// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "rlz/lib/machine_id.h" #include #include "rlz/lib/assert.h" #include "rlz/lib/crc8.h" #include "rlz/lib/string_utils.h" // Note: The original machine_id.cc code depends on Chromium's sha1 implementation. // Using Mozilla's implmentation as replacement to reduce the dependency of // some external files. #include "mozilla/SHA1.h" namespace rlz_lib { bool GetMachineId(std::string* machine_id) { if (!machine_id) return false; static std::string calculated_id; static bool calculated = false; if (calculated) { *machine_id = calculated_id; return true; } std::vector sid_bytes; int volume_id; if (!GetRawMachineId(&sid_bytes, &volume_id)) return false; if (!testing::GetMachineIdImpl(sid_bytes, volume_id, machine_id)) return false; calculated = true; calculated_id = *machine_id; return true; } namespace testing { bool GetMachineIdImpl(const std::vector& sid_bytes, int volume_id, std::string* machine_id) { machine_id->clear(); // The ID should be the SID hash + the Hard Drive SNo. + checksum byte. static const int kSizeWithoutChecksum = mozilla::SHA1Sum::kHashSize + sizeof(int); std::vector id_binary(kSizeWithoutChecksum + 1, 0); if (!sid_bytes.empty()) { // In order to be compatible with the old version of RLZ, the hash of the // SID must be done with all the original bytes from the unicode string. // However, the chromebase SHA1 hash function takes only an std::string as // input, so the unicode string needs to be converted to std::string // "as is". size_t byte_count = sid_bytes.size() * sizeof(std::vector::value_type); const char* buffer = reinterpret_cast(sid_bytes.data()); // Note that digest can have embedded nulls. mozilla::SHA1Sum SHA1; mozilla::SHA1Sum::Hash hash; SHA1.update(buffer, byte_count); SHA1.finish(hash); std::string digest(reinterpret_cast(hash), mozilla::SHA1Sum::kHashSize); VERIFY(digest.size() == mozilla::SHA1Sum::kHashSize); std::copy(digest.begin(), digest.end(), id_binary.begin()); } // Convert from int to binary (makes big-endian). for (size_t i = 0; i < sizeof(int); i++) { int shift_bits = 8 * (sizeof(int) - i - 1); id_binary[mozilla::SHA1Sum::kHashSize + i] = static_cast( (volume_id >> shift_bits) & 0xFF); } // Append the checksum byte. if (!sid_bytes.empty() || (0 != volume_id)) rlz_lib::Crc8::Generate(id_binary.data(), kSizeWithoutChecksum, &id_binary[kSizeWithoutChecksum]); return rlz_lib::BytesToString( id_binary.data(), kSizeWithoutChecksum + 1, machine_id); } } // namespace testing } // namespace rlz_lib