Golang Unlogged Beispiele

Beispiel #1

Datei: websocket.go Projekt: Xmagicer/origin

// createWebSocketStreams returns a context containing the websocket connection and
// streams needed to perform an exec or an attach.
func createWebSocketStreams(req *http.Request, w http.ResponseWriter, opts *options, idleTimeout time.Duration) (*context, bool) {
	channels := createChannels(opts)
	conn := wsstream.NewConn(channels...)
	conn.SetIdleTimeout(idleTimeout)
	streams, err := conn.Open(httplog.Unlogged(w), req)
	if err != nil {
		runtime.HandleError(fmt.Errorf("Unable to upgrade websocket connection: %v", err))
		return nil, false
	}

	// Send an empty message to the lowest writable channel to notify the client the connection is established
	// TODO: make generic to SPDY and WebSockets and do it outside of this method?
	switch {
	case opts.stdout:
		streams[stdoutChannel].Write([]byte{})
	case opts.stderr:
		streams[stderrChannel].Write([]byte{})
	default:
		streams[errorChannel].Write([]byte{})
	}

	return &context{
		conn:         conn,
		stdinStream:  streams[stdinChannel],
		stdoutStream: streams[stdoutChannel],
		stderrStream: streams[stderrChannel],
		errorStream:  streams[errorChannel],
		tty:          opts.tty,
		resizeStream: streams[resizeChannel],
	}, true
}

Beispiel #2

Datei: websocket.go Projekt: Clarifai/kubernetes

// createWebSocketStreams returns a remoteCommandContext containing the websocket connection and
// streams needed to perform an exec or an attach.
func createWebSocketStreams(req *http.Request, w http.ResponseWriter, opts *options, idleTimeout time.Duration) (*context, bool) {
	// open the requested channels, and always open the error channel
	channels := append(standardShellChannels(opts.stdin, opts.stdout, opts.stderr), wsstream.WriteChannel)
	conn := wsstream.NewConn(channels...)
	conn.SetIdleTimeout(idleTimeout)
	streams, err := conn.Open(httplog.Unlogged(w), req)
	if err != nil {
		glog.Errorf("Unable to upgrade websocket connection: %v", err)
		return nil, false
	}
	// Send an empty message to the lowest writable channel to notify the client the connection is established
	// TODO: make generic to SPDY and WebSockets and do it outside of this method?
	switch {
	case opts.stdout:
		streams[1].Write([]byte{})
	case opts.stderr:
		streams[2].Write([]byte{})
	default:
		streams[3].Write([]byte{})
	}
	return &context{
		conn:         conn,
		stdinStream:  streams[0],
		stdoutStream: streams[1],
		stderrStream: streams[2],
		errorStream:  streams[3],
		tty:          opts.tty,
	}, true
}

Beispiel #3

Datei: websocket.go Projekt: ncdc/kubernetes

// createWebSocketStreams returns a context containing the websocket connection and
// streams needed to perform an exec or an attach.
func createWebSocketStreams(req *http.Request, w http.ResponseWriter, opts *options, idleTimeout time.Duration) (*context, bool) {
	channels := createChannels(opts)
	conn := wsstream.NewConn(map[string]wsstream.ChannelProtocolConfig{
		"": {
			Binary:   true,
			Channels: channels,
		},
		preV4BinaryWebsocketProtocol: {
			Binary:   true,
			Channels: channels,
		},
		preV4Base64WebsocketProtocol: {
			Binary:   false,
			Channels: channels,
		},
		v4BinaryWebsocketProtocol: {
			Binary:   true,
			Channels: channels,
		},
		v4Base64WebsocketProtocol: {
			Binary:   false,
			Channels: channels,
		},
	})
	conn.SetIdleTimeout(idleTimeout)
	negotiatedProtocol, streams, err := conn.Open(httplog.Unlogged(w), req)
	if err != nil {
		runtime.HandleError(fmt.Errorf("Unable to upgrade websocket connection: %v", err))
		return nil, false
	}

	// Send an empty message to the lowest writable channel to notify the client the connection is established
	// TODO: make generic to SPDY and WebSockets and do it outside of this method?
	switch {
	case opts.stdout:
		streams[stdoutChannel].Write([]byte{})
	case opts.stderr:
		streams[stderrChannel].Write([]byte{})
	default:
		streams[errorChannel].Write([]byte{})
	}

	ctx := &context{
		conn:         conn,
		stdinStream:  streams[stdinChannel],
		stdoutStream: streams[stdoutChannel],
		stderrStream: streams[stderrChannel],
		tty:          opts.tty,
		resizeStream: streams[resizeChannel],
	}

	switch negotiatedProtocol {
	case v4BinaryWebsocketProtocol, v4Base64WebsocketProtocol:
		ctx.writeStatus = v4WriteStatusFunc(streams[errorChannel])
	default:
		ctx.writeStatus = v1WriteStatusFunc(streams[errorChannel])
	}

	return ctx, true
}

Beispiel #4

Datei: watch.go Projekt: johndmulhausen/kubernetes

// serveWatch handles serving requests to the server
func serveWatch(watcher watch.Interface, scope RequestScope, w http.ResponseWriter, req *restful.Request, timeout time.Duration) {
	watchServer := &WatchServer{watcher, scope.Codec, func(obj runtime.Object) {
		if err := setSelfLink(obj, req, scope.Namer); err != nil {
			glog.V(5).Infof("Failed to set self link for object %v: %v", reflect.TypeOf(obj), err)
		}
	}, &realTimeoutFactory{timeout}}
	if isWebsocketRequest(req.Request) {
		websocket.Handler(watchServer.HandleWS).ServeHTTP(httplog.Unlogged(w), req.Request)
	} else {
		watchServer.ServeHTTP(w, req.Request)
	}
}

Beispiel #5

Datei: watch.go Projekt: ngbinh/kubernetes

// serveWatch handles serving requests to the server
func serveWatch(watcher watch.Interface, scope RequestScope, w http.ResponseWriter, req *restful.Request, minRequestTimeout time.Duration) {
	var timeout time.Duration
	if minRequestTimeout > 0 {
		// Each watch gets a random timeout between minRequestTimeout and 2*minRequestTimeout to avoid thundering herds.
		timeout = time.Duration(float64(minRequestTimeout) * (rand.Float64() + 1.0))
	}
	watchServer := &WatchServer{watcher, scope.Codec, func(obj runtime.Object) {
		if err := setSelfLink(obj, req, scope.Namer); err != nil {
			glog.V(5).Infof("Failed to set self link for object %v: %v", reflect.TypeOf(obj), err)
		}
	}, &realTimeoutFactory{timeout}}
	if isWebsocketRequest(req.Request) {
		websocket.Handler(watchServer.HandleWS).ServeHTTP(httplog.Unlogged(w), req.Request)
	} else {
		watchServer.ServeHTTP(w, req.Request)
	}
}

Beispiel #6

Datei: watch.go Projekt: XiaoningDing/UbernetesPOC

// ServeHTTP serves a series of JSON encoded events via straight HTTP with
// Transfer-Encoding: chunked.
func (self *WatchServer) ServeHTTP(w http.ResponseWriter, req *http.Request) {
	loggedW := httplog.LogOf(req, w)
	w = httplog.Unlogged(w)
	timeoutCh, cleanup := self.t.TimeoutCh()
	defer cleanup()
	defer self.watching.Stop()

	cn, ok := w.(http.CloseNotifier)
	if !ok {
		loggedW.Addf("unable to get CloseNotifier: %#v", w)
		http.NotFound(w, req)
		return
	}
	flusher, ok := w.(http.Flusher)
	if !ok {
		loggedW.Addf("unable to get Flusher: %#v", w)
		http.NotFound(w, req)
		return
	}
	w.Header().Set("Transfer-Encoding", "chunked")
	w.WriteHeader(http.StatusOK)
	flusher.Flush()
	// TODO: use arbitrary serialization on watch
	encoder := watchjson.NewEncoder(w, self.encoder)
	for {
		select {
		case <-cn.CloseNotify():
			return
		case <-timeoutCh:
			return
		case event, ok := <-self.watching.ResultChan():
			if !ok {
				// End of results.
				return
			}
			self.fixup(event.Object)
			if err := encoder.Encode(&event); err != nil {
				// Client disconnect.
				return
			}
			flusher.Flush()
		}
	}
}

Beispiel #7

Datei: watch.go Projekt: XiaoningDing/UbernetesPOC

// serveWatch handles serving requests to the server
func serveWatch(watcher watch.Interface, scope RequestScope, req *restful.Request, res *restful.Response, timeout time.Duration) {
	s, mediaType, err := negotiateOutputSerializer(req.Request, scope.Serializer)
	if err != nil {
		scope.err(err, req, res)
		return
	}
	// TODO: replace with typed serialization
	if mediaType != "application/json" {
		writeRawJSON(http.StatusNotAcceptable, (errNotAcceptable{[]string{"application/json"}}).Status(), res.ResponseWriter)
		return
	}
	encoder := scope.Serializer.EncoderForVersion(s, scope.Kind.GroupVersion())
	watchServer := &WatchServer{watcher, encoder, func(obj runtime.Object) {
		if err := setSelfLink(obj, req, scope.Namer); err != nil {
			glog.V(5).Infof("Failed to set self link for object %v: %v", reflect.TypeOf(obj), err)
		}
	}, &realTimeoutFactory{timeout}}
	if isWebsocketRequest(req.Request) {
		websocket.Handler(watchServer.HandleWS).ServeHTTP(httplog.Unlogged(res.ResponseWriter), req.Request)
	} else {
		watchServer.ServeHTTP(res.ResponseWriter, req.Request)
	}
}

Beispiel #8

Datei: watch.go Projekt: ncdc/kubernetes

// ServeHTTP serves a series of encoded events via HTTP with Transfer-Encoding: chunked
// or over a websocket connection.
func (s *WatchServer) ServeHTTP(w http.ResponseWriter, req *http.Request) {
	w = httplog.Unlogged(w)

	if wsstream.IsWebSocketRequest(req) {
		w.Header().Set("Content-Type", s.mediaType)
		websocket.Handler(s.HandleWS).ServeHTTP(w, req)
		return
	}

	cn, ok := w.(http.CloseNotifier)
	if !ok {
		err := fmt.Errorf("unable to start watch - can't get http.CloseNotifier: %#v", w)
		utilruntime.HandleError(err)
		s.scope.err(errors.NewInternalError(err), w, req)
		return
	}
	flusher, ok := w.(http.Flusher)
	if !ok {
		err := fmt.Errorf("unable to start watch - can't get http.Flusher: %#v", w)
		utilruntime.HandleError(err)
		s.scope.err(errors.NewInternalError(err), w, req)
		return
	}

	framer := s.framer.NewFrameWriter(w)
	if framer == nil {
		// programmer error
		err := fmt.Errorf("no stream framing support is available for media type %q", s.mediaType)
		utilruntime.HandleError(err)
		s.scope.err(errors.NewBadRequest(err.Error()), w, req)
		return
	}
	e := streaming.NewEncoder(framer, s.encoder)

	// ensure the connection times out
	timeoutCh, cleanup := s.t.TimeoutCh()
	defer cleanup()
	defer s.watching.Stop()

	// begin the stream
	w.Header().Set("Content-Type", s.mediaType)
	w.Header().Set("Transfer-Encoding", "chunked")
	w.WriteHeader(http.StatusOK)
	flusher.Flush()

	var unknown runtime.Unknown
	internalEvent := &versioned.InternalEvent{}
	buf := &bytes.Buffer{}
	ch := s.watching.ResultChan()
	for {
		select {
		case <-cn.CloseNotify():
			return
		case <-timeoutCh:
			return
		case event, ok := <-ch:
			if !ok {
				// End of results.
				return
			}

			obj := event.Object
			s.fixup(obj)
			if err := s.embeddedEncoder.Encode(obj, buf); err != nil {
				// unexpected error
				utilruntime.HandleError(fmt.Errorf("unable to encode watch object: %v", err))
				return
			}

			// ContentType is not required here because we are defaulting to the serializer
			// type
			unknown.Raw = buf.Bytes()
			event.Object = &unknown

			// the internal event will be versioned by the encoder
			*internalEvent = versioned.InternalEvent(event)
			if err := e.Encode(internalEvent); err != nil {
				utilruntime.HandleError(fmt.Errorf("unable to encode watch object: %v (%#v)", err, e))
				// client disconnect.
				return
			}
			if len(ch) == 0 {
				flusher.Flush()
			}

			buf.Reset()
		}
	}
}

Beispiel #9

Datei: server.go Projekt: fwalker/dashboard

func (s *Server) createStreams(request *restful.Request, response *restful.Response) (io.Reader, io.WriteCloser, io.WriteCloser, io.WriteCloser, Closer, bool, bool) {
	tty := request.QueryParameter(api.ExecTTYParam) == "1"
	stdin := request.QueryParameter(api.ExecStdinParam) == "1"
	stdout := request.QueryParameter(api.ExecStdoutParam) == "1"
	stderr := request.QueryParameter(api.ExecStderrParam) == "1"
	if tty && stderr {
		// TODO: make this an error before we reach this method
		glog.V(4).Infof("Access to exec with tty and stderr is not supported, bypassing stderr")
		stderr = false
	}

	// count the streams client asked for, starting with 1
	expectedStreams := 1
	if stdin {
		expectedStreams++
	}
	if stdout {
		expectedStreams++
	}
	if stderr {
		expectedStreams++
	}

	if expectedStreams == 1 {
		response.WriteError(http.StatusBadRequest, fmt.Errorf("you must specify at least 1 of stdin, stdout, stderr"))
		return nil, nil, nil, nil, nil, false, false
	}

	if wsstream.IsWebSocketRequest(request.Request) {
		// open the requested channels, and always open the error channel
		channels := append(standardShellChannels(stdin, stdout, stderr), wsstream.WriteChannel)
		conn := wsstream.NewConn(channels...)
		conn.SetIdleTimeout(s.host.StreamingConnectionIdleTimeout())
		streams, err := conn.Open(httplog.Unlogged(response.ResponseWriter), request.Request)
		if err != nil {
			glog.Errorf("Unable to upgrade websocket connection: %v", err)
			return nil, nil, nil, nil, nil, false, false
		}
		// Send an empty message to the lowest writable channel to notify the client the connection is established
		// TODO: make generic to SDPY and WebSockets and do it outside of this method?
		switch {
		case stdout:
			streams[1].Write([]byte{})
		case stderr:
			streams[2].Write([]byte{})
		default:
			streams[3].Write([]byte{})
		}
		return streams[0], streams[1], streams[2], streams[3], conn, tty, true
	}

	supportedStreamProtocols := []string{remotecommand.StreamProtocolV2Name, remotecommand.StreamProtocolV1Name}
	_, err := httpstream.Handshake(request.Request, response.ResponseWriter, supportedStreamProtocols, remotecommand.StreamProtocolV1Name)
	// negotiated protocol isn't used server side at the moment, but could be in the future
	if err != nil {
		return nil, nil, nil, nil, nil, false, false
	}

	streamCh := make(chan httpstream.Stream)

	upgrader := spdy.NewResponseUpgrader()
	conn := upgrader.UpgradeResponse(response.ResponseWriter, request.Request, func(stream httpstream.Stream) error {
		streamCh <- stream
		return nil
	})
	// from this point on, we can no longer call methods on response
	if conn == nil {
		// The upgrader is responsible for notifying the client of any errors that
		// occurred during upgrading. All we can do is return here at this point
		// if we weren't successful in upgrading.
		return nil, nil, nil, nil, nil, false, false
	}

	conn.SetIdleTimeout(s.host.StreamingConnectionIdleTimeout())

	// TODO make it configurable?
	expired := time.NewTimer(defaultStreamCreationTimeout)

	var errorStream, stdinStream, stdoutStream, stderrStream httpstream.Stream
	receivedStreams := 0
WaitForStreams:
	for {
		select {
		case stream := <-streamCh:
			streamType := stream.Headers().Get(api.StreamType)
			switch streamType {
			case api.StreamTypeError:
				errorStream = stream
				receivedStreams++
			case api.StreamTypeStdin:
				stdinStream = stream
				receivedStreams++
			case api.StreamTypeStdout:
				stdoutStream = stream
				receivedStreams++
			case api.StreamTypeStderr:
				stderrStream = stream
				receivedStreams++
			default:
				glog.Errorf("Unexpected stream type: '%s'", streamType)
			}
			if receivedStreams == expectedStreams {
				break WaitForStreams
			}
		case <-expired.C:
			// TODO find a way to return the error to the user. Maybe use a separate
			// stream to report errors?
			glog.Error("Timed out waiting for client to create streams")
			return nil, nil, nil, nil, nil, false, false
		}
	}

	return stdinStream, stdoutStream, stderrStream, errorStream, conn, tty, true
}