func CmdListen(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { if len(args) != 2 { out.Send(data.Empty().Set("status", "1").Set("message", "wrong number of arguments").Bytes(), nil) return } u, err := url.Parse(args[1]) if err != nil { out.Send(data.Empty().Set("status", "1").Set("message", err.Error()).Bytes(), nil) return } l, err := net.Listen(u.Scheme, u.Host) if err != nil { out.Send(data.Empty().Set("status", "1").Set("message", err.Error()).Bytes(), nil) return } for { conn, err := l.Accept() if err != nil { out.Send(data.Empty().Set("status", "1").Set("message", err.Error()).Bytes(), nil) return } f, err := connToFile(conn) if err != nil { conn.Close() continue } out.Send(data.Empty().Set("type", "socket").Set("remoteaddr", conn.RemoteAddr().String()).Bytes(), f) } }
func CmdOpenfile(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { for _, name := range args { f, err := os.Open(name) if err != nil { continue } if err := out.Send(data.Empty().Set("path", name).Set("type", "file").Bytes(), f); err != nil { f.Close() } } }
func CmdExec(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { cmd := exec.Command(args[1], args[2:]...) cmd.Stdout = stdout cmd.Stderr = stderr //cmd.Stdin = os.Stdin local, remote, err := beam.SocketPair() if err != nil { fmt.Fprintf(stderr, "%v\n", err) return } child, err := beam.FileConn(local) if err != nil { local.Close() remote.Close() fmt.Fprintf(stderr, "%v\n", err) return } local.Close() cmd.ExtraFiles = append(cmd.ExtraFiles, remote) var tasks sync.WaitGroup tasks.Add(1) go func() { defer Debugf("done copying to child\n") defer tasks.Done() defer child.CloseWrite() beam.Copy(child, in) }() tasks.Add(1) go func() { defer Debugf("done copying from child %d\n") defer tasks.Done() r := beam.NewRouter(out) r.NewRoute().All().Handler(func(p []byte, a *os.File) error { return out.Send(data.Message(p).Set("pid", fmt.Sprintf("%d", cmd.Process.Pid)).Bytes(), a) }) beam.Copy(r, child) }() execErr := cmd.Run() // We can close both ends of the socket without worrying about data stuck in the buffer, // because unix socket writes are fully synchronous. child.Close() tasks.Wait() var status string if execErr != nil { status = execErr.Error() } else { status = "ok" } out.Send(data.Empty().Set("status", status).Set("cmd", args...).Bytes(), nil) }
func CmdTrace(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { r := beam.NewRouter(out) r.NewRoute().All().Handler(func(payload []byte, attachment *os.File) error { var sfd string = "nil" if attachment != nil { sfd = fmt.Sprintf("%d", attachment.Fd()) } fmt.Printf("===> %s [%s]\n", data.Message(payload).Pretty(), sfd) out.Send(payload, attachment) return nil }) beam.Copy(r, in) }
func CmdPass(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { for { payload, attachment, err := in.Receive() if err != nil { return } if err := out.Send(payload, attachment); err != nil { if attachment != nil { attachment.Close() } return } } }
func ReceiveFromConn(connections chan net.Conn, dst beam.Sender) error { for conn := range connections { err := func() error { Logf("parsing message from network...\n") defer Logf("done parsing message from network\n") buf := make([]byte, 4098) n, err := conn.Read(buf) if n == 0 { conn.Close() if err == io.EOF { return nil } else { return err } } Logf("decoding message from '%s'\n", buf[:n]) header, skip, err := data.DecodeString(string(buf[:n])) if err != nil { conn.Close() return err } pub, priv, err := beam.SocketPair() if err != nil { return err } Logf("decoded message: %s\n", data.Message(header).Pretty()) go func(skipped []byte, conn net.Conn, f *os.File) { // this closes both conn and f if len(skipped) > 0 { if _, err := f.Write(skipped); err != nil { Logf("ERROR: %v\n", err) f.Close() conn.Close() return } } bicopy(conn, f) }(buf[skip:n], conn, pub) if err := dst.Send([]byte(header), priv); err != nil { return err } return nil }() if err != nil { Logf("Error reading from connection: %v\n", err) } } return nil }
func CmdBeamreceive(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { if len(args) != 2 { if err := out.Send(data.Empty().Set("status", "1").Set("message", "wrong number of arguments").Bytes(), nil); err != nil { Fatal(err) } return } var connector func(string) (chan net.Conn, error) connector = listener connections, err := connector(args[1]) if err != nil { out.Send(data.Empty().Set("status", "1").Set("message", err.Error()).Bytes(), nil) return } // Copy in to conn ReceiveFromConn(connections, out) }
func CmdRender(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { if len(args) != 2 { fmt.Fprintf(stderr, "Usage: %s FORMAT\n", args[0]) out.Send(data.Empty().Set("status", "1").Bytes(), nil) return } txt := args[1] if !strings.HasSuffix(txt, "\n") { txt += "\n" } t := template.Must(template.New("render").Parse(txt)) for { payload, attachment, err := in.Receive() if err != nil { return } msg, err := data.Decode(string(payload)) if err != nil { fmt.Fprintf(stderr, "decode error: %v\n") } if err := t.Execute(stdout, msg); err != nil { fmt.Fprintf(stderr, "rendering error: %v\n", err) out.Send(data.Empty().Set("status", "1").Bytes(), nil) return } if err := out.Send(payload, attachment); err != nil { return } } }
func CmdPrint(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { for { payload, a, err := in.Receive() if err != nil { return } // Skip commands if a != nil && data.Message(payload).Get("cmd") == nil { dup, err := beam.SendRPipe(out, payload) if err != nil { a.Close() return } io.Copy(io.MultiWriter(os.Stdout, dup), a) dup.Close() } else { if err := out.Send(payload, a); err != nil { return } } } }
func CmdPrompt(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { if len(args) < 2 { fmt.Fprintf(stderr, "usage: %s PROMPT...\n", args[0]) return } if !term.IsTerminal(0) { fmt.Fprintf(stderr, "can't prompt: no tty available...\n") return } fmt.Printf("%s: ", strings.Join(args[1:], " ")) oldState, _ := term.SaveState(0) term.DisableEcho(0, oldState) line, _, err := bufio.NewReader(os.Stdin).ReadLine() if err != nil { fmt.Fprintln(stderr, err.Error()) return } val := string(line) fmt.Printf("\n") term.RestoreTerminal(0, oldState) out.Send(data.Empty().Set("fromcmd", args...).Set("value", val).Bytes(), nil) }
func CmdConnect(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { if len(args) != 2 { out.Send(data.Empty().Set("status", "1").Set("message", "wrong number of arguments").Bytes(), nil) return } u, err := url.Parse(args[1]) if err != nil { out.Send(data.Empty().Set("status", "1").Set("message", err.Error()).Bytes(), nil) return } var tasks sync.WaitGroup for { _, attachment, err := in.Receive() if err != nil { break } if attachment == nil { continue } Logf("connecting to %s/%s\n", u.Scheme, u.Host) conn, err := net.Dial(u.Scheme, u.Host) if err != nil { out.Send(data.Empty().Set("cmd", "msg", "connect error: "+err.Error()).Bytes(), nil) return } out.Send(data.Empty().Set("cmd", "msg", "connection established").Bytes(), nil) tasks.Add(1) go func(attachment *os.File, conn net.Conn) { defer tasks.Done() // even when successful, conn.File() returns a duplicate, // so we must close the original var iotasks sync.WaitGroup iotasks.Add(2) go func(attachment *os.File, conn net.Conn) { defer iotasks.Done() io.Copy(attachment, conn) }(attachment, conn) go func(attachment *os.File, conn net.Conn) { defer iotasks.Done() io.Copy(conn, attachment) }(attachment, conn) iotasks.Wait() conn.Close() attachment.Close() }(attachment, conn) } tasks.Wait() }
func CmdEmit(args []string, stdout, stderr io.Writer, in beam.Receiver, out beam.Sender) { out.Send(data.Parse(args[1:]).Bytes(), nil) }