public PrivateKey getPrivateKey(PGPPrivateKey privKey) throws PGPException { PublicKeyPacket pubPk = privKey.getPublicKeyPacket(); BCPGKey privPk = privKey.getPrivateKeyDataPacket(); try { KeyFactory fact; switch (pubPk.getAlgorithm()) { case PGPPublicKey.RSA_ENCRYPT: case PGPPublicKey.RSA_GENERAL: case PGPPublicKey.RSA_SIGN: RSAPublicBCPGKey rsaPub = (RSAPublicBCPGKey) pubPk.getKey(); RSASecretBCPGKey rsaPriv = (RSASecretBCPGKey) privPk; RSAPrivateCrtKeySpec rsaPrivSpec = new RSAPrivateCrtKeySpec( rsaPriv.getModulus(), rsaPub.getPublicExponent(), rsaPriv.getPrivateExponent(), rsaPriv.getPrimeP(), rsaPriv.getPrimeQ(), rsaPriv.getPrimeExponentP(), rsaPriv.getPrimeExponentQ(), rsaPriv.getCrtCoefficient()); fact = helper.createKeyFactory("RSA"); return fact.generatePrivate(rsaPrivSpec); case PGPPublicKey.DSA: DSAPublicBCPGKey dsaPub = (DSAPublicBCPGKey) pubPk.getKey(); DSASecretBCPGKey dsaPriv = (DSASecretBCPGKey) privPk; DSAPrivateKeySpec dsaPrivSpec = new DSAPrivateKeySpec(dsaPriv.getX(), dsaPub.getP(), dsaPub.getQ(), dsaPub.getG()); fact = helper.createKeyFactory("DSA"); return fact.generatePrivate(dsaPrivSpec); case PGPPublicKey.ELGAMAL_ENCRYPT: case PGPPublicKey.ELGAMAL_GENERAL: ElGamalPublicBCPGKey elPub = (ElGamalPublicBCPGKey) pubPk.getKey(); ElGamalSecretBCPGKey elPriv = (ElGamalSecretBCPGKey) privPk; ElGamalPrivateKeySpec elSpec = new ElGamalPrivateKeySpec( elPriv.getX(), new ElGamalParameterSpec(elPub.getP(), elPub.getG())); fact = helper.createKeyFactory("ElGamal"); return fact.generatePrivate(elSpec); default: throw new PGPException("unknown public key algorithm encountered"); } } catch (PGPException e) { throw e; } catch (Exception e) { throw new PGPException("Exception constructing key", e); } }
public PublicKey getPublicKey(PGPPublicKey publicKey) throws PGPException { KeyFactory fact; PublicKeyPacket publicPk = publicKey.getPublicKeyPacket(); try { switch (publicPk.getAlgorithm()) { case PublicKeyAlgorithmTags.RSA_ENCRYPT: case PublicKeyAlgorithmTags.RSA_GENERAL: case PublicKeyAlgorithmTags.RSA_SIGN: RSAPublicBCPGKey rsaK = (RSAPublicBCPGKey) publicPk.getKey(); RSAPublicKeySpec rsaSpec = new RSAPublicKeySpec(rsaK.getModulus(), rsaK.getPublicExponent()); fact = helper.createKeyFactory("RSA"); return fact.generatePublic(rsaSpec); case PublicKeyAlgorithmTags.DSA: DSAPublicBCPGKey dsaK = (DSAPublicBCPGKey) publicPk.getKey(); DSAPublicKeySpec dsaSpec = new DSAPublicKeySpec(dsaK.getY(), dsaK.getP(), dsaK.getQ(), dsaK.getG()); fact = helper.createKeyFactory("DSA"); return fact.generatePublic(dsaSpec); case PublicKeyAlgorithmTags.ELGAMAL_ENCRYPT: case PublicKeyAlgorithmTags.ELGAMAL_GENERAL: ElGamalPublicBCPGKey elK = (ElGamalPublicBCPGKey) publicPk.getKey(); ElGamalPublicKeySpec elSpec = new ElGamalPublicKeySpec( elK.getY(), new ElGamalParameterSpec(elK.getP(), elK.getG())); fact = helper.createKeyFactory("ElGamal"); return fact.generatePublic(elSpec); default: throw new PGPException("unknown public key algorithm encountered"); } } catch (PGPException e) { throw e; } catch (Exception e) { throw new PGPException("exception constructing public key", e); } }
/** * Extract a PGPPrivate key from the SecretKey's encrypted contents. * * @param decryptorFactory factory to use to generate a decryptor for the passed in secretKey. * @return PGPPrivateKey the unencrypted private key. * @throws PGPException on failure. */ public PGPPrivateKey extractPrivateKey(PBESecretKeyDecryptor decryptorFactory) throws PGPException { if (isPrivateKeyEmpty()) { return null; } PublicKeyPacket pubPk = secret.getPublicKeyPacket(); try { byte[] data = extractKeyData(decryptorFactory); BCPGInputStream in = new BCPGInputStream(new ByteArrayInputStream(data)); switch (pubPk.getAlgorithm()) { case PGPPublicKey.RSA_ENCRYPT: case PGPPublicKey.RSA_GENERAL: case PGPPublicKey.RSA_SIGN: RSASecretBCPGKey rsaPriv = new RSASecretBCPGKey(in); return new PGPPrivateKey(this.getKeyID(), pubPk, rsaPriv); case PGPPublicKey.DSA: DSASecretBCPGKey dsaPriv = new DSASecretBCPGKey(in); return new PGPPrivateKey(this.getKeyID(), pubPk, dsaPriv); case PGPPublicKey.ELGAMAL_ENCRYPT: case PGPPublicKey.ELGAMAL_GENERAL: ElGamalSecretBCPGKey elPriv = new ElGamalSecretBCPGKey(in); return new PGPPrivateKey(this.getKeyID(), pubPk, elPriv); case PGPPublicKey.ECDH: case PGPPublicKey.ECDSA: ECSecretBCPGKey ecPriv = new ECSecretBCPGKey(in); return new PGPPrivateKey(this.getKeyID(), pubPk, ecPriv); default: throw new PGPException("unknown public key algorithm encountered"); } } catch (PGPException e) { throw e; } catch (Exception e) { throw new PGPException("Exception constructing key", e); } }
public byte[] calculateFingerprint(PublicKeyPacket publicPk) throws PGPException { BCPGKey key = publicPk.getKey(); Digest digest; if (publicPk.getVersion() <= 3) { RSAPublicBCPGKey rK = (RSAPublicBCPGKey) key; try { digest = new MD5Digest(); byte[] bytes = new MPInteger(rK.getModulus()).getEncoded(); digest.update(bytes, 2, bytes.length - 2); bytes = new MPInteger(rK.getPublicExponent()).getEncoded(); digest.update(bytes, 2, bytes.length - 2); } catch (IOException e) { throw new PGPException("can't encode key components: " + e.getMessage(), e); } } else { try { byte[] kBytes = publicPk.getEncodedContents(); digest = new SHA1Digest(); digest.update((byte) 0x99); digest.update((byte) (kBytes.length >> 8)); digest.update((byte) kBytes.length); digest.update(kBytes, 0, kBytes.length); } catch (IOException e) { throw new PGPException("can't encode key components: " + e.getMessage(), e); } } byte[] digBuf = new byte[digest.getDigestSize()]; digest.doFinal(digBuf, 0); return digBuf; }