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From source file:org.sufficientlysecure.keychain.pgp.PgpDecryptVerifyOperation.java
License:Open Source License
/** Decrypt and/or verify binary or ascii armored pgp data. */ @NonNull/*from w w w . j ava 2s . c o m*/ private DecryptVerifyResult decryptVerify(PgpDecryptVerifyInputParcel input, CryptoInputParcel cryptoInput, InputData inputData, InputStream in, OutputStream out, int indent) throws IOException, PGPException { OperationLog log = new OperationLog(); log.add(LogType.MSG_DC, indent); indent += 1; updateProgress(R.string.progress_reading_data, 0, 100); // parse ASCII Armor headers ArmorHeaders armorHeaders = parseArmorHeaders(in, log, indent); String charset = armorHeaders.charset; boolean useBackupCode = false; if (armorHeaders.backupVersion != null && armorHeaders.backupVersion == 2) { useBackupCode = true; } OpenPgpDecryptionResultBuilder decryptionResultBuilder = new OpenPgpDecryptionResultBuilder(); JcaSkipMarkerPGPObjectFactory plainFact; Object dataChunk; EncryptStreamResult esResult = null; { // resolve encrypted (symmetric and asymmetric) packets JcaSkipMarkerPGPObjectFactory pgpF = new JcaSkipMarkerPGPObjectFactory(in); Object obj = pgpF.nextObject(); if (obj instanceof PGPEncryptedDataList) { esResult = handleEncryptedPacket(input, cryptoInput, (PGPEncryptedDataList) obj, log, indent, useBackupCode); // if there is an error, nothing left to do here if (esResult.errorResult != null) { return esResult.errorResult; } // if this worked out so far, the data is encrypted decryptionResultBuilder.setEncrypted(true); if (esResult.sessionKey != null && esResult.decryptedSessionKey != null) { decryptionResultBuilder.setSessionKey(esResult.sessionKey, esResult.decryptedSessionKey); } if (esResult.insecureEncryptionKey) { log.add(LogType.MSG_DC_INSECURE_SYMMETRIC_ENCRYPTION_ALGO, indent + 1); decryptionResultBuilder.setInsecure(true); } // Check for insecure encryption algorithms! if (!PgpSecurityConstants.isSecureSymmetricAlgorithm(esResult.symmetricEncryptionAlgo)) { log.add(LogType.MSG_DC_INSECURE_SYMMETRIC_ENCRYPTION_ALGO, indent + 1); decryptionResultBuilder.setInsecure(true); } plainFact = new JcaSkipMarkerPGPObjectFactory(esResult.cleartextStream); dataChunk = plainFact.nextObject(); } else { decryptionResultBuilder.setEncrypted(false); plainFact = pgpF; dataChunk = obj; } } log.add(LogType.MSG_DC_PREP_STREAMS, indent); log.add(LogType.MSG_DC_CLEAR, indent); indent += 1; // resolve compressed data if (dataChunk instanceof PGPCompressedData) { log.add(LogType.MSG_DC_CLEAR_DECOMPRESS, indent + 1); PGPCompressedData compressedData = (PGPCompressedData) dataChunk; JcaSkipMarkerPGPObjectFactory fact = new JcaSkipMarkerPGPObjectFactory(compressedData.getDataStream()); dataChunk = fact.nextObject(); plainFact = fact; } PgpSignatureChecker signatureChecker = new PgpSignatureChecker(mProviderHelper, input.getSenderAddress()); if (signatureChecker.initializeOnePassSignature(dataChunk, log, indent + 1)) { dataChunk = plainFact.nextObject(); } if (dataChunk instanceof PGPSignatureList) { // skip dataChunk = plainFact.nextObject(); } OpenPgpMetadata metadata; if (!(dataChunk instanceof PGPLiteralData)) { log.add(LogType.MSG_DC_ERROR_INVALID_DATA, indent); return new DecryptVerifyResult(DecryptVerifyResult.RESULT_ERROR, log); } log.add(LogType.MSG_DC_CLEAR_DATA, indent + 1); indent += 2; PGPLiteralData literalData = (PGPLiteralData) dataChunk; String originalFilename = literalData.getFileName(); // reject filenames with slashes completely (path traversal issue) if (originalFilename.contains("/")) { originalFilename = ""; } String mimeType = null; if (literalData.getFormat() == PGPLiteralData.TEXT || literalData.getFormat() == PGPLiteralData.UTF8) { mimeType = "text/plain"; } else { // try to guess from file ending String extension = MimeTypeMap.getFileExtensionFromUrl(originalFilename); if (extension != null) { MimeTypeMap mime = MimeTypeMap.getSingleton(); mimeType = mime.getMimeTypeFromExtension(extension); } } if (mimeType == null) { mimeType = "application/octet-stream"; } if (!"".equals(originalFilename)) { log.add(LogType.MSG_DC_CLEAR_META_FILE, indent + 1, originalFilename); } log.add(LogType.MSG_DC_CLEAR_META_TIME, indent + 1, new Date(literalData.getModificationTime().getTime()).toString()); // return here if we want to decrypt the metadata only if (input.isDecryptMetadataOnly()) { log.add(LogType.MSG_DC_CLEAR_META_MIME, indent + 1, mimeType); // this operation skips the entire stream to find the data length! Long originalSize = literalData.findDataLength(); if (originalSize != null) { log.add(LogType.MSG_DC_CLEAR_META_SIZE, indent + 1, Long.toString(originalSize)); } else { log.add(LogType.MSG_DC_CLEAR_META_SIZE_UNKNOWN, indent + 1); } metadata = new OpenPgpMetadata(originalFilename, mimeType, literalData.getModificationTime().getTime(), originalSize == null ? 0 : originalSize, charset); log.add(LogType.MSG_DC_OK_META_ONLY, indent); DecryptVerifyResult result = new DecryptVerifyResult(DecryptVerifyResult.RESULT_OK, log); result.setDecryptionMetadata(metadata); return result; } InputStream dataIn = literalData.getInputStream(); long opTime, startTime = System.currentTimeMillis(); long alreadyWritten = 0; long wholeSize = inputData.getSize() - inputData.getStreamPosition(); boolean sizeIsKnown = inputData.getSize() != InputData.UNKNOWN_FILESIZE && wholeSize > 0; int length; byte[] buffer = new byte[8192]; byte[] firstBytes = new byte[48]; CharsetVerifier charsetVerifier = new CharsetVerifier(buffer, mimeType, charset); updateProgress(R.string.progress_decrypting, 1, 100); long nextProgressTime = 0L; int lastReportedProgress = 1; while ((length = dataIn.read(buffer)) > 0) { // Log.d(Constants.TAG, "read bytes: " + length); if (out != null) { out.write(buffer, 0, length); } // update signature buffer if signature is also present signatureChecker.updateSignatureData(buffer, 0, length); charsetVerifier.readBytesFromBuffer(0, length); // note down first couple of bytes for "magic bytes" file type detection if (alreadyWritten == 0) { System.arraycopy(buffer, 0, firstBytes, 0, length > firstBytes.length ? firstBytes.length : length); } alreadyWritten += length; if (sizeIsKnown && nextProgressTime < System.currentTimeMillis()) { long progress = 100 * inputData.getStreamPosition() / wholeSize; // stop at 100% for wrong file sizes... if (progress > 100) { progress = 100; } if (progress > lastReportedProgress) { updateProgress((int) progress, 100); lastReportedProgress = (int) progress; nextProgressTime = System.currentTimeMillis() + PROGRESS_STRIDE_MILLISECONDS; } } } if (signatureChecker.isInitialized()) { Object o = plainFact.nextObject(); boolean signatureCheckOk = signatureChecker.verifySignatureOnePass(o, log, indent + 1); if (!signatureCheckOk) { return new DecryptVerifyResult(DecryptVerifyResult.RESULT_ERROR, log); } } opTime = System.currentTimeMillis() - startTime; Log.d(Constants.TAG, "decrypt time taken: " + String.format("%.2f", opTime / 1000.0) + "s, for " + alreadyWritten + " bytes"); // special treatment to detect pgp mime types // TODO move into CharsetVerifier? seems like that would be a plausible place for this logic if (matchesPrefix(firstBytes, "-----BEGIN PGP PUBLIC KEY BLOCK-----") || matchesPrefix(firstBytes, "-----BEGIN PGP PRIVATE KEY BLOCK-----")) { mimeType = Constants.MIME_TYPE_KEYS; } else if (matchesPrefix(firstBytes, "-----BEGIN PGP MESSAGE-----")) { // this is NOT application/pgp-encrypted, see RFC 3156! mimeType = Constants.MIME_TYPE_ENCRYPTED_ALTERNATE; } else { mimeType = charsetVerifier.getGuessedMimeType(); } metadata = new OpenPgpMetadata(originalFilename, mimeType, literalData.getModificationTime().getTime(), alreadyWritten, charsetVerifier.getCharset()); log.add(LogType.MSG_DC_CLEAR_META_MIME, indent + 1, mimeType); Log.d(Constants.TAG, metadata.toString()); indent -= 1; if (esResult != null) { if (esResult.encryptedData.isIntegrityProtected()) { if (esResult.encryptedData.verify()) { log.add(LogType.MSG_DC_INTEGRITY_CHECK_OK, indent); } else { log.add(LogType.MSG_DC_ERROR_INTEGRITY_CHECK, indent); return new DecryptVerifyResult(DecryptVerifyResult.RESULT_ERROR, log); } } else if (!signatureChecker.isInitialized()) { // If no signature is present, we *require* an MDC! // Handle missing integrity protection like failed integrity protection! // The MDC packet can be stripped by an attacker! log.add(LogType.MSG_DC_INSECURE_MDC_MISSING, indent); decryptionResultBuilder.setInsecure(true); } } updateProgress(R.string.progress_done, 100, 100); log.add(LogType.MSG_DC_OK, indent); // Return a positive result, with metadata and verification info DecryptVerifyResult result = new DecryptVerifyResult(DecryptVerifyResult.RESULT_OK, log); result.setCachedCryptoInputParcel(cryptoInput); result.setSignatureResult(signatureChecker.getSignatureResult()); result.setDecryptionResult(decryptionResultBuilder.build()); result.setDecryptionMetadata(metadata); result.mOperationTime = opTime; return result; }