#pragma region Copyright (c) 2014-2016 OpenRCT2 Developers /***************************************************************************** * OpenRCT2, an open source clone of Roller Coaster Tycoon 2. * * OpenRCT2 is the work of many authors, a full list can be found in contributors.md * For more information, visit https://github.com/OpenRCT2/OpenRCT2 * * OpenRCT2 is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * A full copy of the GNU General Public License can be found in licence.txt *****************************************************************************/ #pragma endregion #ifdef __MINGW32__ // 0x0600 == vista #define WINVER 0x0600 #define _WIN32_WINNT 0x0600 #endif // __MINGW32__ #include "../common.h" #ifdef __WINDOWS__ #include #include #include #include #include #include #include "../openrct2.h" #include "../localisation/language.h" #include "../util/util.h" #include "../config.h" #include "platform.h" // Native resource IDs #include "../../resources/resource.h" // The name of the mutex used to prevent multiple instances of the game from running #define SINGLE_INSTANCE_MUTEX_NAME "RollerCoaster Tycoon 2_GSKMUTEX" static utf8 _userDataDirectoryPath[MAX_PATH] = { 0 }; static utf8 _openrctDataDirectoryPath[MAX_PATH] = { 0 }; static bool _consoleIsAttached = false; utf8 **windows_get_command_line_args(int *outNumArgs); #define OPENRCT2_DLL_MODULE_NAME "openrct2.dll" static HMODULE _dllModule = NULL; #ifdef NO_RCT2 /** * Windows entry point to OpenRCT2 without a console window. */ int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) { _dllModule = hInstance; wrl_initialise(); int argc; char ** argv = (char**)windows_get_command_line_args(&argc); int runGame = cmdline_run((const char **)argv, argc); // Free argv for (int i = 0; i < argc; i++) { free(argv[i]); } free(argv); if (runGame == 1) { openrct2_launch(); } wrl_dispose(); return gExitCode; } /** * Windows entry point to OpenRCT2 with a console window using a traditional C main function. */ int main(int argc, char *argv[]) { HINSTANCE hInstance = GetModuleHandle(NULL); _dllModule = hInstance; wrl_initialise(); int runGame = cmdline_run((const char **)argv, argc); if (runGame == 1) { openrct2_launch(); } wrl_dispose(); return gExitCode; } #else /* DllMain is already defined in one of static libraries we implicitly depend * on (libcrypto), which is their bug really, but since we don't do anything in * here, just comment it out. */ #ifndef __MINGW32__ /** * Entry point for when the DLL is loaded. This will be removed when OpenRCT2 can be built as a stand alone application. */ BOOL APIENTRY DllMain(HANDLE hModule, DWORD dwReason, LPVOID lpReserved) { _dllModule = hModule; return TRUE; } #endif // __MINGW32__ /** * The function that is called directly from the host application (rct2.exe)'s WinMain. This will be removed when OpenRCT2 can * be built as a stand alone application. */ __declspec(dllexport) int StartOpenRCT(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) { int argc, runGame; char **argv; if (_dllModule == NULL) { _dllModule = GetModuleHandleA(OPENRCT2_DLL_MODULE_NAME); } // argv = CommandLineToArgvA(lpCmdLine, &argc); argv = (char**)windows_get_command_line_args(&argc); runGame = cmdline_run((const char **)argv, argc); // Free argv for (int i = 0; i < argc; i++) { free(argv[i]); } free(argv); if (runGame == 1) { openrct2_launch(); } exit(gExitCode); return gExitCode; } #endif // NO_RCT2 void platform_windows_open_console() { if (!AttachConsole(ATTACH_PARENT_PROCESS)) { if (!AllocConsole()) { return; } } freopen("CONIN$", "r", stdin); freopen("CONOUT$", "w", stdout); freopen("CONOUT$", "w", stderr); _consoleIsAttached = true; } void platform_windows_close_console() { if (_consoleIsAttached) { _consoleIsAttached = false; FreeConsole(); } } utf8 **windows_get_command_line_args(int *outNumArgs) { int argc; // Get command line arguments as widechar LPWSTR commandLine = GetCommandLineW(); LPWSTR *argvW = CommandLineToArgvW(commandLine, &argc); // Convert to UTF-8 utf8 **argvUtf8 = (utf8**)malloc(argc * sizeof(utf8*)); for (int i = 0; i < argc; i++) { argvUtf8[i] = widechar_to_utf8(argvW[i]); } LocalFree(argvW); *outNumArgs = argc; return argvUtf8; } void platform_get_date_local(rct2_date *out_date) { assert(out_date != NULL); SYSTEMTIME systime; GetSystemTime(&systime); out_date->day = systime.wDay; out_date->month = systime.wMonth; out_date->year = systime.wYear; out_date->day_of_week = systime.wDayOfWeek; } void platform_get_time_local(rct2_time *out_time) { assert(out_time != NULL); SYSTEMTIME systime; GetLocalTime(&systime); out_time->hour = systime.wHour; out_time->minute = systime.wMinute; out_time->second = systime.wSecond; } bool platform_file_exists(const utf8 *path) { wchar_t *wPath = utf8_to_widechar(path); DWORD result = GetFileAttributesW(wPath); DWORD error = GetLastError(); free(wPath); return !(result == INVALID_FILE_ATTRIBUTES && (error == ERROR_FILE_NOT_FOUND || error == ERROR_PATH_NOT_FOUND)); } bool platform_directory_exists(const utf8 *path) { wchar_t *wPath = utf8_to_widechar(path); DWORD dwAttrib = GetFileAttributesW(wPath); free(wPath); return dwAttrib != INVALID_FILE_ATTRIBUTES && (dwAttrib & FILE_ATTRIBUTE_DIRECTORY); } bool platform_original_game_data_exists(const utf8 *path) { utf8 checkPath[MAX_PATH]; safe_strcpy(checkPath, path, MAX_PATH); safe_strcat_path(checkPath, "Data", MAX_PATH); safe_strcat_path(checkPath, "g1.dat", MAX_PATH); return platform_file_exists(checkPath); } bool platform_ensure_directory_exists(const utf8 *path) { if (platform_directory_exists(path)) return 1; wchar_t *wPath = utf8_to_widechar(path); BOOL success = CreateDirectoryW(wPath, NULL); free(wPath); return success == TRUE; } bool platform_directory_delete(const utf8 *path) { wchar_t pszFrom[MAX_PATH]; wchar_t *wPath = utf8_to_widechar(path); wcsncpy(pszFrom, wPath, MAX_PATH); // Needs to be double-null terminated for some weird reason pszFrom[wcslen(wPath) + 1] = 0; free(wPath); SHFILEOPSTRUCTW fileop; fileop.hwnd = NULL; // no status display fileop.wFunc = FO_DELETE; // delete operation fileop.pFrom = pszFrom; // source file name as double null terminated string fileop.pTo = NULL; // no destination needed fileop.fFlags = FOF_NOCONFIRMATION | FOF_SILENT; // do not prompt the user fileop.fAnyOperationsAborted = FALSE; fileop.lpszProgressTitle = NULL; fileop.hNameMappings = NULL; int ret = SHFileOperationW(&fileop); return (ret == 0); } bool platform_lock_single_instance() { HANDLE mutex, status; // Check if operating system mutex exists mutex = OpenMutex(MUTEX_ALL_ACCESS, FALSE, SINGLE_INSTANCE_MUTEX_NAME); if (mutex == NULL) { // Create new mutex status = CreateMutex(NULL, FALSE, SINGLE_INSTANCE_MUTEX_NAME); if (status == NULL) log_error("unable to create mutex\n"); return true; } else { // Already running CloseHandle(mutex); return false; } } typedef struct { bool active; wchar_t pattern[MAX_PATH]; HANDLE handle; WIN32_FIND_DATAW data; utf8 *outFilename; } enumerate_file_info; static enumerate_file_info _enumerateFileInfoList[8] = { 0 }; int platform_enumerate_files_begin(const utf8 *pattern) { int i; enumerate_file_info *enumFileInfo; wchar_t *wPattern = utf8_to_widechar(pattern); for (i = 0; i < countof(_enumerateFileInfoList); i++) { enumFileInfo = &_enumerateFileInfoList[i]; if (!enumFileInfo->active) { wcsncpy(enumFileInfo->pattern, wPattern, MAX_PATH); enumFileInfo->handle = NULL; enumFileInfo->active = true; enumFileInfo->outFilename = NULL; free(wPattern); return i; } } free(wPattern); return INVALID_HANDLE; } /** * Due to FindFirstFile / FindNextFile searching for DOS names as well, *.doc also matches *.docx which isn't what the pattern * specified. This will verify if a filename does indeed match the pattern we asked for. * @remarks Based on algorithm (http://xoomer.virgilio.it/acantato/dev/wildcard/wildmatch.html) */ static bool match_wildcard(const wchar_t *fileName, const wchar_t *pattern) { while (*fileName != '\0') { switch (*pattern) { case '?': if (*fileName == '.') { return false; } break; case '*': do { pattern++; } while (*pattern == '*'); if (*pattern == '\0') { return false; } while (*fileName != '\0') { if (match_wildcard(fileName++, pattern)) { return true; } } return false; default: if (toupper(*fileName) != toupper(*pattern)) { return false; } break; } pattern++; fileName++; } while (*pattern == '*') { ++fileName; } return *pattern == '\0'; } bool platform_enumerate_files_next(int handle, file_info *outFileInfo) { bool result; enumerate_file_info *enumFileInfo; HANDLE findFileHandle; enumFileInfo = &_enumerateFileInfoList[handle]; // Get pattern (just filename part) const wchar_t *patternWithoutDirectory = wcsrchr(enumFileInfo->pattern, '\\'); if (patternWithoutDirectory == NULL) { patternWithoutDirectory = enumFileInfo->pattern; } else { patternWithoutDirectory++; } do { if (enumFileInfo->handle == NULL) { findFileHandle = FindFirstFileW(enumFileInfo->pattern, &enumFileInfo->data); if (findFileHandle != INVALID_HANDLE_VALUE) { enumFileInfo->handle = findFileHandle; result = true; } else { result = false; } } else { result = FindNextFileW(enumFileInfo->handle, &enumFileInfo->data); } } while (result && !match_wildcard(enumFileInfo->data.cFileName, patternWithoutDirectory)); if (result) { outFileInfo->path = enumFileInfo->outFilename = widechar_to_utf8(enumFileInfo->data.cFileName); outFileInfo->size = ((uint64)enumFileInfo->data.nFileSizeHigh << 32ULL) | (uint64)enumFileInfo->data.nFileSizeLow; outFileInfo->last_modified = ((uint64)enumFileInfo->data.ftLastWriteTime.dwHighDateTime << 32ULL) | (uint64)enumFileInfo->data.ftLastWriteTime.dwLowDateTime; return true; } else { return false; } } void platform_enumerate_files_end(int handle) { enumerate_file_info *enumFileInfo; enumFileInfo = &_enumerateFileInfoList[handle]; if (enumFileInfo->handle != NULL) { FindClose(enumFileInfo->handle); enumFileInfo->handle = NULL; } enumFileInfo->active = false; SafeFree(enumFileInfo->outFilename); } int platform_enumerate_directories_begin(const utf8 *directory) { int i; enumerate_file_info *enumFileInfo; wchar_t *wDirectory = utf8_to_widechar(directory); if (wcslen(wDirectory) + 3 >= MAX_PATH) { free(wDirectory); return INVALID_HANDLE; } for (i = 0; i < countof(_enumerateFileInfoList); i++) { enumFileInfo = &_enumerateFileInfoList[i]; if (!enumFileInfo->active) { wcsncpy(enumFileInfo->pattern, wDirectory, MAX_PATH); // Ensure pattern ends with a slash int patternLength = lstrlenW(enumFileInfo->pattern); wchar_t lastChar = enumFileInfo->pattern[patternLength - 1]; if (lastChar != '\\' && lastChar != '/') { wcsncat(enumFileInfo->pattern, L"\\", MAX_PATH); } wcsncat(enumFileInfo->pattern, L"*", MAX_PATH); enumFileInfo->handle = NULL; enumFileInfo->active = true; enumFileInfo->outFilename = NULL; free(wDirectory); return i; } } free(wDirectory); return INVALID_HANDLE; } bool platform_enumerate_directories_next(int handle, utf8 *path) { enumerate_file_info *enumFileInfo; HANDLE fileHandle; enumFileInfo = &_enumerateFileInfoList[handle]; if (enumFileInfo->handle == NULL) { fileHandle = FindFirstFileW(enumFileInfo->pattern, &enumFileInfo->data); if (fileHandle != INVALID_HANDLE_VALUE) { enumFileInfo->handle = fileHandle; } else { return false; } } else { if (!FindNextFileW(enumFileInfo->handle, &enumFileInfo->data)) { return false; } } while ( (enumFileInfo->data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0 || wcschr(enumFileInfo->data.cFileName, '.') != NULL ) { if (!FindNextFileW(enumFileInfo->handle, &enumFileInfo->data)) { return false; } } utf8 *filename = widechar_to_utf8(enumFileInfo->data.cFileName); safe_strcpy(path, filename, MAX_PATH); path_end_with_separator(path, MAX_PATH); free(filename); return true; } void platform_enumerate_directories_end(int handle) { enumerate_file_info *enumFileInfo; enumFileInfo = &_enumerateFileInfoList[handle]; if (enumFileInfo->handle != NULL) { FindClose(enumFileInfo->handle); enumFileInfo->handle = NULL; } enumFileInfo->active = false; } int platform_get_drives() { return GetLogicalDrives(); } bool platform_file_copy(const utf8 *srcPath, const utf8 *dstPath, bool overwrite) { wchar_t *wSrcPath = utf8_to_widechar(srcPath); wchar_t *wDstPath = utf8_to_widechar(dstPath); BOOL success = CopyFileW(wSrcPath, wDstPath, overwrite ? FALSE : TRUE); free(wSrcPath); free(wDstPath); return success == TRUE; } bool platform_file_move(const utf8 *srcPath, const utf8 *dstPath) { wchar_t *wSrcPath = utf8_to_widechar(srcPath); wchar_t *wDstPath = utf8_to_widechar(dstPath); BOOL success = MoveFileW(wSrcPath, wDstPath); free(wSrcPath); free(wDstPath); return success == TRUE; } bool platform_file_delete(const utf8 *path) { wchar_t *wPath = utf8_to_widechar(path); BOOL success = DeleteFileW(wPath); free(wPath); return success == TRUE; } void platform_resolve_openrct_data_path() { wchar_t wOutPath[MAX_PATH]; if (gCustomOpenrctDataPath[0] != 0) { wchar_t *customUserDataPathW = utf8_to_widechar(gCustomOpenrctDataPath); if (GetFullPathNameW(customUserDataPathW, countof(wOutPath), wOutPath, NULL) == 0) { log_fatal("Unable to resolve path '%s'.", gCustomOpenrctDataPath); exit(-1); } utf8 *outPathTemp = widechar_to_utf8(wOutPath); safe_strcpy(_userDataDirectoryPath, outPathTemp, sizeof(_userDataDirectoryPath)); free(outPathTemp); free(customUserDataPathW); path_end_with_separator(_userDataDirectoryPath, sizeof(_userDataDirectoryPath)); return; } char buffer[MAX_PATH]; platform_get_exe_path(buffer, sizeof(buffer)); safe_strcat_path(buffer, "data", MAX_PATH); if (platform_directory_exists(buffer)) { _openrctDataDirectoryPath[0] = '\0'; safe_strcpy(_openrctDataDirectoryPath, buffer, sizeof(_openrctDataDirectoryPath)); return; } else { log_fatal("Unable to resolve openrct data path."); exit(-1); } } void platform_get_openrct_data_path(utf8 *outPath, size_t outSize) { safe_strcpy(outPath, _openrctDataDirectoryPath, outSize); } /** * Default directory fallback is: * - (command line argument) * - C:\Users\%USERNAME%\OpenRCT2 (as from SHGetFolderPathW) */ void platform_resolve_user_data_path() { wchar_t wOutPath[MAX_PATH]; if (gCustomUserDataPath[0] != 0) { wchar_t *customUserDataPathW = utf8_to_widechar(gCustomUserDataPath); if (GetFullPathNameW(customUserDataPathW, countof(wOutPath), wOutPath, NULL) == 0) { log_fatal("Unable to resolve path '%s'.", gCustomUserDataPath); exit(-1); } utf8 *outPathTemp = widechar_to_utf8(wOutPath); safe_strcpy(_userDataDirectoryPath, outPathTemp, sizeof(_userDataDirectoryPath)); free(outPathTemp); free(customUserDataPathW); path_end_with_separator(_userDataDirectoryPath, sizeof(_userDataDirectoryPath)); return; } if (SUCCEEDED(SHGetFolderPathW(NULL, CSIDL_PERSONAL | CSIDL_FLAG_CREATE, NULL, 0, wOutPath))) { utf8 *outPathTemp = widechar_to_utf8(wOutPath); safe_strcpy(_userDataDirectoryPath, outPathTemp, sizeof(_userDataDirectoryPath)); free(outPathTemp); safe_strcat_path(_userDataDirectoryPath, "OpenRCT2", sizeof(_userDataDirectoryPath)); path_end_with_separator(_userDataDirectoryPath, sizeof(_userDataDirectoryPath)); } else { log_fatal("Unable to resolve user data path."); exit(-1); } } void platform_get_user_directory(utf8 *outPath, const utf8 *subDirectory, size_t outSize) { safe_strcpy(outPath, _userDataDirectoryPath, outSize); if (subDirectory != NULL && subDirectory[0] != 0) { safe_strcat_path(outPath, subDirectory, outSize); path_end_with_separator(outPath, outSize); } } void platform_show_messagebox(utf8 *message) { MessageBoxA(windows_get_window_handle(), message, "OpenRCT2", MB_OK); } /** * * rct2: 0x004080EA */ bool platform_open_common_file_dialog(utf8 *outFilename, file_dialog_desc *desc, size_t outSize) { OPENFILENAMEW openFileName; wchar_t wcFilename[MAX_PATH]; // Copy default filename to result filename buffer if (desc->default_filename == NULL) { wcFilename[0] = 0; } else { wchar_t *wcDefaultFilename = utf8_to_widechar(desc->default_filename); lstrcpyW(wcFilename, wcDefaultFilename); free(wcDefaultFilename); } // Set open file name options memset(&openFileName, 0, sizeof(OPENFILENAMEW)); openFileName.lStructSize = sizeof(OPENFILENAMEW); openFileName.hwndOwner = windows_get_window_handle(); openFileName.nMaxFile = MAX_PATH; openFileName.lpstrTitle = utf8_to_widechar(desc->title); openFileName.lpstrInitialDir = utf8_to_widechar(desc->initial_directory); openFileName.lpstrFile = wcFilename; utf8 filters[256]; utf8 *ch = filters; for (int i = 0; i < countof(desc->filters); i++) { if (desc->filters[i].name != NULL) { safe_strcpy(ch, desc->filters[i].name, sizeof(filters) - (ch - filters)); ch = strchr(ch, 0) + 1; safe_strcpy(ch, desc->filters[i].pattern, sizeof(filters) - (ch - filters)); ch = strchr(ch, 0) + 1; } } assert(ch != filters); *ch = 0; // HACK: Replace all null terminators with 0x01 so that we convert the entire string size_t fullLength = (size_t)(ch - filters); for (size_t i = 0; i < fullLength; i++) { if (filters[i] == '\0') { filters[i] = 1; } } wchar_t *wcFilter = utf8_to_widechar(filters); fullLength = lstrlenW(wcFilter); for (size_t i = 0; i < fullLength; i++) { if (wcFilter[i] == 1) { wcFilter[i] = '\0'; } } openFileName.lpstrFilter = wcFilter; // Open dialog BOOL result = false; DWORD commonFlags = OFN_EXPLORER | OFN_PATHMUSTEXIST | OFN_HIDEREADONLY | OFN_NOCHANGEDIR; if (desc->type == FD_OPEN) { openFileName.Flags = commonFlags | OFN_NONETWORKBUTTON | OFN_FILEMUSTEXIST; result = GetOpenFileNameW(&openFileName); } else if (desc->type == FD_SAVE) { openFileName.Flags = commonFlags | OFN_CREATEPROMPT | OFN_OVERWRITEPROMPT; result = GetSaveFileNameW(&openFileName); } // Clean up free((void*)openFileName.lpstrTitle); free((void*)openFileName.lpstrInitialDir); free((void*)openFileName.lpstrFilter); if (result) { utf8 *resultFilename = widechar_to_utf8(openFileName.lpstrFile); safe_strcpy(outFilename, resultFilename, outSize); free(resultFilename); // If there is no extension, append the pattern const utf8 *outFilenameExtension = path_get_extension(outFilename); if (str_is_null_or_empty(outFilenameExtension)) { int filterIndex = openFileName.nFilterIndex - 1; assert(filterIndex >= 0); assert(filterIndex < countof(desc->filters)); const utf8 *pattern = desc->filters[filterIndex].pattern; const utf8 *patternExtension = path_get_extension(pattern); if (!str_is_null_or_empty(patternExtension)) { safe_strcat_path(outFilename, patternExtension, outSize); } } } return result; } utf8 *platform_open_directory_browser(utf8 *title) { BROWSEINFOW bi; wchar_t pszBuffer[MAX_PATH], wctitle[256]; LPITEMIDLIST pidl; LPMALLOC lpMalloc; MultiByteToWideChar(CP_UTF8, 0, title, -1, wctitle, countof(wctitle)); // Initialize COM if (FAILED(CoInitializeEx(0, COINIT_APARTMENTTHREADED))) { CoUninitialize(); log_error("Error opening directory browse window"); return 0; } // Get a pointer to the shell memory allocator if (FAILED(SHGetMalloc(&lpMalloc))) { CoUninitialize(); log_error("Error opening directory browse window"); return 0; } bi.hwndOwner = NULL; bi.pidlRoot = NULL; bi.pszDisplayName = pszBuffer; bi.lpszTitle = wctitle; bi.ulFlags = BIF_RETURNFSANCESTORS | BIF_RETURNONLYFSDIRS; bi.lpfn = NULL; bi.lParam = 0; utf8 *outPath = NULL; if ((pidl = SHBrowseForFolderW(&bi))) { // Copy the path directory to the buffer if (SHGetPathFromIDListW(pidl, pszBuffer)) { // Store pszBuffer (and the path) in the outPath int outPathCapacity = lstrlenW(pszBuffer) * 4 + 1; outPath = (utf8*)malloc(outPathCapacity); WideCharToMultiByte(CP_UTF8, 0, pszBuffer, countof(pszBuffer), outPath, outPathCapacity, NULL, NULL); } } CoUninitialize(); return outPath; } /** * * rct2: 0x00407978 */ int windows_get_registry_install_info(rct2_install_info *installInfo, char *source, char *font, uint8 charset) { char subkeyInfogrames[MAX_PATH], subkeyFishTechGroup[MAX_PATH], keyName[100]; HKEY hKey; DWORD type, size; safe_strcpy(subkeyInfogrames, "Software\\Infogrames\\", sizeof(subkeyInfogrames)); safe_strcat(subkeyInfogrames, source, sizeof(subkeyInfogrames)); safe_strcpy(subkeyFishTechGroup, "Software\\Fish Technology Group\\", sizeof(subkeyFishTechGroup)); safe_strcat(subkeyFishTechGroup, source, sizeof(subkeyFishTechGroup)); if (RegOpenKeyA(HKEY_LOCAL_MACHINE, subkeyInfogrames, &hKey) != ERROR_SUCCESS) return 0; if (RegOpenKeyA(HKEY_LOCAL_MACHINE, subkeyFishTechGroup, &hKey) != ERROR_SUCCESS) return 0; size = 260; RegQueryValueExA(hKey, "Title", 0, &type, (LPBYTE)installInfo->title, &size); size = 260; RegQueryValueExA(hKey, "Path", 0, &type, (LPBYTE)installInfo->path, &size); installInfo->var_20C = 235960; size = 4; RegQueryValueExA(hKey, "InstallLevel", 0, &type, (LPBYTE)&installInfo->installLevel, &size); for (int i = 0; i <= 15; i++) { snprintf(keyName, 100, "AddonPack%d", i); size = sizeof(installInfo->expansionPackNames[i]); if (RegQueryValueExA(hKey, keyName, 0, &type, (LPBYTE)installInfo->expansionPackNames[i], &size) == ERROR_SUCCESS) installInfo->activeExpansionPacks |= (1 << i); } RegCloseKey(hKey); return 1; } HWND windows_get_window_handle() { SDL_SysWMinfo wmInfo; if (gWindow == NULL) return NULL; SDL_VERSION(&wmInfo.version); if (SDL_GetWindowWMInfo(gWindow, &wmInfo) != SDL_TRUE) { log_error("SDL_GetWindowWMInfo failed %s", SDL_GetError()); exit(-1); } HWND handle = wmInfo.info.win.window; #ifdef __MINGW32__ assert(sizeof(HWND) == sizeof(uint32)); uint8 A = (uint32)handle & 0xff000000 >> 24; uint8 B = (uint32)handle & 0xff0000 >> 16; uint8 C = (uint32)handle & 0xff00 >> 8; uint8 D = (uint32)handle & 0xff; HWND result = (HWND)(D << 24 | A << 16 | B << 8 | C); log_warning("twisting bits of handle, a workaround for mingw/sdl bug"); #else HWND result = handle; #endif // __MINGW32__ return result; } void platform_init_window_icon() { if (_dllModule != NULL) { HICON icon = LoadIcon(_dllModule, MAKEINTRESOURCE(IDI_ICON)); if (icon != NULL) { HWND hwnd = windows_get_window_handle(); SendMessage(hwnd, WM_SETICON, ICON_SMALL, (LPARAM)icon); } } } uint16 platform_get_locale_language() { CHAR langCode[4]; if (GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_SABBREVLANGNAME, (LPSTR)&langCode, sizeof(langCode)) == 0){ return LANGUAGE_UNDEFINED; } if (strcmp(langCode, "ENG") == 0){ return LANGUAGE_ENGLISH_UK; } else if (strcmp(langCode, "ENU") == 0){ return LANGUAGE_ENGLISH_US; } else if (strcmp(langCode, "DEU") == 0){ return LANGUAGE_GERMAN; } else if (strcmp(langCode, "NLD") == 0){ return LANGUAGE_DUTCH; } else if (strcmp(langCode, "FRA") == 0){ return LANGUAGE_FRENCH; } else if (strcmp(langCode, "HUN") == 0){ return LANGUAGE_HUNGARIAN; } else if (strcmp(langCode, "PLK") == 0){ return LANGUAGE_POLISH; } else if (strcmp(langCode, "ESP") == 0){ return LANGUAGE_SPANISH; } else if (strcmp(langCode, "SVE") == 0){ return LANGUAGE_SWEDISH; } else if (strcmp(langCode, "ITA") == 0){ return LANGUAGE_ITALIAN; } else if (strcmp(langCode, "POR") == 0){ return LANGUAGE_PORTUGUESE_BR; } else if (strcmp(langCode, "FIN") == 0){ return LANGUAGE_FINNISH; } else if (strcmp(langCode, "NOR") == 0){ return LANGUAGE_NORWEGIAN; } return LANGUAGE_UNDEFINED; } time_t platform_file_get_modified_time(const utf8* path) { WIN32_FILE_ATTRIBUTE_DATA data; wchar_t *wPath = utf8_to_widechar(path); BOOL result = GetFileAttributesExW(wPath, GetFileExInfoStandard, &data); free(wPath); if (result) { ULARGE_INTEGER ull; ull.LowPart = data.ftLastWriteTime.dwLowDateTime; ull.HighPart = data.ftLastWriteTime.dwHighDateTime; return ull.QuadPart / 10000000ULL - 11644473600ULL; } else { return 0; } } uint8 platform_get_locale_currency() { CHAR currCode[4]; if (GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_SINTLSYMBOL, (LPSTR)&currCode, sizeof(currCode)) == 0 ) { return platform_get_currency_value(NULL); } return platform_get_currency_value(currCode); } uint8 platform_get_locale_measurement_format() { UINT measurement_system; if (GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_IMEASURE | LOCALE_RETURN_NUMBER, (LPSTR)&measurement_system, sizeof(measurement_system)) == 0 ) { return MEASUREMENT_FORMAT_METRIC; } switch (measurement_system) { case 1: return MEASUREMENT_FORMAT_IMPERIAL; case 0: default: return MEASUREMENT_FORMAT_METRIC; } } uint8 platform_get_locale_temperature_format() { // There does not seem to be a function to obtain this, just check the countries UINT country; if (GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_IMEASURE | LOCALE_RETURN_NUMBER, (LPSTR)&country, sizeof(country)) == 0 ) { return TEMPERATURE_FORMAT_C; } switch (country) { case CTRY_UNITED_STATES: case CTRY_BELIZE: return TEMPERATURE_FORMAT_F; default: return TEMPERATURE_FORMAT_C; } } bool platform_check_steam_overlay_attached() { return GetModuleHandle("GameOverlayRenderer.dll") != NULL; } char *strndup(const char *src, size_t size) { size_t len = strnlen(src, size); char *dst = (char *)malloc(len + 1); if (dst == NULL) { return NULL; } dst = memcpy(dst, src, len); dst[len] = '\0'; return (char *)dst; } void platform_get_exe_path(utf8 *outPath, size_t outSize) { wchar_t exePath[MAX_PATH]; wchar_t tempPath[MAX_PATH]; wchar_t *exeDelimiter; GetModuleFileNameW(NULL, exePath, MAX_PATH); exeDelimiter = wcsrchr(exePath, *PATH_SEPARATOR); *exeDelimiter = L'\0'; wcscpy_s(tempPath, MAX_PATH, exePath); _wfullpath(exePath, tempPath, MAX_PATH); WideCharToMultiByte(CP_UTF8, 0, exePath, MAX_PATH, outPath, (int) outSize, NULL, NULL); } bool platform_get_font_path(TTFFontDescriptor *font, utf8 *buffer, size_t size) { #if !defined(__MINGW32__) && ((NTDDI_VERSION >= NTDDI_VISTA) && !defined(_USING_V110_SDK71_) && !defined(_ATL_XP_TARGETING)) wchar_t *fontFolder; if (SUCCEEDED(SHGetKnownFolderPath(&FOLDERID_Fonts, 0, NULL, &fontFolder))) { // Convert wchar to utf8, then copy the font folder path to the buffer. utf8 *outPathTemp = widechar_to_utf8(fontFolder); safe_strcpy(buffer, outPathTemp, size); free(outPathTemp); CoTaskMemFree(fontFolder); // Append the requested font's file name. safe_strcat_path(buffer, font->filename, size); return true; } else { return false; } #else log_warning("Compatibility hack: falling back to C:\\Windows\\Fonts"); safe_strcpy(buffer, "C:\\Windows\\Fonts\\", size); safe_strcat_path(buffer, font->filename, size); return true; #endif } datetime64 platform_get_datetime_now_utc() { // Get file time FILETIME fileTime; GetSystemTimeAsFileTime(&fileTime); uint64 fileTime64 = ((uint64)fileTime.dwHighDateTime << 32ULL) | ((uint64)fileTime.dwLowDateTime); // File time starts from: 1601-01-01T00:00:00Z // Convert to start from: 0001-01-01T00:00:00Z datetime64 utcNow = fileTime64 - 504911232000000000ULL; return utcNow; } utf8* platform_get_username() { static char username[UNLEN + 1]; DWORD usernameLength = UNLEN + 1; if (!GetUserName(username, &usernameLength)) { return NULL; } return username; } /////////////////////////////////////////////////////////////////////////////// // File association setup /////////////////////////////////////////////////////////////////////////////// #define SOFTWARE_CLASSES L"Software\\Classes" static void get_progIdName(wchar_t *dst, const utf8 *extension) { utf8 progIdName[128]; safe_strcpy(progIdName, OPENRCT2_NAME, sizeof(progIdName)); safe_strcat(progIdName, extension, sizeof(progIdName)); wchar_t *progIdNameW = utf8_to_widechar(progIdName); lstrcpyW(dst, progIdNameW); free(progIdNameW); } static bool windows_setup_file_association( const utf8 * extension, const utf8 * fileTypeText, const utf8 * commandText, const utf8 * commandArgs, const uint32 iconIndex ) { wchar_t exePathW[MAX_PATH]; wchar_t dllPathW[MAX_PATH]; int printResult; GetModuleFileNameW(NULL, exePathW, sizeof(exePathW)); GetModuleFileNameW(_dllModule, dllPathW, sizeof(dllPathW)); wchar_t *extensionW = utf8_to_widechar(extension); wchar_t *fileTypeTextW = utf8_to_widechar(fileTypeText); wchar_t *commandTextW = utf8_to_widechar(commandText); wchar_t *commandArgsW = utf8_to_widechar(commandArgs); wchar_t progIdNameW[128]; get_progIdName(progIdNameW, extension); bool result = false; // [HKEY_CURRENT_USER\Software\Classes] HKEY hRootKey = NULL; if (RegOpenKeyW(HKEY_CURRENT_USER, SOFTWARE_CLASSES, &hRootKey) != ERROR_SUCCESS) { goto fail; } // [hRootKey\.ext] if (RegSetValueW(hRootKey, extensionW, REG_SZ, progIdNameW, 0) != ERROR_SUCCESS) { goto fail; } HKEY hKey = NULL; if (RegCreateKeyW(hRootKey, progIdNameW, &hKey) != ERROR_SUCCESS) { goto fail; } // [hRootKey\OpenRCT2.ext] if (RegSetValueW(hKey, NULL, REG_SZ, fileTypeTextW, 0) != ERROR_SUCCESS) { goto fail; } // [hRootKey\OpenRCT2.ext\DefaultIcon] wchar_t szIconW[MAX_PATH]; printResult = swprintf_s(szIconW, MAX_PATH, L"\"%s\",%d", dllPathW, iconIndex); assert(printResult >= 0); if (RegSetValueW(hKey, L"DefaultIcon", REG_SZ, szIconW, 0) != ERROR_SUCCESS) { goto fail; } // [hRootKey\OpenRCT2.sv6\shell] if (RegSetValueW(hKey, L"shell", REG_SZ, L"open", 0) != ERROR_SUCCESS) { goto fail; } // [hRootKey\OpenRCT2.sv6\shell\open] if (RegSetValueW(hKey, L"shell\\open", REG_SZ, commandTextW, 0) != ERROR_SUCCESS) { goto fail; } // [hRootKey\OpenRCT2.sv6\shell\open\command] wchar_t szCommandW[MAX_PATH]; printResult = swprintf_s(szCommandW, MAX_PATH, L"\"%s\" %s", exePathW, commandArgsW); assert(printResult >= 0); if (RegSetValueW(hKey, L"shell\\open\\command", REG_SZ, szCommandW, 0) != ERROR_SUCCESS) { goto fail; } result = true; fail: free(extensionW); free(fileTypeTextW); free(commandTextW); free(commandArgsW); RegCloseKey(hKey); RegCloseKey(hRootKey); return result; } static void windows_remove_file_association(const utf8 * extension) { // [HKEY_CURRENT_USER\Software\Classes] HKEY hRootKey; if (RegOpenKeyW(HKEY_CURRENT_USER, SOFTWARE_CLASSES, &hRootKey) == ERROR_SUCCESS) { // [hRootKey\.ext] RegDeleteTreeA(hRootKey, extension); // [hRootKey\OpenRCT2.ext] wchar_t progIdName[128]; get_progIdName(progIdName, extension); RegDeleteTreeW(hRootKey, progIdName); RegCloseKey(hRootKey); } } void platform_setup_file_associations() { // Setup file extensions windows_setup_file_association(".sc4", "RCT1 Scenario (.sc4)", "Play", "\"%1\"", 0); windows_setup_file_association(".sc6", "RCT2 Scenario (.sc6)", "Play", "\"%1\"", 0); windows_setup_file_association(".sv4", "RCT1 Saved Game (.sc4)", "Play", "\"%1\"", 0); windows_setup_file_association(".sv6", "RCT2 Saved Game (.sv6)", "Play", "\"%1\"", 0); windows_setup_file_association(".td4", "RCT1 Track Design (.td4)", "Install", "\"%1\"", 0); windows_setup_file_association(".td6", "RCT2 Track Design (.td6)", "Install", "\"%1\"", 0); // Refresh explorer SHChangeNotify(SHCNE_ASSOCCHANGED, SHCNF_IDLIST, NULL, NULL); } void platform_remove_file_associations() { // Remove file extensions windows_remove_file_association(".sc4"); windows_remove_file_association(".sc6"); windows_remove_file_association(".sv4"); windows_remove_file_association(".sv6"); windows_remove_file_association(".td4"); windows_remove_file_association(".td6"); // Refresh explorer SHChangeNotify(SHCNE_ASSOCCHANGED, SHCNF_IDLIST, NULL, NULL); } /////////////////////////////////////////////////////////////////////////////// #endif