Пример #1
0
func Publish(input chan []*FileEvent,
	registrar chan []*FileEvent,
	server_list []string,
	public_key [sodium.PUBLICKEYBYTES]byte,
	secret_key [sodium.SECRETKEYBYTES]byte,
	server_timeout time.Duration) {
	var buffer bytes.Buffer
	session := sodium.NewSession(public_key, secret_key)

	socket := FFS{
		Endpoints:   server_list,
		SocketType:  zmq.REQ,
		RecvTimeout: server_timeout,
		SendTimeout: server_timeout,
	}
	//defer socket.Close()

	for events := range input {
		// got a bunch of events, ship them out.
		log.Printf("Publisher received %d events\n", len(events))

		data, _ := json.Marshal(events)
		// TODO(sissel): check error

		// Compress it
		// A new zlib writer  is used for every payload of events so that any
		// individual payload can be decompressed alone.
		// TODO(sissel): Make compression level tunable
		compressor, _ := zlib.NewWriterLevel(&buffer, 3)
		buffer.Truncate(0)
		_, err := compressor.Write(data)
		err = compressor.Flush()
		compressor.Close()

		//log.Printf("compressed %d bytes\n", buffer.Len())
		// TODO(sissel): check err
		// TODO(sissel): implement security/encryption/etc

		// Send full payload over zeromq REQ/REP
		// TODO(sissel): check error
		//buffer.Write(data)
		ciphertext, nonce := session.Box(buffer.Bytes())

		//log.Printf("plaintext: %d\n", len(data))
		//log.Printf("compressed: %d\n", buffer.Len())
		//log.Printf("ciphertext: %d %v\n", len(ciphertext), ciphertext[:20])
		//log.Printf("nonce: %d\n", len(nonce))

		// TODO(sissel): figure out encoding for ciphertext + nonce
		// TODO(sissel): figure out encoding for ciphertext + nonce

		// Loop forever trying to send.
		// This will cause reconnects/etc on failures automatically
		for {
			err = socket.Send(nonce[:], zmq.SNDMORE)
			if err != nil {
				continue // send failed, retry!
			}
			err = socket.Send(ciphertext, 0)
			if err != nil {
				continue // send failed, retry!
			}

			data, err = socket.Recv(0)
			// TODO(sissel): Figure out acknowledgement protocol? If any?
			if err == nil {
				break // success!
			}
		}

		// Tell the registrar that we've successfully sent these events
		//registrar <- events
	} /* for each event payload */
} // Publish
Пример #2
0
func main() {
	//f, err := os.OpenFile("log.out", os.O_WRONLY | os.O_CREATE, 0644)
	//log.SetOutput(f)
	event_chan := make(chan *lumberjack.FileEvent, 16)
	publisher_chan := make(chan []*lumberjack.FileEvent, 5)
	registrar_chan := make(chan []*lumberjack.FileEvent, 5)

	endpoint := "tcp://127.0.0.1:47342"
	public, secret := sodium.CryptoBoxKeypair()

	go generator(event_chan)
	go lumberjack.Spool(event_chan, publisher_chan, SPOOLSIZE, 5*time.Second)
	go lumberjack.Publish(publisher_chan, registrar_chan, []string{endpoint},
		public, secret, 5*time.Second)

	session := sodium.NewSession(public, secret)
	context, _ := zmq.NewContext()
	socket, _ := context.NewSocket(zmq.REP)
	socket.SetSockOptInt(zmq.LINGER, 0)
	err := socket.Bind(endpoint)
	if err != nil {
		log.Fatalf("Failed to bind to %s.\n", endpoint)
	}

	var buffer bytes.Buffer
	var decompressed bytes.Buffer
	tmp := make([]byte, 2048)
	count := 0
	start := time.Now()

	for count < 800000 {
		nonce, err := socket.Recv(0)
		if err != nil {
			panic(fmt.Sprintf("socket.Recv: %s\n", err))
		}
		ciphertext, err := socket.Recv(0)
		if err != nil {
			panic(fmt.Sprintf("socket.Recv2: %s\n", err))
		}

		count += int(SPOOLSIZE)
		socket.Send([]byte(""), 0)
		continue

		// Decrypt it
		plaintext := session.Open(nonce, ciphertext)

		buffer.Truncate(0)
		buffer.Write(plaintext)
		zr, _ := zlib.NewReader(&buffer)
		decompressed.Truncate(0)
		for {
			n, err := zr.Read(tmp)
			if n > 0 {
				decompressed.Write(tmp[0:n])
			}
			if err == io.EOF {
				break
			}
		}
		zr.Close()

		var events []lumberjack.FileEvent
		err = json.Unmarshal(decompressed.Bytes(), &events)
		if err != nil {
			panic("JSON Unmarshal failed")
		}
		count += len(events)
	}

	log.Printf("%d @ %f/sec\n", count, float64(count)/time.Since(start).Seconds())
}