org.bouncycastle.crypto.signers.PSSSigner Maven / Gradle / Ivy
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package org.bouncycastle.crypto.signers;
import java.security.SecureRandom;
import org.bouncycastle.crypto.AsymmetricBlockCipher;
import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.CryptoException;
import org.bouncycastle.crypto.CryptoServicesRegistrar;
import org.bouncycastle.crypto.DataLengthException;
import org.bouncycastle.crypto.Digest;
import org.bouncycastle.crypto.Signer;
import org.bouncycastle.crypto.params.ParametersWithRandom;
import org.bouncycastle.crypto.params.RSABlindingParameters;
import org.bouncycastle.crypto.params.RSAKeyParameters;
/**
* RSA-PSS as described in PKCS# 1 v 2.1.
*
* Note: the usual value for the salt length is the number of
* bytes in the hash function.
*/
public class PSSSigner
implements Signer
{
static final public byte TRAILER_IMPLICIT = (byte)0xBC;
private Digest contentDigest;
private Digest mgfDigest;
private AsymmetricBlockCipher cipher;
private SecureRandom random;
private int hLen;
private int mgfhLen;
private boolean sSet;
private int sLen;
private int emBits;
private byte[] salt;
private byte[] mDash;
private byte[] block;
private byte trailer;
/**
* basic constructor
*
* @param cipher the asymmetric cipher to use.
* @param digest the digest to use.
* @param sLen the length of the salt to use (in bytes).
*/
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest digest,
int sLen)
{
this(cipher, digest, sLen, TRAILER_IMPLICIT);
}
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest contentDigest,
Digest mgfDigest,
int sLen)
{
this(cipher, contentDigest, mgfDigest, sLen, TRAILER_IMPLICIT);
}
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest digest,
int sLen,
byte trailer)
{
this(cipher, digest, digest, sLen, trailer);
}
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest contentDigest,
Digest mgfDigest,
int sLen,
byte trailer)
{
this.cipher = cipher;
this.contentDigest = contentDigest;
this.mgfDigest = mgfDigest;
this.hLen = contentDigest.getDigestSize();
this.mgfhLen = mgfDigest.getDigestSize();
this.sSet = false;
this.sLen = sLen;
this.salt = new byte[sLen];
this.mDash = new byte[8 + sLen + hLen];
this.trailer = trailer;
}
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest digest,
byte[] salt)
{
this(cipher, digest, digest, salt, TRAILER_IMPLICIT);
}
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest contentDigest,
Digest mgfDigest,
byte[] salt)
{
this(cipher, contentDigest, mgfDigest, salt, TRAILER_IMPLICIT);
}
public PSSSigner(
AsymmetricBlockCipher cipher,
Digest contentDigest,
Digest mgfDigest,
byte[] salt,
byte trailer)
{
this.cipher = cipher;
this.contentDigest = contentDigest;
this.mgfDigest = mgfDigest;
this.hLen = contentDigest.getDigestSize();
this.mgfhLen = mgfDigest.getDigestSize();
this.sSet = true;
this.sLen = salt.length;
this.salt = salt;
this.mDash = new byte[8 + sLen + hLen];
this.trailer = trailer;
}
public void init(
boolean forSigning,
CipherParameters param)
{
CipherParameters params;
if (param instanceof ParametersWithRandom)
{
ParametersWithRandom p = (ParametersWithRandom)param;
params = p.getParameters();
random = p.getRandom();
}
else
{
params = param;
if (forSigning)
{
random = CryptoServicesRegistrar.getSecureRandom();
}
}
RSAKeyParameters kParam;
if (params instanceof RSABlindingParameters)
{
kParam = ((RSABlindingParameters)params).getPublicKey();
cipher.init(forSigning, param); // pass on random
}
else
{
kParam = (RSAKeyParameters)params;
cipher.init(forSigning, params);
}
emBits = kParam.getModulus().bitLength() - 1;
if (emBits < (8 * hLen + 8 * sLen + 9))
{
throw new IllegalArgumentException("key too small for specified hash and salt lengths");
}
block = new byte[(emBits + 7) / 8];
reset();
}
/**
* clear possible sensitive data
*/
private void clearBlock(
byte[] block)
{
for (int i = 0; i != block.length; i++)
{
block[i] = 0;
}
}
/**
* update the internal digest with the byte b
*/
public void update(
byte b)
{
contentDigest.update(b);
}
/**
* update the internal digest with the byte array in
*/
public void update(
byte[] in,
int off,
int len)
{
contentDigest.update(in, off, len);
}
/**
* reset the internal state
*/
public void reset()
{
contentDigest.reset();
}
/**
* generate a signature for the message we've been loaded with using
* the key we were initialised with.
*/
public byte[] generateSignature()
throws CryptoException, DataLengthException
{
contentDigest.doFinal(mDash, mDash.length - hLen - sLen);
if (sLen != 0)
{
if (!sSet)
{
random.nextBytes(salt);
}
System.arraycopy(salt, 0, mDash, mDash.length - sLen, sLen);
}
byte[] h = new byte[hLen];
contentDigest.update(mDash, 0, mDash.length);
contentDigest.doFinal(h, 0);
block[block.length - sLen - 1 - hLen - 1] = 0x01;
System.arraycopy(salt, 0, block, block.length - sLen - hLen - 1, sLen);
byte[] dbMask = maskGeneratorFunction1(h, 0, h.length, block.length - hLen - 1);
for (int i = 0; i != dbMask.length; i++)
{
block[i] ^= dbMask[i];
}
block[0] &= (0xff >> ((block.length * 8) - emBits));
System.arraycopy(h, 0, block, block.length - hLen - 1, hLen);
block[block.length - 1] = trailer;
byte[] b = cipher.processBlock(block, 0, block.length);
clearBlock(block);
return b;
}
/**
* return true if the internal state represents the signature described
* in the passed in array.
*/
public boolean verifySignature(
byte[] signature)
{
contentDigest.doFinal(mDash, mDash.length - hLen - sLen);
try
{
byte[] b = cipher.processBlock(signature, 0, signature.length);
System.arraycopy(b, 0, block, block.length - b.length, b.length);
}
catch (Exception e)
{
return false;
}
if (block[block.length - 1] != trailer)
{
clearBlock(block);
return false;
}
byte[] dbMask = maskGeneratorFunction1(block, block.length - hLen - 1, hLen, block.length - hLen - 1);
for (int i = 0; i != dbMask.length; i++)
{
block[i] ^= dbMask[i];
}
block[0] &= (0xff >> ((block.length * 8) - emBits));
for (int i = 0; i != block.length - hLen - sLen - 2; i++)
{
if (block[i] != 0)
{
clearBlock(block);
return false;
}
}
if (block[block.length - hLen - sLen - 2] != 0x01)
{
clearBlock(block);
return false;
}
if (sSet)
{
System.arraycopy(salt, 0, mDash, mDash.length - sLen, sLen);
}
else
{
System.arraycopy(block, block.length - sLen - hLen - 1, mDash, mDash.length - sLen, sLen);
}
contentDigest.update(mDash, 0, mDash.length);
contentDigest.doFinal(mDash, mDash.length - hLen);
for (int i = block.length - hLen - 1, j = mDash.length - hLen;
j != mDash.length; i++, j++)
{
if ((block[i] ^ mDash[j]) != 0)
{
clearBlock(mDash);
clearBlock(block);
return false;
}
}
clearBlock(mDash);
clearBlock(block);
return true;
}
/**
* int to octet string.
*/
private void ItoOSP(
int i,
byte[] sp)
{
sp[0] = (byte)(i >>> 24);
sp[1] = (byte)(i >>> 16);
sp[2] = (byte)(i >>> 8);
sp[3] = (byte)(i >>> 0);
}
/**
* mask generator function, as described in PKCS1v2.
*/
private byte[] maskGeneratorFunction1(
byte[] Z,
int zOff,
int zLen,
int length)
{
byte[] mask = new byte[length];
byte[] hashBuf = new byte[mgfhLen];
byte[] C = new byte[4];
int counter = 0;
mgfDigest.reset();
while (counter < (length / mgfhLen))
{
ItoOSP(counter, C);
mgfDigest.update(Z, zOff, zLen);
mgfDigest.update(C, 0, C.length);
mgfDigest.doFinal(hashBuf, 0);
System.arraycopy(hashBuf, 0, mask, counter * mgfhLen, mgfhLen);
counter++;
}
if ((counter * mgfhLen) < length)
{
ItoOSP(counter, C);
mgfDigest.update(Z, zOff, zLen);
mgfDigest.update(C, 0, C.length);
mgfDigest.doFinal(hashBuf, 0);
System.arraycopy(hashBuf, 0, mask, counter * mgfhLen, mask.length - (counter * mgfhLen));
}
return mask;
}
}