/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * */ #include #include #include #include #include #include namespace oox::crypto { /* =========================================================================== */ /* Kudos to Caolan McNamara who provided the core decryption implementations. */ /* =========================================================================== */ namespace { void lclRandomGenerateValues(sal_uInt8* aArray, sal_uInt32 aSize) { rtlRandomPool aRandomPool = rtl_random_createPool(); rtl_random_getBytes(aRandomPool, aArray, aSize); rtl_random_destroyPool(aRandomPool); } static const OUString lclCspName = "Microsoft Enhanced RSA and AES Cryptographic Provider"; constexpr const sal_uInt32 AES128Size = 16; } // end anonymous namespace bool Standard2007Engine::generateVerifier() { // only support key of size 128 bit (16 byte) if (mKey.size() != 16) return false; std::vector verifier(msfilter::ENCRYPTED_VERIFIER_LENGTH); std::vector encryptedVerifier(msfilter::ENCRYPTED_VERIFIER_LENGTH); lclRandomGenerateValues(verifier.data(), verifier.size()); std::vector iv; Encrypt aEncryptorVerifier(mKey, iv, Crypto::AES_128_ECB); if (aEncryptorVerifier.update(encryptedVerifier, verifier) != msfilter::ENCRYPTED_VERIFIER_LENGTH) return false; std::copy(encryptedVerifier.begin(), encryptedVerifier.end(), mInfo.verifier.encryptedVerifier); mInfo.verifier.encryptedVerifierHashSize = msfilter::SHA1_HASH_LENGTH; std::vector hash = comphelper::Hash::calculateHash(verifier.data(), verifier.size(), comphelper::HashType::SHA1); hash.resize(msfilter::SHA256_HASH_LENGTH, 0); std::vector encryptedHash(msfilter::SHA256_HASH_LENGTH, 0); Encrypt aEncryptorHash(mKey, iv, Crypto::AES_128_ECB); aEncryptorHash.update(encryptedHash, hash, hash.size()); std::copy(encryptedHash.begin(), encryptedHash.end(), mInfo.verifier.encryptedVerifierHash); return true; } bool Standard2007Engine::calculateEncryptionKey(const OUString& rPassword) { sal_uInt32 saltSize = mInfo.verifier.saltSize; sal_uInt32 passwordByteLength = rPassword.getLength() * 2; const sal_uInt8* saltArray = mInfo.verifier.salt; // Prepare initial data -> salt + password (in 16-bit chars) std::vector initialData(saltSize + passwordByteLength); std::copy(saltArray, saltArray + saltSize, initialData.begin()); const sal_uInt8* passwordByteArray = reinterpret_cast(rPassword.getStr()); std::copy( passwordByteArray, passwordByteArray + passwordByteLength, initialData.begin() + saltSize); // use "hash" vector for result of sha1 hashing // calculate SHA1 hash of initialData std::vector hash = comphelper::Hash::calculateHash(initialData.data(), initialData.size(), comphelper::HashType::SHA1); // data = iterator (4bytes) + hash std::vector data(msfilter::SHA1_HASH_LENGTH + 4, 0); for (sal_Int32 i = 0; i < 50000; ++i) { ByteOrderConverter::writeLittleEndian(data.data(), i); std::copy(hash.begin(), hash.end(), data.begin() + 4); hash = comphelper::Hash::calculateHash(data.data(), data.size(), comphelper::HashType::SHA1); } std::copy(hash.begin(), hash.end(), data.begin() ); std::fill(data.begin() + msfilter::SHA1_HASH_LENGTH, data.end(), 0 ); hash = comphelper::Hash::calculateHash(data.data(), data.size(), comphelper::HashType::SHA1); // derive key std::vector buffer(64, 0x36); for (size_t i = 0; i < hash.size(); ++i) buffer[i] ^= hash[i]; hash = comphelper::Hash::calculateHash(buffer.data(), buffer.size(), comphelper::HashType::SHA1); if (mKey.size() > hash.size()) return false; std::copy(hash.begin(), hash.begin() + mKey.size(), mKey.begin()); return true; } bool Standard2007Engine::generateEncryptionKey(const OUString& password) { mKey.clear(); /* KeySize (4 bytes): An unsigned integer that specifies the number of bits in the encryption key. MUST be a multiple of 8. MUST be one of the values in the following table: Algorithm Value Comment Any 0x00000000 Determined by Flags RC4 0x00000028 – 0x00000080 (inclusive) 8-bit increments. AES 0x00000080, 0x000000C0, 0x00000100 128, 192 or 256-bit */ if (mInfo.header.keyBits > 8192) // should we strictly enforce the above 256 bit limit ? return false; mKey.resize(mInfo.header.keyBits / 8, 0); if (mKey.empty()) return false; calculateEncryptionKey(password); std::vector encryptedVerifier(msfilter::ENCRYPTED_VERIFIER_LENGTH); std::copy( mInfo.verifier.encryptedVerifier, mInfo.verifier.encryptedVerifier + msfilter::ENCRYPTED_VERIFIER_LENGTH, encryptedVerifier.begin()); std::vector encryptedHash(msfilter::SHA256_HASH_LENGTH); std::copy( mInfo.verifier.encryptedVerifierHash, mInfo.verifier.encryptedVerifierHash + msfilter::SHA256_HASH_LENGTH, encryptedHash.begin()); std::vector verifier(encryptedVerifier.size(), 0); Decrypt::aes128ecb(verifier, encryptedVerifier, mKey); std::vector verifierHash(encryptedHash.size(), 0); Decrypt::aes128ecb(verifierHash, encryptedHash, mKey); std::vector hash = comphelper::Hash::calculateHash(verifier.data(), verifier.size(), comphelper::HashType::SHA1); return std::equal(hash.begin(), hash.end(), verifierHash.begin()); } bool Standard2007Engine::decrypt(BinaryXInputStream& aInputStream, BinaryXOutputStream& aOutputStream) { sal_uInt32 totalSize = aInputStream.readuInt32(); // Document unencrypted size - 4 bytes aInputStream.skip(4); // Reserved 4 Bytes std::vector iv; Decrypt aDecryptor(mKey, iv, Crypto::AES_128_ECB); std::vector inputBuffer (4096); std::vector outputBuffer(4096); sal_uInt32 inputLength; sal_uInt32 outputLength; sal_uInt32 remaining = totalSize; while ((inputLength = aInputStream.readMemory(inputBuffer.data(), inputBuffer.size())) > 0) { outputLength = aDecryptor.update(outputBuffer, inputBuffer, inputLength); sal_uInt32 writeLength = std::min(outputLength, remaining); aOutputStream.writeMemory(outputBuffer.data(), writeLength); remaining -= outputLength; } return true; } bool Standard2007Engine::checkDataIntegrity() { return true; } bool Standard2007Engine::setupEncryption(OUString const & password) { mInfo.header.flags = msfilter::ENCRYPTINFO_AES | msfilter::ENCRYPTINFO_CRYPTOAPI; mInfo.header.algId = msfilter::ENCRYPT_ALGO_AES128; mInfo.header.algIdHash = msfilter::ENCRYPT_HASH_SHA1; mInfo.header.keyBits = msfilter::ENCRYPT_KEY_SIZE_AES_128; mInfo.header.providedType = msfilter::ENCRYPT_PROVIDER_TYPE_AES; lclRandomGenerateValues(mInfo.verifier.salt, mInfo.verifier.saltSize); const sal_Int32 keyLength = mInfo.header.keyBits / 8; mKey.clear(); mKey.resize(keyLength, 0); if (!calculateEncryptionKey(password)) return false; if (!generateVerifier()) return false; return true; } void Standard2007Engine::writeEncryptionInfo(BinaryXOutputStream& rStream) { rStream.WriteUInt32(msfilter::VERSION_INFO_2007_FORMAT); sal_uInt32 cspNameSize = (lclCspName.getLength() * 2) + 2; sal_uInt32 encryptionHeaderSize = static_cast(sizeof(msfilter::EncryptionStandardHeader)); rStream.WriteUInt32(mInfo.header.flags); sal_uInt32 headerSize = encryptionHeaderSize + cspNameSize; rStream.WriteUInt32(headerSize); rStream.writeMemory(&mInfo.header, encryptionHeaderSize); rStream.writeUnicodeArray(lclCspName); rStream.WriteUInt16(0); rStream.writeMemory(&mInfo.verifier, sizeof(msfilter::EncryptionVerifierAES)); } void Standard2007Engine::encrypt(const css::uno::Reference & rxInputStream, css::uno::Reference & rxOutputStream, sal_uInt32 nSize) { if (mKey.empty()) return; BinaryXOutputStream aBinaryOutputStream(rxOutputStream, false); BinaryXInputStream aBinaryInputStream(rxInputStream, false); aBinaryOutputStream.WriteUInt32(nSize); // size aBinaryOutputStream.WriteUInt32(0U); // reserved std::vector inputBuffer(1024); std::vector outputBuffer(1024); sal_uInt32 inputLength; sal_uInt32 outputLength; std::vector iv; Encrypt aEncryptor(mKey, iv, Crypto::AES_128_ECB); while ((inputLength = aBinaryInputStream.readMemory(inputBuffer.data(), inputBuffer.size())) > 0) { // increase size to multiple of 16 (size of mKey) if necessary inputLength = inputLength % AES128Size == 0 ? inputLength : roundUp(inputLength, AES128Size); outputLength = aEncryptor.update(outputBuffer, inputBuffer, inputLength); aBinaryOutputStream.writeMemory(outputBuffer.data(), outputLength); } } bool Standard2007Engine::readEncryptionInfo(css::uno::Reference & rxInputStream) { BinaryXInputStream aBinaryStream(rxInputStream, false); mInfo.header.flags = aBinaryStream.readuInt32(); if (getFlag(mInfo.header.flags, msfilter::ENCRYPTINFO_EXTERNAL)) return false; sal_uInt32 nHeaderSize = aBinaryStream.readuInt32(); sal_uInt32 actualHeaderSize = sizeof(mInfo.header); if (nHeaderSize < actualHeaderSize) return false; mInfo.header.flags = aBinaryStream.readuInt32(); mInfo.header.sizeExtra = aBinaryStream.readuInt32(); mInfo.header.algId = aBinaryStream.readuInt32(); mInfo.header.algIdHash = aBinaryStream.readuInt32(); mInfo.header.keyBits = aBinaryStream.readuInt32(); mInfo.header.providedType = aBinaryStream.readuInt32(); mInfo.header.reserved1 = aBinaryStream.readuInt32(); mInfo.header.reserved2 = aBinaryStream.readuInt32(); aBinaryStream.skip(nHeaderSize - actualHeaderSize); mInfo.verifier.saltSize = aBinaryStream.readuInt32(); aBinaryStream.readArray(mInfo.verifier.salt, SAL_N_ELEMENTS(mInfo.verifier.salt)); aBinaryStream.readArray(mInfo.verifier.encryptedVerifier, SAL_N_ELEMENTS(mInfo.verifier.encryptedVerifier)); mInfo.verifier.encryptedVerifierHashSize = aBinaryStream.readuInt32(); aBinaryStream.readArray(mInfo.verifier.encryptedVerifierHash, SAL_N_ELEMENTS(mInfo.verifier.encryptedVerifierHash)); if (mInfo.verifier.saltSize != 16) return false; // check flags and algorithm IDs, required are AES128 and SHA-1 if (!getFlag(mInfo.header.flags, msfilter::ENCRYPTINFO_CRYPTOAPI)) return false; if (!getFlag(mInfo.header.flags, msfilter::ENCRYPTINFO_AES)) return false; // algorithm ID 0 defaults to AES128 too, if ENCRYPTINFO_AES flag is set if (mInfo.header.algId != 0 && mInfo.header.algId != msfilter::ENCRYPT_ALGO_AES128) return false; // hash algorithm ID 0 defaults to SHA-1 too if (mInfo.header.algIdHash != 0 && mInfo.header.algIdHash != msfilter::ENCRYPT_HASH_SHA1) return false; if (mInfo.verifier.encryptedVerifierHashSize != 20) return false; return !aBinaryStream.isEof(); } } // namespace oox::crypto /* vim:set shiftwidth=4 softtabstop=4 expandtab: */