package p2p import ( "context" "encoding/binary" "fmt" "net" "os" "runtime" "strings" "sync" "time" "github.com/libp2p/go-libp2p" "github.com/libp2p/go-libp2p-core/host" "github.com/libp2p/go-libp2p-core/routing" dht "github.com/libp2p/go-libp2p-kad-dht" libp2p_pubsub "github.com/libp2p/go-libp2p-pubsub" libp2p_config "github.com/libp2p/go-libp2p/config" libp2p_crypto "github.com/libp2p/go-libp2p/core/crypto" libp2p_host "github.com/libp2p/go-libp2p/core/host" libp2p_network "github.com/libp2p/go-libp2p/core/network" libp2p_peer "github.com/libp2p/go-libp2p/core/peer" libp2p_peerstore "github.com/libp2p/go-libp2p/core/peerstore" "github.com/libp2p/go-libp2p/core/protocol" "github.com/libp2p/go-libp2p/p2p/net/connmgr" "github.com/libp2p/go-libp2p/p2p/security/noise" libp2ptls "github.com/libp2p/go-libp2p/p2p/security/tls" ma "github.com/multiformats/go-multiaddr" "github.com/pkg/errors" "github.com/rs/zerolog" "github.com/harmony-one/bls/ffi/go/bls" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/p2p/discovery" "github.com/harmony-one/harmony/p2p/security" sttypes "github.com/harmony-one/harmony/p2p/stream/types" ) type ConnectCallback func(net libp2p_network.Network, conn libp2p_network.Conn) error type DisconnectCallback func(conn libp2p_network.Conn) error // Host is the client + server in p2p network. type Host interface { Start() error Close() error GetSelfPeer() Peer AddPeer(*Peer) error GetID() libp2p_peer.ID GetP2PHost() libp2p_host.Host GetDiscovery() discovery.Discovery GetPeerCount() int ConnectHostPeer(Peer) error // AddStreamProtocol add the given protocol AddStreamProtocol(protocols ...sttypes.Protocol) // SendMessageToGroups sends a message to one or more multicast groups. SendMessageToGroups(groups []nodeconfig.GroupID, msg []byte) error PubSub() *libp2p_pubsub.PubSub PeerConnectivity() (int, int, int) GetOrJoin(topic string) (*libp2p_pubsub.Topic, error) ListPeer(topic string) []libp2p_peer.ID ListTopic() []string ListBlockedPeer() []libp2p_peer.ID } // Peer is the object for a p2p peer (node) type Peer struct { IP string // IP address of the peer Port string // Port number of the peer ConsensusPubKey *bls.PublicKey // Public key of the peer, used for consensus signing Addrs []ma.Multiaddr // MultiAddress of the peer PeerID libp2p_peer.ID // PeerID, the pubkey for communication } const ( // SetAsideForConsensus set the number of active validation goroutines for the consensus topic SetAsideForConsensus = 1 << 13 // SetAsideOtherwise set the number of active validation goroutines for other topic SetAsideOtherwise = 1 << 11 // MaxMessageHandlers .. MaxMessageHandlers = SetAsideForConsensus + SetAsideOtherwise // MaxMessageSize is 2Mb MaxMessageSize = 1 << 21 ) // HostConfig is the config structure to create a new host type HostConfig struct { Self *Peer BLSKey libp2p_crypto.PrivKey BootNodes []string DataStoreFile *string DiscConcurrency int MaxConnPerIP int DisablePrivateIPScan bool MaxPeers int64 WaitForEachPeerToConnect bool ForceReachabilityPublic bool } func init() { libp2p_pubsub.GossipSubDlazy = 4 libp2p_pubsub.GossipSubGossipFactor = 0.15 libp2p_pubsub.GossipSubD = 5 libp2p_pubsub.GossipSubDlo = 4 libp2p_pubsub.GossipSubDhi = 8 libp2p_pubsub.GossipSubHistoryLength = 2 libp2p_pubsub.GossipSubHistoryGossip = 2 libp2p_pubsub.GossipSubGossipRetransmission = 2 libp2p_pubsub.GossipSubFanoutTTL = 10 * time.Second libp2p_pubsub.GossipSubMaxPendingConnections = 32 libp2p_pubsub.GossipSubMaxIHaveLength = 1000 } func forceReachabilityPublic(f bool) libp2p_config.Option { if f { return func(cfg *libp2p_config.Config) error { public := libp2p_network.Reachability(libp2p_network.ReachabilityPublic) cfg.AutoNATConfig.ForceReachability = &public return nil } } return func(p2pConfig *libp2p_config.Config) error { return nil } } // NewHost .. func NewHost(cfg HostConfig) (Host, error) { var ( self = cfg.Self key = cfg.BLSKey ) addr := fmt.Sprintf("/ip4/%s/tcp/%s", self.IP, self.Port) listenAddr := libp2p.ListenAddrStrings( addr, // regular tcp connections addr+"/quic", // a UDP endpoint for the QUIC transport ) ctx, cancel := context.WithCancel(context.Background()) // TODO: move low and high to configs connmgr, err := connmgr.NewConnManager( int(cfg.MaxConnPerIP), // LowWater int(1024)*cfg.MaxConnPerIP, // HighWater, connmgr.WithGracePeriod(time.Minute), ) if err != nil { cancel() return nil, err } var idht *dht.IpfsDHT var opt discovery.DHTConfig p2pHostConfig := []libp2p.Option{ listenAddr, libp2p.Identity(key), // Support TLS connections libp2p.Security(libp2ptls.ID, libp2ptls.New), // Support noise connections libp2p.Security(noise.ID, noise.New), // Support any other default transports (TCP) libp2p.DefaultTransports, // Prevent the peer from having too many // connections by attaching a connection manager. libp2p.ConnectionManager(connmgr), // Attempt to open ports using uPNP for NATed hosts. libp2p.NATPortMap(), libp2p.Routing(func(h host.Host) (routing.PeerRouting, error) { opt = discovery.DHTConfig{ BootNodes: cfg.BootNodes, DataStoreFile: cfg.DataStoreFile, DiscConcurrency: cfg.DiscConcurrency, } opts, err := opt.GetLibp2pRawOptions() if err != nil { return nil, err } idht, err = dht.New(ctx, h, opts...) return idht, err }), // To help other peers to figure out if they are behind // NATs, launch the server-side of AutoNAT too (AutoRelay // already runs the client) // This service is highly rate-limited and should not cause any // performance issues. libp2p.EnableNATService(), // Bandwidth Reporter libp2p.BandwidthReporter(newCounter()), // Enable relay service, to disable relay we can use libp2p.DisableRelay() libp2p.EnableRelayService(), } if cfg.ForceReachabilityPublic { // ForceReachabilityPublic overrides automatic reachability detection in the AutoNAT subsystem, // forcing the local node to believe it is reachable externally p2pHostConfig = append(p2pHostConfig, libp2p.ForceReachabilityPublic()) } if cfg.DisablePrivateIPScan { // Prevent dialing of public addresses p2pHostConfig = append(p2pHostConfig, libp2p.ConnectionGater(NewGater(cfg.DisablePrivateIPScan))) } // create p2p host p2pHost, err := libp2p.New(p2pHostConfig...) if err != nil { cancel() return nil, errors.Wrapf(err, "cannot initialize libp2p host") } disc, err := discovery.NewDHTDiscovery(ctx, cancel, p2pHost, idht, opt) if err != nil { cancel() p2pHost.Close() return nil, errors.Wrap(err, "cannot create DHT discovery") } options := []libp2p_pubsub.Option{ // WithValidateQueueSize sets the buffer of validate queue. Defaults to 32. When queue is full, validation is throttled and new messages are dropped. libp2p_pubsub.WithValidateQueueSize(512), // WithPeerOutboundQueueSize is an option to set the buffer size for outbound messages to a peer. We start dropping messages to a peer if the outbound queue if full. libp2p_pubsub.WithPeerOutboundQueueSize(64), // WithValidateWorkers sets the number of synchronous validation worker goroutines. Defaults to NumCPU. libp2p_pubsub.WithValidateWorkers(runtime.NumCPU() * 2), // WithValidateThrottle sets the upper bound on the number of active validation goroutines across all topics. The default is 8192. libp2p_pubsub.WithValidateThrottle(MaxMessageHandlers), libp2p_pubsub.WithMaxMessageSize(MaxMessageSize), libp2p_pubsub.WithDiscovery(disc.GetRawDiscovery()), } traceFile := os.Getenv("P2P_TRACEFILE") if len(traceFile) > 0 { var tracer libp2p_pubsub.EventTracer var tracerErr error if strings.HasPrefix(traceFile, "file:") { tracer, tracerErr = libp2p_pubsub.NewJSONTracer(strings.TrimPrefix(traceFile, "file:")) } else { pi, err := libp2p_peer.AddrInfoFromP2pAddr(ma.StringCast(traceFile)) if err == nil { tracer, tracerErr = libp2p_pubsub.NewRemoteTracer(ctx, p2pHost, *pi) } } if tracerErr == nil && tracer != nil { options = append(options, libp2p_pubsub.WithEventTracer(tracer)) } else { utils.Logger().Warn(). Str("Tracer", traceFile). Msg("can't add event tracer from P2P_TRACEFILE") } } pubsub, err := libp2p_pubsub.NewGossipSub(ctx, p2pHost, options...) if err != nil { cancel() p2pHost.Close() return nil, errors.Wrapf(err, "cannot initialize libp2p pub-sub") } self.PeerID = p2pHost.ID() subLogger := utils.Logger().With().Str("hostID", p2pHost.ID().Pretty()).Logger() security := security.NewManager(cfg.MaxConnPerIP, cfg.MaxPeers) // has to save the private key for host h := &HostV2{ h: p2pHost, pubsub: pubsub, joined: map[string]*libp2p_pubsub.Topic{}, self: *self, priKey: key, discovery: disc, security: security, onConnections: ConnectCallbacks{}, onDisconnects: DisconnectCallbacks{}, logger: &subLogger, ctx: ctx, cancel: cancel, } utils.Logger().Info(). Str("self", net.JoinHostPort(self.IP, self.Port)). Interface("PeerID", self.PeerID). Str("PubKey", self.ConsensusPubKey.SerializeToHexStr()). Msg("libp2p host ready") return h, nil } // HostV2 is the version 2 p2p host type HostV2 struct { h libp2p_host.Host pubsub *libp2p_pubsub.PubSub joined map[string]*libp2p_pubsub.Topic streamProtos []sttypes.Protocol self Peer priKey libp2p_crypto.PrivKey lock sync.Mutex discovery discovery.Discovery security security.Security logger *zerolog.Logger blocklist libp2p_pubsub.Blacklist onConnections ConnectCallbacks onDisconnects DisconnectCallbacks ctx context.Context cancel func() } // PubSub .. func (host *HostV2) PubSub() *libp2p_pubsub.PubSub { return host.pubsub } // Start start the HostV2 discovery process // TODO: move PubSub start handling logic here func (host *HostV2) Start() error { host.h.Network().Notify(host) host.SetConnectCallback(host.security.OnConnectCheck) host.SetDisconnectCallback(host.security.OnDisconnectCheck) for _, proto := range host.streamProtos { proto.Start() } return host.discovery.Start() } // Close closes the HostV2. func (host *HostV2) Close() error { for _, proto := range host.streamProtos { proto.Close() } host.discovery.Close() host.cancel() return host.h.Close() } // PeerConnectivity returns total number of known, connected and not connected peers. func (host *HostV2) PeerConnectivity() (int, int, int) { connected, not := 0, 0 peers := host.h.Peerstore().Peers() for _, peer := range peers { result := host.h.Network().Connectedness(peer) if result == libp2p_network.Connected { connected++ } else if result == libp2p_network.NotConnected { not++ } } return len(peers), connected, not } // AddStreamProtocol adds the stream protocols to the host to be started and closed // when the host starts or close func (host *HostV2) AddStreamProtocol(protocols ...sttypes.Protocol) { for _, proto := range protocols { host.streamProtos = append(host.streamProtos, proto) host.h.SetStreamHandlerMatch(protocol.ID(proto.ProtoID()), proto.Match, proto.HandleStream) // TODO: do we need to add handler match for shard proto id? // if proto.IsBeaconNode() { // host.h.SetStreamHandlerMatch(protocol.ID(proto.ShardProtoID()), proto.Match, proto.HandleStream) // } } } // GetOrJoin .. func (host *HostV2) GetOrJoin(topic string) (*libp2p_pubsub.Topic, error) { host.lock.Lock() defer host.lock.Unlock() if t, ok := host.joined[topic]; ok { return t, nil } else if t, err := host.pubsub.Join(topic); err != nil { return nil, errors.Wrapf(err, "cannot join pubsub topic %x", topic) } else { host.joined[topic] = t return t, nil } } // SendMessageToGroups sends a message to one or more multicast groups. // It returns a nil error if and only if it has succeeded to schedule the given // message for sending. func (host *HostV2) SendMessageToGroups(groups []nodeconfig.GroupID, msg []byte) (err error) { if len(msg) == 0 { return errors.New("cannot send out empty message") } for _, group := range groups { t, e := host.GetOrJoin(string(group)) if e != nil { err = e continue } e = t.Publish(context.Background(), msg) if e != nil { err = e continue } } return err } // AddPeer add p2p.Peer into Peerstore func (host *HostV2) AddPeer(p *Peer) error { if p.PeerID != "" && len(p.Addrs) != 0 { host.Peerstore().AddAddrs(p.PeerID, p.Addrs, libp2p_peerstore.PermanentAddrTTL) return nil } if p.PeerID == "" { host.logger.Error().Msg("AddPeer PeerID is EMPTY") return fmt.Errorf("AddPeer error: peerID is empty") } // reconstruct the multiaddress based on ip/port // PeerID has to be known for the ip/port addr := fmt.Sprintf("/ip4/%s/tcp/%s", p.IP, p.Port) targetAddr, err := ma.NewMultiaddr(addr) if err != nil { host.logger.Error().Err(err).Msg("AddPeer NewMultiaddr error") return err } p.Addrs = append(p.Addrs, targetAddr) host.Peerstore().AddAddrs(p.PeerID, p.Addrs, libp2p_peerstore.PermanentAddrTTL) host.logger.Info().Interface("peer", *p).Msg("AddPeer add to libp2p_peerstore") return nil } // Peerstore returns the peer store func (host *HostV2) Peerstore() libp2p_peerstore.Peerstore { return host.h.Peerstore() } // GetID returns ID.Pretty func (host *HostV2) GetID() libp2p_peer.ID { return host.h.ID() } // GetSelfPeer gets self peer func (host *HostV2) GetSelfPeer() Peer { return host.self } // GetP2PHost returns the p2p.Host func (host *HostV2) GetP2PHost() libp2p_host.Host { return host.h } // GetDiscovery returns the underlying discovery func (host *HostV2) GetDiscovery() discovery.Discovery { return host.discovery } // ListTopic returns the list of topic the node subscribed func (host *HostV2) ListTopic() []string { host.lock.Lock() defer host.lock.Unlock() topics := make([]string, 0) for t := range host.joined { topics = append(topics, t) } return topics } // ListPeer returns list of peers in a topic func (host *HostV2) ListPeer(topic string) []libp2p_peer.ID { host.lock.Lock() defer host.lock.Unlock() return host.joined[topic].ListPeers() } // ListBlockedPeer returns list of blocked peer func (host *HostV2) ListBlockedPeer() []libp2p_peer.ID { // TODO: this is a place holder for now peers := make([]libp2p_peer.ID, 0) return peers } // GetPeerCount ... func (host *HostV2) GetPeerCount() int { return host.h.Peerstore().Peers().Len() } // ConnectHostPeer connects to peer host func (host *HostV2) ConnectHostPeer(peer Peer) error { ctx := context.Background() addr := fmt.Sprintf("/ip4/%s/tcp/%s/ipfs/%s", peer.IP, peer.Port, peer.PeerID.Pretty()) peerAddr, err := ma.NewMultiaddr(addr) if err != nil { host.logger.Error().Err(err).Interface("peer", peer).Msg("ConnectHostPeer") return err } peerInfo, err := libp2p_peer.AddrInfoFromP2pAddr(peerAddr) if err != nil { host.logger.Error().Err(err).Interface("peer", peer).Msg("ConnectHostPeer") return err } if err := host.h.Connect(ctx, *peerInfo); err != nil { host.logger.Warn().Err(err).Interface("peer", peer).Msg("can't connect to peer") return err } host.logger.Info().Interface("node", *peerInfo).Msg("connected to peer host") return nil } // called when network starts listening on an addr func (host *HostV2) Listen(net libp2p_network.Network, addr ma.Multiaddr) { } // called when network stops listening on an addr func (host *HostV2) ListenClose(net libp2p_network.Network, addr ma.Multiaddr) { } // called when a connection opened func (host *HostV2) Connected(net libp2p_network.Network, conn libp2p_network.Conn) { host.logger.Info().Interface("node", conn.RemotePeer()).Msg("peer connected") for _, function := range host.onConnections.GetAll() { if err := function(net, conn); err != nil { host.logger.Error().Err(err).Interface("node", conn.RemotePeer()).Msg("failed on peer connected callback") } } } // called when a connection closed func (host *HostV2) Disconnected(net libp2p_network.Network, conn libp2p_network.Conn) { host.logger.Info().Interface("node", conn.RemotePeer()).Msg("peer disconnected") for _, function := range host.onDisconnects.GetAll() { if err := function(conn); err != nil { host.logger.Error().Err(err).Interface("node", conn.RemotePeer()).Msg("failed on peer disconnected callback") } } } // called when a stream opened func (host *HostV2) OpenedStream(net libp2p_network.Network, stream libp2p_network.Stream) { } // called when a stream closed func (host *HostV2) ClosedStream(net libp2p_network.Network, stream libp2p_network.Stream) { } func (host *HostV2) SetConnectCallback(callback ConnectCallback) { host.onConnections.Add(callback) } func (host *HostV2) SetDisconnectCallback(callback DisconnectCallback) { host.onDisconnects.Add(callback) } // NamedTopic represents pubsub topic // Name is the human readable topic, groupID type NamedTopic struct { Name string Topic *libp2p_pubsub.Topic } // ConstructMessage constructs the p2p message as [messageType, contentSize, content] func ConstructMessage(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 }