/** * \file os_win32.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Ruurd A. Reitsma * \author Claus Hentschel * \author Angus Leeming * \author Enrico Forestieri * * Full author contact details are available in file CREDITS. * * Various OS specific functions */ #include #include "LyXRC.h" #include "support/os.h" #include "support/os_win32.h" #include "support/debug.h" #include "support/environment.h" #include "support/FileName.h" #include "support/gettext.h" #include "support/filetools.h" #include "support/lstrings.h" #include "support/ExceptionMessage.h" #include "support/qstring_helpers.h" #include "support/lassert.h" #include #include #include #include #include // _getdrive #include // SHGetFolderPath #include #include #include // Must define SHGFP_TYPE_CURRENT for older versions of MinGW. #if defined(__MINGW32__) || defined(__CYGWIN__) || defined(__CYGWIN32__) # include # if __W32API_MAJOR_VERSION < 3 || \ __W32API_MAJOR_VERSION == 3 && __W32API_MINOR_VERSION < 2 # define SHGFP_TYPE_CURRENT 0 # endif #endif #if !defined(ASSOCF_INIT_IGNOREUNKNOWN) && !defined(__MINGW32__) #define ASSOCF_INIT_IGNOREUNKNOWN 0 #endif #if defined(__MINGW32__) #include #endif extern "C" { extern void __wgetmainargs(int * argc, wchar_t *** argv, wchar_t *** envp, int expand_wildcards, int * new_mode); } using namespace std; namespace lyx { void lyx_exit(int); namespace support { namespace os { namespace { int argc_ = 0; wchar_t ** argv_ = 0; bool windows_style_tex_paths_ = true; string cygdrive = "/cygdrive"; BOOL terminate_handler(DWORD event) { if (event == CTRL_CLOSE_EVENT || event == CTRL_LOGOFF_EVENT || event == CTRL_SHUTDOWN_EVENT) { lyx::lyx_exit(1); return TRUE; } return FALSE; } } // namespace anon void init(int argc, char * argv[]) { /* Note from Angus, 17 Jan 2005: * * The code below is taken verbatim from Ruurd's original patch * porting LyX to Win32. * * Windows allows us to define LyX either as a console-based app * or as a GUI-based app. Ruurd decided to define LyX as a * console-based app with a "main" function rather than a "WinMain" * function as the point of entry to the program, but to * immediately close the console window that Windows helpfully * opens for us. Doing so allows the user to see all of LyX's * debug output simply by running LyX from a DOS or MSYS-shell * prompt. * * The alternative approach is to define LyX as a genuine * GUI-based app, with a "WinMain" function as the entry point to the * executable rather than a "main" function, so: * * #if defined (_WIN32) * # define WIN32_LEAN_AND_MEAN * # include // for __argc, __argv * # include // for WinMain * #endif * * // This will require the "-mwindows" flag when linking with * // gcc under MinGW. * // For MSVC, use "/subsystem:windows". * #if defined (_WIN32) * int WINAPI WinMain(HINSTANCE, HINSTANCE, LPSTR, int) * { * return mymain(__argc, __argv); * } * #endif * * where "mymain" is just a renamed "main". * * However, doing so means that the lyxerr messages would mysteriously * disappear. They could be resurrected with something like: * * #ifdef WIN32 * AllocConsole(); * freopen("conin$","r",stdin); * freopen("conout$","w",stdout); * freopen("conout$","w",stderr); * #endif * * This code could be invoked (say) the first time that lyxerr * is called. However, Ruurd has tried this route and found that some * shell scripts failed, for mysterious reasons... * * I've chosen for now, therefore, to simply add Ruurd's original * code as-is. A wrapper program hidecmd.c has been added to * development/Win32 which hides the console window of lyx when * lyx is invoked as a parameter of hidecmd.exe. */ // Get the wide program arguments array wchar_t ** envp = 0; int newmode = 0; __wgetmainargs(&argc_, &argv_, &envp, -1, &newmode); LASSERT(argc == argc_, /**/); // If Cygwin is detected, query the cygdrive prefix. // The cygdrive prefix is needed for translating windows style paths // to posix style paths in LaTeX files when the Cygwin teTeX is used. int i; HKEY hkey; char buf[MAX_PATH]; DWORD bufsize = sizeof(buf); LONG retval = ERROR_FILE_NOT_FOUND; HKEY const mainkey[2] = { HKEY_LOCAL_MACHINE, HKEY_CURRENT_USER }; char const * const subkey[2] = { "Software\\Cygwin\\setup", // Cygwin 1.7 "Software\\Cygnus Solutions\\Cygwin\\mounts v2\\/" // Prev. ver. }; char const * const valuename[2] = { "rootdir", // Cygwin 1.7 or later "native" // Previous versions }; // Check for newer Cygwin versions first, then older ones for (i = 0; i < 2 && retval != ERROR_SUCCESS; ++i) { for (int k = 0; k < 2 && retval != ERROR_SUCCESS; ++k) retval = RegOpenKey(mainkey[k], subkey[i], &hkey); } if (retval == ERROR_SUCCESS) { // Query the Cygwin root directory retval = RegQueryValueEx(hkey, valuename[i - 1], NULL, NULL, (LPBYTE) buf, &bufsize); RegCloseKey(hkey); string const mount = string(buf) + "\\bin\\mount.exe"; if (retval == ERROR_SUCCESS && FileName(mount).exists()) { cmd_ret const p = runCommand(mount + " --show-cygdrive-prefix"); // The output of the mount command is as follows: // Prefix Type Flags // /cygdrive system binmode // So, we use the inner split to pass the second line // to the outer split which sets cygdrive with its // contents until the first blank, discarding the // unneeded return value. if (p.first != -1 && prefixIs(p.second, "Prefix")) split(split(p.second, '\n'), cygdrive, ' '); } } // Catch shutdown events. SetConsoleCtrlHandler((PHANDLER_ROUTINE)terminate_handler, TRUE); } string utf8_argv(int i) { LASSERT(i < argc_, /**/); return fromqstr(QString::fromWCharArray(argv_[i])); } void remove_internal_args(int i, int num) { argc_ -= num; for (int j = i; j < argc_; ++j) argv_[j] = argv_[j + num]; } string current_root() { // _getdrive returns the current drive (1=A, 2=B, and so on). char const drive = ::_getdrive() + 'A' - 1; return string(1, drive) + ":/"; } bool isFilesystemCaseSensitive() { return false; } docstring::size_type common_path(docstring const & p1, docstring const & p2) { size_t i = 0; size_t const p1_len = p1.length(); size_t const p2_len = p2.length(); while (i < p1_len && i < p2_len && uppercase(p1[i]) == uppercase(p2[i])) ++i; if ((i < p1_len && i < p2_len) || (i < p1_len && p1[i] != '/' && i == p2_len) || (i < p2_len && p2[i] != '/' && i == p1_len)) { if (i) --i; // here was the last match while (i && p1[i] != '/') --i; } return i; } bool path_prefix_is(string const & path, string const & pre) { return path_prefix_is(const_cast(path), pre, CASE_UNCHANGED); } bool path_prefix_is(string & path, string const & pre, path_case how) { docstring const p1 = from_utf8(path); docstring const p2 = from_utf8(pre); docstring::size_type const p1_len = p1.length(); docstring::size_type const p2_len = p2.length(); docstring::size_type common_len = common_path(p1, p2); if (p2[p2_len - 1] == '/' && p1_len != p2_len) ++common_len; if (common_len != p2_len) return false; if (how == CASE_ADJUSTED && !prefixIs(path, pre)) { if (p1_len < common_len) path = to_utf8(p2.substr(0, p1_len)); else path = to_utf8(p2 + p1.substr(common_len, p1_len - common_len)); } return true; } string external_path(string const & p) { string const dos_path = subst(p, "/", "\\"); LYXERR(Debug::LATEX, " [" << p << "]->>[" << dos_path << ']'); return dos_path; } static QString const get_long_path(QString const & short_path) { // GetLongPathNameW needs the path in utf16 encoding. vector long_path(MAX_PATH); DWORD result = GetLongPathNameW((wchar_t *) short_path.utf16(), &long_path[0], long_path.size()); if (result > long_path.size()) { long_path.resize(result); result = GetLongPathNameW((wchar_t *) short_path.utf16(), &long_path[0], long_path.size()); LASSERT(result <= long_path.size(), /**/); } return (result == 0) ? short_path : QString::fromWCharArray(&long_path[0]); } static QString const get_short_path(QString const & long_path, file_access how) { // CreateFileW and GetShortPathNameW need the path in utf16 encoding. if (how == CREATE) { HANDLE h = CreateFileW((wchar_t *) long_path.utf16(), GENERIC_WRITE, 0, NULL, CREATE_NEW, FILE_ATTRIBUTE_NORMAL, NULL); if (h == INVALID_HANDLE_VALUE && GetLastError() != ERROR_FILE_EXISTS) return long_path; CloseHandle(h); } vector short_path(MAX_PATH); DWORD result = GetShortPathNameW((wchar_t *) long_path.utf16(), &short_path[0], short_path.size()); if (result > short_path.size()) { short_path.resize(result); result = GetShortPathNameW((wchar_t *) long_path.utf16(), &short_path[0], short_path.size()); LASSERT(result <= short_path.size(), /**/); } return (result == 0) ? long_path : QString::fromWCharArray(&short_path[0]); } string internal_path(string const & p) { return subst(fromqstr(get_long_path(toqstr(p))), "\\", "/"); } string safe_internal_path(string const & p, file_access how) { return subst(fromqstr(get_short_path(toqstr(p), how)), "\\", "/"); } string external_path_list(string const & p) { return subst(p, '/', '\\'); } string internal_path_list(string const & p) { return subst(p, '\\', '/'); } string latex_path(string const & p) { // We may need a posix style path or a windows style path (depending // on windows_style_tex_paths_), but we use always forward slashes, // since it gets written into a .tex file. if (!windows_style_tex_paths_ && FileName::isAbsolute(p)) { string const drive = p.substr(0, 2); string const cygprefix = cygdrive + "/" + drive.substr(0, 1); string const cygpath = subst(subst(p, '\\', '/'), drive, cygprefix); LYXERR(Debug::LATEX, " [" << p << "]->>[" << cygpath << ']'); return cygpath; } return subst(p, '\\', '/'); } string latex_path_list(string const & p) { if (p.empty()) return p; // We may need a posix style path or a windows style path (depending // on windows_style_tex_paths_), but we use always forward slashes, // since this is standard for all tex engines. if (!windows_style_tex_paths_) { string pathlist; for (size_t i = 0, k = 0; i != string::npos; k = i) { i = p.find(';', i); string path = subst(p.substr(k, i - k), '\\', '/'); if (FileName::isAbsolute(path)) { string const drive = path.substr(0, 2); string const cygprefix = cygdrive + "/" + drive.substr(0, 1); path = subst(path, drive, cygprefix); } pathlist += path; if (i != string::npos) { pathlist += ':'; ++i; } } return pathlist; } return subst(p, '\\', '/'); } bool is_valid_strftime(string const & p) { string::size_type pos = p.find_first_of('%'); while (pos != string::npos) { if (pos + 1 == string::npos) break; if (!containsOnly(p.substr(pos + 1, 1), "aAbBcdfHIjmMpSUwWxXyYzZ%")) return false; if (pos + 2 == string::npos) break; pos = p.find_first_of('%', pos + 2); } return true; } // returns a string suitable to be passed to popen when // reading a pipe char const * popen_read_mode() { return "r"; } string const & nulldev() { static string const nulldev_ = "nul"; return nulldev_; } shell_type shell() { return CMD_EXE; } char path_separator(path_type type) { if (type == TEXENGINE) return windows_style_tex_paths_ ? ';' : ':'; return ';'; } void windows_style_tex_paths(bool use_windows_paths) { windows_style_tex_paths_ = use_windows_paths; } GetFolderPath::GetFolderPath() : folder_module_(0), folder_path_func_(0) { folder_module_ = LoadLibrary("shfolder.dll"); if (!folder_module_) { throw ExceptionMessage(ErrorException, _("System file not found"), _("Unable to load shfolder.dll\nPlease install.")); } folder_path_func_ = reinterpret_cast(::GetProcAddress(folder_module_, "SHGetFolderPathA")); if (folder_path_func_ == 0) { throw ExceptionMessage(ErrorException, _("System function not found"), _("Unable to find SHGetFolderPathA in shfolder.dll\n" "Don't know how to proceed. Sorry.")); } } GetFolderPath::~GetFolderPath() { if (folder_module_) FreeLibrary(folder_module_); } // Given a folder ID, returns the folder name (in unix-style format). // Eg CSIDL_PERSONAL -> "C:/Documents and Settings/USERNAME/My Documents" string const GetFolderPath::operator()(folder_id _id) const { char folder_path[MAX_PATH]; int id = 0; switch (_id) { case PERSONAL: id = CSIDL_PERSONAL; break; case APPDATA: id = CSIDL_APPDATA; break; default: LASSERT(false, /**/); } HRESULT const result = (folder_path_func_)(0, id, 0, SHGFP_TYPE_CURRENT, folder_path); return (result == 0) ? os::internal_path(to_utf8(from_filesystem8bit(folder_path))) : string(); } bool canAutoOpenFile(string const & ext, auto_open_mode const mode) { if (ext.empty()) return false; string const full_ext = "." + ext; DWORD bufSize = MAX_PATH + 100; TCHAR buf[MAX_PATH + 100]; // reference: http://msdn.microsoft.com/en-us/library/bb773471.aspx char const * action = (mode == VIEW) ? "open" : "edit"; return S_OK == AssocQueryString(ASSOCF_INIT_IGNOREUNKNOWN, ASSOCSTR_EXECUTABLE, full_ext.c_str(), action, buf, &bufSize); } bool autoOpenFile(string const & filename, auto_open_mode const mode, string const & path) { string const texinputs = os::latex_path_list( replaceCurdirPath(path, lyxrc.texinputs_prefix)); string const sep = windows_style_tex_paths_ ? ";" : ":"; string const oldval = getEnv("TEXINPUTS"); string const newval = "." + sep + texinputs + sep + oldval; if (!path.empty() && !lyxrc.texinputs_prefix.empty()) setEnv("TEXINPUTS", newval); // reference: http://msdn.microsoft.com/en-us/library/bb762153.aspx char const * action = (mode == VIEW) ? "open" : "edit"; bool success = reinterpret_cast(ShellExecute(NULL, action, to_local8bit(from_utf8(filename)).c_str(), NULL, NULL, 1)) > 32; if (!path.empty() && !lyxrc.texinputs_prefix.empty()) setEnv("TEXINPUTS", oldval); return success; } string real_path(string const & path) { // See http://msdn.microsoft.com/en-us/library/aa366789(VS.85).aspx QString const qpath = get_long_path(toqstr(path)); HANDLE hpath = CreateFileW((wchar_t *) qpath.utf16(), GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL); if (hpath == INVALID_HANDLE_VALUE) { // The file cannot be accessed. return path; } // Get the file size. DWORD size_hi = 0; DWORD size_lo = GetFileSize(hpath, &size_hi); if (size_lo == 0 && size_hi == 0) { // A zero-length file cannot be mapped. CloseHandle(hpath); return path; } // Create a file mapping object. HANDLE hmap = CreateFileMapping(hpath, NULL, PAGE_READONLY, 0, 1, NULL); if (!hmap) { CloseHandle(hpath); return path; } // Create a file mapping to get the file name. void * pmem = MapViewOfFile(hmap, FILE_MAP_READ, 0, 0, 1); if (!pmem) { CloseHandle(hmap); CloseHandle(hpath); return path; } TCHAR realpath[MAX_PATH + 1]; if (!GetMappedFileName(GetCurrentProcess(), pmem, realpath, MAX_PATH)) { UnmapViewOfFile(pmem); CloseHandle(hmap); CloseHandle(hpath); return path; } // Translate device name to UNC prefix or drive letters. TCHAR tmpbuf[MAX_PATH] = TEXT("\\Device\\Mup\\"); UINT namelen = _tcslen(tmpbuf); if (_tcsnicmp(realpath, tmpbuf, namelen) == 0) { // UNC path _snprintf(tmpbuf, MAX_PATH, "\\\\%s", realpath + namelen); strncpy(realpath, tmpbuf, MAX_PATH); realpath[MAX_PATH] = '\0'; } else if (GetLogicalDriveStrings(MAX_PATH - 1, tmpbuf)) { // Check whether device name corresponds to some local drive. TCHAR name[MAX_PATH]; TCHAR drive[3] = TEXT(" :"); bool found = false; TCHAR * p = tmpbuf; do { // Copy the drive letter to the template string drive[0] = *p; // Look up each device name if (QueryDosDevice(drive, name, MAX_PATH)) { namelen = _tcslen(name); if (namelen < MAX_PATH) { found = _tcsnicmp(realpath, name, namelen) == 0; if (found) { // Repl. device spec with drive TCHAR tempfile[MAX_PATH]; _snprintf(tempfile, MAX_PATH, "%s%s", drive, realpath + namelen); strncpy(realpath, tempfile, MAX_PATH); realpath[MAX_PATH] = '\0'; } } } // Advance p to the next NULL character. while (*p++) ; } while (!found && *p); } UnmapViewOfFile(pmem); CloseHandle(hmap); CloseHandle(hpath); string const retpath = subst(string(realpath), '\\', '/'); return FileName::fromFilesystemEncoding(retpath).absFileName(); } } // namespace os } // namespace support } // namespace lyx