/* This file is part of Telegram Desktop, the official desktop application for the Telegram messaging service. For license and copyright information please follow this link: https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL */ #include "storage/storage_encrypted_file.h" #include "base/openssl_help.h" namespace Storage { namespace { constexpr auto kBlockSize = CtrState::kBlockSize; enum class Format : uint32 { Format_0, }; struct BasicHeader { BasicHeader(); void setFormat(Format format) { this->format = static_cast(format); } Format getFormat() const { return static_cast(format); } bytes::array salt = { { bytes::type() } }; uint32 format : 8; uint32 reserved1 : 24; uint32 reserved2 = 0; uint64 applicationVersion = 0; bytes::array checksum = { { bytes::type() } }; }; BasicHeader::BasicHeader() : format(static_cast(Format::Format_0)) , reserved1(0) { } } // namespace File::Result File::open( const QString &path, Mode mode, const EncryptionKey &key) { close(); const auto info = QFileInfo(path); const auto dir = info.absoluteDir(); if (mode != Mode::Read && !dir.exists()) { if (!QDir().mkpath(dir.absolutePath())) { return Result::Failed; } } _data.setFileName(info.absoluteFilePath()); const auto result = attemptOpen(mode, key); if (result != Result::Success) { close(); } return result; static_assert(sizeof(BasicHeader) == kSaltSize + sizeof(uint64) * 2 + openssl::kSha256Size, "Unexpected paddings in the header."); static_assert( (sizeof(BasicHeader) - kSaltSize) % kBlockSize == 0, "Not way to encrypt the header."); } File::Result File::attemptOpen(Mode mode, const EncryptionKey &key) { switch (mode) { case Mode::Read: return attemptOpenForRead(key); case Mode::ReadAppend: return attemptOpenForReadAppend(key); case Mode::Write: return attemptOpenForWrite(key); } Unexpected("Mode in Storage::File::attemptOpen."); } File::Result File::attemptOpenForRead(const EncryptionKey &key) { if (!_data.open(QIODevice::ReadOnly)) { return Result::Failed; } return readHeader(key); } File::Result File::attemptOpenForReadAppend(const EncryptionKey &key) { if (!_lock.lock(_data, QIODevice::ReadWrite)) { return Result::LockFailed; } const auto size = _data.size(); if (!size) { return writeHeader(key) ? Result::Success : Result::Failed; } return readHeader(key); } File::Result File::attemptOpenForWrite(const EncryptionKey &key) { if (!_lock.lock(_data, QIODevice::WriteOnly)) { return Result::LockFailed; } return writeHeader(key) ? Result::Success : Result::Failed; } bool File::writeHeader(const EncryptionKey &key) { Expects(!_state.has_value()); Expects(_data.pos() == 0); const auto magic = bytes::make_span("TDEF"); if (!writePlain(magic.subspan(0, FileLock::kSkipBytes))) { return false; } auto header = BasicHeader(); bytes::set_random(header.salt); _state = key.prepareCtrState(header.salt); const auto headerBytes = bytes::object_as_span(&header); const auto checkSize = headerBytes.size() - header.checksum.size(); bytes::copy( header.checksum, openssl::Sha256( key.data(), headerBytes.subspan(0, checkSize))); if (writePlain(header.salt) != header.salt.size()) { return false; } else if (!write(headerBytes.subspan(header.salt.size()))) { return false; } _dataSize = 0; return true; } File::Result File::readHeader(const EncryptionKey &key) { Expects(!_state.has_value()); Expects(_data.pos() == 0); if (!_data.seek(FileLock::kSkipBytes)) { return Result::Failed; } auto header = BasicHeader(); const auto headerBytes = bytes::object_as_span(&header); if (readPlain(headerBytes) != headerBytes.size()) { return Result::Failed; } _state = key.prepareCtrState(header.salt); decrypt(headerBytes.subspan(header.salt.size())); const auto checkSize = headerBytes.size() - header.checksum.size(); const auto checksum = openssl::Sha256( key.data(), headerBytes.subspan(0, checkSize)); if (bytes::compare(header.checksum, checksum) != 0) { return Result::WrongKey; } else if (header.getFormat() != Format::Format_0) { return Result::Failed; } _dataSize = _data.size() - int64(sizeof(BasicHeader)) - FileLock::kSkipBytes; Assert(_dataSize >= 0); if (const auto bad = (_dataSize % kBlockSize)) { _dataSize -= bad; } return Result::Success; } size_type File::readPlain(bytes::span bytes) { return _data.read(reinterpret_cast(bytes.data()), bytes.size()); } size_type File::writePlain(bytes::const_span bytes) { return _data.write( reinterpret_cast(bytes.data()), bytes.size()); } void File::decrypt(bytes::span bytes) { Expects(_state.has_value()); _state->decrypt(bytes, _encryptionOffset); _encryptionOffset += bytes.size(); } void File::encrypt(bytes::span bytes) { Expects(_state.has_value()); _state->encrypt(bytes, _encryptionOffset); _encryptionOffset += bytes.size(); } size_type File::read(bytes::span bytes) { Expects(bytes.size() % kBlockSize == 0); auto count = readPlain(bytes); if (const auto back = -(count % kBlockSize)) { if (!_data.seek(_data.pos() + back)) { return 0; } count += back; } if (count) { decrypt(bytes.subspan(0, count)); } return count; } bool File::write(bytes::span bytes) { Expects(bytes.size() % kBlockSize == 0); if (!isOpen()) { return false; } encrypt(bytes); const auto count = writePlain(bytes); if (count == bytes.size()) { _dataSize = std::max(_dataSize, offset()); } else { decryptBack(bytes); if (count > 0) { _data.seek(_data.pos() - count); } return false; } return true; } void File::decryptBack(bytes::span bytes) { Expects(_encryptionOffset >= bytes.size()); _encryptionOffset -= bytes.size(); decrypt(bytes); _encryptionOffset -= bytes.size(); } size_type File::readWithPadding(bytes::span bytes) { const auto size = bytes.size(); const auto part = size % kBlockSize; const auto good = size - part; if (good) { const auto succeed = read(bytes.subspan(0, good)); if (succeed != good) { return succeed; } } if (!part) { return good; } auto storage = bytes::array(); const auto padded = bytes::make_span(storage); const auto succeed = read(padded); if (!succeed) { return good; } Assert(succeed == kBlockSize); bytes::copy(bytes.subspan(good), padded.subspan(0, part)); return size; } bool File::writeWithPadding(bytes::span bytes) { const auto size = bytes.size(); const auto part = size % kBlockSize; const auto good = size - part; if (good && !write(bytes.subspan(0, good))) { return false; } if (!part) { return true; } auto storage = bytes::array(); const auto padded = bytes::make_span(storage); bytes::copy(padded, bytes.subspan(good)); bytes::set_random(padded.subspan(part)); if (write(padded)) { return true; } if (good) { decryptBack(bytes.subspan(0, good)); _data.seek(_data.pos() - good); } return false; } bool File::flush() { return _data.flush(); } void File::close() { _lock.unlock(); _data.close(); _data.setFileName(QString()); _dataSize = _encryptionOffset = 0; _state = base::none; } bool File::isOpen() const { return _data.isOpen(); } int64 File::size() const { return _dataSize; } int64 File::offset() const { const auto realOffset = kSaltSize + _encryptionOffset; const auto skipOffset = sizeof(BasicHeader); return (realOffset >= skipOffset) ? (realOffset - skipOffset) : 0; } bool File::seek(int64 offset) { const auto realOffset = sizeof(BasicHeader) + offset; if (offset < 0 || offset > _dataSize) { return false; } else if (!_data.seek(FileLock::kSkipBytes + realOffset)) { return false; } _encryptionOffset = realOffset - kSaltSize; return true; } bool File::Move(const QString &from, const QString &to) { QFile source(from); if (!source.exists()) { return false; } QFile destination(to); if (destination.exists()) { { FileLock locker; if (!locker.lock(destination, QIODevice::WriteOnly)) { return false; } } destination.close(); if (!destination.remove()) { return false; } } return source.rename(to); } } // namespace Storage