package main import ( "bytes" "context" "errors" "os/exec" "fmt" "io" "os" "path/filepath" "runtime" "strings" "syscall" "time" "hilbish/util" rt "github.com/arnodel/golua/runtime" "mvdan.cc/sh/v3/shell" //"github.com/yuin/gopher-lua/parse" "mvdan.cc/sh/v3/interp" "mvdan.cc/sh/v3/syntax" "mvdan.cc/sh/v3/expand" ) var errNotExec = errors.New("not executable") var runnerMode rt.Value = rt.StringValue("hybrid") func runInput(input string, priv bool) { running = true cmdString := aliases.Resolve(input) hooks.Em.Emit("command.preexec", input, cmdString) if runnerMode.Type() == rt.StringType { switch runnerMode.AsString() { case "hybrid": _, err := handleLua(cmdString) if err == nil { cmdFinish(0, input, priv) return } exitCode, err := handleSh(cmdString) if err != nil { fmt.Fprintln(os.Stderr, err) } cmdFinish(exitCode, input, priv) case "hybridRev": _, err := handleSh(cmdString) if err == nil { cmdFinish(0, input, priv) return } exitCode, err := handleLua(cmdString) if err != nil { fmt.Fprintln(os.Stderr, err) } cmdFinish(exitCode, input, priv) case "lua": exitCode, err := handleLua(cmdString) if err != nil { fmt.Fprintln(os.Stderr, err) } cmdFinish(exitCode, input, priv) case "sh": exitCode, err := handleSh(cmdString) if err != nil { fmt.Fprintln(os.Stderr, err) } cmdFinish(exitCode, input, priv) } } else { // can only be a string or function so term := rt.NewTerminationWith(l.MainThread().CurrentCont(), 2, false) err := rt.Call(l.MainThread(), runnerMode, []rt.Value{rt.StringValue(cmdString)}, term) if err != nil { fmt.Fprintln(os.Stderr, err) cmdFinish(124, input, priv) return } luaexitcode := term.Get(0) // first return value (makes sense right i love stacks) runErr := term.Get(1) var exitCode uint8 if code, ok := luaexitcode.TryInt(); ok { exitCode = uint8(code) } if runErr != rt.NilValue { fmt.Fprintln(os.Stderr, runErr) } cmdFinish(exitCode, input, priv) } } func handleLua(cmdString string) (uint8, error) { // First try to load input, essentially compiling to bytecode chunk, err := l.CompileAndLoadLuaChunk("", []byte(cmdString), rt.TableValue(l.GlobalEnv())) if err != nil && noexecute { fmt.Println(err) /* if lerr, ok := err.(*lua.ApiError); ok { if perr, ok := lerr.Cause.(*parse.Error); ok { print(perr.Pos.Line == parse.EOF) } } */ return 125, err } // And if there's no syntax errors and -n isnt provided, run if !noexecute { if chunk != nil { _, err = rt.Call1(l.MainThread(), rt.FunctionValue(chunk)) } } if err == nil { return 0, nil } return 125, err } func handleSh(cmdString string) (uint8, error) { _, _, err := execCommand(cmdString, true) if err != nil { // If input is incomplete, start multiline prompting if syntax.IsIncomplete(err) { for { cmdString, err = continuePrompt(strings.TrimSuffix(cmdString, "\\")) if err != nil { break } _, _, err = execCommand(cmdString, true) if syntax.IsIncomplete(err) || strings.HasSuffix(cmdString, "\\") { continue } else if code, ok := interp.IsExitStatus(err); ok { return code, nil } else if err != nil { return 126, err } else { return 0, nil } } } else { if code, ok := interp.IsExitStatus(err); ok { return code, nil } else { return 126, err } } } return 0, nil } // Run command in sh interpreter func execCommand(cmd string, terminalOut bool) (io.Writer, io.Writer, error) { file, err := syntax.NewParser().Parse(strings.NewReader(cmd), "") if err != nil { return nil, nil, err } runner, _ := interp.New() var stdout io.Writer var stderr io.Writer if terminalOut { interp.StdIO(os.Stdin, os.Stdout, os.Stderr)(runner) } else { stdout = new(bytes.Buffer) stderr = new(bytes.Buffer) interp.StdIO(os.Stdin, stdout, stderr)(runner) } buf := new(bytes.Buffer) printer := syntax.NewPrinter() var bg bool for _, stmt := range file.Stmts { bg = false if stmt.Background { bg = true printer.Print(buf, stmt.Cmd) stmtStr := buf.String() buf.Reset() jobs.add(stmtStr) } interp.ExecHandler(execHandle(bg))(runner) err = runner.Run(context.TODO(), stmt) if err != nil { return stdout, stderr, err } } return stdout, stderr, nil } func execHandle(bg bool) interp.ExecHandlerFunc { return func(ctx context.Context, args []string) error { _, argstring := splitInput(strings.Join(args, " ")) // i dont really like this but it works if aliases.All()[args[0]] != "" { for i, arg := range args { if strings.Contains(arg, " ") { args[i] = fmt.Sprintf("\"%s\"", arg) } } _, argstring = splitInput(strings.Join(args, " ")) // If alias was found, use command alias argstring = aliases.Resolve(argstring) args, _ = shell.Fields(argstring, nil) } // If command is defined in Lua then run it luacmdArgs := rt.NewTable() for i, str := range args[1:] { luacmdArgs.Set(rt.IntValue(int64(i + 1)), rt.StringValue(str)) } if commands[args[0]] != nil { luaexitcode, err := rt.Call1(l.MainThread(), rt.FunctionValue(commands[args[0]]), rt.TableValue(luacmdArgs)) if err != nil { fmt.Fprintln(os.Stderr, "Error in command:\n" + err.Error()) return interp.NewExitStatus(1) } var exitcode uint8 if code, ok := luaexitcode.TryInt(); ok { exitcode = uint8(code) } else if luaexitcode != rt.NilValue { // deregister commander delete(commands, args[0]) fmt.Fprintf(os.Stderr, "Commander did not return number for exit code. %s, you're fired.\n", args[0]) } return interp.NewExitStatus(exitcode) } err := lookpath(args[0]) if err == errNotExec { hooks.Em.Emit("command.no-perm", args[0]) hooks.Em.Emit("command.not-executable", args[0]) return interp.NewExitStatus(126) } else if err != nil { hooks.Em.Emit("command.not-found", args[0]) return interp.NewExitStatus(127) } killTimeout := 2 * time.Second // from here is basically copy-paste of the default exec handler from // sh/interp but with our job handling hc := interp.HandlerCtx(ctx) path, err := interp.LookPathDir(hc.Dir, hc.Env, args[0]) if err != nil { fmt.Fprintln(hc.Stderr, err) return interp.NewExitStatus(127) } env := hc.Env envList := make([]string, 0, 64) env.Each(func(name string, vr expand.Variable) bool { if !vr.IsSet() { // If a variable is set globally but unset in the // runner, we need to ensure it's not part of the final // list. Seems like zeroing the element is enough. // This is a linear search, but this scenario should be // rare, and the number of variables shouldn't be large. for i, kv := range envList { if strings.HasPrefix(kv, name+"=") { envList[i] = "" } } } if vr.Exported && vr.Kind == expand.String { envList = append(envList, name+"="+vr.String()) } return true }) cmd := exec.Cmd{ Path: path, Args: args, Env: envList, Dir: hc.Dir, Stdin: hc.Stdin, Stdout: hc.Stdout, Stderr: hc.Stderr, } err = cmd.Start() var j *job if bg { j = jobs.getLatest() j.setHandle(cmd.Process) } if err == nil { if bg { j.start(cmd.Process.Pid) } if done := ctx.Done(); done != nil { go func() { <-done if killTimeout <= 0 || runtime.GOOS == "windows" { cmd.Process.Signal(os.Kill) return } // TODO: don't temporarily leak this goroutine // if the program stops itself with the // interrupt. go func() { time.Sleep(killTimeout) cmd.Process.Signal(os.Kill) }() cmd.Process.Signal(os.Interrupt) }() } err = cmd.Wait() } var exit uint8 switch x := err.(type) { case *exec.ExitError: // started, but errored - default to 1 if OS // doesn't have exit statuses if status, ok := x.Sys().(syscall.WaitStatus); ok { if status.Signaled() { if ctx.Err() != nil { return ctx.Err() } exit = uint8(128 + status.Signal()) goto end } exit = uint8(status.ExitStatus()) goto end } exit = 1 goto end case *exec.Error: // did not start fmt.Fprintf(hc.Stderr, "%v\n", err) exit = 127 goto end case nil: goto end default: return err } end: if bg { j.exitCode = int(exit) j.finish() } return interp.NewExitStatus(exit) } } func lookpath(file string) error { // custom lookpath function so we know if a command is found *and* is executable var skip []string if runtime.GOOS == "windows" { skip = []string{"./", "../", "~/", "C:"} } else { skip = []string{"./", "/", "../", "~/"} } for _, s := range skip { if strings.HasPrefix(file, s) { return findExecutable(file, false, false) } } for _, dir := range filepath.SplitList(os.Getenv("PATH")) { path := filepath.Join(dir, file) err := findExecutable(path, true, false) if err == errNotExec { return err } else if err == nil { return nil } } return os.ErrNotExist } func splitInput(input string) ([]string, string) { // end my suffering // TODO: refactor this garbage quoted := false startlastcmd := false lastcmddone := false cmdArgs := []string{} sb := &strings.Builder{} cmdstr := &strings.Builder{} lastcmd := "" //readline.GetHistory(readline.HistorySize() - 1) for _, r := range input { if r == '"' { // start quoted input // this determines if other runes are replaced quoted = !quoted // dont add back quotes //sb.WriteRune(r) } else if !quoted && r == '~' { // if not in quotes and ~ is found then make it $HOME sb.WriteString(os.Getenv("HOME")) } else if !quoted && r == ' ' { // if not quoted and there's a space then add to cmdargs cmdArgs = append(cmdArgs, sb.String()) sb.Reset() } else if !quoted && r == '^' && startlastcmd && !lastcmddone { // if ^ is found, isnt in quotes and is // the second occurence of the character and is // the first time "^^" has been used cmdstr.WriteString(lastcmd) sb.WriteString(lastcmd) startlastcmd = !startlastcmd lastcmddone = !lastcmddone continue } else if !quoted && r == '^' && !lastcmddone { // if ^ is found, isnt in quotes and is the // first time of starting "^^" startlastcmd = !startlastcmd continue } else { sb.WriteRune(r) } cmdstr.WriteRune(r) } if sb.Len() > 0 { cmdArgs = append(cmdArgs, sb.String()) } return cmdArgs, cmdstr.String() } func cmdFinish(code uint8, cmdstr string, private bool) { // if input has space at the beginning, dont put in history if interactive && !private { handleHistory(cmdstr) } util.SetField(l, hshMod, "exitCode", rt.IntValue(int64(code)), "Exit code of last exected command") // using AsValue (to convert to lua type) on an interface which is an int // results in it being unknown in lua .... ???? // so we allow the hook handler to take lua runtime Values hooks.Em.Emit("command.exit", rt.IntValue(int64(code)), cmdstr) }