func StartNanomsgJsonTest(address string, clients int, requestsPerClient int, messageSize int, timer metrics.Timer, requestSize *int) func(wg *sync.WaitGroup) { return func(wg *sync.WaitGroup) { var socket mangos.Socket var err error if socket, err = req.NewSocket(); err != nil { log.Fatal(err) } defer socket.Close() defer wg.Done() socket.AddTransport(tcp.NewTransport()) if err = socket.Dial("tcp://" + address); err != nil { log.Fatal(err) } request, _ := json.Marshal(Request{Method: "TEST", Payload: strings.Repeat("a", messageSize)}) *requestSize = len(request) for i := 0; i < requestsPerClient; i++ { timer.Time(func() { if err = socket.Send(request); err != nil { log.Fatal(err) } socket.Recv() }) } } }
func StartNanomsgJsonServer(port string) { var server mangos.Socket var err error if server, err = rep.NewSocket(); err != nil { log.Fatal(err) } server.AddTransport(tcp.NewTransport()) server.Listen("tcp://0.0.0.0:" + port) for { msg, _ := server.Recv() var body Request var response []byte json.Unmarshal(msg, &body) if response, err = json.Marshal(Response{Method: body.Method, PayloadLength: len(body.Payload)}); err != nil { log.Fatal(err) } server.Send(response) } }
func sendRequest(s mangos.Socket, request request) (*response, error) { fmt.Println("Sending a request") requestJSON, err := json.Marshal(request) if err != nil { // This is not recoverable. panic(err) } fmt.Printf("sendRequest: %s\n", requestJSON) if err := s.Send(requestJSON); err != nil { return nil, err } rep, err := s.Recv() if err != nil { return nil, err } var resp response if err := json.Unmarshal(rep, &resp); err != nil { return nil, err } return &resp, nil }
func send(s mangos.Socket, obj interface{}) error { data, err := json.Marshal(obj) if err != nil { return stackerr.Wrap(err) } return stackerr.Wrap(s.Send(data)) }
func client(url string, name string) { var sock mangos.Socket var err error var msg []byte if sock, err = respondent.NewSocket(); err != nil { die("can't get new respondent socket: %s", err.Error()) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Dial(url); err != nil { die("can't dial on respondent socket: %s", err.Error()) } for { if msg, err = sock.Recv(); err != nil { die("Cannot recv: %s", err.Error()) } fmt.Printf("CLIENT(%s): RECEIVED \"%s\" SURVEY REQUEST\n", name, string(msg)) d := date() fmt.Printf("CLIENT(%s): SENDING DATE SURVEY RESPONSE\n", name) if err = sock.Send([]byte(d)); err != nil { die("Cannot send: %s", err.Error()) } } }
func server(url string) { var sock mangos.Socket var err error var msg []byte if sock, err = surveyor.NewSocket(); err != nil { die("can't get new surveyor socket: %s", err) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Listen(url); err != nil { die("can't listen on surveyor socket: %s", err.Error()) } err = sock.SetOption(mangos.OptionSurveyTime, time.Second*2) if err != nil { die("SetOption(): %s", err.Error()) } for { fmt.Println("SERVER: SENDING DATE SURVEY REQUEST") if err = sock.Send([]byte("DATE")); err != nil { die("Failed sending survey: %s", err.Error()) } for { if msg, err = sock.Recv(); err != nil { break } fmt.Printf("SERVER: RECEIVED \"%s\" SURVEY RESPONSE\n", string(msg)) } } }
func StartNanomsgProtoServer(port string) { var server mangos.Socket var err error if server, err = rep.NewSocket(); err != nil { log.Fatal(err) } server.AddTransport(tcp.NewTransport()) server.Listen("tcp://0.0.0.0:" + port) for { msg, _ := server.Recv() var body pb.Request proto.Unmarshal(msg, &body) data, _ := proto.Marshal(&pb.Response{ Method: body.Method, PayloadLength: int64(len(body.Payload)), }) server.Send(data) } }
func node0(url string) { var sock mangos.Socket var err error var msg []byte if sock, err = rep.NewSocket(); err != nil { die("can't get new rep socket: %s", err) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Listen(url); err != nil { die("can't listen on rep socket: %s", err.Error()) } for { // Could also use sock.RecvMsg to get header msg, err = sock.Recv() if string(msg) == "DATE" { // no need to terminate fmt.Println("NODE0: RECEIVED DATE REQUEST") d := date() fmt.Printf("NODE0: SENDING DATE %s\n", d) err = sock.Send([]byte(d)) if err != nil { die("can't send reply: %s", err.Error()) } } } }
func output(in chan string, out mangos.Socket) { if out == nil { panic("Invalid socket") } for item := range in { out.Send([]byte(item)) } }
func publishEvt(channel mangos.Socket, evt string) error { if err := channel.Send([]byte(evt)); err != nil { log.Printf("fail to publish '%v' event:%v\n", evt, err) return err } return nil }
func main() { flag.Parse() var sock mangos.Socket var err error if sock, err = pub.NewSocket(); err != nil { die("can't get new pub socket: %s", err) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Listen("tcp://127.0.0.1:55555"); err != nil { die("can't listen on pub socket: %s", err.Error()) } //sub var subscriber mangos.Socket if subscriber, err = sub.NewSocket(); err != nil { die("can't get new sub socket: %s", err.Error()) } subscriber.AddTransport(ipc.NewTransport()) subscriber.AddTransport(tcp.NewTransport()) if err = subscriber.Dial("tcp://127.0.0.1:55555"); err != nil { die("can't dial on sub socket: %s", err.Error()) } // Empty byte array effectively subscribes to everything err = subscriber.SetOption(mangos.OptionSubscribe, []byte("")) start := time.Now() //var msg []byte for i := 1; i <= *numbPtr; i++ { //conn.Publish("test", []byte(randSeq(320))) sock.Send([]byte(randSeq(320))) if _, err = subscriber.Recv(); err != nil { die("Cannot recv: %s", err.Error()) } //log.Println(string(msg)) /* runtime.Gosched() atomic.AddUint64(&ops, 1) if ops == uint64(*numbPtr) { elapsed := time.Since(start) log.Printf("Time took %s", elapsed) } */ } elapsed := time.Since(start) log.Printf("Time took %s", elapsed) defer sock.Close() fmt.Scanln() }
func startNode(masterHost, name string) { var sock mangos.Socket var err error var msg []byte masterUrl := url.URL{Scheme: "tcp", Host: masterHost} ip := getPrivateIP() // Try to get new "respondent" socket if sock, err = respondent.NewSocket(); err != nil { utils.Die("Can't get new respondent socket: %s", err.Error()) } defer sock.Close() sock.AddTransport(tcp.NewTransport()) // Connect to master if err = sock.Dial(masterUrl.String()); err != nil { utils.Die("Can't dial on respondent socket: %s", err.Error()) } // Wait for a survey request and send responses for { if msg, err = sock.Recv(); err != nil { utils.Die("Cannot recv: %s", err.Error()) } fmt.Printf("Client(%s): Received \"%s\" survey request\n", name, string(msg)) var loadAvg *load.LoadAvgStat if loadAvg, err = load.LoadAvg(); err != nil { utils.Die("Cannot get load average: %s", err.Error()) } var cpuInfo []cpu.CPUInfoStat if cpuInfo, err = cpu.CPUInfo(); err != nil { utils.Die("Cannot get CPU info: %s", err.Error()) } fmt.Printf("CPU INFO len: %d\n", len(cpuInfo)) // Get the normalized CPU load avg := loadAvg.Load1 cores := int32(0) for _, info := range cpuInfo { fmt.Printf("Inner Cores: %d\n", info.Cores) cores += info.Cores } fmt.Printf("Load avg: %f\n", avg) fmt.Printf("Cores: %d\n", cores) avg = avg / float64(cores) fmt.Printf("Client(%s): Sending survey response\n", name) if err = sock.Send([]byte(fmt.Sprintf("%s,%f", ip, avg))); err != nil { utils.Die("Cannot send: %s", err.Error()) } } }
func simpleSend(t *testing.T, tx mangos.Socket, wg *sync.WaitGroup) { var buf [256]byte i := 0 for i = 0; i < 10000; i++ { l := rand.Intn(255) + 1 buf[0] = uint8(l) if e := tx.Send(buf[:l]); e != nil { t.Fatalf("Send: %v", e) break } } t.Logf("Sent %d Msgs", i) if e := tx.Close(); e != nil { t.Fatalf("Tx Close: %v", e) } wg.Done() }
func node1(url string, msg string) { var sock mangos.Socket var err error if sock, err = push.NewSocket(); err != nil { die("can't get new push socket: %s", err.Error()) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Dial(url); err != nil { die("can't dial on push socket: %s", err.Error()) } fmt.Printf("NODE1: SENDING \"%s\"\n", msg) if err = sock.Send([]byte(msg)); err != nil { die("can't send message on push socket: %s", err.Error()) } sock.Close() }
func server(url string) { var sock mangos.Socket var err error if sock, err = pub.NewSocket(); err != nil { die("can't get new pub socket: %s", err) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Listen(url); err != nil { die("can't listen on pub socket: %s", err.Error()) } for { // Could also use sock.RecvMsg to get header d := date() fmt.Printf("SERVER: PUBLISHING DATE %s\n", d) if err = sock.Send([]byte(d)); err != nil { die("Failed publishing: %s", err.Error()) } time.Sleep(time.Second) } }
func node(args []string) { var sock mangos.Socket var err error var msg []byte var x int if sock, err = bus.NewSocket(); err != nil { die("bus.NewSocket: %s", err) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Listen(args[2]); err != nil { die("sock.Listen: %s", err.Error()) } // wait for everyone to start listening time.Sleep(time.Second) for x = 3; x < len(args); x++ { if err = sock.Dial(args[x]); err != nil { die("socket.Dial: %s", err.Error()) } } // wait for everyone to join time.Sleep(time.Second) fmt.Printf("%s: SENDING '%s' ONTO BUS\n", args[1], args[1]) if err = sock.Send([]byte(args[1])); err != nil { die("sock.Send: %s", err.Error()) } for { if msg, err = sock.Recv(); err != nil { die("sock.Recv: %s", err.Error()) } fmt.Printf("%s: RECEIVED \"%s\" FROM BUS\n", args[1], string(msg)) } }
func runCmdServer(channel mangos.Socket, done <-chan struct{}) (<-chan string, error) { cmdChan := make(chan string) go func() { for { // Could also use sock.RecvMsg to get header log.Println("alauncher: cmd server - waiting for a command...") select { case <-done: log.Println("alauncher: cmd server - done...") return default: if rawCmd, err := channel.Recv(); err != nil { switch err { case mangos.ErrRecvTimeout: log.Println("alauncher: cmd server - timeout... ok") default: log.Println("alauncher: cmd server - error =>", err) } } else { cmd := string(rawCmd) log.Println("alauncher: cmd server - got a command =>", cmd) cmdChan <- cmd //for now just ack the command and process the command asynchronously //NOTE: //must reply before receiving the next message //otherwise nanomsg/mangos will be confused :-) monitorFinishReply := "ok" err = channel.Send([]byte(monitorFinishReply)) if err != nil { log.Println("alauncher: cmd server - fail to send monitor.finish reply =>", err) } } } } }() return cmdChan, nil }
func node1(url string) { var sock mangos.Socket var err error var msg []byte if sock, err = req.NewSocket(); err != nil { die("can't get new req socket: %s", err.Error()) } sock.AddTransport(ipc.NewTransport()) sock.AddTransport(tcp.NewTransport()) if err = sock.Dial(url); err != nil { die("can't dial on req socket: %s", err.Error()) } fmt.Printf("NODE1: SENDING DATE REQUEST %s\n", "DATE") if err = sock.Send([]byte("DATE")); err != nil { die("can't send message on push socket: %s", err.Error()) } if msg, err = sock.Recv(); err != nil { die("can't receive date: %s", err.Error()) } fmt.Printf("NODE1: RECEIVED DATE %s\n", string(msg)) sock.Close() }
func sendCmd(channel mangos.Socket, cmd string) (string, error) { sendTimeouts := 0 recvTimeouts := 0 log.Printf("sendCmd(%s)\n", cmd) for { if err := channel.Send([]byte(cmd)); err != nil { switch err { case mangos.ErrSendTimeout: log.Println("sendCmd(): send timeout...") sendTimeouts++ if sendTimeouts > 3 { return "", err } default: return "", err } } response, err := channel.Recv() if err != nil { switch err { case mangos.ErrRecvTimeout: log.Println("sendCmd(): receive timeout...") recvTimeouts++ if recvTimeouts > 3 { return "", err } default: return "", err } } return string(response), nil } }
func (m *Master) queryWorkers(c chan<- float64) { var ( err error sock mangos.Socket ) // Try to get new "surveyor" socket if sock, err = surveyor.NewSocket(); err != nil { utils.Die("Can't get new surveyor socket: %s", err) } defer sock.Close() sock.AddTransport(tcp.NewTransport()) // Begin listening on the URL if err = sock.Listen(m.url.String()); err != nil { utils.Die("Can't listen on surveyor socket: %s", err.Error()) } // Set "deadline" for the survey and a timeout for receiving responses if err = sock.SetOption(mangos.OptionSurveyTime, m.surveyDeadline); err != nil { utils.Die("SetOption(mangos.OptionSurveyTime): %s", err.Error()) } if err = sock.SetOption(mangos.OptionRecvDeadline, m.surveyDeadline+(1*time.Second)); err != nil { utils.Die("SetOption(mangos.OptionRecvDeadline): %s", err.Error()) } for { fmt.Println("Sending master request") if err = sock.Send([]byte("CPU")); err != nil { utils.Die("Failed sending survey: %s", err.Error()) } loadAvgs := []float64{} for { var msg []byte if msg, err = sock.Recv(); err != nil { break } parts := strings.Split(string(msg), ",") if len(parts) != 2 { continue } ip := parts[0] loadAvgString := parts[1] // Find the corresponding droplet var worker *Worker for _, w := range m.workers { if w.privateAddr == ip { worker = w break } } if worker == nil { fmt.Printf("Message received from unknown worker '%s'. Skipping...\n", ip) continue } var loadAvg float64 if loadAvg, err = strconv.ParseFloat(string(loadAvgString), 64); err != nil { utils.Die("ParseFloat(): %s", err.Error()) } // Set their load average and append this worker's load average to the list worker.loadAvg = loadAvg loadAvgs = append(loadAvgs, loadAvg) } // Compute the average loadAvg var loadAvg float64 for _, avg := range loadAvgs { loadAvg += avg } loadAvg /= float64(len(loadAvgs)) // Send the load averages if !math.IsNaN(loadAvg) { c <- loadAvg } // Wait time.Sleep(m.queryInterval) } }
func send_name(sock mangos.Socket, name string) { fmt.Printf("%s: SENDING \"%s\"\n", name, name) if err := sock.Send([]byte(name)); err != nil { die("failed sending: %s", err) } }