger q = new BigInteger(1, buffer);
     // g
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger g = new BigInteger(1, buffer);
     // y
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger y = new BigInteger(1, buffer);
     return new DSSPublicKey(p, q, g, y);
   }

   /**
    * Returns the encoded form of the designated DSS (Digital Signature Standard)
    * private key according to the <i>Raw</i> format supported by this library.
    * <p>
    * The <i>Raw</i> format for a DSA private key, in this implementation, is a
    * byte sequence consisting of the following:
    * <ol>
    * <li>4-byte magic consisting of the value of the literal
    * {@link Registry#MAGIC_RAW_DSS_PRIVATE_KEY},
    * <li>
    * <li>1-byte version consisting of the constant: 0x01,</li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>p</code> in internet order,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>p</code>,
    * </li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>q</code>,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>q</code>,
    * </li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>g</code>,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>g</code>,
    * </li>
    * <li>4-byte count of following bytes representing the DSA parameter
    * <code>x</code>,</li>
    * <li>n-bytes representation of a {@link BigInteger} obtained by invoking
    * the <code>toByteArray()</code> method on the DSA parameter <code>x</code>,
    * </li>
    * </ol>
    *
    * @param key the key to encode.
    * @return the <i>Raw</i> format encoding of the designated key.
    * @throws IllegalArgumentException if the designated key is not a DSS
    *           (Digital Signature Standard) one.
    */
   public byte[] encodePrivateKey(PrivateKey key)
   {
     if (! (key instanceof DSSPrivateKey))
       throw new IllegalArgumentException("key");

     DSSPrivateKey dssKey = (DSSPrivateKey) key;
     ByteArrayOutputStream baos = new ByteArrayOutputStream();
     // magic
     baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[0]);
     baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[1]);
     baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[2]);
     baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[3]);
     // version
     baos.write(0x01);
     // p
     byte[] buffer = dssKey.getParams().getP().toByteArray();
     int length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     // q
     buffer = dssKey.getParams().getQ().toByteArray();
     length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     // g
     buffer = dssKey.getParams().getG().toByteArray();
     length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     // x
     buffer = dssKey.getX().toByteArray();
     length = buffer.length;
     baos.write(length >>> 24);
     baos.write((length >>> 16) & 0xFF);
     baos.write((length >>> 8) & 0xFF);
     baos.write(length & 0xFF);
     baos.write(buffer, 0, length);
     return baos.toByteArray();
   }

   public PrivateKey decodePrivateKey(byte[] k)
   {
     // magic
     if (k[0] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[0]
         || k[1] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[1]
         || k[2] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[2]
         || k[3] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[3])
       throw new IllegalArgumentException("magic");

     // version
     if (k[4] != 0x01)
       throw new IllegalArgumentException("version");

     int i = 5;
     int l;
     byte[] buffer;
     // p
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger p = new BigInteger(1, buffer);
     // q
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger q = new BigInteger(1, buffer);
     // g
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger g = new BigInteger(1, buffer);
     // x
     l =  k[i++]         << 24
       | (k[i++] & 0xFF) << 16
       | (k[i++] & 0xFF) << 8
       | (k[i++] & 0xFF);
     buffer = new byte[l];
     System.arraycopy(k, i, buffer, 0, l);
     i += l;
     BigInteger x = new BigInteger(1, buffer);
     return new DSSPrivateKey(p, q, g, x);
   }
 }
	/* DSSKeyPairRawCodec.java --
	Copyright 2001, 2002, 2003, 2006 Free Software Foundation, Inc.

	This file is a part of GNU Classpath.

	GNU Classpath is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 2 of the License, or (at
	your option) any later version.

	GNU Classpath 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 for more details.

	You should have received a copy of the GNU General Public License
	along with GNU Classpath; if not, write to the Free Software
	Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
	USA

	Linking this library statically or dynamically with other modules is
	making a combined work based on this library. Thus, the terms and
	conditions of the GNU General Public License cover the whole
	combination.

	As a special exception, the copyright holders of this library give you
	permission to link this library with independent modules to produce an
	executable, regardless of the license terms of these independent
	modules, and to copy and distribute the resulting executable under
	terms of your choice, provided that you also meet, for each linked
	independent module, the terms and conditions of the license of that
	module. An independent module is a module which is not derived from
	or based on this library. If you modify this library, you may extend
	this exception to your version of the library, but you are not
	obligated to do so. If you do not wish to do so, delete this
	exception statement from your version. */


	package gnu.java.security.key.dss;

	import gnu.java.security.Registry;
	import gnu.java.security.key.IKeyPairCodec;

	import java.io.ByteArrayOutputStream;
	import java.math.BigInteger;
	import java.security.PrivateKey;
	import java.security.PublicKey;

	/**
	* An object that implements the {@link IKeyPairCodec} operations for the
	* <i>Raw</i> format to use with DSS keypairs.
	*/
	public class DSSKeyPairRawCodec
	implements IKeyPairCodec
	{
	// implicit 0-arguments constructor

	public int getFormatID()
	{
	return RAW_FORMAT;
	}

	/**
	* Returns the encoded form of the designated DSS (Digital Signature Standard)
	* public key according to the <i>Raw</i> format supported by this library.
	* <p>
	* The <i>Raw</i> format for a DSA public key, in this implementation, is a
	* byte sequence consisting of the following:
	* <ol>
	* <li>4-byte magic consisting of the value of the literal
	* {@link Registry#MAGIC_RAW_DSS_PUBLIC_KEY},
	* <li>
	* <li>1-byte version consisting of the constant: 0x01,</li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>p</code> in internet order,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>p</code>,
	* </li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>q</code>,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>q</code>,
	* </li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>g</code>,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>g</code>,
	* </li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>y</code>,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>y</code>,
	* </li>
	* </ol>
	*
	* @param key the key to encode.
	* @return the <i>Raw</i> format encoding of the designated key.
	* @throws IllegalArgumentException if the designated key is not a DSS
	* (Digital Signature Standard) one.
	* @see Registry#MAGIC_RAW_DSS_PUBLIC_KEY
	*/
	public byte[] encodePublicKey(PublicKey key)
	{
	if (! (key instanceof DSSPublicKey))
	throw new IllegalArgumentException("key");

	DSSPublicKey dssKey = (DSSPublicKey) key;
	ByteArrayOutputStream baos = new ByteArrayOutputStream();
	// magic
	baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[0]);
	baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[1]);
	baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[2]);
	baos.write(Registry.MAGIC_RAW_DSS_PUBLIC_KEY[3]);
	// version
	baos.write(0x01);
	// p
	byte[] buffer = dssKey.getParams().getP().toByteArray();
	int length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	// q
	buffer = dssKey.getParams().getQ().toByteArray();
	length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	// g
	buffer = dssKey.getParams().getG().toByteArray();
	length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	// y
	buffer = dssKey.getY().toByteArray();
	length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	return baos.toByteArray();
	}

	public PublicKey decodePublicKey(byte[] k)
	{
	// magic
	if (k[0] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[0]
	\|\| k[1] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[1]
	\|\| k[2] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[2]
	\|\| k[3] != Registry.MAGIC_RAW_DSS_PUBLIC_KEY[3])
	throw new IllegalArgumentException("magic");

	// version
	if (k[4] != 0x01)
	throw new IllegalArgumentException("version");

	int i = 5;
	int l;
	byte[] buffer;
	// p
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger p = new BigInteger(1, buffer);
	// q
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger q = new BigInteger(1, buffer);
	// g
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger g = new BigInteger(1, buffer);
	// y
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger y = new BigInteger(1, buffer);
	return new DSSPublicKey(p, q, g, y);
	}

	/**
	* Returns the encoded form of the designated DSS (Digital Signature Standard)
	* private key according to the <i>Raw</i> format supported by this library.
	* <p>
	* The <i>Raw</i> format for a DSA private key, in this implementation, is a
	* byte sequence consisting of the following:
	* <ol>
	* <li>4-byte magic consisting of the value of the literal
	* {@link Registry#MAGIC_RAW_DSS_PRIVATE_KEY},
	* <li>
	* <li>1-byte version consisting of the constant: 0x01,</li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>p</code> in internet order,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>p</code>,
	* </li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>q</code>,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>q</code>,
	* </li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>g</code>,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>g</code>,
	* </li>
	* <li>4-byte count of following bytes representing the DSA parameter
	* <code>x</code>,</li>
	* <li>n-bytes representation of a {@link BigInteger} obtained by invoking
	* the <code>toByteArray()</code> method on the DSA parameter <code>x</code>,
	* </li>
	* </ol>
	*
	* @param key the key to encode.
	* @return the <i>Raw</i> format encoding of the designated key.
	* @throws IllegalArgumentException if the designated key is not a DSS
	* (Digital Signature Standard) one.
	*/
	public byte[] encodePrivateKey(PrivateKey key)
	{
	if (! (key instanceof DSSPrivateKey))
	throw new IllegalArgumentException("key");

	DSSPrivateKey dssKey = (DSSPrivateKey) key;
	ByteArrayOutputStream baos = new ByteArrayOutputStream();
	// magic
	baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[0]);
	baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[1]);
	baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[2]);
	baos.write(Registry.MAGIC_RAW_DSS_PRIVATE_KEY[3]);
	// version
	baos.write(0x01);
	// p
	byte[] buffer = dssKey.getParams().getP().toByteArray();
	int length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	// q
	buffer = dssKey.getParams().getQ().toByteArray();
	length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	// g
	buffer = dssKey.getParams().getG().toByteArray();
	length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	// x
	buffer = dssKey.getX().toByteArray();
	length = buffer.length;
	baos.write(length >>> 24);
	baos.write((length >>> 16) & 0xFF);
	baos.write((length >>> 8) & 0xFF);
	baos.write(length & 0xFF);
	baos.write(buffer, 0, length);
	return baos.toByteArray();
	}

	public PrivateKey decodePrivateKey(byte[] k)
	{
	// magic
	if (k[0] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[0]
	\|\| k[1] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[1]
	\|\| k[2] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[2]
	\|\| k[3] != Registry.MAGIC_RAW_DSS_PRIVATE_KEY[3])
	throw new IllegalArgumentException("magic");

	// version
	if (k[4] != 0x01)
	throw new IllegalArgumentException("version");

	int i = 5;
	int l;
	byte[] buffer;
	// p
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger p = new BigInteger(1, buffer);
	// q
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger q = new BigInteger(1, buffer);
	// g
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger g = new BigInteger(1, buffer);
	// x
	l = k[i++] << 24
	\| (k[i++] & 0xFF) << 16
	\| (k[i++] & 0xFF) << 8
	\| (k[i++] & 0xFF);
	buffer = new byte[l];
	System.arraycopy(k, i, buffer, 0, l);
	i += l;
	BigInteger x = new BigInteger(1, buffer);
	return new DSSPrivateKey(p, q, g, x);
	}
	}