package os import "core:time" import win32 "core:sys/windows" @(private) full_path_from_name :: proc(name: string, allocator := context.allocator) -> (path: string, err: Errno) { name := name; if name == "" { name = "."; } p := win32.utf8_to_utf16(name, context.temp_allocator); buf := make([dynamic]u16, 100, allocator); for { n := win32.GetFullPathNameW(raw_data(p), u32(len(buf)), raw_data(buf), nil); if n == 0 { delete(buf); return "", Errno(win32.GetLastError()); } if n <= u32(len(buf)) { return win32.utf16_to_utf8(buf[:n]), ERROR_NONE; } resize(&buf, len(buf)*2); } return; } @(private) _stat :: proc(name: string, create_file_attributes: u32, allocator := context.allocator) -> (fi: File_Info, e: Errno) { if len(name) == 0 { return {}, ERROR_PATH_NOT_FOUND; } context.allocator = allocator; wname := win32.utf8_to_wstring(fix_long_path(name), context.temp_allocator); fa: win32.WIN32_FILE_ATTRIBUTE_DATA; ok := win32.GetFileAttributesExW(wname, win32.GetFileExInfoStandard, &fa); if ok && fa.dwFileAttributes & win32.FILE_ATTRIBUTE_REPARSE_POINT == 0 { // Not a symlink return file_info_from_win32_file_attribute_data(&fa, name); } err := 0 if ok else win32.GetLastError(); if err == win32.ERROR_SHARING_VIOLATION { fd: win32.WIN32_FIND_DATAW; sh := win32.FindFirstFileW(wname, &fd); if sh == win32.INVALID_HANDLE_VALUE { e = Errno(win32.GetLastError()); return; } win32.FindClose(sh); return file_info_from_win32_find_data(&fd, name); } h := win32.CreateFileW(wname, 0, 0, nil, win32.OPEN_EXISTING, create_file_attributes, nil); if h == win32.INVALID_HANDLE_VALUE { e = Errno(win32.GetLastError()); return; } defer win32.CloseHandle(h); return file_info_from_get_file_information_by_handle(name, h); } lstat :: proc(name: string, allocator := context.allocator) -> (File_Info, Errno) { attrs := win32.FILE_FLAG_BACKUP_SEMANTICS; attrs |= win32.FILE_FLAG_OPEN_REPARSE_POINT; return _stat(name, attrs, allocator); } stat :: proc(name: string, allocator := context.allocator) -> (File_Info, Errno) { attrs := win32.FILE_FLAG_BACKUP_SEMANTICS; return _stat(name, attrs, allocator); } fstat :: proc(fd: Handle, allocator := context.allocator) -> (File_Info, Errno) { if fd == 0 { return {}, ERROR_INVALID_HANDLE; } context.allocator = allocator; path, err := cleanpath_from_handle(fd); if err != ERROR_NONE { return {}, err; } h := win32.HANDLE(fd); switch win32.GetFileType(h) { case win32.FILE_TYPE_PIPE, win32.FILE_TYPE_CHAR: fi: File_Info; fi.fullpath = path; fi.name = basename(path); fi.mode |= file_type_mode(h); return fi, ERROR_NONE; } return file_info_from_get_file_information_by_handle(path, h); } @(private) cleanpath_strip_prefix :: proc(buf: []u16) -> []u16 { buf := buf; N := 0; for c, i in buf { if c == 0 { break; } N = i+1; } buf = buf[:N]; if len(buf) >= 4 { if buf[0] == '\\' && buf[1] == '\\' && buf[2] == '?' && buf[3] == '\\' { buf = buf[4:]; } } return buf; } @(private) cleanpath_from_handle :: proc(fd: Handle) -> (string, Errno) { if fd == 0 { return "", ERROR_INVALID_HANDLE; } h := win32.HANDLE(fd); MAX_PATH := win32.DWORD(260) + 1; buf: []u16; for { buf = make([]u16, MAX_PATH, context.temp_allocator); err := win32.GetFinalPathNameByHandleW(h, raw_data(buf), MAX_PATH, 0); switch Errno(err) { case ERROR_PATH_NOT_FOUND, ERROR_INVALID_PARAMETER: return "", Errno(err); case ERROR_NOT_ENOUGH_MEMORY: MAX_PATH = MAX_PATH*2 + 1; continue; } break; } return cleanpath_from_buf(buf), ERROR_NONE; } @(private) cleanpath_from_handle_u16 :: proc(fd: Handle) -> ([]u16, Errno) { if fd == 0 { return nil, ERROR_INVALID_HANDLE; } h := win32.HANDLE(fd); MAX_PATH := win32.DWORD(260) + 1; buf: []u16; for { buf = make([]u16, MAX_PATH, context.temp_allocator); err := win32.GetFinalPathNameByHandleW(h, raw_data(buf), MAX_PATH, 0); switch Errno(err) { case ERROR_PATH_NOT_FOUND, ERROR_INVALID_PARAMETER: return nil, Errno(err); case ERROR_NOT_ENOUGH_MEMORY: MAX_PATH = MAX_PATH*2 + 1; continue; } break; } return cleanpath_strip_prefix(buf), ERROR_NONE; } @(private) cleanpath_from_buf :: proc(buf: []u16) -> string { buf := buf; buf = cleanpath_strip_prefix(buf); return win32.utf16_to_utf8(buf, context.allocator); } @(private) basename :: proc(name: string) -> (base: string) { name := name; if len(name) > 3 && name[:3] == `\\?` { name = name[3:]; } if len(name) == 2 && name[1] == ':' { return "."; } else if len(name) > 2 && name[1] == ':' { name = name[2:]; } i := len(name)-1; for ; i > 0 && (name[i] == '/' || name[i] == '\\'); i -= 1 { name = name[:i]; } for i -= 1; i >= 0; i -= 1 { if name[i] == '/' || name[i] == '\\' { name = name[i+1:]; break; } } return name; } @(private) file_type_mode :: proc(h: win32.HANDLE) -> File_Mode { switch win32.GetFileType(h) { case win32.FILE_TYPE_PIPE: return File_Mode_Named_Pipe; case win32.FILE_TYPE_CHAR: return File_Mode_Device | File_Mode_Char_Device; } return 0; } @(private) file_mode_from_file_attributes :: proc(FileAttributes: win32.DWORD, h: win32.HANDLE, ReparseTag: win32.DWORD) -> (mode: File_Mode) { if FileAttributes & win32.FILE_ATTRIBUTE_READONLY != 0 { mode |= 0o444; } else { mode |= 0o666; } is_sym := false; if FileAttributes & win32.FILE_ATTRIBUTE_REPARSE_POINT == 0 { is_sym = false; } else { is_sym = ReparseTag == win32.IO_REPARSE_TAG_SYMLINK || ReparseTag == win32.IO_REPARSE_TAG_MOUNT_POINT; } if is_sym { mode |= File_Mode_Sym_Link; } else { if FileAttributes & win32.FILE_ATTRIBUTE_DIRECTORY != 0 { mode |= 0o111 | File_Mode_Dir; } if h != nil { mode |= file_type_mode(h); } } return; } @(private) file_info_from_win32_file_attribute_data :: proc(d: ^win32.WIN32_FILE_ATTRIBUTE_DATA, name: string) -> (fi: File_Info, e: Errno) { fi.size = i64(d.nFileSizeHigh)<<32 + i64(d.nFileSizeLow); fi.mode |= file_mode_from_file_attributes(d.dwFileAttributes, nil, 0); fi.is_dir = fi.mode & File_Mode_Dir != 0; fi.creation_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftCreationTime)); fi.modification_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftLastWriteTime)); fi.access_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftLastAccessTime)); fi.fullpath, e = full_path_from_name(name); fi.name = basename(fi.fullpath); return; } @(private) file_info_from_win32_find_data :: proc(d: ^win32.WIN32_FIND_DATAW, name: string) -> (fi: File_Info, e: Errno) { fi.size = i64(d.nFileSizeHigh)<<32 + i64(d.nFileSizeLow); fi.mode |= file_mode_from_file_attributes(d.dwFileAttributes, nil, 0); fi.is_dir = fi.mode & File_Mode_Dir != 0; fi.creation_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftCreationTime)); fi.modification_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftLastWriteTime)); fi.access_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftLastAccessTime)); fi.fullpath, e = full_path_from_name(name); fi.name = basename(fi.fullpath); return; } @(private) file_info_from_get_file_information_by_handle :: proc(path: string, h: win32.HANDLE) -> (File_Info, Errno) { d: win32.BY_HANDLE_FILE_INFORMATION; if !win32.GetFileInformationByHandle(h, &d) { err := Errno(win32.GetLastError()); return {}, err; } ti: win32.FILE_ATTRIBUTE_TAG_INFO; if !win32.GetFileInformationByHandleEx(h, .FileAttributeTagInfo, &ti, size_of(ti)) { err := win32.GetLastError(); if err != u32(ERROR_INVALID_PARAMETER) { return {}, Errno(err); } // Indicate this is a symlink on FAT file systems ti.ReparseTag = 0; } fi: File_Info; fi.fullpath = path; fi.name = basename(path); fi.size = i64(d.nFileSizeHigh)<<32 + i64(d.nFileSizeLow); fi.mode |= file_mode_from_file_attributes(ti.FileAttributes, h, ti.ReparseTag); fi.is_dir = fi.mode & File_Mode_Dir != 0; fi.creation_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftCreationTime)); fi.modification_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftLastWriteTime)); fi.access_time = time.unix(0, win32.FILETIME_as_unix_nanoseconds(d.ftLastAccessTime)); return fi, ERROR_NONE; }