// Copyright (c) 2014-2017 Thomas Fussell // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, WRISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE // // @license: http://www.opensource.org/licenses/mit-license.php // @author: see AUTHORS file #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace { using xlnt::detail::byte; using xlnt::detail::read; using xlnt::detail::encryption_info; std::vector decrypt_xlsx_standard( encryption_info info, std::istream &encrypted_package_stream) { const auto key = info.calculate_key(); auto decrypted_size = read(encrypted_package_stream); std::vector encrypted_segment(4096, 0); std::vector decrypted_package; while (encrypted_package_stream) { encrypted_package_stream.read( reinterpret_cast(encrypted_segment.data()), static_cast(encrypted_segment.size())); auto decrypted_segment = xlnt::detail::aes_ecb_decrypt(encrypted_segment, key); decrypted_package.insert( decrypted_package.end(), decrypted_segment.begin(), decrypted_segment.end()); } decrypted_package.resize(static_cast(decrypted_size)); return decrypted_package; } std::vector decrypt_xlsx_agile( const encryption_info &info, std::istream &encrypted_package_stream) { const auto key = info.calculate_key(); auto salt_size = info.agile.key_data.salt_size; auto salt_with_block_key = info.agile.key_data.salt_value; salt_with_block_key.resize(salt_size + sizeof(std::uint32_t), 0); auto &segment = *reinterpret_cast(salt_with_block_key.data() + salt_size); auto total_size = read(encrypted_package_stream); std::vector encrypted_segment(4096, 0); std::vector decrypted_package; while (encrypted_package_stream) { auto iv = hash(info.agile.key_encryptor.hash, salt_with_block_key); iv.resize(16); encrypted_package_stream.read( reinterpret_cast(encrypted_segment.data()), static_cast(encrypted_segment.size())); auto decrypted_segment = xlnt::detail::aes_cbc_decrypt(encrypted_segment, key, iv); decrypted_package.insert( decrypted_package.end(), decrypted_segment.begin(), decrypted_segment.end()); ++segment; } decrypted_package.resize(static_cast(total_size)); return decrypted_package; } encryption_info::standard_encryption_info read_standard_encryption_info(std::istream &info_stream) { encryption_info::standard_encryption_info result; auto header_length = read(info_stream); auto index_at_start = info_stream.tellg(); /*auto skip_flags = */ read(info_stream); /*auto size_extra = */ read(info_stream); auto alg_id = read(info_stream); if (alg_id == 0 || alg_id == 0x0000660E || alg_id == 0x0000660F || alg_id == 0x00006610) { result.cipher = xlnt::detail::cipher_algorithm::aes; } else { throw xlnt::exception("invalid cipher algorithm"); } auto alg_id_hash = read(info_stream); if (alg_id_hash != 0x00008004 && alg_id_hash == 0) { throw xlnt::exception("invalid hash algorithm"); } result.key_bits = read(info_stream); result.key_bytes = result.key_bits / 8; auto provider_type = read(info_stream); if (provider_type != 0 && provider_type != 0x00000018) { throw xlnt::exception("invalid provider type"); } read(info_stream); // reserved 1 if (read(info_stream) != 0) // reserved 2 { throw xlnt::exception("invalid header"); } const auto csp_name_length = static_cast((header_length - (info_stream.tellg() - index_at_start)) / 2); auto csp_name = xlnt::detail::read_string(info_stream, csp_name_length); csp_name.pop_back(); // remove extraneous trailing null if (csp_name != u"Microsoft Enhanced RSA and AES Cryptographic Provider (Prototype)" && csp_name != u"Microsoft Enhanced RSA and AES Cryptographic Provider") { throw xlnt::exception("invalid cryptographic provider"); } const auto salt_size = read(info_stream); result.salt = xlnt::detail::read_vector(info_stream, salt_size); static const auto verifier_size = std::size_t(16); result.encrypted_verifier = xlnt::detail::read_vector(info_stream, verifier_size); /*const auto verifier_hash_size = */read(info_stream); const auto encrypted_verifier_hash_size = std::size_t(32); result.encrypted_verifier_hash = xlnt::detail::read_vector(info_stream, encrypted_verifier_hash_size); return result; } encryption_info::agile_encryption_info read_agile_encryption_info(std::istream &info_stream) { using xlnt::detail::decode_base64; static const auto &xmlns = xlnt::constants::ns("encryption"); static const auto &xmlns_p = xlnt::constants::ns("encryption-password"); // static const auto &xmlns_c = xlnt::constants::namespace_("encryption-certificate"); encryption_info::agile_encryption_info result; xml::parser parser(info_stream, "EncryptionInfo"); parser.next_expect(xml::parser::event_type::start_element, xmlns, "encryption"); auto &key_data = result.key_data; parser.next_expect(xml::parser::event_type::start_element, xmlns, "keyData"); key_data.salt_size = parser.attribute("saltSize"); key_data.block_size = parser.attribute("blockSize"); key_data.key_bits = parser.attribute("keyBits"); key_data.hash_size = parser.attribute("hashSize"); key_data.cipher_algorithm = parser.attribute("cipherAlgorithm"); key_data.cipher_chaining = parser.attribute("cipherChaining"); key_data.hash_algorithm = parser.attribute("hashAlgorithm"); key_data.salt_value = decode_base64(parser.attribute("saltValue")); parser.next_expect(xml::parser::event_type::end_element, xmlns, "keyData"); auto &data_integrity = result.data_integrity; parser.next_expect(xml::parser::event_type::start_element, xmlns, "dataIntegrity"); data_integrity.hmac_key = decode_base64(parser.attribute("encryptedHmacKey")); data_integrity.hmac_value = decode_base64(parser.attribute("encryptedHmacValue")); parser.next_expect(xml::parser::event_type::end_element, xmlns, "dataIntegrity"); auto &key_encryptor = result.key_encryptor; parser.next_expect(xml::parser::event_type::start_element, xmlns, "keyEncryptors"); parser.next_expect(xml::parser::event_type::start_element, xmlns, "keyEncryptor"); parser.attribute("uri"); bool any_password_key = false; while (parser.peek() != xml::parser::event_type::end_element) { parser.next_expect(xml::parser::event_type::start_element); if (parser.namespace_() == xmlns_p && parser.name() == "encryptedKey") { any_password_key = true; key_encryptor.spin_count = parser.attribute("spinCount"); key_encryptor.salt_size = parser.attribute("saltSize"); key_encryptor.block_size = parser.attribute("blockSize"); key_encryptor.key_bits = parser.attribute("keyBits"); key_encryptor.hash_size = parser.attribute("hashSize"); key_encryptor.cipher_algorithm = parser.attribute("cipherAlgorithm"); key_encryptor.cipher_chaining = parser.attribute("cipherChaining"); key_encryptor.hash = parser.attribute("hashAlgorithm"); key_encryptor.salt_value = decode_base64(parser.attribute("saltValue")); key_encryptor.verifier_hash_input = decode_base64(parser.attribute("encryptedVerifierHashInput")); key_encryptor.verifier_hash_value = decode_base64(parser.attribute("encryptedVerifierHashValue")); key_encryptor.encrypted_key_value = decode_base64(parser.attribute("encryptedKeyValue")); } else { throw xlnt::unsupported("other encryption key types not supported"); } parser.next_expect(xml::parser::event_type::end_element); } if (!any_password_key) { throw xlnt::exception("no password key in keyEncryptors"); } parser.next_expect(xml::parser::event_type::end_element, xmlns, "keyEncryptor"); parser.next_expect(xml::parser::event_type::end_element, xmlns, "keyEncryptors"); parser.next_expect(xml::parser::event_type::end_element, xmlns, "encryption"); return result; } encryption_info read_encryption_info(std::istream &info_stream, const std::u16string &password) { encryption_info info; info.password = password; auto version_major = read(info_stream); auto version_minor = read(info_stream); auto encryption_flags = read(info_stream); info.is_agile = version_major == 4 && version_minor == 4; if (info.is_agile) { if (encryption_flags != 0x40) { throw xlnt::exception("bad header"); } info.agile = read_agile_encryption_info(info_stream); } else { if (version_minor != 2 || (version_major != 2 && version_major != 3 && version_major != 4)) { throw xlnt::exception("unsupported encryption version"); } if ((encryption_flags & 0x03) != 0) // Reserved1 and Reserved2, MUST be 0 { throw xlnt::exception("bad header"); } if ((encryption_flags & 0x04) == 0 // fCryptoAPI || (encryption_flags & 0x10) != 0) // fExternal { throw xlnt::exception("extensible encryption is not supported"); } if ((encryption_flags & 0x20) == 0) // fAES { throw xlnt::exception("not an OOXML document"); } info.standard = read_standard_encryption_info(info_stream); } return info; } std::vector decrypt_xlsx( const std::vector &bytes, const std::u16string &password) { if (bytes.empty()) { throw xlnt::exception("empty file"); } xlnt::detail::vector_istreambuf buffer(bytes); std::istream stream(&buffer); xlnt::detail::compound_document document(stream); auto &encryption_info_stream = document.open_read_stream("/EncryptionInfo"); auto encryption_info = read_encryption_info(encryption_info_stream, password); auto &encrypted_package_stream = document.open_read_stream("/EncryptedPackage"); return encryption_info.is_agile ? decrypt_xlsx_agile(encryption_info, encrypted_package_stream) : decrypt_xlsx_standard(encryption_info, encrypted_package_stream); } } // namespace namespace xlnt { namespace detail { std::vector XLNT_API decrypt_xlsx(const std::vector &data, const std::string &password) { return ::decrypt_xlsx(data, utf8_to_utf16(password)); } void xlsx_consumer::read(std::istream &source, const std::string &password) { std::vector data((std::istreambuf_iterator(source)), (std::istreambuf_iterator())); const auto decrypted = decrypt_xlsx(data, password); vector_istreambuf decrypted_buffer(decrypted); std::istream decrypted_stream(&decrypted_buffer); read(decrypted_stream); } } // namespace detail } // namespace xlnt