/* * Copyright (c) 2017 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "rtc_base/win/windows_version.h" #include #include #include "rtc_base/checks.h" #include "rtc_base/string_utils.h" #if !defined(__clang__) && _MSC_FULL_VER < 191125507 #error VS 2017 Update 3.2 or higher is required #endif #if !defined(WINUWP) namespace { typedef BOOL(WINAPI* GetProductInfoPtr)(DWORD, DWORD, DWORD, DWORD, PDWORD); // Mask to pull WOW64 access flags out of REGSAM access. const REGSAM kWow64AccessMask = KEY_WOW64_32KEY | KEY_WOW64_64KEY; // Utility class to read, write and manipulate the Windows Registry. // Registry vocabulary primer: a "key" is like a folder, in which there // are "values", which are pairs, with an associated data type. // Based on base::win::RegKey but only implements a small fraction of it. class RegKey { public: RegKey() : key_(nullptr), wow64access_(0) {} RegKey(HKEY rootkey, const wchar_t* subkey, REGSAM access) : key_(nullptr), wow64access_(0) { if (rootkey) { if (access & (KEY_SET_VALUE | KEY_CREATE_SUB_KEY | KEY_CREATE_LINK)) Create(rootkey, subkey, access); else Open(rootkey, subkey, access); } else { RTC_DCHECK(!subkey); wow64access_ = access & kWow64AccessMask; } } ~RegKey() { Close(); } LONG Create(HKEY rootkey, const wchar_t* subkey, REGSAM access) { DWORD disposition_value; return CreateWithDisposition(rootkey, subkey, &disposition_value, access); } LONG CreateWithDisposition(HKEY rootkey, const wchar_t* subkey, DWORD* disposition, REGSAM access) { RTC_DCHECK(rootkey && subkey && access && disposition); HKEY subhkey = NULL; LONG result = ::RegCreateKeyExW(rootkey, subkey, 0, NULL, REG_OPTION_NON_VOLATILE, access, NULL, &subhkey, disposition); if (result == ERROR_SUCCESS) { Close(); key_ = subhkey; wow64access_ = access & kWow64AccessMask; } return result; } // Opens an existing reg key. LONG Open(HKEY rootkey, const wchar_t* subkey, REGSAM access) { RTC_DCHECK(rootkey && subkey && access); HKEY subhkey = NULL; LONG result = ::RegOpenKeyExW(rootkey, subkey, 0, access, &subhkey); if (result == ERROR_SUCCESS) { Close(); key_ = subhkey; wow64access_ = access & kWow64AccessMask; } return result; } // Closes this reg key. void Close() { if (key_) { ::RegCloseKey(key_); key_ = nullptr; } } // Reads a REG_DWORD (uint32_t) into |out_value|. If |name| is null or empty, // reads the key's default value, if any. LONG ReadValueDW(const wchar_t* name, DWORD* out_value) const { RTC_DCHECK(out_value); DWORD type = REG_DWORD; DWORD size = sizeof(DWORD); DWORD local_value = 0; LONG result = ReadValue(name, &local_value, &size, &type); if (result == ERROR_SUCCESS) { if ((type == REG_DWORD || type == REG_BINARY) && size == sizeof(DWORD)) *out_value = local_value; else result = ERROR_CANTREAD; } return result; } // Reads a string into |out_value|. If |name| is null or empty, reads // the key's default value, if any. LONG ReadValue(const wchar_t* name, std::wstring* out_value) const { RTC_DCHECK(out_value); const size_t kMaxStringLength = 1024; // This is after expansion. // Use the one of the other forms of ReadValue if 1024 is too small for you. wchar_t raw_value[kMaxStringLength]; DWORD type = REG_SZ, size = sizeof(raw_value); LONG result = ReadValue(name, raw_value, &size, &type); if (result == ERROR_SUCCESS) { if (type == REG_SZ) { *out_value = raw_value; } else if (type == REG_EXPAND_SZ) { wchar_t expanded[kMaxStringLength]; size = ::ExpandEnvironmentStringsW(raw_value, expanded, kMaxStringLength); // Success: returns the number of wchar_t's copied // Fail: buffer too small, returns the size required // Fail: other, returns 0 if (size == 0 || size > kMaxStringLength) { result = ERROR_MORE_DATA; } else { *out_value = expanded; } } else { // Not a string. Oops. result = ERROR_CANTREAD; } } return result; } LONG ReadValue(const wchar_t* name, void* data, DWORD* dsize, DWORD* dtype) const { LONG result = RegQueryValueExW(key_, name, 0, dtype, reinterpret_cast(data), dsize); return result; } private: HKEY key_; REGSAM wow64access_; }; } // namespace #endif // !defined(WINUWP) namespace rtc { namespace rtc_win { namespace { // Helper to map a major.minor.x.build version (e.g. 6.1) to a Windows release. Version MajorMinorBuildToVersion(int major, int minor, int build) { if ((major == 5) && (minor > 0)) { // Treat XP Pro x64, Home Server, and Server 2003 R2 as Server 2003. return (minor == 1) ? VERSION_XP : VERSION_SERVER_2003; } else if (major == 6) { switch (minor) { case 0: // Treat Windows Server 2008 the same as Windows Vista. return VERSION_VISTA; case 1: // Treat Windows Server 2008 R2 the same as Windows 7. return VERSION_WIN7; case 2: // Treat Windows Server 2012 the same as Windows 8. return VERSION_WIN8; default: RTC_DCHECK_EQ(minor, 3); return VERSION_WIN8_1; } } else if (major == 10) { if (build < 10586) { return VERSION_WIN10; } else if (build < 14393) { return VERSION_WIN10_TH2; } else if (build < 15063) { return VERSION_WIN10_RS1; } else if (build < 16299) { return VERSION_WIN10_RS2; } else if (build < 17134) { return VERSION_WIN10_RS3; } else { return VERSION_WIN10_RS4; } } else if (major > 6) { RTC_NOTREACHED(); return VERSION_WIN_LAST; } return VERSION_PRE_XP; } // Returns the the "UBR" value from the registry. Introduced in Windows 10, // this undocumented value appears to be similar to a patch number. // Returns 0 if the value does not exist or it could not be read. int GetUBR() { #if defined(WINUWP) // The registry is not accessible for WinUWP sandboxed store applications. return 0; #else // The values under the CurrentVersion registry hive are mirrored under // the corresponding Wow6432 hive. static constexpr wchar_t kRegKeyWindowsNTCurrentVersion[] = L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion"; RegKey key; if (key.Open(HKEY_LOCAL_MACHINE, kRegKeyWindowsNTCurrentVersion, KEY_QUERY_VALUE) != ERROR_SUCCESS) { return 0; } DWORD ubr = 0; key.ReadValueDW(L"UBR", &ubr); return static_cast(ubr); #endif // defined(WINUWP) } } // namespace // static OSInfo* OSInfo::GetInstance() { // Note: we don't use the Singleton class because it depends on AtExitManager, // and it's convenient for other modules to use this class without it. This // pattern is copied from gurl.cc. static OSInfo* info; if (!info) { OSInfo* new_info = new OSInfo(); if (InterlockedCompareExchangePointer(reinterpret_cast(&info), new_info, NULL)) { delete new_info; } } return info; } OSInfo::OSInfo() : version_(VERSION_PRE_XP), architecture_(OTHER_ARCHITECTURE), wow64_status_(GetWOW64StatusForProcess(GetCurrentProcess())) { OSVERSIONINFOEXW version_info = {sizeof version_info}; // Applications not manifested for Windows 8.1 or Windows 10 will return the // Windows 8 OS version value (6.2). Once an application is manifested for a // given operating system version, GetVersionEx() will always return the // version that the application is manifested for in future releases. // https://docs.microsoft.com/en-us/windows/desktop/SysInfo/targeting-your-application-at-windows-8-1. // https://www.codeproject.com/Articles/678606/Part-Overcoming-Windows-s-deprecation-of-GetVe. ::GetVersionExW(reinterpret_cast(&version_info)); version_number_.major = version_info.dwMajorVersion; version_number_.minor = version_info.dwMinorVersion; version_number_.build = version_info.dwBuildNumber; version_number_.patch = GetUBR(); version_ = MajorMinorBuildToVersion( version_number_.major, version_number_.minor, version_number_.build); service_pack_.major = version_info.wServicePackMajor; service_pack_.minor = version_info.wServicePackMinor; service_pack_str_ = rtc::ToUtf8(version_info.szCSDVersion); SYSTEM_INFO system_info = {}; ::GetNativeSystemInfo(&system_info); switch (system_info.wProcessorArchitecture) { case PROCESSOR_ARCHITECTURE_INTEL: architecture_ = X86_ARCHITECTURE; break; case PROCESSOR_ARCHITECTURE_AMD64: architecture_ = X64_ARCHITECTURE; break; case PROCESSOR_ARCHITECTURE_IA64: architecture_ = IA64_ARCHITECTURE; break; } processors_ = system_info.dwNumberOfProcessors; allocation_granularity_ = system_info.dwAllocationGranularity; #if !defined(WINUWP) GetProductInfoPtr get_product_info; DWORD os_type; if (version_info.dwMajorVersion == 6 || version_info.dwMajorVersion == 10) { // Only present on Vista+. get_product_info = reinterpret_cast(::GetProcAddress( ::GetModuleHandleW(L"kernel32.dll"), "GetProductInfo")); get_product_info(version_info.dwMajorVersion, version_info.dwMinorVersion, 0, 0, &os_type); switch (os_type) { case PRODUCT_CLUSTER_SERVER: case PRODUCT_DATACENTER_SERVER: case PRODUCT_DATACENTER_SERVER_CORE: case PRODUCT_ENTERPRISE_SERVER: case PRODUCT_ENTERPRISE_SERVER_CORE: case PRODUCT_ENTERPRISE_SERVER_IA64: case PRODUCT_SMALLBUSINESS_SERVER: case PRODUCT_SMALLBUSINESS_SERVER_PREMIUM: case PRODUCT_STANDARD_SERVER: case PRODUCT_STANDARD_SERVER_CORE: case PRODUCT_WEB_SERVER: version_type_ = SUITE_SERVER; break; case PRODUCT_PROFESSIONAL: case PRODUCT_ULTIMATE: version_type_ = SUITE_PROFESSIONAL; break; case PRODUCT_ENTERPRISE: case PRODUCT_ENTERPRISE_E: case PRODUCT_ENTERPRISE_EVALUATION: case PRODUCT_ENTERPRISE_N: case PRODUCT_ENTERPRISE_N_EVALUATION: case PRODUCT_ENTERPRISE_S: case PRODUCT_ENTERPRISE_S_EVALUATION: case PRODUCT_ENTERPRISE_S_N: case PRODUCT_ENTERPRISE_S_N_EVALUATION: case PRODUCT_BUSINESS: case PRODUCT_BUSINESS_N: version_type_ = SUITE_ENTERPRISE; break; case PRODUCT_EDUCATION: case PRODUCT_EDUCATION_N: version_type_ = SUITE_EDUCATION; break; case PRODUCT_HOME_BASIC: case PRODUCT_HOME_PREMIUM: case PRODUCT_STARTER: default: version_type_ = SUITE_HOME; break; } } else if (version_info.dwMajorVersion == 5 && version_info.dwMinorVersion == 2) { if (version_info.wProductType == VER_NT_WORKSTATION && system_info.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) { version_type_ = SUITE_PROFESSIONAL; } else if (version_info.wSuiteMask & VER_SUITE_WH_SERVER) { version_type_ = SUITE_HOME; } else { version_type_ = SUITE_SERVER; } } else if (version_info.dwMajorVersion == 5 && version_info.dwMinorVersion == 1) { if (version_info.wSuiteMask & VER_SUITE_PERSONAL) version_type_ = SUITE_HOME; else version_type_ = SUITE_PROFESSIONAL; } else { // Windows is pre XP so we don't care but pick a safe default. version_type_ = SUITE_HOME; } #else // WinUWP sandboxed store apps do not have a mechanism to determine // product suite thus the most restricted suite is chosen. version_type_ = SUITE_HOME; #endif // !defined(WINUWP) } OSInfo::~OSInfo() {} std::string OSInfo::processor_model_name() { #if defined(WINUWP) // WinUWP sandboxed store apps do not have the ability to // probe the name of the current processor. return "Unknown Processor (UWP)"; #else if (processor_model_name_.empty()) { const wchar_t kProcessorNameString[] = L"HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0"; RegKey key(HKEY_LOCAL_MACHINE, kProcessorNameString, KEY_READ); std::wstring value; key.ReadValue(L"ProcessorNameString", &value); processor_model_name_ = rtc::ToUtf8(value); } return processor_model_name_; #endif // defined(WINUWP) } // static OSInfo::WOW64Status OSInfo::GetWOW64StatusForProcess(HANDLE process_handle) { BOOL is_wow64; #if defined(WINUWP) if (!IsWow64Process(process_handle, &is_wow64)) return WOW64_UNKNOWN; #else typedef BOOL(WINAPI * IsWow64ProcessFunc)(HANDLE, PBOOL); IsWow64ProcessFunc is_wow64_process = reinterpret_cast( GetProcAddress(GetModuleHandleW(L"kernel32.dll"), "IsWow64Process")); if (!is_wow64_process) return WOW64_DISABLED; if (!(*is_wow64_process)(process_handle, &is_wow64)) return WOW64_UNKNOWN; #endif // defined(WINUWP) return is_wow64 ? WOW64_ENABLED : WOW64_DISABLED; } Version GetVersion() { return OSInfo::GetInstance()->version(); } } // namespace rtc_win } // namespace rtc