List of usage examples for org.bouncycastle.openpgp PGPSignatureGenerator generate
public PGPSignature generate() throws PGPException
From source file:org.kontalk.crypto.Coder.java
License:Open Source License
/** * Creates encrypted and signed message body. * Errors that may occur are saved to the message. * @param message/*from ww w . j a v a 2s .co m*/ * @return the encrypted and signed text. */ public static Optional<byte[]> processOutMessage(OutMessage message) { if (message.getCoderStatus().getEncryption() != Encryption.DECRYPTED) { LOGGER.warning("message does not want to be encrypted"); return Optional.empty(); } LOGGER.info("encrypting message..."); // get keys KeysResult keys = getKeys(message.getUser()); if (keys.myKey == null || keys.otherKey == null) { message.setSecurityErrors(keys.errors); return Optional.empty(); } // secure the message against the most basic attacks using Message/CPIM String from = keys.myKey.getUserId(); String to = keys.otherKey.userID + "; "; String mime = "text/plain"; // TODO encrypt more possible content String text = message.getContent().getPlainText(); CPIMMessage cpim = new CPIMMessage(from, to, new Date(), mime, text); byte[] plainText; try { plainText = cpim.toByteArray(); } catch (UnsupportedEncodingException ex) { LOGGER.log(Level.WARNING, "UTF-8 not supported", ex); plainText = cpim.toString().getBytes(); } // setup data encryptor & generator BcPGPDataEncryptorBuilder encryptor = new BcPGPDataEncryptorBuilder(PGPEncryptedData.AES_192); encryptor.setWithIntegrityPacket(true); encryptor.setSecureRandom(new SecureRandom()); // add public key recipients PGPEncryptedDataGenerator encGen = new PGPEncryptedDataGenerator(encryptor); //for (PGPPublicKey rcpt : mRecipients) encGen.addMethod(new BcPublicKeyKeyEncryptionMethodGenerator(keys.otherKey.encryptKey)); ByteArrayOutputStream out = new ByteArrayOutputStream(); ByteArrayInputStream in = new ByteArrayInputStream(plainText); try { // catch all io and pgp exceptions OutputStream encryptedOut = encGen.open(out, new byte[BUFFER_SIZE]); // setup compressed data generator PGPCompressedDataGenerator compGen = new PGPCompressedDataGenerator(PGPCompressedData.ZIP); OutputStream compressedOut = compGen.open(encryptedOut, new byte[BUFFER_SIZE]); // setup signature generator int algo = keys.myKey.getPublicEncryptionKey().getAlgorithm(); PGPSignatureGenerator sigGen = new PGPSignatureGenerator( new BcPGPContentSignerBuilder(algo, HashAlgorithmTags.SHA1)); sigGen.init(PGPSignature.BINARY_DOCUMENT, keys.myKey.getPrivateEncryptionKey()); PGPSignatureSubpacketGenerator spGen = new PGPSignatureSubpacketGenerator(); spGen.setSignerUserID(false, keys.myKey.getUserId()); sigGen.setUnhashedSubpackets(spGen.generate()); sigGen.generateOnePassVersion(false).encode(compressedOut); // Initialize literal data generator PGPLiteralDataGenerator literalGen = new PGPLiteralDataGenerator(); OutputStream literalOut = literalGen.open(compressedOut, PGPLiteralData.BINARY, "", new Date(), new byte[BUFFER_SIZE]); // read the "in" stream, compress, encrypt and write to the "out" stream // this must be done if clear data is bigger than the buffer size // but there are other ways to optimize... byte[] buf = new byte[BUFFER_SIZE]; int len; while ((len = in.read(buf)) > 0) { literalOut.write(buf, 0, len); try { sigGen.update(buf, 0, len); } catch (SignatureException ex) { LOGGER.log(Level.WARNING, "can't read data for signature", ex); message.setSecurityErrors(EnumSet.of(Error.INVALID_SIGNATURE_DATA)); return Optional.empty(); } } in.close(); literalGen.close(); // generate the signature, compress, encrypt and write to the "out" stream try { sigGen.generate().encode(compressedOut); } catch (SignatureException ex) { LOGGER.log(Level.WARNING, "can't create signature", ex); message.setSecurityErrors(EnumSet.of(Error.INVALID_SIGNATURE_DATA)); return Optional.empty(); } compGen.close(); encGen.close(); } catch (IOException | PGPException ex) { LOGGER.log(Level.WARNING, "can't encrypt message", ex); message.setSecurityErrors(EnumSet.of(Error.UNKNOWN_ERROR)); return Optional.empty(); } LOGGER.info("encryption successful"); return Optional.of(out.toByteArray()); }
From source file:org.m1theo.apt.repo.signing.PGPSigner.java
License:Apache License
/** * Creates a clear sign signature over the input data. (Not detached) * * @param input the content to be signed * @param output the output destination of the signature *//* ww w.j a v a 2 s . c om*/ public void clearSign(InputStream input, OutputStream output) throws IOException, PGPException, GeneralSecurityException { PGPSignatureGenerator signatureGenerator = new PGPSignatureGenerator( new BcPGPContentSignerBuilder(privateKey.getPublicKeyPacket().getAlgorithm(), digest)); signatureGenerator.init(PGPSignature.CANONICAL_TEXT_DOCUMENT, privateKey); ArmoredOutputStream armoredOutput = new ArmoredOutputStream(output); armoredOutput.beginClearText(digest); LineIterator iterator = new LineIterator(new InputStreamReader(input)); while (iterator.hasNext()) { String line = iterator.nextLine(); // trailing spaces must be removed for signature calculation (see http://tools.ietf.org/html/rfc4880#section-7.1) byte[] data = trim(line).getBytes("UTF-8"); armoredOutput.write(data); armoredOutput.write(EOL); signatureGenerator.update(data); if (iterator.hasNext()) { signatureGenerator.update(EOL); } } armoredOutput.endClearText(); PGPSignature signature = signatureGenerator.generate(); signature.encode(new BCPGOutputStream(armoredOutput)); armoredOutput.close(); }
From source file:org.m1theo.apt.repo.signing.PGPSigner.java
License:Apache License
/** * Creates a detached clear sign signature over the input data. * * @param input the content to be signed * @param output the output destination of the signature *///from ww w .java 2 s. c o m public void clearSignDetached(InputStream input, OutputStream output) throws IOException, PGPException, GeneralSecurityException { PGPSignatureGenerator signatureGenerator = new PGPSignatureGenerator( new BcPGPContentSignerBuilder(privateKey.getPublicKeyPacket().getAlgorithm(), digest)); signatureGenerator.init(PGPSignature.CANONICAL_TEXT_DOCUMENT, privateKey); ArmoredOutputStream armoredOutput = new ArmoredOutputStream(output); LineIterator iterator = new LineIterator(new InputStreamReader(input)); while (iterator.hasNext()) { String line = iterator.nextLine(); // trailing spaces must be removed for signature calculation (see http://tools.ietf.org/html/rfc4880#section-7.1) byte[] data = trim(line).getBytes("UTF-8"); signatureGenerator.update(data); if (iterator.hasNext()) { signatureGenerator.update(EOL); } } PGPSignature signature = signatureGenerator.generate(); signature.encode(new BCPGOutputStream(armoredOutput)); armoredOutput.close(); }
From source file:org.opentestsystem.delivery.testreg.transformer.GPGEncryptor.java
License:Open Source License
/** * Uses the Legion of the Bouncy Castle (aka BouncyCastle) PGP API to encrypt, compress, and sign the input. * //from w ww . j a v a 2 s .c o m * The configured landing zone public key is used to encrypt the input. Only the landing zone private key will be * able to decrypt. * * The configured test registration private key is used to sign the input. This can be verified by the landing zone * to prove that this specific test registration instance created the data. * * @param input * A byte array * @return A byte array comprised of a PGP/GPG compatible binary encrypted and signed output */ @Transformer public Message<File> encryptStream(final File input, final @Header("dwBatchUuid") String dwBatchUuid, final @Header("fileSuffix") String fileSuffix, final @Header("recordsSent") int recordsSent, final @Header("tempPaths") List<Path> tempPaths, final @Header("dwConfigType") DwConfigType dwConfigType) { String debugPrefix = dwConfigType + " DW Config: "; long curTime = System.currentTimeMillis(); File tmpEncFile; try { PGPPublicKey landingZonePubKey = findLandingZonePublicKey(dwConfigType); PGPSecretKey testRegSecretKey = findTestRegSecretKey(); PGPPrivateKey testRegPrivateKey = testRegSecretKey.extractPrivateKey( new JcePBESecretKeyDecryptorBuilder().setProvider("BC").build(getPassphrase())); // //////////////////// // setup encryptor PGPEncryptedDataGenerator encGen = new PGPEncryptedDataGenerator( new JcePGPDataEncryptorBuilder(PGPEncryptedData.AES_256).setWithIntegrityPacket(true) .setSecureRandom(new SecureRandom()).setProvider("BC")); encGen.addMethod(new JcePublicKeyKeyEncryptionMethodGenerator(landingZonePubKey).setProvider("BC")); // This outputstream, encryptedSignedOutputStream is the ultimate target that will contain the encrypted and // signed output Path tempEncPath = Files.createTempFile(DwBatchHandler.DW_ENC_TMP_PREFIX, (dwConfigType == DwConfigType.SBAC ? DwBatchHandler.SBAC_DW_NAME : DwBatchHandler.LOCAL_DW_NAME) + fileSuffix); tempPaths.add(tempEncPath); tmpEncFile = tempEncPath.toFile(); FileOutputStream encryptedSignedOutputStream = new FileOutputStream(tmpEncFile); LOGGER.debug(debugPrefix + "Created temp encrypted output file " + tmpEncFile.getAbsolutePath()); OutputStream encryptOutStream = encGen.open(encryptedSignedOutputStream, new byte[BUFFER_SIZE]); // //////////////////////////// // setup data compression PGPCompressedDataGenerator comData = new PGPCompressedDataGenerator(CompressionAlgorithmTags.ZIP); OutputStream compressOutStream = comData.open(encryptOutStream); // ///////////////////// // sign encrypted file with test reg private key // create a signature generator PGPSignatureGenerator signatureGenerator = new PGPSignatureGenerator( new JcaPGPContentSignerBuilder(testRegSecretKey.getPublicKey().getAlgorithm(), PGPUtil.SHA1) .setProvider("BC")); signatureGenerator.init(PGPSignature.BINARY_DOCUMENT, testRegPrivateKey); @SuppressWarnings("unchecked") Iterator<String> it = testRegSecretKey.getPublicKey().getUserIDs(); if (it.hasNext()) { PGPSignatureSubpacketGenerator spGen = new PGPSignatureSubpacketGenerator(); spGen.setSignerUserID(false, it.next()); signatureGenerator.setHashedSubpackets(spGen.generate()); } // setup signature generator to encode the contents of the compressed output stream signatureGenerator.generateOnePassVersion(false).encode(compressOutStream); // create a PGP Literal Data Generator and open it to wrap the compression output stream PGPLiteralDataGenerator lGen = new PGPLiteralDataGenerator(); OutputStream signedOutStream = lGen.open(compressOutStream, PGPLiteralData.BINARY, "", new java.util.Date(), new byte[BUFFER_SIZE]); // create an input stream out of the input bytes FileInputStream clearInputStream = new FileInputStream(input); // read the input and write all data to the signing output stream, also update the signature // generator with the same input data byte[] buf = new byte[BUFFER_SIZE]; int len; while ((len = clearInputStream.read(buf)) > 0) { signedOutStream.write(buf, 0, len); signatureGenerator.update(buf, 0, len); } // close everything and generate the final signature signedOutStream.close(); lGen.close(); signatureGenerator.generate().encode(compressOutStream); compressOutStream.close(); comData.close(); encryptOutStream.close(); encGen.close(); clearInputStream.close(); encryptedSignedOutputStream.close(); } catch (IOException | PGPException | SignatureException e) { throw new GPGEncryptionException(debugPrefix + "Failure to encrypt and sign input", e); } LOGGER.debug(debugPrefix + "Generated encrypted data in " + (System.currentTimeMillis() - curTime)); return MessageBuilder.withPayload(tmpEncFile).setHeader("dwBatchUuid", dwBatchUuid) .setHeader("fileSuffix", fileSuffix).setHeader("recordsSent", recordsSent) .setHeader("tempPaths", tempPaths).setHeader("dwConfigType", dwConfigType).build(); }
From source file:org.sufficientlysecure.keychain.pgp.PgpSignEncryptOperation.java
License:Open Source License
/** * Signs and/or encrypts data based on parameters of class *//* w ww.j ava2 s.c om*/ private PgpSignEncryptResult executeInternal(PgpSignEncryptInputParcel input, CryptoInputParcel cryptoInput, InputData inputData, OutputStream outputStream) { int indent = 0; OperationLog log = new OperationLog(); log.add(LogType.MSG_PSE, indent); indent += 1; PgpSignEncryptData data = input.getData(); boolean enableSignature = data.getSignatureMasterKeyId() != Constants.key.none; boolean enableEncryption = ((data.getEncryptionMasterKeyIds() != null && data.getEncryptionMasterKeyIds().length > 0) || data.getSymmetricPassphrase() != null); boolean enableCompression = (data.getCompressionAlgorithm() != CompressionAlgorithmTags.UNCOMPRESSED); Log.d(Constants.TAG, "enableSignature:" + enableSignature + "\nenableEncryption:" + enableEncryption + "\nenableCompression:" + enableCompression + "\nenableAsciiArmorOutput:" + data.isEnableAsciiArmorOutput() + "\nisHiddenRecipients:" + data.isHiddenRecipients()); // add additional key id to encryption ids (mostly to do self-encryption) if (enableEncryption && data.getAdditionalEncryptId() != Constants.key.none) { data.setEncryptionMasterKeyIds( Arrays.copyOf(data.getEncryptionMasterKeyIds(), data.getEncryptionMasterKeyIds().length + 1)); data.getEncryptionMasterKeyIds()[data.getEncryptionMasterKeyIds().length - 1] = data .getAdditionalEncryptId(); } ArmoredOutputStream armorOut = null; OutputStream out; if (data.isEnableAsciiArmorOutput()) { armorOut = new ArmoredOutputStream(new BufferedOutputStream(outputStream, 1 << 16)); if (data.getVersionHeader() != null) { armorOut.setHeader("Version", data.getVersionHeader()); } // if we have a charset, put it in the header if (data.getCharset() != null) { armorOut.setHeader("Charset", data.getCharset()); } // add proprietary header to indicate that this is a key backup if (data.isAddBackupHeader()) { armorOut.setHeader("BackupVersion", "2"); } out = armorOut; } else { out = outputStream; } /* Get keys for signature generation for later usage */ CanonicalizedSecretKey signingKey = null; if (enableSignature) { updateProgress(R.string.progress_extracting_signature_key, 0, 100); try { long signingMasterKeyId = data.getSignatureMasterKeyId(); long signingSubKeyId = data.getSignatureSubKeyId(); CanonicalizedSecretKeyRing signingKeyRing = mProviderHelper .getCanonicalizedSecretKeyRing(signingMasterKeyId); signingKey = signingKeyRing.getSecretKey(data.getSignatureSubKeyId()); // Make sure key is not expired or revoked if (signingKeyRing.isExpired() || signingKeyRing.isRevoked() || signingKey.isExpired() || signingKey.isRevoked()) { log.add(LogType.MSG_PSE_ERROR_REVOKED_OR_EXPIRED, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } // Make sure we are allowed to sign here! if (!signingKey.canSign()) { log.add(LogType.MSG_PSE_ERROR_KEY_SIGN, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } switch (mProviderHelper.getCachedPublicKeyRing(signingMasterKeyId) .getSecretKeyType(signingSubKeyId)) { case DIVERT_TO_CARD: case PASSPHRASE_EMPTY: { if (!signingKey.unlock(new Passphrase())) { throw new AssertionError( "PASSPHRASE_EMPTY/DIVERT_TO_CARD keyphrase not unlocked with empty passphrase." + " This is a programming error!"); } break; } case PIN: case PATTERN: case PASSPHRASE: { Passphrase localPassphrase = cryptoInput.getPassphrase(); if (localPassphrase == null) { try { localPassphrase = getCachedPassphrase(signingMasterKeyId, signingKey.getKeyId()); } catch (PassphraseCacheInterface.NoSecretKeyException ignored) { } } if (localPassphrase == null) { log.add(LogType.MSG_PSE_PENDING_PASSPHRASE, indent + 1); return new PgpSignEncryptResult(log, RequiredInputParcel.createRequiredSignPassphrase(signingMasterKeyId, signingKey.getKeyId(), cryptoInput.getSignatureTime()), cryptoInput); } if (!signingKey.unlock(localPassphrase)) { log.add(LogType.MSG_PSE_ERROR_BAD_PASSPHRASE, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } break; } case GNU_DUMMY: { log.add(LogType.MSG_PSE_ERROR_UNLOCK, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } default: { throw new AssertionError("Unhandled SecretKeyType! (should not happen)"); } } } catch (ProviderHelper.NotFoundException e) { log.add(LogType.MSG_PSE_ERROR_SIGN_KEY, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } catch (PgpGeneralException e) { log.add(LogType.MSG_PSE_ERROR_UNLOCK, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } // Use requested hash algo int requestedAlgorithm = data.getSignatureHashAlgorithm(); if (requestedAlgorithm == PgpSecurityConstants.OpenKeychainHashAlgorithmTags.USE_DEFAULT) { data.setSignatureHashAlgorithm(PgpSecurityConstants.DEFAULT_HASH_ALGORITHM); } } updateProgress(R.string.progress_preparing_streams, 2, 100); /* Initialize PGPEncryptedDataGenerator for later usage */ PGPEncryptedDataGenerator cPk = null; if (enableEncryption) { // Use requested encryption algo int algo = data.getSymmetricEncryptionAlgorithm(); if (algo == PgpSecurityConstants.OpenKeychainSymmetricKeyAlgorithmTags.USE_DEFAULT) { algo = PgpSecurityConstants.DEFAULT_SYMMETRIC_ALGORITHM; } JcePGPDataEncryptorBuilder encryptorBuilder = new JcePGPDataEncryptorBuilder(algo) .setProvider(Constants.BOUNCY_CASTLE_PROVIDER_NAME) .setWithIntegrityPacket(data.isIntegrityProtected()); cPk = new PGPEncryptedDataGenerator(encryptorBuilder); if (data.getSymmetricPassphrase() != null) { // Symmetric encryption log.add(LogType.MSG_PSE_SYMMETRIC, indent); JcePBEKeyEncryptionMethodGenerator symmetricEncryptionGenerator = new JcePBEKeyEncryptionMethodGenerator( data.getSymmetricPassphrase().getCharArray()); cPk.addMethod(symmetricEncryptionGenerator); } else { log.add(LogType.MSG_PSE_ASYMMETRIC, indent); // Asymmetric encryption for (long id : data.getEncryptionMasterKeyIds()) { try { CanonicalizedPublicKeyRing keyRing = mProviderHelper .getCanonicalizedPublicKeyRing(KeyRings.buildUnifiedKeyRingUri(id)); Set<Long> encryptSubKeyIds = keyRing.getEncryptIds(); for (Long subKeyId : encryptSubKeyIds) { CanonicalizedPublicKey key = keyRing.getPublicKey(subKeyId); cPk.addMethod(key.getPubKeyEncryptionGenerator(data.isHiddenRecipients())); log.add(LogType.MSG_PSE_KEY_OK, indent + 1, KeyFormattingUtils.convertKeyIdToHex(subKeyId)); } if (encryptSubKeyIds.isEmpty()) { log.add(LogType.MSG_PSE_KEY_WARN, indent + 1, KeyFormattingUtils.convertKeyIdToHex(id)); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } // Make sure key is not expired or revoked if (keyRing.isExpired() || keyRing.isRevoked()) { log.add(LogType.MSG_PSE_ERROR_REVOKED_OR_EXPIRED, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } } catch (ProviderHelper.NotFoundException e) { log.add(LogType.MSG_PSE_KEY_UNKNOWN, indent + 1, KeyFormattingUtils.convertKeyIdToHex(id)); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } } } } /* Initialize signature generator object for later usage */ PGPSignatureGenerator signatureGenerator = null; if (enableSignature) { updateProgress(R.string.progress_preparing_signature, 4, 100); try { boolean cleartext = data.isCleartextSignature() && data.isEnableAsciiArmorOutput() && !enableEncryption; signatureGenerator = signingKey.getDataSignatureGenerator(data.getSignatureHashAlgorithm(), cleartext, cryptoInput.getCryptoData(), cryptoInput.getSignatureTime()); } catch (PgpGeneralException e) { log.add(LogType.MSG_PSE_ERROR_NFC, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } } ProgressScaler progressScaler = new ProgressScaler(mProgressable, 8, 95, 100); PGPCompressedDataGenerator compressGen = null; OutputStream pOut; OutputStream encryptionOut = null; BCPGOutputStream bcpgOut; ByteArrayOutputStream detachedByteOut = null; ArmoredOutputStream detachedArmorOut = null; BCPGOutputStream detachedBcpgOut = null; long opTime, startTime = System.currentTimeMillis(); try { if (enableEncryption) { /* actual encryption */ updateProgress(R.string.progress_encrypting, 8, 100); log.add(enableSignature ? LogType.MSG_PSE_SIGCRYPTING : LogType.MSG_PSE_ENCRYPTING, indent); indent += 1; encryptionOut = cPk.open(out, new byte[1 << 16]); if (enableCompression) { log.add(LogType.MSG_PSE_COMPRESSING, indent); // Use preferred compression algo int algo = data.getCompressionAlgorithm(); if (algo == PgpSecurityConstants.OpenKeychainCompressionAlgorithmTags.USE_DEFAULT) { algo = PgpSecurityConstants.DEFAULT_COMPRESSION_ALGORITHM; } compressGen = new PGPCompressedDataGenerator(algo); bcpgOut = new BCPGOutputStream(compressGen.open(encryptionOut)); } else { bcpgOut = new BCPGOutputStream(encryptionOut); } if (enableSignature) { signatureGenerator.generateOnePassVersion(false).encode(bcpgOut); } PGPLiteralDataGenerator literalGen = new PGPLiteralDataGenerator(); char literalDataFormatTag; if (data.isCleartextSignature()) { literalDataFormatTag = PGPLiteralData.UTF8; } else { literalDataFormatTag = PGPLiteralData.BINARY; } pOut = literalGen.open(bcpgOut, literalDataFormatTag, inputData.getOriginalFilename(), new Date(), new byte[1 << 16]); long alreadyWritten = 0; int length; byte[] buffer = new byte[1 << 16]; InputStream in = new BufferedInputStream(inputData.getInputStream()); while ((length = in.read(buffer)) > 0) { pOut.write(buffer, 0, length); // update signature buffer if signature is requested if (enableSignature) { signatureGenerator.update(buffer, 0, length); } alreadyWritten += length; if (inputData.getSize() > 0) { long progress = 100 * alreadyWritten / inputData.getSize(); progressScaler.setProgress((int) progress, 100); } } literalGen.close(); indent -= 1; } else if (enableSignature && data.isCleartextSignature() && data.isEnableAsciiArmorOutput()) { /* cleartext signature: sign-only of ascii text */ updateProgress(R.string.progress_signing, 8, 100); log.add(LogType.MSG_PSE_SIGNING_CLEARTEXT, indent); // write -----BEGIN PGP SIGNED MESSAGE----- armorOut.beginClearText(data.getSignatureHashAlgorithm()); InputStream in = new BufferedInputStream(inputData.getInputStream()); final BufferedReader reader = new BufferedReader(new InputStreamReader(in)); // update signature buffer with first line processLine(reader.readLine(), armorOut, signatureGenerator); // TODO: progress: fake annealing? while (true) { String line = reader.readLine(); // end cleartext signature with newline, see http://tools.ietf.org/html/rfc4880#section-7 if (line == null) { armorOut.write(NEW_LINE); break; } armorOut.write(NEW_LINE); // update signature buffer with input line signatureGenerator.update(NEW_LINE); processLine(line, armorOut, signatureGenerator); } armorOut.endClearText(); pOut = new BCPGOutputStream(armorOut); } else if (enableSignature && data.isDetachedSignature()) { /* detached signature */ updateProgress(R.string.progress_signing, 8, 100); log.add(LogType.MSG_PSE_SIGNING_DETACHED, indent); InputStream in = new BufferedInputStream(inputData.getInputStream()); // handle output stream separately for detached signatures detachedByteOut = new ByteArrayOutputStream(); OutputStream detachedOut = detachedByteOut; if (data.isEnableAsciiArmorOutput()) { detachedArmorOut = new ArmoredOutputStream(new BufferedOutputStream(detachedOut, 1 << 16)); if (data.getVersionHeader() != null) { detachedArmorOut.setHeader("Version", data.getVersionHeader()); } detachedOut = detachedArmorOut; } detachedBcpgOut = new BCPGOutputStream(detachedOut); long alreadyWritten = 0; int length; byte[] buffer = new byte[1 << 16]; while ((length = in.read(buffer)) > 0) { // no output stream is written, no changed to original data! signatureGenerator.update(buffer, 0, length); alreadyWritten += length; if (inputData.getSize() > 0) { long progress = 100 * alreadyWritten / inputData.getSize(); progressScaler.setProgress((int) progress, 100); } } pOut = null; } else if (enableSignature && !data.isCleartextSignature() && !data.isDetachedSignature()) { /* sign-only binary (files/data stream) */ updateProgress(R.string.progress_signing, 8, 100); log.add(LogType.MSG_PSE_SIGNING, indent); InputStream in = new BufferedInputStream(inputData.getInputStream()); if (enableCompression) { // Use preferred compression algo int algo = data.getCompressionAlgorithm(); if (algo == PgpSecurityConstants.OpenKeychainCompressionAlgorithmTags.USE_DEFAULT) { algo = PgpSecurityConstants.DEFAULT_COMPRESSION_ALGORITHM; } compressGen = new PGPCompressedDataGenerator(algo); bcpgOut = new BCPGOutputStream(compressGen.open(out)); } else { bcpgOut = new BCPGOutputStream(out); } signatureGenerator.generateOnePassVersion(false).encode(bcpgOut); PGPLiteralDataGenerator literalGen = new PGPLiteralDataGenerator(); pOut = literalGen.open(bcpgOut, PGPLiteralData.BINARY, inputData.getOriginalFilename(), new Date(), new byte[1 << 16]); long alreadyWritten = 0; int length; byte[] buffer = new byte[1 << 16]; while ((length = in.read(buffer)) > 0) { pOut.write(buffer, 0, length); signatureGenerator.update(buffer, 0, length); alreadyWritten += length; if (inputData.getSize() > 0) { long progress = 100 * alreadyWritten / inputData.getSize(); progressScaler.setProgress((int) progress, 100); } } literalGen.close(); } else { throw new AssertionError("cannot clearsign in non-ascii armored text, this is a bug!"); } if (enableSignature) { updateProgress(R.string.progress_generating_signature, 95, 100); try { if (detachedBcpgOut != null) { signatureGenerator.generate().encode(detachedBcpgOut); } else { signatureGenerator.generate().encode(pOut); } } catch (NfcSyncPGPContentSignerBuilder.NfcInteractionNeeded e) { // this secret key diverts to a OpenPGP card, throw exception with hash that will be signed log.add(LogType.MSG_PSE_PENDING_NFC, indent); return new PgpSignEncryptResult(log, RequiredInputParcel.createSecurityTokenSignOperation( signingKey.getRing().getMasterKeyId(), signingKey.getKeyId(), e.hashToSign, e.hashAlgo, cryptoInput.getSignatureTime()), cryptoInput); } } opTime = System.currentTimeMillis() - startTime; Log.d(Constants.TAG, "sign/encrypt time taken: " + String.format("%.2f", opTime / 1000.0) + "s"); // closing outputs // NOTE: closing needs to be done in the correct order! if (encryptionOut != null) { if (compressGen != null) { compressGen.close(); } encryptionOut.close(); } // Note: Closing ArmoredOutputStream does not close the underlying stream if (armorOut != null) { armorOut.close(); } // Note: Closing ArmoredOutputStream does not close the underlying stream if (detachedArmorOut != null) { detachedArmorOut.close(); } // Also closes detachedBcpgOut if (detachedByteOut != null) { detachedByteOut.close(); } if (out != null) { out.close(); } if (outputStream != null) { outputStream.close(); } } catch (SignatureException e) { log.add(LogType.MSG_PSE_ERROR_SIG, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } catch (PGPException e) { log.add(LogType.MSG_PSE_ERROR_PGP, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } catch (IOException e) { log.add(LogType.MSG_PSE_ERROR_IO, indent); return new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_ERROR, log); } updateProgress(R.string.progress_done, 100, 100); log.add(LogType.MSG_PSE_OK, indent); PgpSignEncryptResult result = new PgpSignEncryptResult(PgpSignEncryptResult.RESULT_OK, log); result.mOperationTime = opTime; if (detachedByteOut != null) { try { detachedByteOut.flush(); detachedByteOut.close(); } catch (IOException e) { // silently catch } result.setDetachedSignature(detachedByteOut.toByteArray()); try { String digestName = PGPUtil.getDigestName(data.getSignatureHashAlgorithm()); // construct micalg parameter according to https://tools.ietf.org/html/rfc3156#section-5 result.setMicAlgDigestName("pgp-" + digestName.toLowerCase()); } catch (PGPException e) { Log.e(Constants.TAG, "error setting micalg parameter!", e); } } return result; }
From source file:org.vafer.jdeb.signing.PGPSigner.java
License:Apache License
/** * Creates a clear sign signature over the input data. (Not detached) * * @param input the content to be signed * @param output the output destination of the signature *///from ww w. j a va2 s. c om public void clearSign(InputStream input, OutputStream output) throws IOException, PGPException, GeneralSecurityException { int digest = PGPUtil.SHA1; PGPSignatureGenerator signatureGenerator = new PGPSignatureGenerator( new BcPGPContentSignerBuilder(privateKey.getPublicKeyPacket().getAlgorithm(), digest)); signatureGenerator.init(PGPSignature.CANONICAL_TEXT_DOCUMENT, privateKey); ArmoredOutputStream armoredOutput = new ArmoredOutputStream(output); armoredOutput.beginClearText(digest); LineIterator iterator = new LineIterator(new InputStreamReader(input)); while (iterator.hasNext()) { String line = iterator.nextLine(); // trailing spaces must be removed for signature calculation (see http://tools.ietf.org/html/rfc4880#section-7.1) byte[] data = trim(line).getBytes("UTF-8"); armoredOutput.write(data); armoredOutput.write(EOL); signatureGenerator.update(data); if (iterator.hasNext()) { signatureGenerator.update(EOL); } } armoredOutput.endClearText(); PGPSignature signature = signatureGenerator.generate(); signature.encode(new BCPGOutputStream(armoredOutput)); armoredOutput.close(); }
From source file:org.vafer.jdeb.signing.SigningUtils.java
License:Apache License
/** * Create a clear sign signature over the input data. (Not detached) * * @param pInput//from w w w .j a v a2s. c o m * @param pKeyring * @param pKey * @param pPassphrase * @param pOutput * @throws IOException * @throws PGPException * @throws NoSuchProviderException * @throws NoSuchAlgorithmException * @throws SignatureException */ public static void clearSign(final InputStream pInput, final InputStream pKeyring, final String pKey, final String pPassphrase, final OutputStream pOutput) throws IOException, PGPException, NoSuchProviderException, NoSuchAlgorithmException, SignatureException { Security.addProvider(new BouncyCastleProvider()); final PGPSecretKey secretKey = getSecretKey(pKeyring, pKey); final PGPPrivateKey privateKey = secretKey.extractPrivateKey(pPassphrase.toCharArray(), "BC"); final int digest = PGPUtil.SHA1; final PGPSignatureGenerator signatureGenerator = new PGPSignatureGenerator( secretKey.getPublicKey().getAlgorithm(), digest, "BC"); signatureGenerator.initSign(PGPSignature.CANONICAL_TEXT_DOCUMENT, privateKey); // final PGPSignatureSubpacketGenerator subpackageGenerator = new PGPSignatureSubpacketGenerator(); // // final Iterator it = secretKey.getPublicKey().getUserIDs(); // if (it.hasNext()) { // subpackageGenerator.setSignerUserID(false, (String)it.next()); // signatureGenerator.setHashedSubpackets(subpackageGenerator.generate()); // } final ArmoredOutputStream armoredOutput = new ArmoredOutputStream(pOutput); armoredOutput.beginClearText(digest); final BufferedReader reader = new BufferedReader(new InputStreamReader(pInput)); final byte[] newline = "\r\n".getBytes("UTF-8"); processLine(reader.readLine(), armoredOutput, signatureGenerator); while (true) { final String line = reader.readLine(); if (line == null) { armoredOutput.write(newline); break; } armoredOutput.write(newline); signatureGenerator.update(newline); processLine(line, armoredOutput, signatureGenerator); } armoredOutput.endClearText(); final BCPGOutputStream pgpOutput = new BCPGOutputStream(armoredOutput); signatureGenerator.generate().encode(pgpOutput); armoredOutput.close(); }