// Copyright (c) 2019 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. module os #include #include #include #include //#include // for backtrace_symbols_fd /* struct dirent { d_ino int d_off int d_reclen u16 d_type byte d_name [256]byte } */ struct C.dirent { d_name byteptr } const ( args = []string MAX_PATH = 4096 ) const ( FILE_ATTRIBUTE_DIRECTORY = 16 // Windows ) import const ( INVALID_FILE_ATTRIBUTES ) struct FILE { } struct File { cfile *FILE } struct FileInfo { name string size int } import const ( SEEK_SET SEEK_END SA_SIGINFO S_IFMT S_IFDIR SIGABRT SIGFPE SIGILL SIGINT SIGSEGV SIGTERM ) struct C.stat { st_size int st_mode int st_mtime int } struct C.DIR { } //struct C.dirent { //d_name byteptr //} struct C.sigaction { mut: sa_mask int sa_sigaction int sa_flags int } fn C.getline(voidptr, voidptr, voidptr) int fn C.ftell(fp voidptr) int fn C.getenv(byteptr) byteptr fn C.sigaction(int, voidptr, int) fn todo_remove(){} fn init_os_args(argc int, argv *byteptr) []string { mut args := []string for i := 0; i < argc; i++ { args << string(argv[i]) } return args } fn parse_windows_cmd_line(cmd byteptr) []string { s := string(cmd) return s.split(' ') } // read_file reads the file in `path` and returns the contents. //pub fn read_file(path string) ?string { pub fn read_file(path string) ?string { mut res := '' mut mode := 'rb' cpath := path.cstr() fp := C.fopen(cpath, mode.cstr()) if isnil(fp) { return error('failed to open file "$path"') //panic('failed to open file "$path"') } C.fseek(fp, 0, SEEK_END) fsize := C.ftell(fp) // C.fseek(fp, 0, SEEK_SET) // same as C.rewind(fp) below C.rewind(fp) mut str := malloc(fsize + 1) C.fread(str, fsize, 1, fp) C.fclose(fp) str[fsize] = 0 res = tos(str, fsize) return res } // file_size returns the size of the file located in `path`. pub fn file_size(path string) int { s := C.stat{} C.stat(path.str, &s) return s.st_size } pub fn mv(old, new string) { C.rename(old.cstr(), new.cstr()) } // read_lines reads the file in `path` into an array of lines. // TODO return `?[]string` TODO implement `?[]` support pub fn read_lines(path string) []string { mut res := []string mut buf := [1000]byte cpath := path.cstr() fp := C.fopen(cpath, 'rb') if isnil(fp) { // TODO // return error('failed to open file "$path"') return res } for C.fgets(buf, 1000, fp) != 0 { mut val := '' buf[C.strlen(buf) - 1] = `\0` // eat the newline fgets() stores $if windows { if buf[strlen(buf)-2] == 13 { buf[strlen(buf) - 2] = `\0` } } res << tos_clone(buf) } C.fclose(fp) return res } fn read_ulines(path string) []ustring { lines := read_lines(path) // mut ulines := new_array(0, lines.len, sizeof(ustring)) mut ulines := []ustring for myline in lines { // ulines[i] = ustr ulines << myline.ustring() } return ulines } pub fn open(path string) ?File { cpath := path.cstr() file := File { cfile: C.fopen(cpath, 'rb') } if isnil(file.cfile) { return error('failed to open file "$path"') } return file } // create creates a file at a specified location and returns a writable `File` object. pub fn create(path string) ?File { cpath := path.cstr() file := File { cfile: C.fopen(cpath, 'wb') } if isnil(file.cfile) { return error('failed to create file "$path"') } return file } pub fn open_append(path string) ?File { cpath := path.cstr() file := File { cfile: C.fopen(cpath, 'ab') } if isnil(file.cfile) { return error('failed to create file "$path"') } return file } pub fn (f File) write(s string) { ss := s.clone() C.fputs(ss.cstr(), f.cfile) // ss.free() // C.fwrite(s.str, 1, s.len, f.cfile) } // convert any value to []byte (LittleEndian) and write it // for example if we have write(7, 4), "07 00 00 00" gets written // write(0x1234, 2) => "34 12" pub fn (f File) write_bytes(data voidptr, size int) { C.fwrite(data, 1, size, f.cfile) } pub fn (f File) write_bytes_at(data voidptr, size, pos int) { C.fseek(f.cfile, pos, SEEK_SET) C.fwrite(data, 1, size, f.cfile) C.fseek(f.cfile, 0, SEEK_END) } pub fn (f File) writeln(s string) { // C.fwrite(s.str, 1, s.len, f.cfile) // ss := s.clone() // TODO perf C.fputs(s.cstr(), f.cfile) // ss.free() C.fputs('\n', f.cfile) } pub fn (f File) flush() { C.fflush(f.cfile) } pub fn (f File) close() { C.fclose(f.cfile) } // system starts the specified command, waits for it to complete, and returns its code. pub fn system(cmd string) int { ret := C.system(cmd.cstr()) if ret == -1 { os.print_c_errno() } return ret } fn popen(path string) *FILE { cpath := path.cstr() $if windows { return C._popen(cpath, 'r') } $else { return C.popen(cpath, 'r') } } // exec starts the specified command, waits for it to complete, and returns its output. pub fn exec(cmd string) string { cmd = '$cmd 2>&1' f := popen(cmd) if isnil(f) { // TODO optional or error code println('popen $cmd failed') return '' } buf := [1000]byte mut res := '' for C.fgets(buf, 1000, f) != 0 { res += tos(buf, strlen(buf)) } return res.trim_space() } // `getenv` returns the value of the environment variable named by the key. pub fn getenv(key string) string { s := C.getenv(key.cstr()) if isnil(s) { return '' } return string(s) } pub fn setenv(name string, value string, overwrite bool) int { $if windows { } $else { return C.setenv(name.cstr(), value.cstr(), overwrite) } } pub fn unsetenv(name string) int { $if windows { } $else { return C.unsetenv(name.cstr()) } } // `file_exists` returns true if `path` exists. pub fn file_exists(path string) bool { $if windows { return C._access( path.str, 0 ) != -1 } return C.access( path.str, 0 ) != -1 } pub fn dir_exists(path string) bool { $if windows { return file_exists(path) //attr := int(C.GetFileAttributes(path.cstr())) //return attr & FILE_ATTRIBUTE_DIRECTORY } $else { dir := C.opendir(path.cstr()) res := !isnil(dir) if res { C.closedir(dir) } return res } } // mkdir creates a new directory with the specified path. pub fn mkdir(path string) { $if windows { path = path.replace('/', '\\') C.CreateDirectory(path.cstr(), 0) } $else { C.mkdir(path.cstr(), 511)// S_IRWXU | S_IRWXG | S_IRWXO } } // rm removes file in `path`. pub fn rm(path string) { C.remove(path.cstr()) // C.unlink(path.cstr()) } // rmdir removes a specified directory. pub fn rmdir(path string) { $if !windows { C.rmdir(path.cstr()) } $else { C.RemoveDirectoryA(path.cstr()) } } fn print_c_errno() { //C.printf('errno=%d err="%s"\n', errno, C.strerror(errno)) } pub fn ext(path string) string { pos := path.last_index('.') if pos == -1 { return '' } return path.right(pos) } // dir returns all but the last element of path, typically the path's directory. pub fn dir(path string) string { mut pos := -1 // TODO PathSeparator defined in os_win.v doesn't work when building V, // because v.c is generated for a nix system. $if windows { pos = path.last_index('\\') } $else { pos = path.last_index(PathSeparator) } if pos == -1 { return '.' } return path.left(pos) } fn path_sans_ext(path string) string { pos := path.last_index('.') if pos == -1 { return path } return path.left(pos) } pub fn basedir(path string) string { pos := path.last_index('/') if pos == -1 { return path } return path.left(pos + 1) } pub fn filename(path string) string { return path.all_after('/') } // get_line returns a one-line string from stdin pub fn get_line() string { str := get_raw_line() if str[str.len - 1] == `\n` { return str.substr(0, str.len - 1) } return str } // get_raw_line returns a one-line string from stdin along with '\n' if there is any pub fn get_raw_line() string { $if windows { max := 256 buf := malloc(max) h_input := C.GetStdHandle(STD_INPUT_HANDLE) if h_input == INVALID_HANDLE_VALUE { panic('get_raw_line() error getting input handle.') } nr_chars := 0 // NOTE: Once we have UTF8 encode function to // convert utf16 to utf8, change to ReadConsoleW C.ReadConsole(h_input, buf, max, &nr_chars, 0) if nr_chars == 0 { return '' } return tos(buf, nr_chars) } $else { //u64 is used because C.getline needs a size_t as second argument //Otherwise, it would cause a valgrind warning and may be dangerous //Malloc takes an int as argument so a cast has to be made max := u64(256) buf := malloc(int(max)) nr_chars := C.getline(&buf, &max, stdin) if nr_chars == 0 { return '' } return tos(buf, nr_chars) } } pub fn user_os() string { $if linux { return 'linux' } $if mac { return 'mac' } $if windows { return 'windows' } $if freebsd { return 'freebsd' } return 'unknown' } // home_dir returns path to user's home directory. pub fn home_dir() string { mut home := os.getenv('HOME') $if windows { home = os.getenv('HOMEDRIVE') if home.len == 0 { home = os.getenv('SYSTEMDRIVE') } mut homepath := os.getenv('HOMEPATH') if homepath.len == 0 { homepath = '\\Users\\' + os.getenv('USERNAME') } home += homepath } home += '/' return home } // write_file writes text data to a file in `path`. pub fn write_file(path, text string) { f := os.create(path) or { return } f.write(text) f.close() } pub fn clear() { C.printf('\x1b[2J') C.printf('\x1b[H') } fn on_segfault(f voidptr) { $if windows { return } $if mac { mut sa := C.sigaction{} C.memset(&sa, 0, sizeof(sigaction)) C.sigemptyset(&sa.sa_mask) sa.sa_sigaction = f sa.sa_flags = SA_SIGINFO C.sigaction(SIGSEGV, &sa, 0) } } pub fn executable() string { mut result := malloc(MAX_PATH) $if linux { count := int(C.readlink('/proc/self/exe', result, MAX_PATH )) if(count < 0) { panic('error reading /proc/self/exe to get exe path') } return tos(result, count) } $if windows { ret := int(C.GetModuleFileName( 0, result, MAX_PATH )) return tos( result, ret) } $if mac { buf := malloc(MAX_PATH) pid := C.getpid() ret := C.proc_pidpath (pid, buf, MAX_PATH) if ret <= 0 { println('executable() failed') return '' } return string(buf) /* // This doesn't work with symlinks mut bufsize := MAX_PATH // if buffer is too small this will be updated with size needed if C._NSGetExecutablePath(result, &bufsize) == -1 { panic('Could not get executable path, buffer too small (need: $bufsize).') } return string(result) */ } $if freebsd { mut mib := [1 /* CTL_KERN */, 14 /* KERN_PROC */, 12 /* KERN_PROC_PATHNAME */, -1]!! buf := [1024]byte size := 1024 C.sysctl(mib, 4, buf, &size, 0, 0) return tos(buf, strlen(buf)) } } pub fn is_dir(path string) bool { $if windows { val := int(C.GetFileAttributes(path.cstr())) // Note: this return is broke (wrong). we have dir_exists already how will this differ? return val &FILE_ATTRIBUTE_DIRECTORY > 0 } $else { statbuf := C.stat{} cstr := path.cstr() if C.stat(cstr, &statbuf) != 0 { return false } return statbuf.st_mode & S_IFMT == S_IFDIR } } pub fn chdir(path string) { $if windows { C._chdir(path.cstr()) } $else { C.chdir(path.cstr()) } } pub fn getwd() string { buf := malloc(512) $if windows { if C._getcwd(buf, 512) == 0 { return '' } } $else { if C.getcwd(buf, 512) == 0 { return '' } } return string(buf) } // win: FILETIME // https://docs.microsoft.com/en-us/windows/win32/api/minwinbase/ns-minwinbase-filetime struct filetime { dwLowDateTime u32 dwHighDateTime u32 } // win: WIN32_FIND_DATA // https://docs.microsoft.com/en-us/windows/win32/api/minwinbase/ns-minwinbase-_win32_find_dataa struct win32finddata { mut: dwFileAttributes u32 ftCreationTime filetime ftLastAccessTime filetime ftLastWriteTime filetime nFileSizeHigh u32 nFileSizeLow u32 dwReserved0 u32 dwReserved1 u32 cFileName [260]u16 // MAX_PATH = 260 cAlternateFileName [14]u16 // 14 dwFileType u32 dwCreatorType u32 wFinderFlags u16 } pub fn ls(path string) []string { $if windows { mut find_file_data := win32finddata{} mut dir_files := []string // We can also check if the handle is valid. but using dir_exists instead // h_find_dir := C.FindFirstFile(path.cstr(), &find_file_data) // if (INVALID_HANDLE_VALUE == h_find_dir) { // return dir_files // } // C.FindClose(h_find_dir) if !dir_exists(path) { println('ls() couldnt open dir "$path" (does not exist).') return dir_files } // NOTE: Should eventually have path struct & os dependant path seperator (eg os.PATH_SEPERATOR) // we need to add files to path eg. c:\windows\*.dll or :\windows\* path_files := '$path\\*' // NOTE:TODO: once we have a way to convert utf16 wide character to utf8 // we should use FindFirstFileW and FindNextFileW h_find_files := C.FindFirstFile(path_files.cstr(), &find_file_data) first_filename := tos(&find_file_data.cFileName, strlen(find_file_data.cFileName)) if first_filename != '.' && first_filename != '..' { dir_files << first_filename } for C.FindNextFile(h_find_files, &find_file_data) { filename := tos(&find_file_data.cFileName, strlen(find_file_data.cFileName)) if filename != '.' && filename != '..' { dir_files << filename.clone() } } C.FindClose(h_find_files) return dir_files } $else { mut res := []string dir := C.opendir(path.cstr()) if isnil(dir) { println('ls() couldnt open dir "$path"') print_c_errno() return res } mut ent := &C.dirent{!} for { ent = C.readdir(dir) if isnil(ent) { break } name := tos_clone(ent.d_name) if name != '.' && name != '..' && name != '' { res << name } } C.closedir(dir) return res } } pub fn signal(signum int, handler voidptr) { C.signal(signum, handler) } pub fn fork() int { $if !windows { pid := C.fork() return pid } } pub fn wait() int { $if !windows { pid := C.wait(0) return pid } } pub fn file_last_mod_unix(path string) int { attr := C.stat{} //# struct stat attr; C.stat(path.str, &attr) //# stat(path.str, &attr); return attr.st_mtime //# return attr.st_mtime ; } fn log(s string) { } pub fn print_backtrace() { /* # void *buffer[100]; nptrs := 0 # nptrs = backtrace(buffer, 100); # printf("%d!!\n", nptrs); # backtrace_symbols_fd(buffer, nptrs, STDOUT_FILENO) ; */ }