/** Parse the key. Called by PKCS8Key. */ protected void parseKeyBits() throws InvalidKeyException { try { DerInputStream in = new DerInputStream(key); DerValue derValue = in.getDerValue(); if (derValue.tag != DerValue.tag_Sequence) { throw new IOException("Not a SEQUENCE"); } DerInputStream data = derValue.data; int version = data.getInteger(); if (version != 0) { throw new IOException("Version must be 0"); } n = getBigInteger(data); e = getBigInteger(data); d = getBigInteger(data); p = getBigInteger(data); q = getBigInteger(data); pe = getBigInteger(data); qe = getBigInteger(data); coeff = getBigInteger(data); if (derValue.data.available() != 0) { throw new IOException("Extra data available"); } } catch (IOException e) { throw new InvalidKeyException("Invalid RSA private key", e); } }
@SuppressWarnings("deprecation") private byte[] fetchPrivateKeyFromBag(byte[] privateKeyInfo) throws IOException, NoSuchAlgorithmException, CertificateException { byte[] returnValue = null; DerValue val = new DerValue(new ByteArrayInputStream(privateKeyInfo)); DerInputStream s = val.toDerInputStream(); int version = s.getInteger(); if (version != 3) { throw new IOException("PKCS12 keystore not in version 3 format"); } /* * Read the authSafe. */ byte[] authSafeData; ContentInfo authSafe = new ContentInfo(s); ObjectIdentifier contentType = authSafe.getContentType(); if (contentType.equals(ContentInfo.DATA_OID)) { authSafeData = authSafe.getData(); } else /* signed data */ { throw new IOException("public key protected PKCS12 not supported"); } DerInputStream as = new DerInputStream(authSafeData); DerValue[] safeContentsArray = as.getSequence(2); int count = safeContentsArray.length; /* * Spin over the ContentInfos. */ for (int i = 0; i < count; i++) { byte[] safeContentsData; ContentInfo safeContents; DerInputStream sci; byte[] eAlgId = null; sci = new DerInputStream(safeContentsArray[i].toByteArray()); safeContents = new ContentInfo(sci); contentType = safeContents.getContentType(); safeContentsData = null; if (contentType.equals(ContentInfo.DATA_OID)) { safeContentsData = safeContents.getData(); } else if (contentType.equals(ContentInfo.ENCRYPTED_DATA_OID)) { // The password was used to export the private key from the keychain. // The Keychain won't export the key with encrypted data, so we don't need // to worry about it. continue; } else { throw new IOException("public key protected PKCS12" + " not supported"); } DerInputStream sc = new DerInputStream(safeContentsData); returnValue = extractKeyData(sc); } return returnValue; }
/** * Returns the key associated with the given alias, using the given password to recover it. * * @param alias the alias name * @param password the password for recovering the key. This password is used internally as the * key is exported in a PKCS12 format. * @return the requested key, or null if the given alias does not exist or does not identify a * <i>key entry</i>. * @exception NoSuchAlgorithmException if the algorithm for recovering the key cannot be found * @exception UnrecoverableKeyException if the key cannot be recovered (e.g., the given password * is wrong). */ public Key engineGetKey(String alias, char[] password) throws NoSuchAlgorithmException, UnrecoverableKeyException { permissionCheck(); // An empty password is rejected by MacOS API, no private key data // is exported. If no password is passed (as is the case when // this implementation is used as browser keystore in various // deployment scenarios like Webstart, JFX and applets), create // a dummy password so MacOS API is happy. if (password == null || password.length == 0) { // Must not be a char array with only a 0, as this is an empty // string. if (random == null) { random = new SecureRandom(); } password = Long.toString(random.nextLong()).toCharArray(); } Object entry = entries.get(alias.toLowerCase()); if (entry == null || !(entry instanceof KeyEntry)) { return null; } // This call gives us a PKCS12 bag, with the key inside it. byte[] exportedKeyInfo = _getEncodedKeyData(((KeyEntry) entry).keyRef, password); if (exportedKeyInfo == null) { return null; } PrivateKey returnValue = null; try { byte[] pkcs8KeyData = fetchPrivateKeyFromBag(exportedKeyInfo); byte[] encryptedKey; AlgorithmParameters algParams; ObjectIdentifier algOid; try { // get the encrypted private key EncryptedPrivateKeyInfo encrInfo = new EncryptedPrivateKeyInfo(pkcs8KeyData); encryptedKey = encrInfo.getEncryptedData(); // parse Algorithm parameters DerValue val = new DerValue(encrInfo.getAlgorithm().encode()); DerInputStream in = val.toDerInputStream(); algOid = in.getOID(); algParams = parseAlgParameters(in); } catch (IOException ioe) { UnrecoverableKeyException uke = new UnrecoverableKeyException( "Private key not stored as " + "PKCS#8 EncryptedPrivateKeyInfo: " + ioe); uke.initCause(ioe); throw uke; } // Use JCE to decrypt the data using the supplied password. SecretKey skey = getPBEKey(password); Cipher cipher = Cipher.getInstance(algOid.toString()); cipher.init(Cipher.DECRYPT_MODE, skey, algParams); byte[] decryptedPrivateKey = cipher.doFinal(encryptedKey); PKCS8EncodedKeySpec kspec = new PKCS8EncodedKeySpec(decryptedPrivateKey); // Parse the key algorithm and then use a JCA key factory to create the private key. DerValue val = new DerValue(decryptedPrivateKey); DerInputStream in = val.toDerInputStream(); // Ignore this -- version should be 0. int i = in.getInteger(); // Get the Algorithm ID next DerValue[] value = in.getSequence(2); AlgorithmId algId = new AlgorithmId(value[0].getOID()); String algName = algId.getName(); // Get a key factory for this algorithm. It's likely to be 'RSA'. KeyFactory kfac = KeyFactory.getInstance(algName); returnValue = kfac.generatePrivate(kspec); } catch (Exception e) { UnrecoverableKeyException uke = new UnrecoverableKeyException("Get Key failed: " + e.getMessage()); uke.initCause(e); throw uke; } return returnValue; }