package newnode import ( "fmt" "os" "strconv" "time" "github.com/harmony-one/harmony/p2p/p2pimpl" "github.com/dedis/kyber" "github.com/harmony-one/harmony/crypto" "github.com/harmony-one/harmony/log" "github.com/harmony-one/harmony/p2p" "github.com/harmony-one/harmony/p2p/host" "github.com/harmony-one/harmony/proto/bcconn" proto_identity "github.com/harmony-one/harmony/proto/identity" "github.com/harmony-one/harmony/utils" ) //NewNode is ther struct for a candidate node type NewNode struct { Role string ShardID int ValidatorID int // Validator ID in its shard. leader p2p.Peer isLeader bool Self p2p.Peer Leaders map[uint32]p2p.Peer PubK kyber.Point priK kyber.Scalar log log.Logger SetInfo bool host host.Host } // New candidatenode initialization func New(ip string, port string) *NewNode { priKey, pubKey := utils.GenKey(ip, port) var node NewNode node.PubK = pubKey node.priK = priKey node.Self = p2p.Peer{IP: ip, Port: port, PubKey: pubKey, ValidatorID: -1} node.log = log.New() node.SetInfo = false node.host = p2pimpl.NewHost(node.Self) node.Leaders = map[uint32]p2p.Peer{} return &node } type registerResponseRandomNumber struct { NumberOfShards int NumberOfNodesAdded int Leaders []*bcconn.NodeInfo } // ContactBeaconChain starts a newservice in the candidate node func (node *NewNode) ContactBeaconChain(BCPeer p2p.Peer) { go node.host.BindHandlerAndServe(node.NodeHandler) node.requestBeaconChain(BCPeer) } func (node NewNode) String() string { return fmt.Sprintf("bc: %v:%v and node info %v", node.Self.IP, node.Self.Port, node.SetInfo) } // RequestBeaconChain requests beacon chain for identity data func (node *NewNode) requestBeaconChain(BCPeer p2p.Peer) { node.log.Info("connecting to beacon chain now ...") pubk, err := node.PubK.MarshalBinary() if err != nil { node.log.Error("Could not Marshall public key into binary") } p := p2p.Peer{IP: node.Self.IP, Port: node.Self.Port} nodeInfo := &bcconn.NodeInfo{Self: p, PubK: pubk} msg := bcconn.SerializeNodeInfo(nodeInfo) msgToSend := proto_identity.ConstructIdentityMessage(proto_identity.Register, msg) gotShardInfo := false timeout := time.After(300 * time.Second) tick := time.Tick(5 * time.Second) checkLoop: for { select { case <-timeout: gotShardInfo = false break checkLoop case <-tick: if node.SetInfo { gotShardInfo = true break checkLoop } else { host.SendMessage(node.host, BCPeer, msgToSend) } } } if !gotShardInfo { node.log.Crit("Could not get sharding info after 5 minutes") os.Exit(1) } } // ProcessShardInfo func (node *NewNode) processShardInfo(msgPayload []byte) bool { leadersInfo := bcconn.DeserializeRandomInfo(msgPayload) leaders := leadersInfo.Leaders shardNum, isLeader := utils.AllocateShard(leadersInfo.NumberOfNodesAdded, leadersInfo.NumberOfShards) for n, v := range leaders { leaderPeer := p2p.Peer{IP: v.Self.IP, Port: v.Self.Port} leaderPeer.PubKey = crypto.Ed25519Curve.Point() err := leaderPeer.PubKey.UnmarshalBinary(v.PubK[:]) if err != nil { node.log.Error("Could not unmarshall leaders public key from binary to kyber.point") } node.Leaders[uint32(n)] = leaderPeer } node.leader = node.Leaders[uint32(shardNum-1)] node.isLeader = isLeader node.ShardID = shardNum - 1 //0 indexing. node.SetInfo = true node.log.Info("Shard information obtained ..") return true } // GetShardID gives shardid of node func (node *NewNode) GetShardID() string { return strconv.Itoa(node.ShardID) } // GetLeader gives the leader of the node func (node *NewNode) GetLeader() p2p.Peer { return node.leader } // GetClientPeer gives the client of the node func (node *NewNode) GetClientPeer() *p2p.Peer { return nil } // GetSelfPeer gives the peer part of the node's own struct func (node *NewNode) GetSelfPeer() p2p.Peer { return node.Self }