package host import ( "encoding/binary" "net" "runtime" "time" "github.com/ethereum/go-ethereum/log" "github.com/harmony-one/harmony/p2p" ) // SendMessage is to connect a socket given a port and send the given message. // TODO(minhdoan, rj): need to check if a peer is reachable or not. func SendMessage(host p2p.Host, p p2p.Peer, message []byte, lostPeer chan p2p.Peer) { // Construct normal p2p message content := ConstructP2pMessage(byte(0), message) go send(host, p, content, lostPeer) } // BroadcastMessage sends the message to a list of peers func BroadcastMessage(h p2p.Host, peers []p2p.Peer, msg []byte, lostPeer chan p2p.Peer) { if len(peers) == 0 { return } // Construct broadcast p2p message content := ConstructP2pMessage(byte(17), msg) length := len(content) log.Info("Start Broadcasting", "gomaxprocs", runtime.GOMAXPROCS(0), "Size", length) start := time.Now() for _, peer := range peers { peerCopy := peer go send(h, peerCopy, content, lostPeer) } log.Info("Broadcasting Done", "time spent(s)", time.Since(start).Seconds()) // Keep track of block propagation time // Assume 1M message is for block propagation if length > 1000000 { log.Debug("NET: START BLOCK PROPAGATION", "Size", length) } } // BroadcastMessageFromLeader sends the message to a list of peers from a leader. func BroadcastMessageFromLeader(h p2p.Host, peers []p2p.Peer, msg []byte, lostPeer chan p2p.Peer) { // TODO(minhdoan): Enable back for multicast. peers = SelectMyPeers(peers, 1, MaxBroadCast) BroadcastMessage(h, peers, msg, lostPeer) } // ConstructP2pMessage constructs the p2p message as [messageType, contentSize, content] func ConstructP2pMessage(msgType byte, content []byte) []byte { message := make([]byte, 5+len(content)) message[0] = 17 // messageType 0x11 binary.BigEndian.PutUint32(message[1:5], uint32(len(content))) copy(message[5:], content) return message } // BroadcastMessageFromValidator sends the message to a list of peers from a validator. func BroadcastMessageFromValidator(h p2p.Host, selfPeer p2p.Peer, peers []p2p.Peer, msg []byte) { peers = SelectMyPeers(peers, selfPeer.ValidatorID*MaxBroadCast+1, (selfPeer.ValidatorID+1)*MaxBroadCast) BroadcastMessage(h, peers, msg, nil) } // MaxBroadCast is the maximum number of neighbors to broadcast const MaxBroadCast = 20 // SelectMyPeers chooses a list of peers based on the range of ValidatorID // This is a quick hack of the current p2p networking model func SelectMyPeers(peers []p2p.Peer, min int, max int) []p2p.Peer { res := []p2p.Peer{} for _, peer := range peers { if peer.ValidatorID >= min && peer.ValidatorID <= max { res = append(res, peer) } } return res } // Send a message to another node with given port. func send(h p2p.Host, peer p2p.Peer, message []byte, lostPeer chan p2p.Peer) { // Add attack code here. //attack.GetInstance().Run() backoff := p2p.NewExpBackoff(150*time.Millisecond, 5*time.Second, 2) for trial := 0; trial < 10; trial++ { if err := h.SendMessage(peer, message); err == nil { if trial > 0 { log.Warn("retry send", "rety", trial) } return } log.Info("sleeping before trying to send again", "duration", backoff.Cur, "addr", net.JoinHostPort(peer.IP, peer.Port)) backoff.Sleep() } log.Error("gave up sending a message", "addr", net.JoinHostPort(peer.IP, peer.Port)) if lostPeer != nil { // Notify lostPeer channel lostPeer <- peer } } // DialWithSocketClient joins host port and establishes connection func DialWithSocketClient(ip, port string) (conn net.Conn, err error) { //log.Printf("Sending message to ip %s and port %s\n", ip, port) addr := net.JoinHostPort(ip, port) conn, err = net.Dial("tcp", addr) return }