package networkinfo import ( "context" "fmt" "net" "sync" "time" "github.com/ethereum/go-ethereum/rpc" msg_pb "github.com/harmony-one/harmony/api/proto/message" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/p2p" libp2pdis "github.com/libp2p/go-libp2p-discovery" libp2pdht "github.com/libp2p/go-libp2p-kad-dht" peerstore "github.com/libp2p/go-libp2p-peerstore" manet "github.com/multiformats/go-multiaddr-net" ) // Service is the network info service. type Service struct { Host p2p.Host Rendezvous p2p.GroupID bootnodes utils.AddrList dht *libp2pdht.IpfsDHT cancel context.CancelFunc stopChan chan struct{} stoppedChan chan struct{} peerChan chan p2p.Peer peerInfo <-chan peerstore.PeerInfo discovery *libp2pdis.RoutingDiscovery messageChan chan *msg_pb.Message started bool } // ConnectionRetry set the number of retry of connection to bootnode in case the initial connection is failed var ( // retry for 10 minutes and give up then ConnectionRetry = 300 // context ctx context.Context ) const ( waitInRetry = 2 * time.Second connectionTimeout = 3 * time.Minute // register to bootnode every ticker dhtTicker = 6 * time.Hour ) // New returns role conversion service. func New(h p2p.Host, rendezvous p2p.GroupID, peerChan chan p2p.Peer, bootnodes utils.AddrList) *Service { var cancel context.CancelFunc ctx, cancel = context.WithTimeout(context.Background(), connectionTimeout) dht, err := libp2pdht.New(ctx, h.GetP2PHost()) if err != nil { panic(err) } return &Service{ Host: h, dht: dht, Rendezvous: rendezvous, cancel: cancel, stopChan: make(chan struct{}), stoppedChan: make(chan struct{}), peerChan: peerChan, bootnodes: bootnodes, discovery: nil, started: false, } } // StartService starts network info service. func (s *Service) StartService() { err := s.Init() if err != nil { utils.GetLogInstance().Error("Service Init Failed", "error", err) return } s.Run() s.started = true } // Init initializes role conversion service. func (s *Service) Init() error { utils.GetLogInstance().Info("Init networkinfo service") // Bootstrap the DHT. In the default configuration, this spawns a Background // thread that will refresh the peer table every five minutes. utils.GetLogInstance().Debug("Bootstrapping the DHT") if err := s.dht.Bootstrap(ctx); err != nil { return fmt.Errorf("error bootstrap dht: %s", err) } var wg sync.WaitGroup if s.bootnodes == nil { // TODO: should've passed in bootnodes through constructor. s.bootnodes = utils.BootNodes } connected := false for _, peerAddr := range s.bootnodes { peerinfo, _ := peerstore.InfoFromP2pAddr(peerAddr) wg.Add(1) go func() { defer wg.Done() for i := 0; i < ConnectionRetry; i++ { if err := s.Host.GetP2PHost().Connect(ctx, *peerinfo); err != nil { utils.GetLogInstance().Warn("can't connect to bootnode", "error", err, "try", i) time.Sleep(waitInRetry) } else { utils.GetLogInstance().Info("connected to bootnode", "node", *peerinfo, "try", i) // it is okay if any bootnode is connected connected = true break } } }() } wg.Wait() if !connected { return fmt.Errorf("[FATAL] error connecting to bootnodes") } // We use a rendezvous point "shardID" to announce our location. utils.GetLogInstance().Info("Announcing ourselves...", "Rendezvous", string(s.Rendezvous)) s.discovery = libp2pdis.NewRoutingDiscovery(s.dht) libp2pdis.Advertise(ctx, s.discovery, string(s.Rendezvous)) utils.GetLogInstance().Info("Successfully announced!") return nil } // Run runs network info. func (s *Service) Run() { defer close(s.stoppedChan) if s.discovery == nil { utils.GetLogInstance().Error("discovery is not initialized") return } var err error s.peerInfo, err = s.discovery.FindPeers(ctx, string(s.Rendezvous)) if err != nil { utils.GetLogInstance().Error("FindPeers", "error", err) return } go s.DoService() } // DoService does network info. func (s *Service) DoService() { _, cgnPrefix, err := net.ParseCIDR("100.64.0.0/10") if err != nil { utils.GetLogInstance().Error("can't parse CIDR", "error", err) return } tick := time.NewTicker(dhtTicker) for { select { case peer := <-s.peerInfo: if peer.ID != s.Host.GetP2PHost().ID() && len(peer.ID) > 0 { // utils.GetLogInstance().Info("Found Peer", "peer", peer.ID, "addr", peer.Addrs, "my ID", s.Host.GetP2PHost().ID()) if err := s.Host.GetP2PHost().Connect(ctx, peer); err != nil { utils.GetLogInstance().Warn("can't connect to peer node", "error", err, "peer", peer) // break if the node can't connect to peers, waiting for another peer break } else { utils.GetLogInstance().Info("connected to peer node", "peer", peer) } // figure out the public ip/port var ip, port string for _, addr := range peer.Addrs { netaddr, err := manet.ToNetAddr(addr) if err != nil { continue } nip := netaddr.(*net.TCPAddr).IP if (nip.IsGlobalUnicast() && !utils.IsPrivateIP(nip)) || cgnPrefix.Contains(nip) { ip = nip.String() port = fmt.Sprintf("%d", netaddr.(*net.TCPAddr).Port) break } } p := p2p.Peer{IP: ip, Port: port, PeerID: peer.ID, Addrs: peer.Addrs} utils.GetLogInstance().Info("Notify peerChan", "peer", p) if s.peerChan != nil { s.peerChan <- p } } case <-s.stopChan: return case <-tick.C: libp2pdis.Advertise(ctx, s.discovery, string(s.Rendezvous)) utils.GetLogInstance().Info("Successfully announced!", "Rendezvous", string(s.Rendezvous)) } } } // StopService stops network info service. func (s *Service) StopService() { utils.GetLogInstance().Info("Stopping network info service.") defer s.cancel() if !s.started { utils.GetLogInstance().Info("Service didn't started. Exit.") return } s.stopChan <- struct{}{} <-s.stoppedChan utils.GetLogInstance().Info("Network info service stopped.") } // NotifyService notify service func (s *Service) NotifyService(params map[string]interface{}) { return } // SetMessageChan sets up message channel to service. func (s *Service) SetMessageChan(messageChan chan *msg_pb.Message) { s.messageChan = messageChan } // APIs for the services. func (s *Service) APIs() []rpc.API { return nil }