module os import strings #include #include #include #include pub const ( path_separator = '/' path_delimiter = ':' ) const ( stdin_value = 0 stdout_value = 1 stderr_value = 2 ) // (Must be realized in Syscall) (Must be specified) // ref: http://www.ccfit.nsu.ru/~deviv/courses/unix/unix/ng7c229.html pub const ( s_ifmt = 0xF000 // type of file s_ifdir = 0x4000 // directory s_iflnk = 0xa000 // link s_isuid = 0o4000 // SUID s_isgid = 0o2000 // SGID s_isvtx = 0o1000 // Sticky s_irusr = 0o0400 // Read by owner s_iwusr = 0o0200 // Write by owner s_ixusr = 0o0100 // Execute by owner s_irgrp = 0o0040 // Read by group s_iwgrp = 0o0020 // Write by group s_ixgrp = 0o0010 // Execute by group s_iroth = 0o0004 // Read by others s_iwoth = 0o0002 // Write by others s_ixoth = 0o0001 // Execute by others ) struct C.utsname { mut: sysname charptr nodename charptr release charptr version charptr machine charptr } fn C.uname(name voidptr) int fn C.symlink(charptr, charptr) int pub fn uname() Uname { mut u := Uname{} utsize := sizeof(C.utsname) unsafe { x := malloc(int(utsize)) d := &C.utsname(x) if C.uname(d) == 0 { u.sysname = cstring_to_vstring(byteptr(d.sysname)) u.nodename = cstring_to_vstring(byteptr(d.nodename)) u.release = cstring_to_vstring(byteptr(d.release)) u.version = cstring_to_vstring(byteptr(d.version)) u.machine = cstring_to_vstring(byteptr(d.machine)) } free(d) } return u } fn init_os_args(argc int, argv &&byte) []string { mut args_ := []string{} // mut args := []string(make(0, argc, sizeof(string))) // mut args := []string{len:argc} for i in 0 .. argc { // args [i] = argv[i].vstring() unsafe { args_ << byteptr(argv[i]).vstring() } } return args_ } pub fn ls(path string) ?[]string { mut res := []string{} dir := unsafe { C.opendir(charptr(path.str)) } if isnil(dir) { return error('ls() couldnt open dir "$path"') } mut ent := &C.dirent(0) // mut ent := &C.dirent{!} for { ent = C.readdir(dir) if isnil(ent) { break } unsafe { bptr := byteptr(&ent.d_name[0]) if bptr[0] == 0 || (bptr[0] == `.` && bptr[1] == 0) || (bptr[0] == `.` && bptr[1] == `.` && bptr[2] == 0) { continue } res << tos_clone(bptr) } } C.closedir(dir) return res } /* pub fn is_dir(path string) bool { //$if linux { //C.syscall(4, path.str) // sys_newstat //} dir := C.opendir(path.str) res := !isnil(dir) if res { C.closedir(dir) } return res } */ /* pub fn (mut f File) fseek(pos, mode int) { } */ // mkdir creates a new directory with the specified path. pub fn mkdir(path string) ?bool { if path == '.' { return true } /* mut k := 0 defer { k = 1 } */ apath := real_path(path) // defer { // apath.free() //} /* $if linux { $if !android { ret := C.syscall(sys_mkdir, apath.str, 511) if ret == -1 { return error(posix_get_error_msg(C.errno)) } return true } } */ r := unsafe { C.mkdir(charptr(apath.str), 511) } if r == -1 { return error(posix_get_error_msg(C.errno)) } return true } // execute starts the specified command, waits for it to complete, and returns its output. pub fn execute(cmd string) Result { // if cmd.contains(';') || cmd.contains('&&') || cmd.contains('||') || cmd.contains('\n') { // return Result{ exit_code: -1, output: ';, &&, || and \\n are not allowed in shell commands' } // } pcmd := '$cmd 2>&1' f := vpopen(pcmd) if isnil(f) { return Result{ exit_code: -1 output: 'exec("$cmd") failed' } } buf := [4096]byte{} mut res := strings.new_builder(1024) unsafe { bufbp := &buf[0] for C.fgets(charptr(bufbp), 4096, f) != 0 { res.write_bytes(bufbp, vstrlen(bufbp)) } } soutput := res.str() // res.free() exit_code := vpclose(f) return Result{ exit_code: exit_code output: soutput } } pub struct Command { mut: f voidptr pub mut: eof bool pub: path string redirect_stdout bool } // pub fn command(cmd Command) Command { //} pub fn (mut c Command) start() ? { pcmd := '$c.path 2>&1' c.f = vpopen(pcmd) if isnil(c.f) { return error('exec("$c.path") failed') } } pub fn (mut c Command) read_line() string { buf := [4096]byte{} mut res := strings.new_builder(1024) unsafe { bufbp := &buf[0] for C.fgets(charptr(bufbp), 4096, c.f) != 0 { len := vstrlen(bufbp) for i in 0 .. len { if bufbp[i] == `\n` { res.write_bytes(bufbp, i) return res.str() } } res.write_bytes(bufbp, len) } } c.eof = true return res.str() } pub fn (c &Command) close() ? { exit_code := vpclose(c.f) if exit_code == 127 { return error_with_code('error', 127) } } pub fn symlink(origin string, target string) ?bool { res := C.symlink(charptr(origin.str), charptr(target.str)) if res == 0 { return true } return error(posix_get_error_msg(C.errno)) } // get_error_msg return error code representation in string. pub fn get_error_msg(code int) string { return posix_get_error_msg(code) } pub fn (mut f File) close() { if !f.is_opened { return } f.is_opened = false /* $if linux { $if !android { C.syscall(sys_close, f.fd) return } } */ C.fflush(f.cfile) C.fclose(f.cfile) } pub fn debugger_present() bool { return false } fn C.mkstemp(stemplate byteptr) int // `is_writable_folder` - `folder` exists and is writable to the process pub fn is_writable_folder(folder string) ?bool { if !exists(folder) { return error('`$folder` does not exist') } if !is_dir(folder) { return error('`folder` is not a folder') } tmp_perm_check := join_path(folder, 'XXXXXX') unsafe { x := C.mkstemp(charptr(tmp_perm_check.str)) if -1 == x { return error('folder `$folder` is not writable') } C.close(x) } rm(tmp_perm_check) ? return true } [inline] pub fn getpid() int { return C.getpid() } // Turns the given bit on or off, depending on the `enable` parameter pub fn posix_set_permission_bit(path_s string, mode u32, enable bool) { mut s := C.stat{} mut new_mode := u32(0) path := charptr(path_s.str) unsafe { C.stat(path, &s) new_mode = s.st_mode } match enable { true { new_mode |= mode } false { new_mode &= (0o7777 - mode) } } C.chmod(path, int(new_mode)) }