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package com.sun.crypto.provider;

import javax.crypto.KeyGeneratorSpi;
import javax.crypto.SecretKey;
import javax.crypto.spec.DESedeKeySpec;
import java.security.SecureRandom;
import java.security.InvalidParameterException;
import java.security.InvalidAlgorithmParameterException;
import java.security.InvalidKeyException;
import java.security.spec.AlgorithmParameterSpec;

This class generates a Triple DES key.
Author:Jan Luehe
/** * This class generates a Triple DES key. * * @author Jan Luehe * */
public final class DESedeKeyGenerator extends KeyGeneratorSpi { private SecureRandom random = null; private int keysize = 168;
Empty constructor
/** * Empty constructor */
public DESedeKeyGenerator() { }
Initializes this key generator.
Params:
  • random – the source of randomness for this generator
/** * Initializes this key generator. * * @param random the source of randomness for this generator */
protected void engineInit(SecureRandom random) { this.random = random; }
Initializes this key generator with the specified parameter set and a user-provided source of randomness.
Params:
  • params – the key generation parameters
  • random – the source of randomness for this key generator
Throws:
/** * Initializes this key generator with the specified parameter * set and a user-provided source of randomness. * * @param params the key generation parameters * @param random the source of randomness for this key generator * * @exception InvalidAlgorithmParameterException if <code>params</code> is * inappropriate for this key generator */
protected void engineInit(AlgorithmParameterSpec params, SecureRandom random) throws InvalidAlgorithmParameterException { throw new InvalidAlgorithmParameterException ("Triple DES key generation does not take any parameters"); }
Initializes this key generator for a certain keysize, using the given source of randomness.
Params:
  • keysize – the keysize. This is an algorithm-specific metric specified in number of bits. A keysize with 112 bits of entropy corresponds to a Triple DES key with 2 intermediate keys, and a keysize with 168 bits of entropy corresponds to a Triple DES key with 3 intermediate keys.
  • random – the source of randomness for this key generator
/** * Initializes this key generator for a certain keysize, using the given * source of randomness. * * @param keysize the keysize. This is an algorithm-specific * metric specified in number of bits. A keysize with 112 bits of entropy * corresponds to a Triple DES key with 2 intermediate keys, and a keysize * with 168 bits of entropy corresponds to a Triple DES key with 3 * intermediate keys. * @param random the source of randomness for this key generator */
protected void engineInit(int keysize, SecureRandom random) { if ((keysize != 112) && (keysize != 168)) { throw new InvalidParameterException("Wrong keysize: must be " + "equal to 112 or 168"); } this.keysize = keysize; this.engineInit(random); }
Generates the Triple DES key.
Returns:the new Triple DES key
/** * Generates the Triple DES key. * * @return the new Triple DES key */
protected SecretKey engineGenerateKey() { if (this.random == null) { this.random = SunJCE.getRandom(); } byte[] rawkey = new byte[DESedeKeySpec.DES_EDE_KEY_LEN]; if (keysize == 168) { // 3 intermediate keys this.random.nextBytes(rawkey); // Do parity adjustment for each intermediate key DESKeyGenerator.setParityBit(rawkey, 0); DESKeyGenerator.setParityBit(rawkey, 8); DESKeyGenerator.setParityBit(rawkey, 16); } else { // 2 intermediate keys byte[] tmpkey = new byte[16]; this.random.nextBytes(tmpkey); DESKeyGenerator.setParityBit(tmpkey, 0); DESKeyGenerator.setParityBit(tmpkey, 8); System.arraycopy(tmpkey, 0, rawkey, 0, tmpkey.length); // Copy the first 8 bytes into the last System.arraycopy(tmpkey, 0, rawkey, 16, 8); java.util.Arrays.fill(tmpkey, (byte)0x00); } DESedeKey desEdeKey = null; try { desEdeKey = new DESedeKey(rawkey); } catch (InvalidKeyException ike) { // this never happens throw new RuntimeException(ike.getMessage()); } java.util.Arrays.fill(rawkey, (byte)0x00); return desEdeKey; } }