/////////////////////////////////////////////////////////////////////////////// // MuldeR's Utilities for Qt // Copyright (C) 2004-2017 LoRd_MuldeR // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA // // http://www.gnu.org/licenses/lgpl-2.1.txt ////////////////////////////////////////////////////////////////////////////////// //Win32 API #define WIN32_LEAN_AND_MEAN 1 #include #include #include #include #include #include #pragma warning(push) #pragma warning(disable:4091) //for MSVC2015 #include #pragma warning(pop) //CRT #include //Internal #include #include #include #include "CriticalSection_Win32.h" #include "Utils_Win32.h" //Qt #include #include #include #include #include //Main thread ID static const DWORD g_main_thread_id = GetCurrentThreadId(); /////////////////////////////////////////////////////////////////////////////// // SYSTEM MESSAGE /////////////////////////////////////////////////////////////////////////////// static const UINT g_msgBoxFlags = MB_TOPMOST | MB_TASKMODAL | MB_SETFOREGROUND; void MUtils::OS::system_message_nfo(const wchar_t *const title, const wchar_t *const text) { MessageBoxW(NULL, text, title, g_msgBoxFlags | MB_ICONINFORMATION); } void MUtils::OS::system_message_wrn(const wchar_t *const title, const wchar_t *const text) { MessageBoxW(NULL, text, title, g_msgBoxFlags | MB_ICONWARNING); } void MUtils::OS::system_message_err(const wchar_t *const title, const wchar_t *const text) { MessageBoxW(NULL, text, title, g_msgBoxFlags | MB_ICONERROR); } /////////////////////////////////////////////////////////////////////////////// // FETCH CLI ARGUMENTS /////////////////////////////////////////////////////////////////////////////// static QReadWriteLock g_arguments_lock; static QScopedPointer g_arguments_list; const QStringList MUtils::OS::crack_command_line(const QString &command_line) { int nArgs = 0; LPWSTR *szArglist = CommandLineToArgvW(command_line.isNull() ? GetCommandLineW() : MUTILS_WCHR(command_line), &nArgs); QStringList command_line_tokens; if(NULL != szArglist) { for(int i = 0; i < nArgs; i++) { const QString argStr = MUTILS_QSTR(szArglist[i]).trimmed(); if(!argStr.isEmpty()) { command_line_tokens << argStr; } } LocalFree(szArglist); } return command_line_tokens; } const MUtils::OS::ArgumentMap &MUtils::OS::arguments(void) { QReadLocker readLock(&g_arguments_lock); //Already initialized? if(!g_arguments_list.isNull()) { return (*(g_arguments_list.data())); } readLock.unlock(); QWriteLocker writeLock(&g_arguments_lock); //Still not initialized? if(!g_arguments_list.isNull()) { return (*(g_arguments_list.data())); } g_arguments_list.reset(new ArgumentMap()); const QStringList argList = crack_command_line(); if(!argList.isEmpty()) { const QString argPrefix = QLatin1String("--"); const QChar separator = QLatin1Char('='); bool firstToken = true; for(QStringList::ConstIterator iter = argList.constBegin(); iter != argList.constEnd(); iter++) { if(firstToken) { firstToken = false; continue; /*skip executable file name*/ } if(iter->startsWith(argPrefix)) { const QString argData = iter->mid(2).trimmed(); if(argData.length() > 0) { const int separatorIndex = argData.indexOf(separator); if(separatorIndex > 0) { const QString argKey = argData.left(separatorIndex).trimmed(); const QString argVal = argData.mid(separatorIndex + 1).trimmed(); g_arguments_list->insertMulti(argKey.toLower(), argVal); } else { g_arguments_list->insertMulti(argData.toLower(), QString()); } } } } } else if(argList.empty()) { qWarning("CommandLineToArgvW() has failed !!!"); } return (*(g_arguments_list.data())); } /////////////////////////////////////////////////////////////////////////////// // COPY FILE /////////////////////////////////////////////////////////////////////////////// typedef struct _progress_callback_data_t { MUtils::OS::progress_callback_t callback_function; void *user_data; } progress_callback_data_t; static DWORD __stdcall copy_file_progress(LARGE_INTEGER TotalFileSize, LARGE_INTEGER TotalBytesTransferred, LARGE_INTEGER StreamSize, LARGE_INTEGER StreamBytesTransferred, DWORD dwStreamNumber, DWORD dwCallbackReason, HANDLE hSourceFile, HANDLE hDestinationFile, LPVOID lpData) { if(const progress_callback_data_t *data = (progress_callback_data_t*) lpData) { const double progress = qBound(0.0, double(TotalBytesTransferred.QuadPart) / double(TotalFileSize.QuadPart), 1.0); return data->callback_function(progress, data->user_data) ? PROGRESS_CONTINUE : PROGRESS_CANCEL; } return PROGRESS_CONTINUE; } MUTILS_API bool MUtils::OS::copy_file(const QString &sourcePath, const QString &outputPath, const bool &overwrite, const progress_callback_t callback, void *const userData) { progress_callback_data_t callback_data = { callback, userData }; BOOL cancel = FALSE; const BOOL result = CopyFileExW(MUTILS_WCHR(QDir::toNativeSeparators(sourcePath)), MUTILS_WCHR(QDir::toNativeSeparators(outputPath)), ((callback_data.callback_function) ? copy_file_progress : NULL), ((callback_data.callback_function) ? &callback_data : NULL), &cancel, (overwrite ? 0 : COPY_FILE_FAIL_IF_EXISTS)); if(result == FALSE) { const DWORD errorCode = GetLastError(); if(errorCode != ERROR_REQUEST_ABORTED) { qWarning("CopyFile() failed with error code 0x%08X!", errorCode); } else { qWarning("CopyFile() operation was abroted by user!"); } } return (result != FALSE); } /////////////////////////////////////////////////////////////////////////////// // GET FILE VERSION /////////////////////////////////////////////////////////////////////////////// static bool get_file_version_helper(const QString fileName, PVOID buffer, const size_t &size, quint16 *const major, quint16 *const minor, quint16 *const patch, quint16 *const build) { if(!GetFileVersionInfo(MUTILS_WCHR(fileName), 0, size, buffer)) { qWarning("GetFileVersionInfo() has failed, file version cannot be determined!"); return false; } VS_FIXEDFILEINFO *verInfo; UINT verInfoLen; if(!VerQueryValue(buffer, L"\\", (LPVOID*)(&verInfo), &verInfoLen)) { qWarning("VerQueryValue() has failed, file version cannot be determined!"); return false; } if(major) *major = quint16((verInfo->dwFileVersionMS >> 16) & 0x0000FFFF); if(minor) *minor = quint16((verInfo->dwFileVersionMS) & 0x0000FFFF); if(patch) *patch = quint16((verInfo->dwFileVersionLS >> 16) & 0x0000FFFF); if(build) *build = quint16((verInfo->dwFileVersionLS) & 0x0000FFFF); return true; } bool MUtils::OS::get_file_version(const QString fileName, quint16 *const major, quint16 *const minor, quint16 *const patch, quint16 *const build) { if(major) *major = 0U; if(minor) *minor = 0U; if(patch) *patch = 0U; if(build) *build = 0U; const DWORD size = GetFileVersionInfoSize(MUTILS_WCHR(fileName), NULL); if(size < 1) { qWarning("GetFileVersionInfoSize() has failed, file version cannot be determined!"); return false; } PVOID buffer = _malloca(size); if(!buffer) { qWarning("Memory allocation has failed!"); return false; } const bool success = get_file_version_helper(fileName, buffer, size, major, minor, patch, build); _freea(buffer); return success; } /////////////////////////////////////////////////////////////////////////////// // OS VERSION DETECTION /////////////////////////////////////////////////////////////////////////////// static bool g_os_version_initialized = false; static MUtils::OS::Version::os_version_t g_os_version_info = MUtils::OS::Version::UNKNOWN_OPSYS; static QReadWriteLock g_os_version_lock; //Maps marketing names to the actual Windows NT versions static const struct { MUtils::OS::Version::os_version_t version; const char friendlyName[64]; } g_os_version_lut[] = { { MUtils::OS::Version::WINDOWS_WIN2K, "Windows 2000" }, //2000 { MUtils::OS::Version::WINDOWS_WINXP, "Windows XP or Windows XP Media Center Edition" }, //XP { MUtils::OS::Version::WINDOWS_XPX64, "Windows Server 2003 or Windows XP x64" }, //XP_x64 { MUtils::OS::Version::WINDOWS_VISTA, "Windows Vista or Windows Server 2008" }, //Vista { MUtils::OS::Version::WINDOWS_WIN70, "Windows 7 or Windows Server 2008 R2" }, //7 { MUtils::OS::Version::WINDOWS_WIN80, "Windows 8 or Windows Server 2012" }, //8 { MUtils::OS::Version::WINDOWS_WIN81, "Windows 8.1 or Windows Server 2012 R2" }, //8.1 { MUtils::OS::Version::WINDOWS_WN100, "Windows 10 or Windows Server 2016" }, //10 { MUtils::OS::Version::UNKNOWN_OPSYS, "N/A" } }; //OS version data dtructures namespace MUtils { namespace OS { namespace Version { //Comparision operators for os_version_t bool os_version_t::operator== (const os_version_t &rhs) const { return (type == rhs.type) && (versionMajor == rhs.versionMajor) && ((versionMinor == rhs.versionMinor)); } bool os_version_t::operator!= (const os_version_t &rhs) const { return (type != rhs.type) || (versionMajor != rhs.versionMajor) || ((versionMinor != rhs.versionMinor)); } bool os_version_t::operator> (const os_version_t &rhs) const { return (type == rhs.type) && ((versionMajor > rhs.versionMajor) || ((versionMajor == rhs.versionMajor) && (versionMinor > rhs.versionMinor))); } bool os_version_t::operator>= (const os_version_t &rhs) const { return (type == rhs.type) && ((versionMajor > rhs.versionMajor) || ((versionMajor == rhs.versionMajor) && (versionMinor >= rhs.versionMinor))); } bool os_version_t::operator< (const os_version_t &rhs) const { return (type == rhs.type) && ((versionMajor < rhs.versionMajor) || ((versionMajor == rhs.versionMajor) && (versionMinor < rhs.versionMinor))); } bool os_version_t::operator<= (const os_version_t &rhs) const { return (type == rhs.type) && ((versionMajor < rhs.versionMajor) || ((versionMajor == rhs.versionMajor) && (versionMinor <= rhs.versionMinor))); } //Known Windows NT versions const os_version_t WINDOWS_WIN2K = { OS_WINDOWS, 5, 0, 2195 }; // 2000 const os_version_t WINDOWS_WINXP = { OS_WINDOWS, 5, 1, 2600 }; // XP const os_version_t WINDOWS_XPX64 = { OS_WINDOWS, 5, 2, 3790 }; // XP_x64 const os_version_t WINDOWS_VISTA = { OS_WINDOWS, 6, 0, 6000 }; // Vista const os_version_t WINDOWS_WIN70 = { OS_WINDOWS, 6, 1, 7600 }; // 7 const os_version_t WINDOWS_WIN80 = { OS_WINDOWS, 6, 2, 9200 }; // 8 const os_version_t WINDOWS_WIN81 = { OS_WINDOWS, 6, 3, 9600 }; // 8.1 const os_version_t WINDOWS_WN100 = { OS_WINDOWS, 10, 0, 10240 }; // 10 //Unknown OS const os_version_t UNKNOWN_OPSYS = { OS_UNKNOWN, 0, 0, 0 }; // N/A } } } static inline DWORD SAFE_ADD(const DWORD &a, const DWORD &b, const DWORD &limit = MAXDWORD) { return ((a >= limit) || (b >= limit) || ((limit - a) <= b)) ? limit : (a + b); } static void initialize_os_version(OSVERSIONINFOEXW *const osInfo) { memset(osInfo, 0, sizeof(OSVERSIONINFOEXW)); osInfo->dwOSVersionInfoSize = sizeof(OSVERSIONINFOEXW); } static inline DWORD initialize_step_size(const DWORD &limit) { DWORD result = 1; while (result < limit) { result = SAFE_ADD(result, result); } return result; } static bool rtl_get_version(OSVERSIONINFOEXW *const osInfo) { typedef LONG(__stdcall *RtlGetVersion)(LPOSVERSIONINFOEXW); if (const HMODULE ntdll = GetModuleHandleW(L"ntdll")) { if (const RtlGetVersion pRtlGetVersion = (RtlGetVersion)GetProcAddress(ntdll, "RtlGetVersion")) { initialize_os_version(osInfo); if (pRtlGetVersion(osInfo) == 0) { return true; } } } //Fallback initialize_os_version(osInfo); return (GetVersionExW((LPOSVERSIONINFOW)osInfo) != FALSE); } static bool rtl_verify_version(OSVERSIONINFOEXW *const osInfo, const ULONG typeMask, const ULONGLONG condMask) { typedef LONG(__stdcall *RtlVerifyVersionInfo)(LPOSVERSIONINFOEXW, ULONG, ULONGLONG); if (const HMODULE ntdll = GetModuleHandleW(L"ntdll")) { if (const RtlVerifyVersionInfo pRtlVerifyVersionInfo = (RtlVerifyVersionInfo)GetProcAddress(ntdll, "RtlVerifyVersionInfo")) { if (pRtlVerifyVersionInfo(osInfo, typeMask, condMask) == 0) { return true; } } } //Fallback return (VerifyVersionInfoW(osInfo, typeMask, condMask) != FALSE); } static bool verify_os_version(const DWORD major, const DWORD minor) { OSVERSIONINFOEXW osvi; DWORDLONG dwlConditionMask = 0; initialize_os_version(&osvi); //Initialize the OSVERSIONINFOEX structure osvi.dwMajorVersion = major; osvi.dwMinorVersion = minor; osvi.dwPlatformId = VER_PLATFORM_WIN32_NT; //Initialize the condition mask VER_SET_CONDITION(dwlConditionMask, VER_MAJORVERSION, VER_GREATER_EQUAL); VER_SET_CONDITION(dwlConditionMask, VER_MINORVERSION, VER_GREATER_EQUAL); VER_SET_CONDITION(dwlConditionMask, VER_PLATFORMID, VER_EQUAL); // Perform the test const BOOL ret = rtl_verify_version(&osvi, VER_MAJORVERSION | VER_MINORVERSION | VER_PLATFORMID, dwlConditionMask); //Error checking if(!ret) { if(GetLastError() != ERROR_OLD_WIN_VERSION) { qWarning("VerifyVersionInfo() system call has failed!"); } } return (ret != FALSE); } static bool verify_os_build(const DWORD build) { OSVERSIONINFOEXW osvi; DWORDLONG dwlConditionMask = 0; initialize_os_version(&osvi); //Initialize the OSVERSIONINFOEX structure osvi.dwBuildNumber = build; osvi.dwPlatformId = VER_PLATFORM_WIN32_NT; //Initialize the condition mask VER_SET_CONDITION(dwlConditionMask, VER_BUILDNUMBER, VER_GREATER_EQUAL); VER_SET_CONDITION(dwlConditionMask, VER_PLATFORMID, VER_EQUAL); // Perform the test const BOOL ret = rtl_verify_version(&osvi, VER_BUILDNUMBER | VER_PLATFORMID, dwlConditionMask); //Error checking if (!ret) { if (GetLastError() != ERROR_OLD_WIN_VERSION) { qWarning("VerifyVersionInfo() system call has failed!"); } } return (ret != FALSE); } static bool get_real_os_version(unsigned int *major, unsigned int *minor, unsigned int *build, bool *pbOverride) { static const DWORD MAX_VERSION = 0xFFFF; static const DWORD MAX_BUILDNO = MAXINT; *major = *minor = *build = 0; *pbOverride = false; //Initialize local variables OSVERSIONINFOEXW osvi; memset(&osvi, 0, sizeof(OSVERSIONINFOEXW)); osvi.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEXW); //Try GetVersionEx() first if(rtl_get_version(&osvi) == FALSE) { qWarning("GetVersionEx() has failed, cannot detect Windows version!"); return false; } //Make sure we are running on NT if(osvi.dwPlatformId == VER_PLATFORM_WIN32_NT) { *major = osvi.dwMajorVersion; *minor = osvi.dwMinorVersion; *build = osvi.dwBuildNumber; } else { if (verify_os_version(4, 0)) { *major = 4; *build = 1381; *pbOverride = true; } else { qWarning("Not running on Windows NT, unsupported operating system!"); return false; } } //Major Version for (DWORD nextMajor = (*major) + 1; nextMajor <= MAX_VERSION; nextMajor++) { if (verify_os_version(nextMajor, 0)) { *major = nextMajor; *minor = 0; *pbOverride = true; continue; } break; } //Minor Version for (DWORD nextMinor = (*minor) + 1; nextMinor <= MAX_VERSION; nextMinor++) { if (verify_os_version((*major), nextMinor)) { *minor = nextMinor; *pbOverride = true; continue; } break; } //Build Version if (verify_os_build(SAFE_ADD((*build), 1, MAX_BUILDNO))) { DWORD stepSize = initialize_step_size(MAX_BUILDNO); for (DWORD nextBuildNo = SAFE_ADD((*build), stepSize, MAX_BUILDNO); (*build) < MAX_BUILDNO; nextBuildNo = SAFE_ADD((*build), stepSize, MAX_BUILDNO)) { if (verify_os_build(nextBuildNo)) { *build = nextBuildNo; *pbOverride = true; continue; } if (stepSize > 1) { stepSize = stepSize / 2; continue; } break; } } return true; } const MUtils::OS::Version::os_version_t &MUtils::OS::os_version(void) { QReadLocker readLock(&g_os_version_lock); //Already initialized? if(g_os_version_initialized) { return g_os_version_info; } readLock.unlock(); QWriteLocker writeLock(&g_os_version_lock); //Initialized now? if(g_os_version_initialized) { return g_os_version_info; } //Detect OS version unsigned int major, minor, build; bool overrideFlg; if(get_real_os_version(&major, &minor, &build, &overrideFlg)) { g_os_version_info.type = Version::OS_WINDOWS; g_os_version_info.versionMajor = major; g_os_version_info.versionMinor = minor; g_os_version_info.versionBuild = build; g_os_version_info.overrideFlag = overrideFlg; } else { qWarning("Failed to determin the operating system version!"); } //Completed g_os_version_initialized = true; return g_os_version_info; } const char *MUtils::OS::os_friendly_name(const MUtils::OS::Version::os_version_t &os_version) { for(size_t i = 0; g_os_version_lut[i].version != MUtils::OS::Version::UNKNOWN_OPSYS; i++) { if(os_version == g_os_version_lut[i].version) { return g_os_version_lut[i].friendlyName; } } return NULL; } /////////////////////////////////////////////////////////////////////////////// // WINE DETECTION /////////////////////////////////////////////////////////////////////////////// static bool g_wine_deteced = false; static bool g_wine_initialized = false; static QReadWriteLock g_wine_lock; static const bool detect_wine(void) { void *const ptr = MUtils::Win32Utils::resolve(QLatin1String("ntdll"), QLatin1String("wine_get_version")); return (ptr != NULL); } const bool &MUtils::OS::running_on_wine(void) { QReadLocker readLock(&g_wine_lock); //Already initialized? if(g_wine_initialized) { return g_wine_deteced; } readLock.unlock(); QWriteLocker writeLock(&g_wine_lock); //Initialized now? if(g_wine_initialized) { return g_wine_deteced; } //Try to detect Wine g_wine_deteced = detect_wine(); g_wine_initialized = true; return g_wine_deteced; } /////////////////////////////////////////////////////////////////////////////// // KNWON FOLDERS /////////////////////////////////////////////////////////////////////////////// typedef QMap KFMap; typedef HRESULT (WINAPI *SHGetKnownFolderPath_t)(const GUID &rfid, DWORD dwFlags, HANDLE hToken, PWSTR *ppszPath); typedef HRESULT (WINAPI *SHGetFolderPath_t) (HWND hwndOwner, int nFolder, HANDLE hToken, DWORD dwFlags, LPWSTR pszPath); static QScopedPointer g_known_folders_map; static QReadWriteLock g_known_folders_lock; const QString &MUtils::OS::known_folder(known_folder_t folder_id) { typedef enum { KF_FLAG_CREATE = 0x00008000 } kf_flags_t; struct { const int csidl; const GUID guid; } static s_folders[] = { { 0x001c, {0xF1B32785,0x6FBA,0x4FCF,{0x9D,0x55,0x7B,0x8E,0x7F,0x15,0x70,0x91}} }, //CSIDL_LOCAL_APPDATA { 0x0026, {0x905e63b6,0xc1bf,0x494e,{0xb2,0x9c,0x65,0xb7,0x32,0xd3,0xd2,0x1a}} }, //CSIDL_PROGRAM_FILES { 0x0024, {0xF38BF404,0x1D43,0x42F2,{0x93,0x05,0x67,0xDE,0x0B,0x28,0xFC,0x23}} }, //CSIDL_WINDOWS_FOLDER { 0x0025, {0x1AC14E77,0x02E7,0x4E5D,{0xB7,0x44,0x2E,0xB1,0xAE,0x51,0x98,0xB7}} }, //CSIDL_SYSTEM_FOLDER }; size_t folderId = size_t(-1); switch(folder_id) { case FOLDER_LOCALAPPDATA: folderId = 0; break; case FOLDER_PROGRAMFILES: folderId = 1; break; case FOLDER_SYSTROOT_DIR: folderId = 2; break; case FOLDER_SYSTEMFOLDER: folderId = 3; break; } if(folderId == size_t(-1)) { qWarning("Invalid 'known' folder was requested!"); return *reinterpret_cast(NULL); } QReadLocker readLock(&g_known_folders_lock); //Already in cache? if(!g_known_folders_map.isNull()) { if(g_known_folders_map->contains(folderId)) { return g_known_folders_map->operator[](folderId); } } //Obtain write lock to initialize readLock.unlock(); QWriteLocker writeLock(&g_known_folders_lock); //Still not in cache? if(!g_known_folders_map.isNull()) { if(g_known_folders_map->contains(folderId)) { return g_known_folders_map->operator[](folderId); } } //Initialize on first call if(g_known_folders_map.isNull()) { g_known_folders_map.reset(new QMap()); } QString folderPath; //Now try to get the folder path! if(const SHGetKnownFolderPath_t known_folders_fpGetKnownFolderPath = MUtils::Win32Utils::resolve(QLatin1String("shell32"), QLatin1String("SHGetKnownFolderPath"))) { WCHAR *path = NULL; if(known_folders_fpGetKnownFolderPath(s_folders[folderId].guid, KF_FLAG_CREATE, NULL, &path) == S_OK) { //MessageBoxW(0, path, L"SHGetKnownFolderPath", MB_TOPMOST); QDir folderTemp = QDir(QDir::fromNativeSeparators(MUTILS_QSTR(path))); if(folderTemp.exists()) { folderPath = folderTemp.canonicalPath(); } CoTaskMemFree(path); } } else if(const SHGetFolderPath_t known_folders_fpGetFolderPath = MUtils::Win32Utils::resolve(QLatin1String("shell32"), QLatin1String("SHGetFolderPathW"))) { QScopedArrayPointer path(new WCHAR[4096]); if(known_folders_fpGetFolderPath(NULL, s_folders[folderId].csidl | CSIDL_FLAG_CREATE, NULL, NULL, path.data()) == S_OK) { //MessageBoxW(0, path, L"SHGetFolderPathW", MB_TOPMOST); QDir folderTemp = QDir(QDir::fromNativeSeparators(MUTILS_QSTR(path.data()))); if(folderTemp.exists()) { folderPath = folderTemp.canonicalPath(); } } } //Update cache g_known_folders_map->insert(folderId, folderPath); return g_known_folders_map->operator[](folderId); } /////////////////////////////////////////////////////////////////////////////// // CURRENT DATA & TIME /////////////////////////////////////////////////////////////////////////////// QDate MUtils::OS::current_date(void) { const DWORD MAX_PROC = 1024; QScopedArrayPointer processes(new DWORD[MAX_PROC]); DWORD bytesReturned = 0; if(!EnumProcesses(processes.data(), sizeof(DWORD) * MAX_PROC, &bytesReturned)) { return QDate::currentDate(); } const DWORD procCount = bytesReturned / sizeof(DWORD); ULARGE_INTEGER lastStartTime; memset(&lastStartTime, 0, sizeof(ULARGE_INTEGER)); for(DWORD i = 0; i < procCount; i++) { if(HANDLE hProc = OpenProcess(PROCESS_QUERY_INFORMATION, FALSE, processes[i])) { FILETIME processTime[4]; if(GetProcessTimes(hProc, &processTime[0], &processTime[1], &processTime[2], &processTime[3])) { ULARGE_INTEGER timeCreation; timeCreation.LowPart = processTime[0].dwLowDateTime; timeCreation.HighPart = processTime[0].dwHighDateTime; if(timeCreation.QuadPart > lastStartTime.QuadPart) { lastStartTime.QuadPart = timeCreation.QuadPart; } } CloseHandle(hProc); } } FILETIME lastStartTime_fileTime; lastStartTime_fileTime.dwHighDateTime = lastStartTime.HighPart; lastStartTime_fileTime.dwLowDateTime = lastStartTime.LowPart; FILETIME lastStartTime_localTime; if(!FileTimeToLocalFileTime(&lastStartTime_fileTime, &lastStartTime_localTime)) { memcpy(&lastStartTime_localTime, &lastStartTime_fileTime, sizeof(FILETIME)); } SYSTEMTIME lastStartTime_system; if(!FileTimeToSystemTime(&lastStartTime_localTime, &lastStartTime_system)) { memset(&lastStartTime_system, 0, sizeof(SYSTEMTIME)); lastStartTime_system.wYear = 1970; lastStartTime_system.wMonth = lastStartTime_system.wDay = 1; } const QDate currentDate = QDate::currentDate(); const QDate processDate = QDate(lastStartTime_system.wYear, lastStartTime_system.wMonth, lastStartTime_system.wDay); return (currentDate >= processDate) ? currentDate : processDate; } quint64 MUtils::OS::current_file_time(void) { FILETIME fileTime; GetSystemTimeAsFileTime(&fileTime); ULARGE_INTEGER temp; temp.HighPart = fileTime.dwHighDateTime; temp.LowPart = fileTime.dwLowDateTime; return temp.QuadPart; } /////////////////////////////////////////////////////////////////////////////// // FILE PATH FROM FD /////////////////////////////////////////////////////////////////////////////// typedef DWORD(_stdcall *GetPathNameByHandleFun)(HANDLE hFile, LPWSTR lpszFilePath, DWORD cchFilePath, DWORD dwFlags); static QString get_file_path_drive_list(void) { QString list; const DWORD len = GetLogicalDriveStringsW(0, NULL); if (len > 0) { if (wchar_t *const buffer = (wchar_t*) _malloca(sizeof(wchar_t) * len)) { const DWORD ret = GetLogicalDriveStringsW(len, buffer); if ((ret > 0) && (ret < len)) { const wchar_t *ptr = buffer; while (const size_t current_len = wcslen(ptr)) { list.append(QChar(*reinterpret_cast(ptr))); ptr += (current_len + 1); } } _freea(buffer); } } return list; } static void get_file_path_translate(QString &path) { static const DWORD BUFSIZE = 2048; wchar_t buffer[BUFSIZE], drive[3]; const QString driveList = get_file_path_drive_list(); wcscpy_s(drive, 3, L"?:"); for (const wchar_t *current = MUTILS_WCHR(driveList); *current; current++) { drive[0] = (*current); if (QueryDosDeviceW(drive, buffer, MAX_PATH)) { const QString prefix = MUTILS_QSTR(buffer); if (path.startsWith(prefix, Qt::CaseInsensitive)) { path.remove(0, prefix.length()).prepend(QLatin1Char(':')).prepend(QChar(*reinterpret_cast(current))); break; } } } } static QString get_file_path_fallback(const HANDLE &hFile) { QString filePath; const HANDLE hFileMap = CreateFileMappingW(hFile, NULL, PAGE_READONLY, 0, 1, NULL); if (hFileMap) { void *const pMem = MapViewOfFile(hFileMap, FILE_MAP_READ, 0, 0, 1); if (pMem) { static const size_t BUFFSIZE = 2048; wchar_t buffer[BUFFSIZE]; if (GetMappedFileNameW(GetCurrentProcess(), pMem, buffer, BUFFSIZE) > 0) { filePath = MUTILS_QSTR(buffer); } UnmapViewOfFile(pMem); } CloseHandle(hFileMap); } if (!filePath.isEmpty()) { get_file_path_translate(filePath); } return filePath; } QString MUtils::OS::get_file_path(const int &fd) { if (fd >= 0) { const GetPathNameByHandleFun getPathNameByHandleFun = MUtils::Win32Utils::resolve(QLatin1String("kernel32"), QLatin1String("GetFinalPathNameByHandleW")); if (!getPathNameByHandleFun) { return get_file_path_fallback((HANDLE)_get_osfhandle(fd)); } const HANDLE handle = (HANDLE) _get_osfhandle(fd); const DWORD len = getPathNameByHandleFun(handle, NULL, 0, FILE_NAME_OPENED); if (len > 0) { if (wchar_t *const buffer = (wchar_t*)_malloca(sizeof(wchar_t) * len)) { const DWORD ret = getPathNameByHandleFun(handle, buffer, len, FILE_NAME_OPENED); if ((ret > 0) && (ret < len)) { const QString path(MUTILS_QSTR(buffer)); return path.startsWith(QLatin1String("\\\\?\\")) ? path.mid(4) : path; } _freea(buffer); } } } return QString(); } /////////////////////////////////////////////////////////////////////////////// // PROCESS ELEVATION /////////////////////////////////////////////////////////////////////////////// static bool user_is_admin_helper(void) { HANDLE hToken = NULL; if(!OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &hToken)) { return false; } DWORD dwSize = 0; if(!GetTokenInformation(hToken, TokenGroups, NULL, 0, &dwSize)) { if(GetLastError() != ERROR_INSUFFICIENT_BUFFER) { CloseHandle(hToken); return false; } } PTOKEN_GROUPS lpGroups = (PTOKEN_GROUPS) malloc(dwSize); if(!lpGroups) { CloseHandle(hToken); return false; } if(!GetTokenInformation(hToken, TokenGroups, lpGroups, dwSize, &dwSize)) { free(lpGroups); CloseHandle(hToken); return false; } PSID lpSid = NULL; SID_IDENTIFIER_AUTHORITY Authority = {SECURITY_NT_AUTHORITY}; if(!AllocateAndInitializeSid(&Authority, 2, SECURITY_BUILTIN_DOMAIN_RID, DOMAIN_ALIAS_RID_ADMINS, 0, 0, 0, 0, 0, 0, &lpSid)) { free(lpGroups); CloseHandle(hToken); return false; } bool bResult = false; for(DWORD i = 0; i < lpGroups->GroupCount; i++) { if(EqualSid(lpSid, lpGroups->Groups[i].Sid)) { bResult = true; break; } } FreeSid(lpSid); free(lpGroups); CloseHandle(hToken); return bResult; } bool MUtils::OS::is_elevated(bool *bIsUacEnabled) { if(bIsUacEnabled) { *bIsUacEnabled = false; } bool bIsProcessElevated = false; HANDLE hToken = NULL; if(OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &hToken)) { TOKEN_ELEVATION_TYPE tokenElevationType; DWORD returnLength; if(GetTokenInformation(hToken, TokenElevationType, &tokenElevationType, sizeof(TOKEN_ELEVATION_TYPE), &returnLength)) { if(returnLength == sizeof(TOKEN_ELEVATION_TYPE)) { switch(tokenElevationType) { case TokenElevationTypeDefault: qDebug("Process token elevation type: Default -> UAC is disabled.\n"); break; case TokenElevationTypeFull: qWarning("Process token elevation type: Full -> potential security risk!\n"); bIsProcessElevated = true; if(bIsUacEnabled) *bIsUacEnabled = true; break; case TokenElevationTypeLimited: qDebug("Process token elevation type: Limited -> not elevated.\n"); if(bIsUacEnabled) *bIsUacEnabled = true; break; default: qWarning("Unknown tokenElevationType value: %d", tokenElevationType); break; } } else { qWarning("GetTokenInformation() return an unexpected size!"); } } CloseHandle(hToken); } else { qWarning("Failed to open process token!"); } return bIsProcessElevated; } bool MUtils::OS::user_is_admin(void) { bool isAdmin = false; //Check for process elevation and UAC support first! if(MUtils::OS::is_elevated(&isAdmin)) { qWarning("Process is elevated -> user is admin!"); return true; } //If not elevated and UAC is not available -> user must be in admin group! if(!isAdmin) { qDebug("UAC is disabled/unavailable -> checking for Administrators group"); isAdmin = user_is_admin_helper(); } return isAdmin; } /////////////////////////////////////////////////////////////////////////////// // NETWORK STATE /////////////////////////////////////////////////////////////////////////////// int MUtils::OS::network_status(void) { DWORD dwFlags; const BOOL ret = IsNetworkAlive(&dwFlags); if(GetLastError() == 0) { return (ret != FALSE) ? NETWORK_TYPE_YES : NETWORK_TYPE_NON; } return NETWORK_TYPE_ERR; } /////////////////////////////////////////////////////////////////////////////// // MESSAGE HANDLER /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::handle_os_message(const void *const message, long *result) { const MSG *const msg = reinterpret_cast(message); switch(msg->message) { case WM_QUERYENDSESSION: qWarning("WM_QUERYENDSESSION message received!"); *result = MUtils::GUI::broadcast(MUtils::GUI::USER_EVENT_QUERYENDSESSION, false) ? TRUE : FALSE; return true; case WM_ENDSESSION: qWarning("WM_ENDSESSION message received!"); if(msg->wParam == TRUE) { MUtils::GUI::broadcast(MUtils::GUI::USER_EVENT_ENDSESSION, false); MUtils::GUI::force_quit(); exit(1); } *result = 0; return true; default: /*ignore this message and let Qt handle it*/ return false; } } /////////////////////////////////////////////////////////////////////////////// // SLEEP /////////////////////////////////////////////////////////////////////////////// void MUtils::OS::sleep_ms(const size_t &duration) { Sleep((DWORD) duration); } /////////////////////////////////////////////////////////////////////////////// // EXECUTABLE CHECK /////////////////////////////////////////////////////////////////////////////// static int g_library_as_image_resource_supported = -1; static QReadWriteLock g_library_as_image_resource_supported_lock; static bool library_as_image_resource_supported() { QReadLocker readLocker(&g_library_as_image_resource_supported_lock); if (g_library_as_image_resource_supported >= 0) { return (g_library_as_image_resource_supported > 0); } readLocker.unlock(); QWriteLocker writeLocker(&g_library_as_image_resource_supported_lock); if (g_library_as_image_resource_supported < 0) { g_library_as_image_resource_supported = 0; OSVERSIONINFOEXW osvi; if (rtl_get_version(&osvi)) { if ((osvi.dwPlatformId == VER_PLATFORM_WIN32_NT) && (osvi.dwMajorVersion >= 6U)) { g_library_as_image_resource_supported = 1; } } } return (g_library_as_image_resource_supported > 0); } bool MUtils::OS::is_executable_file(const QString &path) { DWORD binaryType; if(GetBinaryType(MUTILS_WCHR(QDir::toNativeSeparators(path)), &binaryType)) { return ((binaryType == SCS_32BIT_BINARY) || (binaryType == SCS_64BIT_BINARY)); } const DWORD errorCode = GetLastError(); qWarning("GetBinaryType() failed with error: 0x%08X", errorCode); return false; } bool MUtils::OS::is_library_file(const QString &path) { const DWORD flags = library_as_image_resource_supported() ? (LOAD_LIBRARY_AS_DATAFILE | LOAD_LIBRARY_AS_IMAGE_RESOURCE) : (LOAD_LIBRARY_AS_DATAFILE | DONT_RESOLVE_DLL_REFERENCES); if (const HMODULE hMod = LoadLibraryEx(MUTILS_WCHR(QDir::toNativeSeparators(path)), NULL, flags)) { FreeLibrary(hMod); return true; } const DWORD errorCode = GetLastError(); qWarning("LoadLibraryEx() failed with error: 0x%08X", errorCode); return false; } /////////////////////////////////////////////////////////////////////////////// // HIBERNATION / SHUTDOWN /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::is_hibernation_supported(void) { bool hibernationSupported = false; SYSTEM_POWER_CAPABILITIES pwrCaps; SecureZeroMemory(&pwrCaps, sizeof(SYSTEM_POWER_CAPABILITIES)); if(GetPwrCapabilities(&pwrCaps)) { hibernationSupported = pwrCaps.SystemS4 && pwrCaps.HiberFilePresent; } return hibernationSupported; } bool MUtils::OS::shutdown_computer(const QString &message, const unsigned long timeout, const bool forceShutdown, const bool hibernate) { HANDLE hToken = NULL; if(OpenProcessToken(GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &hToken)) { TOKEN_PRIVILEGES privileges; memset(&privileges, 0, sizeof(TOKEN_PRIVILEGES)); privileges.PrivilegeCount = 1; privileges.Privileges[0].Attributes = SE_PRIVILEGE_ENABLED; if(LookupPrivilegeValue(NULL, SE_SHUTDOWN_NAME, &privileges.Privileges[0].Luid)) { if(AdjustTokenPrivileges(hToken, FALSE, &privileges, NULL, NULL, NULL)) { if(hibernate) { if(SetSuspendState(TRUE, TRUE, TRUE)) { return true; } } const DWORD reason = SHTDN_REASON_MAJOR_APPLICATION | SHTDN_REASON_FLAG_PLANNED; return InitiateSystemShutdownEx(NULL, const_cast(MUTILS_WCHR(message)), timeout, forceShutdown ? TRUE : FALSE, FALSE, reason); } } } return false; } /////////////////////////////////////////////////////////////////////////////// // FREE DISKSPACE /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::free_diskspace(const QString &path, quint64 &freeSpace) { ULARGE_INTEGER freeBytesAvailable, totalNumberOfBytes, totalNumberOfFreeBytes; if(GetDiskFreeSpaceExW(reinterpret_cast(QDir::toNativeSeparators(path).utf16()), &freeBytesAvailable, &totalNumberOfBytes, &totalNumberOfFreeBytes)) { freeSpace = freeBytesAvailable.QuadPart; return true;; } freeSpace = -1; return false; } /////////////////////////////////////////////////////////////////////////////// // SHELL OPEN /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::shell_open(const QWidget *parent, const QString &url, const QString ¶meters, const QString &directory, const bool explore) { return ((int) ShellExecuteW((parent ? reinterpret_cast(parent->winId()) : NULL), (explore ? L"explore" : L"open"), MUTILS_WCHR(url), ((!parameters.isEmpty()) ? MUTILS_WCHR(parameters) : NULL), ((!directory.isEmpty()) ? MUTILS_WCHR(directory) : NULL), SW_SHOW)) > 32; } bool MUtils::OS::shell_open(const QWidget *parent, const QString &url, const bool explore) { return shell_open(parent, url, QString(), QString(), explore); } /////////////////////////////////////////////////////////////////////////////// // OPEN MEDIA FILE /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::open_media_file(const QString &mediaFilePath) { const static wchar_t *registryPrefix[2] = { L"SOFTWARE\\", L"SOFTWARE\\Wow6432Node\\" }; const static wchar_t *registryKeys[3] = { L"Microsoft\\Windows\\CurrentVersion\\Uninstall\\{97D341C8-B0D1-4E4A-A49A-C30B52F168E9}", L"Microsoft\\Windows\\CurrentVersion\\Uninstall\\{DB9E4EAB-2717-499F-8D56-4CC8A644AB60}", L"foobar2000" }; const static wchar_t *appNames[4] = { L"smplayer_portable.exe", L"smplayer.exe", L"MPUI.exe", L"foobar2000.exe" }; const static wchar_t *valueNames[2] = { L"InstallLocation", L"InstallDir" }; for(size_t i = 0; i < 3; i++) { for(size_t j = 0; j < 2; j++) { QString mplayerPath; HKEY registryKeyHandle = NULL; const QString currentKey = MUTILS_QSTR(registryPrefix[j]).append(MUTILS_QSTR(registryKeys[i])); if(RegOpenKeyExW(HKEY_LOCAL_MACHINE, MUTILS_WCHR(currentKey), 0, KEY_READ, ®istryKeyHandle) == ERROR_SUCCESS) { for(size_t k = 0; k < 2; k++) { wchar_t Buffer[4096]; DWORD BuffSize = sizeof(wchar_t*) * 4096; DWORD DataType = REG_NONE; if(RegQueryValueExW(registryKeyHandle, valueNames[k], 0, &DataType, reinterpret_cast(Buffer), &BuffSize) == ERROR_SUCCESS) { if((DataType == REG_SZ) || (DataType == REG_EXPAND_SZ) || (DataType == REG_LINK)) { mplayerPath = MUTILS_QSTR(Buffer); break; } } } RegCloseKey(registryKeyHandle); } if(!mplayerPath.isEmpty()) { QDir mplayerDir(mplayerPath); if(mplayerDir.exists()) { for(size_t k = 0; k < 4; k++) { if(mplayerDir.exists(MUTILS_QSTR(appNames[k]))) { qDebug("Player found at:\n%s\n", MUTILS_UTF8(mplayerDir.absoluteFilePath(MUTILS_QSTR(appNames[k])))); QProcess::startDetached(mplayerDir.absoluteFilePath(MUTILS_QSTR(appNames[k])), QStringList() << QDir::toNativeSeparators(mediaFilePath)); return true; } } } } } } return false; } /////////////////////////////////////////////////////////////////////////////// // DEBUGGER CHECK /////////////////////////////////////////////////////////////////////////////// static bool change_process_priority_helper(const HANDLE hProcess, const int priority) { bool ok = false; switch(qBound(-2, priority, 2)) { case 2: ok = (SetPriorityClass(hProcess, HIGH_PRIORITY_CLASS) == TRUE); break; case 1: if(!(ok = (SetPriorityClass(hProcess, ABOVE_NORMAL_PRIORITY_CLASS) == TRUE))) { ok = (SetPriorityClass(hProcess, HIGH_PRIORITY_CLASS) == TRUE); } break; case 0: ok = (SetPriorityClass(hProcess, NORMAL_PRIORITY_CLASS) == TRUE); break; case -1: if(!(ok = (SetPriorityClass(hProcess, BELOW_NORMAL_PRIORITY_CLASS) == TRUE))) { ok = (SetPriorityClass(hProcess, IDLE_PRIORITY_CLASS) == TRUE); } break; case -2: ok = (SetPriorityClass(hProcess, IDLE_PRIORITY_CLASS) == TRUE); break; } return ok; } bool MUtils::OS::change_process_priority(const int priority) { return change_process_priority_helper(GetCurrentProcess(), priority); } bool MUtils::OS::change_process_priority(const QProcess *proc, const int priority) { if(Q_PID qPid = proc->pid()) { return change_process_priority_helper(qPid->hProcess, priority); } else { return false; } } /////////////////////////////////////////////////////////////////////////////// // PROCESS ID /////////////////////////////////////////////////////////////////////////////// quint32 MUtils::OS::process_id(void) { return GetCurrentProcessId(); } quint32 MUtils::OS::process_id(const QProcess *const proc) { PROCESS_INFORMATION *procInf = proc->pid(); return (procInf) ? procInf->dwProcessId : 0; } quint32 MUtils::OS::thread_id(void) { return GetCurrentThreadId(); } quint32 MUtils::OS::thread_id(const QProcess *const proc) { PROCESS_INFORMATION *procInf = proc->pid(); return (procInf) ? procInf->dwThreadId : 0; } /////////////////////////////////////////////////////////////////////////////// // PROCESS SUSPEND/RESUME /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::suspend_process(const QProcess *proc, const bool suspend) { if(Q_PID pid = proc->pid()) { if(suspend) { return (SuspendThread(pid->hThread) != ((DWORD) -1)); } else { return (ResumeThread(pid->hThread) != ((DWORD) -1)); } } else { return false; } } /////////////////////////////////////////////////////////////////////////////// // SYSTEM TIMER /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::setup_timer_resolution(const quint32 &interval) { return timeBeginPeriod(interval) == TIMERR_NOERROR; } bool MUtils::OS::reset_timer_resolution(const quint32 &interval) { return timeEndPeriod(interval) == TIMERR_NOERROR; } /////////////////////////////////////////////////////////////////////////////// // SET FILE TIME /////////////////////////////////////////////////////////////////////////////// static QScopedPointer s_epoch; static QReadWriteLock s_epochLock; static const QDateTime *get_epoch(void) { QReadLocker rdLock(&s_epochLock); if (s_epoch.isNull()) { rdLock.unlock(); QWriteLocker wrLock(&s_epochLock); if (s_epoch.isNull()) { s_epoch.reset(new QDateTime(QDate(1601, 1, 1), QTime(0, 0, 0, 0), Qt::UTC)); } wrLock.unlock(); rdLock.relock(); } return s_epoch.data(); } static FILETIME *qt_time_to_file_time(FILETIME *const fileTime, const QDateTime &dateTime) { memset(fileTime, 0, sizeof(FILETIME)); if (const QDateTime *const epoch = get_epoch()) { const qint64 msecs = epoch->msecsTo(dateTime); if (msecs > 0) { const quint64 ticks = 10000U * quint64(msecs); fileTime->dwHighDateTime = ((ticks >> 32) & 0xFFFFFFFF); fileTime->dwLowDateTime = (ticks & 0xFFFFFFFF); return fileTime; } } return NULL; } static bool set_file_time(const HANDLE hFile, const QDateTime &created, const QDateTime &lastMod, const QDateTime &lastAcc) { FILETIME ftCreated, ftLastMod, ftLastAcc; FILETIME *const pCreated = created.isValid() ? qt_time_to_file_time(&ftCreated, created) : NULL; FILETIME *const pLastMod = lastMod.isValid() ? qt_time_to_file_time(&ftLastMod, lastMod) : NULL; FILETIME *const pLastAcc = lastAcc.isValid() ? qt_time_to_file_time(&ftLastAcc, lastAcc) : NULL; if (pCreated || pLastMod || pLastAcc) { return (SetFileTime(hFile, pCreated, pLastAcc, pLastMod) != FALSE); } return false; } bool MUtils::OS::set_file_time(const QFile &file, const QDateTime &created, const QDateTime &lastMod, const QDateTime &lastAcc) { const int fd = file.handle(); if (fd >= 0) { return set_file_time((HANDLE)_get_osfhandle(fd), created, lastMod, lastAcc); } return false; } bool MUtils::OS::set_file_time(const QString &path, const QDateTime &created, const QDateTime &lastMod, const QDateTime &lastAcc) { const HANDLE hFile = CreateFileW(MUTILS_WCHR(path), FILE_WRITE_ATTRIBUTES, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, 0); bool okay = false; if ((hFile != NULL) && (hFile != INVALID_HANDLE_VALUE)) { okay = set_file_time(hFile, created, lastMod, lastAcc); CloseHandle(hFile); } return okay; } /////////////////////////////////////////////////////////////////////////////// // CHECK KEY STATE /////////////////////////////////////////////////////////////////////////////// bool MUtils::OS::check_key_state_esc(void) { return (GetAsyncKeyState(VK_ESCAPE) & 0x0001) != 0; } /////////////////////////////////////////////////////////////////////////////// // SHELL CHANGE NOTIFICATION /////////////////////////////////////////////////////////////////////////////// void MUtils::OS::shell_change_notification(void) { SHChangeNotify(SHCNE_ASSOCCHANGED, SHCNF_IDLIST, NULL, NULL); } /////////////////////////////////////////////////////////////////////////////// // WOW64 REDIRECTION /////////////////////////////////////////////////////////////////////////////// typedef BOOL (_stdcall *Wow64DisableWow64FsRedirectionFun)(void *OldValue); typedef BOOL (_stdcall *Wow64RevertWow64FsRedirectionFun )(void *OldValue); bool MUtils::OS::wow64fsredir_disable(void *oldValue) { const Wow64DisableWow64FsRedirectionFun wow64redir_disable = MUtils::Win32Utils::resolve(QLatin1String("kernel32"), QLatin1String("Wow64DisableWow64FsRedirection")); if(wow64redir_disable) { if (wow64redir_disable(oldValue)) { return true; } } return false; } bool MUtils::OS::wow64fsredir_revert(void *oldValue) { const Wow64RevertWow64FsRedirectionFun wow64redir_disable = MUtils::Win32Utils::resolve(QLatin1String("kernel32"), QLatin1String("Wow64RevertWow64FsRedirection")); if (wow64redir_disable) { if (wow64redir_disable(oldValue)) { return true; } } return false; } /////////////////////////////////////////////////////////////////////////////// // DEBUGGER CHECK /////////////////////////////////////////////////////////////////////////////// QString MUtils::OS::get_envvar(const QString &name) { wchar_t *buffer = NULL; size_t requiredSize = 0, buffSize = 0; QString result; forever { //Adjust the buffer size as required first! if (buffSize < requiredSize) { if (buffer) { _freea(buffer); } if (!(buffer = (wchar_t*)_malloca(sizeof(wchar_t) * requiredSize))) { break; /*out of memory error!*/ } buffSize = requiredSize; } //Try to fetch the environment variable now const errno_t error = _wgetenv_s(&requiredSize, buffer, buffSize, MUTILS_WCHR(name)); if(!error) { if (requiredSize > 0) { result = MUTILS_QSTR(buffer); } break; /*done*/ } else if (error != ERANGE) { break; /*somethging else went wrong!*/ } } if (buffer) { _freea(buffer); buffSize = 0; buffer = NULL; } return result; } bool MUtils::OS::set_envvar(const QString &name, const QString &value) { if (!_wputenv_s(MUTILS_WCHR(name), MUTILS_WCHR(value))) { return true; } return false; } /////////////////////////////////////////////////////////////////////////////// // DEBUGGER CHECK /////////////////////////////////////////////////////////////////////////////// #if (!(MUTILS_DEBUG)) static __forceinline bool is_debugger_present(void) { __try { CloseHandle((HANDLE)((DWORD_PTR)-3)); } __except(1) { return true; } BOOL bHaveDebugger = FALSE; if(CheckRemoteDebuggerPresent(GetCurrentProcess(), &bHaveDebugger)) { if(bHaveDebugger) return true; } return IsDebuggerPresent(); } static __forceinline bool check_debugger_helper(void) { if(is_debugger_present()) { MUtils::OS::fatal_exit(L"Not a debug build. Please unload debugger and try again!"); return true; } return false; } #else #define check_debugger_helper() (false) #endif void MUtils::OS::check_debugger(void) { check_debugger_helper(); } static volatile bool g_debug_check = check_debugger_helper(); /////////////////////////////////////////////////////////////////////////////// // FATAL EXIT /////////////////////////////////////////////////////////////////////////////// static MUtils::Internal::CriticalSection g_fatal_exit_lock; static volatile bool g_fatal_exit_flag = true; static DWORD WINAPI fatal_exit_helper(LPVOID lpParameter) { MUtils::OS::system_message_err(L"GURU MEDITATION", (LPWSTR) lpParameter); return 0; } void MUtils::OS::fatal_exit(const wchar_t* const errorMessage) { g_fatal_exit_lock.enter(); if(!g_fatal_exit_flag) { return; /*prevent recursive invocation*/ } g_fatal_exit_flag = false; if(g_main_thread_id != GetCurrentThreadId()) { if(HANDLE hThreadMain = OpenThread(THREAD_SUSPEND_RESUME, FALSE, g_main_thread_id)) { SuspendThread(hThreadMain); /*stop main thread*/ } } if(HANDLE hThread = CreateThread(NULL, 0, fatal_exit_helper, (LPVOID) errorMessage, 0, NULL)) { WaitForSingleObject(hThread, INFINITE); } for(;;) { TerminateProcess(GetCurrentProcess(), 666); } } ///////////////////////////////////////////////////////////////////////////////