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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 1.5 and up.
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package org.bouncycastle.crypto.engines;
import java.math.BigInteger;
import java.security.SecureRandom;
import org.bouncycastle.crypto.AsymmetricBlockCipher;
import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.CryptoServicesRegistrar;
import org.bouncycastle.crypto.DataLengthException;
import org.bouncycastle.crypto.params.ParametersWithRandom;
import org.bouncycastle.crypto.params.RSAKeyParameters;
import org.bouncycastle.crypto.params.RSAPrivateCrtKeyParameters;
import org.bouncycastle.util.BigIntegers;
/**
* this does your basic RSA algorithm with blinding
*/
public class RSABlindedEngine
implements AsymmetricBlockCipher
{
private static final BigInteger ONE = BigInteger.valueOf(1);
private RSACoreEngine core = new RSACoreEngine();
private RSAKeyParameters key;
private SecureRandom random;
/**
* initialise the RSA engine.
*
* @param forEncryption true if we are encrypting, false otherwise.
* @param param the necessary RSA key parameters.
*/
public void init(
boolean forEncryption,
CipherParameters param)
{
core.init(forEncryption, param);
if (param instanceof ParametersWithRandom)
{
ParametersWithRandom rParam = (ParametersWithRandom)param;
this.key = (RSAKeyParameters)rParam.getParameters();
if (key instanceof RSAPrivateCrtKeyParameters)
{
this.random = rParam.getRandom();
}
else
{
this.random = null;
}
}
else
{
this.key = (RSAKeyParameters)param;
if (key instanceof RSAPrivateCrtKeyParameters)
{
this.random = CryptoServicesRegistrar.getSecureRandom();
}
else
{
this.random = null;
}
}
}
/**
* Return the maximum size for an input block to this engine.
* For RSA this is always one byte less than the key size on
* encryption, and the same length as the key size on decryption.
*
* @return maximum size for an input block.
*/
public int getInputBlockSize()
{
return core.getInputBlockSize();
}
/**
* Return the maximum size for an output block to this engine.
* For RSA this is always one byte less than the key size on
* decryption, and the same length as the key size on encryption.
*
* @return maximum size for an output block.
*/
public int getOutputBlockSize()
{
return core.getOutputBlockSize();
}
/**
* Process a single block using the basic RSA algorithm.
*
* @param in the input array.
* @param inOff the offset into the input buffer where the data starts.
* @param inLen the length of the data to be processed.
* @return the result of the RSA process.
* @exception DataLengthException the input block is too large.
*/
public byte[] processBlock(
byte[] in,
int inOff,
int inLen)
{
if (key == null)
{
throw new IllegalStateException("RSA engine not initialised");
}
BigInteger input = core.convertInput(in, inOff, inLen);
BigInteger result;
if (key instanceof RSAPrivateCrtKeyParameters)
{
RSAPrivateCrtKeyParameters k = (RSAPrivateCrtKeyParameters)key;
BigInteger e = k.getPublicExponent();
if (e != null) // can't do blinding without a public exponent
{
BigInteger m = k.getModulus();
BigInteger r = BigIntegers.createRandomInRange(ONE, m.subtract(ONE), random);
BigInteger blindedInput = r.modPow(e, m).multiply(input).mod(m);
BigInteger blindedResult = core.processBlock(blindedInput);
BigInteger rInv = BigIntegers.modOddInverse(m, r);
result = blindedResult.multiply(rInv).mod(m);
// defence against Arjen Lenstra’s CRT attack
if (!input.equals(result.modPow(e, m)))
{
throw new IllegalStateException("RSA engine faulty decryption/signing detected");
}
}
else
{
result = core.processBlock(input);
}
}
else
{
result = core.processBlock(input);
}
return core.convertOutput(result);
}
}
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