func (d *Diagnostics) HandleMessage(ctx context.Context, s inet.Stream) error { cr := ctxio.NewReader(ctx, s) cw := ctxio.NewWriter(ctx, s) r := ggio.NewDelimitedReader(cr, inet.MessageSizeMax) // maxsize w := ggio.NewDelimitedWriter(cw) // deserialize msg pmes := new(pb.Message) if err := r.ReadMsg(pmes); err != nil { log.Debugf("Failed to decode protobuf message: %v", err) return nil } // Print out diagnostic log.Infof("[peer: %s] Got message from [%s]\n", d.self.Pretty(), s.Conn().RemotePeer()) // Make sure we havent already handled this request to prevent loops if err := d.startDiag(pmes.GetDiagID()); err != nil { return nil } resp := newMessage(pmes.GetDiagID()) resp.Data = d.getDiagInfo().Marshal() if err := w.WriteMsg(resp); err != nil { log.Debugf("Failed to write protobuf message over stream: %s", err) return err } timeout := pmes.GetTimeoutDuration() if timeout < HopTimeoutDecrement { return fmt.Errorf("timeout too short: %s", timeout) } ctx, cancel := context.WithTimeout(ctx, timeout) defer cancel() pmes.SetTimeoutDuration(timeout - HopTimeoutDecrement) dpeers, err := d.getDiagnosticFromPeers(ctx, d.getPeers(), pmes) if err != nil { log.Debugf("diagnostic from peers err: %s", err) return err } for b := range dpeers { resp := newMessage(pmes.GetDiagID()) resp.Data = b.Marshal() if err := w.WriteMsg(resp); err != nil { log.Debugf("Failed to write protobuf message over stream: %s", err) return err } } return nil }
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 }
func (lb *Loopback) HandleStream(s inet.Stream) { defer s.Close() pbr := ggio.NewDelimitedReader(s, inet.MessageSizeMax) var incoming dhtpb.Message if err := pbr.ReadMsg(&incoming); err != nil { log.Debug(err) return } ctx := context.TODO() outgoing := lb.Handler.HandleRequest(ctx, s.Conn().RemotePeer(), &incoming) pbw := ggio.NewDelimitedWriter(s) if err := pbw.WriteMsg(outgoing); err != nil { return // TODO logerr } }
// 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) }
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() }
func (d *Diagnostics) handleNewStream(s inet.Stream) { d.HandleMessage(context.Background(), s) s.Close() }