// HandleSync reads the next name off the Stream, and calls a handler function // This is done synchronously. The handler function will return before // HandleSync returns. func (m *Mux) HandleSync(s inet.Stream) { ctx := context.Background() name, handler, err := m.ReadHeader(s) if err != nil { err = fmt.Errorf("protocol mux error: %s", err) log.Event(ctx, "muxError", lgbl.Error(err)) s.Close() return } log.Debugf("muxer handle protocol %s: %s", s.Conn().RemotePeer(), name) handler(s) }
func (ids *IDService) ResponseHandler(s inet.Stream) { defer s.Close() c := s.Conn() r := ggio.NewDelimitedReader(s, 2048) mes := pb.Identify{} if err := r.ReadMsg(&mes); err != nil { return } ids.consumeMessage(&mes, c) log.Debugf("%s received message from %s %s", ID, c.RemotePeer(), c.RemoteMultiaddr()) }
func (ids *IDService) RequestHandler(s inet.Stream) { defer s.Close() c := s.Conn() bwc := ids.Host.GetBandwidthReporter() s = mstream.WrapStream(s, ID, bwc) w := ggio.NewDelimitedWriter(s) mes := pb.Identify{} ids.populateMessage(&mes, s.Conn()) w.WriteMsg(&mes) log.Debugf("%s sent message to %s %s", ID, c.RemotePeer(), c.RemoteMultiaddr()) }
func (dht *IpfsDHT) handleNewMessage(s inet.Stream) { defer s.Close() ctx := dht.Context() cr := ctxio.NewReader(ctx, s) // ok to use. we defer close stream in this func cw := ctxio.NewWriter(ctx, s) // ok to use. we defer close stream in this func r := ggio.NewDelimitedReader(cr, inet.MessageSizeMax) w := ggio.NewDelimitedWriter(cw) mPeer := s.Conn().RemotePeer() // receive msg pmes := new(pb.Message) if err := r.ReadMsg(pmes); err != nil { log.Debugf("Error unmarshaling data: %s", err) return } // update the peer (on valid msgs only) dht.updateFromMessage(ctx, mPeer, pmes) // get handler for this msg type. handler := dht.handlerForMsgType(pmes.GetType()) if handler == nil { log.Debug("got back nil handler from handlerForMsgType") return } // dispatch handler. rpmes, err := handler(ctx, mPeer, pmes) if err != nil { log.Debugf("handle message error: %s", err) return } // if nil response, return it before serializing if rpmes == nil { log.Debug("Got back nil response from request.") return } // send out response msg if err := w.WriteMsg(rpmes); err != nil { log.Debugf("send response error: %s", err) return } return }
// handleNewStream receives a new stream from the network. func (bsnet *impl) handleNewStream(s inet.Stream) { defer s.Close() if bsnet.receiver == nil { return } received, err := bsmsg.FromNet(s) if err != nil { go bsnet.receiver.ReceiveError(err) log.Debugf("bitswap net handleNewStream from %s error: %s", s.Conn().RemotePeer(), err) return } p := s.Conn().RemotePeer() ctx := context.Background() log.Debugf("bitswap net handleNewStream from %s", s.Conn().RemotePeer()) bsnet.receiver.ReceiveMessage(ctx, p, received) }
// handleStream is our own handler, which returns an error for simplicity. func (rs *RelayService) handleStream(s inet.Stream) error { defer s.Close() // read the header (src and dst peer.IDs) src, dst, err := ReadHeader(s) if err != nil { return fmt.Errorf("stream with bad header: %s", err) } local := rs.host.ID() switch { case src == local: return fmt.Errorf("relaying from self") case dst == local: // it's for us! yaaay. log.Debugf("%s consuming stream from %s", local, src) return rs.consumeStream(s) default: // src and dst are not local. relay it. log.Debugf("%s relaying stream %s <--> %s", local, src, dst) return rs.pipeStream(src, dst, s) } }
func (d *Diagnostics) handleNewStream(s inet.Stream) { d.HandleMessage(context.Background(), s) s.Close() }
func (p *standard) HandleStream(s inet.Stream) { // TODO(brian): Should clients be able to satisfy requests? log.Error("supernode client received (dropped) a routing message from", s.Conn().RemotePeer()) s.Close() }