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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.6.
package org.bouncycastle.crypto.engines;
import org.bouncycastle.crypto.BasicAgreement;
import org.bouncycastle.crypto.BufferedBlockCipher;
import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.DerivationFunction;
import org.bouncycastle.crypto.InvalidCipherTextException;
import org.bouncycastle.crypto.Mac;
import org.bouncycastle.crypto.params.IESParameters;
import org.bouncycastle.crypto.params.IESWithCipherParameters;
import org.bouncycastle.crypto.params.KDFParameters;
import org.bouncycastle.crypto.params.KeyParameter;
import java.math.BigInteger;
/**
* support class for constructing intergrated encryption ciphers
* for doing basic message exchanges on top of key agreement ciphers
*/
public class IESEngine
{
BasicAgreement agree;
DerivationFunction kdf;
Mac mac;
BufferedBlockCipher cipher;
byte[] macBuf;
boolean forEncryption;
CipherParameters privParam, pubParam;
IESParameters param;
/**
* set up for use with stream mode, where the key derivation function
* is used to provide a stream of bytes to xor with the message.
*
* @param agree the key agreement used as the basis for the encryption
* @param kdf the key derivation function used for byte generation
* @param mac the message authentication code generator for the message
*/
public IESEngine(
BasicAgreement agree,
DerivationFunction kdf,
Mac mac)
{
this.agree = agree;
this.kdf = kdf;
this.mac = mac;
this.macBuf = new byte[mac.getMacSize()];
this.cipher = null;
}
/**
* set up for use in conjunction with a block cipher to handle the
* message.
*
* @param agree the key agreement used as the basis for the encryption
* @param kdf the key derivation function used for byte generation
* @param mac the message authentication code generator for the message
* @param cipher the cipher to used for encrypting the message
*/
public IESEngine(
BasicAgreement agree,
DerivationFunction kdf,
Mac mac,
BufferedBlockCipher cipher)
{
this.agree = agree;
this.kdf = kdf;
this.mac = mac;
this.macBuf = new byte[mac.getMacSize()];
this.cipher = cipher;
}
/**
* Initialise the encryptor.
*
* @param forEncryption whether or not this is encryption/decryption.
* @param privParam our private key parameters
* @param pubParam the recipient's/sender's public key parameters
* @param param encoding and derivation parameters.
*/
public void init(
boolean forEncryption,
CipherParameters privParam,
CipherParameters pubParam,
CipherParameters param)
{
this.forEncryption = forEncryption;
this.privParam = privParam;
this.pubParam = pubParam;
this.param = (IESParameters)param;
}
private byte[] decryptBlock(
byte[] in_enc,
int inOff,
int inLen,
byte[] z)
throws InvalidCipherTextException
{
byte[] M = null;
KeyParameter macKey = null;
KDFParameters kParam = new KDFParameters(z, param.getDerivationV());
int macKeySize = param.getMacKeySize();
kdf.init(kParam);
inLen -= mac.getMacSize();
if (cipher == null) // stream mode
{
byte[] buf = generateKdfBytes(kParam, inLen + (macKeySize / 8));
M = new byte[inLen];
for (int i = 0; i != inLen; i++)
{
M[i] = (byte)(in_enc[inOff + i] ^ buf[i]);
}
macKey = new KeyParameter(buf, inLen, (macKeySize / 8));
}
else
{
int cipherKeySize = ((IESWithCipherParameters)param).getCipherKeySize();
byte[] buf = generateKdfBytes(kParam, (cipherKeySize / 8) + (macKeySize / 8));
cipher.init(false, new KeyParameter(buf, 0, (cipherKeySize / 8)));
byte[] tmp = new byte[cipher.getOutputSize(inLen)];
int len = cipher.processBytes(in_enc, inOff, inLen, tmp, 0);
len += cipher.doFinal(tmp, len);
M = new byte[len];
System.arraycopy(tmp, 0, M, 0, len);
macKey = new KeyParameter(buf, (cipherKeySize / 8), (macKeySize / 8));
}
byte[] macIV = param.getEncodingV();
mac.init(macKey);
mac.update(in_enc, inOff, inLen);
mac.update(macIV, 0, macIV.length);
mac.doFinal(macBuf, 0);
inOff += inLen;
for (int t = 0; t < macBuf.length; t++)
{
if (macBuf[t] != in_enc[inOff + t])
{
throw (new InvalidCipherTextException("Mac codes failed to equal."));
}
}
return M;
}
private byte[] encryptBlock(
byte[] in,
int inOff,
int inLen,
byte[] z)
throws InvalidCipherTextException
{
byte[] C = null;
KeyParameter macKey = null;
KDFParameters kParam = new KDFParameters(z, param.getDerivationV());
int c_text_length = 0;
int macKeySize = param.getMacKeySize();
if (cipher == null) // stream mode
{
byte[] buf = generateKdfBytes(kParam, inLen + (macKeySize / 8));
C = new byte[inLen + mac.getMacSize()];
c_text_length = inLen;
for (int i = 0; i != inLen; i++)
{
C[i] = (byte)(in[inOff + i] ^ buf[i]);
}
macKey = new KeyParameter(buf, inLen, (macKeySize / 8));
}
else
{
int cipherKeySize = ((IESWithCipherParameters)param).getCipherKeySize();
byte[] buf = generateKdfBytes(kParam, (cipherKeySize / 8) + (macKeySize / 8));
cipher.init(true, new KeyParameter(buf, 0, (cipherKeySize / 8)));
c_text_length = cipher.getOutputSize(inLen);
byte[] tmp = new byte[c_text_length];
int len = cipher.processBytes(in, inOff, inLen, tmp, 0);
len += cipher.doFinal(tmp, len);
C = new byte[len + mac.getMacSize()];
c_text_length = len;
System.arraycopy(tmp, 0, C, 0, len);
macKey = new KeyParameter(buf, (cipherKeySize / 8), (macKeySize / 8));
}
byte[] macIV = param.getEncodingV();
mac.init(macKey);
mac.update(C, 0, c_text_length);
mac.update(macIV, 0, macIV.length);
//
// return the message and it's MAC
//
mac.doFinal(C, c_text_length);
return C;
}
private byte[] generateKdfBytes(
KDFParameters kParam,
int length)
{
byte[] buf = new byte[length];
kdf.init(kParam);
kdf.generateBytes(buf, 0, buf.length);
return buf;
}
public byte[] processBlock(
byte[] in,
int inOff,
int inLen)
throws InvalidCipherTextException
{
agree.init(privParam);
BigInteger z = agree.calculateAgreement(pubParam);
if (forEncryption)
{
return encryptBlock(in, inOff, inLen, z.toByteArray());
}
else
{
return decryptBlock(in, inOff, inLen, z.toByteArray());
}
}
}