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The Bouncy Castle Java API for handling the OpenPGP protocol. This jar contains the OpenPGP API for JDK 1.5. The APIs can be used in conjunction with a JCE/JCA provider such as the one provided with the Bouncy Castle Cryptography APIs.
package org.bouncycastle.openpgp;
import org.bouncycastle.bcpg.BCPGInputStream;
import org.bouncycastle.bcpg.HashAlgorithmTags;
import org.bouncycastle.bcpg.InputStreamPacket;
import org.bouncycastle.bcpg.PublicKeyEncSessionPacket;
import org.bouncycastle.bcpg.SymmetricEncIntegrityPacket;
import org.bouncycastle.jce.interfaces.ElGamalKey;
import javax.crypto.Cipher;
import javax.crypto.CipherInputStream;
import javax.crypto.SecretKey;
import javax.crypto.spec.IvParameterSpec;
import javax.crypto.spec.SecretKeySpec;
import java.io.EOFException;
import java.io.InputStream;
import java.math.BigInteger;
import java.security.DigestInputStream;
import java.security.InvalidKeyException;
import java.security.MessageDigest;
import java.security.NoSuchProviderException;
import java.security.Provider;
/**
* A public key encrypted data object.
*/
public class PGPPublicKeyEncryptedData
extends PGPEncryptedData
{
PublicKeyEncSessionPacket keyData;
PGPPublicKeyEncryptedData(
PublicKeyEncSessionPacket keyData,
InputStreamPacket encData)
{
super(encData);
this.keyData = keyData;
}
private static Cipher getKeyCipher(
int algorithm,
Provider provider)
throws PGPException
{
try
{
switch (algorithm)
{
case PGPPublicKey.RSA_ENCRYPT:
case PGPPublicKey.RSA_GENERAL:
return Cipher.getInstance("RSA/ECB/PKCS1Padding", provider);
case PGPPublicKey.ELGAMAL_ENCRYPT:
case PGPPublicKey.ELGAMAL_GENERAL:
return Cipher.getInstance("ElGamal/ECB/PKCS1Padding", provider);
default:
throw new PGPException("unknown asymmetric algorithm: " + algorithm);
}
}
catch (PGPException e)
{
throw e;
}
catch (Exception e)
{
throw new PGPException("Exception creating cipher", e);
}
}
private boolean confirmCheckSum(
byte[] sessionInfo)
{
int check = 0;
for (int i = 1; i != sessionInfo.length - 2; i++)
{
check += sessionInfo[i] & 0xff;
}
return (sessionInfo[sessionInfo.length - 2] == (byte)(check >> 8))
&& (sessionInfo[sessionInfo.length - 1] == (byte)(check));
}
/**
* Return the keyID for the key used to encrypt the data.
*
* @return long
*/
public long getKeyID()
{
return keyData.getKeyID();
}
/**
* Return the algorithm code for the symmetric algorithm used to encrypt the data.
*
* @return integer algorithm code
*/
public int getSymmetricAlgorithm(
PGPPrivateKey privKey,
String provider)
throws PGPException, NoSuchProviderException
{
return getSymmetricAlgorithm(privKey, PGPUtil.getProvider(provider));
}
public int getSymmetricAlgorithm(
PGPPrivateKey privKey,
Provider provider)
throws PGPException, NoSuchProviderException
{
byte[] plain = fetchSymmetricKeyData(privKey, provider);
return plain[0];
}
/**
* Return the decrypted data stream for the packet.
*
* @param privKey private key to use
* @param provider provider to use for private key and symmetric key decryption.
* @return InputStream
* @throws PGPException
* @throws NoSuchProviderException
*/
public InputStream getDataStream(
PGPPrivateKey privKey,
String provider)
throws PGPException, NoSuchProviderException
{
return getDataStream(privKey, provider, provider);
}
public InputStream getDataStream(
PGPPrivateKey privKey,
Provider provider)
throws PGPException
{
return getDataStream(privKey, provider, provider);
}
/**
* Return the decrypted data stream for the packet.
*
* @param privKey private key to use.
* @param asymProvider asymetric provider to use with private key.
* @param provider provider to use for symmetric algorithm.
* @return InputStream
* @throws PGPException
* @throws NoSuchProviderException
*/
public InputStream getDataStream(
PGPPrivateKey privKey,
String asymProvider,
String provider)
throws PGPException, NoSuchProviderException
{
return getDataStream(privKey, PGPUtil.getProvider(asymProvider), PGPUtil.getProvider(provider));
}
public InputStream getDataStream(
PGPPrivateKey privKey,
Provider asymProvider,
Provider provider)
throws PGPException
{
byte[] plain = fetchSymmetricKeyData(privKey, asymProvider);
Cipher c2;
try
{
if (encData instanceof SymmetricEncIntegrityPacket)
{
c2 =
Cipher.getInstance(
PGPUtil.getSymmetricCipherName(plain[0]) + "/CFB/NoPadding",
provider);
}
else
{
c2 =
Cipher.getInstance(
PGPUtil.getSymmetricCipherName(plain[0]) + "/OpenPGPCFB/NoPadding",
provider);
}
}
catch (PGPException e)
{
throw e;
}
catch (Exception e)
{
throw new PGPException("exception creating cipher", e);
}
if (c2 != null)
{
try
{
SecretKey key = new SecretKeySpec(plain, 1, plain.length - 3, PGPUtil.getSymmetricCipherName(plain[0]));
byte[] iv = new byte[c2.getBlockSize()];
c2.init(Cipher.DECRYPT_MODE, key, new IvParameterSpec(iv));
encStream = new BCPGInputStream(new CipherInputStream(encData.getInputStream(), c2));
if (encData instanceof SymmetricEncIntegrityPacket)
{
truncStream = new TruncatedStream(encStream);
encStream = new DigestInputStream(truncStream, MessageDigest.getInstance(PGPUtil.getDigestName(HashAlgorithmTags.SHA1), provider));
}
for (int i = 0; i != iv.length; i++)
{
int ch = encStream.read();
if (ch < 0)
{
throw new EOFException("unexpected end of stream.");
}
iv[i] = (byte)ch;
}
int v1 = encStream.read();
int v2 = encStream.read();
if (v1 < 0 || v2 < 0)
{
throw new EOFException("unexpected end of stream.");
}
//
// some versions of PGP appear to produce 0 for the extra
// bytes rather than repeating the two previous bytes
//
/*
* Commented out in the light of the oracle attack.
if (iv[iv.length - 2] != (byte)v1 && v1 != 0)
{
throw new PGPDataValidationException("data check failed.");
}
if (iv[iv.length - 1] != (byte)v2 && v2 != 0)
{
throw new PGPDataValidationException("data check failed.");
}
*/
return encStream;
}
catch (PGPException e)
{
throw e;
}
catch (Exception e)
{
throw new PGPException("Exception starting decryption", e);
}
}
else
{
return encData.getInputStream();
}
}
private byte[] fetchSymmetricKeyData(PGPPrivateKey privKey, Provider asymProvider)
throws PGPException
{
Cipher c1 = getKeyCipher(keyData.getAlgorithm(), asymProvider);
try
{
c1.init(Cipher.DECRYPT_MODE, privKey.getKey());
}
catch (InvalidKeyException e)
{
throw new PGPException("error setting asymmetric cipher", e);
}
BigInteger[] keyD = keyData.getEncSessionKey();
if (keyData.getAlgorithm() == PGPPublicKey.RSA_ENCRYPT
|| keyData.getAlgorithm() == PGPPublicKey.RSA_GENERAL)
{
byte[] bi = keyD[0].toByteArray();
if (bi[0] == 0)
{
c1.update(bi, 1, bi.length - 1);
}
else
{
c1.update(bi);
}
}
else
{
ElGamalKey k = (ElGamalKey)privKey.getKey();
int size = (k.getParameters().getP().bitLength() + 7) / 8;
byte[] tmp = new byte[size];
byte[] bi = keyD[0].toByteArray();
if (bi.length > size)
{
c1.update(bi, 1, bi.length - 1);
}
else
{
System.arraycopy(bi, 0, tmp, tmp.length - bi.length, bi.length);
c1.update(tmp);
}
bi = keyD[1].toByteArray();
for (int i = 0; i != tmp.length; i++)
{
tmp[i] = 0;
}
if (bi.length > size)
{
c1.update(bi, 1, bi.length - 1);
}
else
{
System.arraycopy(bi, 0, tmp, tmp.length - bi.length, bi.length);
c1.update(tmp);
}
}
byte[] plain;
try
{
plain = c1.doFinal();
}
catch (Exception e)
{
throw new PGPException("exception decrypting secret key", e);
}
if (!confirmCheckSum(plain))
{
throw new PGPKeyValidationException("key checksum failed");
}
return plain;
}
}
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