package sync import ( "fmt" "io" "math/rand" "sync" "time" "github.com/tim-beatham/wgmesh/pkg/conf" "github.com/tim-beatham/wgmesh/pkg/conn" "github.com/tim-beatham/wgmesh/pkg/lib" logging "github.com/tim-beatham/wgmesh/pkg/log" "github.com/tim-beatham/wgmesh/pkg/mesh" ) // Syncer: picks random nodes from the meshs type Syncer interface { Sync(theMesh mesh.MeshProvider) error SyncMeshes() error } type SyncerImpl struct { manager mesh.MeshManager requester SyncRequester infectionCount int syncCount int cluster conn.ConnCluster conf *conf.DaemonConfiguration lastSync map[string]int64 } // Sync: Sync with random nodes func (s *SyncerImpl) Sync(correspondingMesh mesh.MeshProvider) error { if correspondingMesh == nil { return fmt.Errorf("mesh provided was nil cannot sync nil mesh") } // Self can be nil if the node is removed selfID := s.manager.GetPublicKey() self, _ := correspondingMesh.GetNode(selfID.String()) // Mesh has been removed if self == nil { return fmt.Errorf("mesh %s does not exist", correspondingMesh.GetMeshId()) } correspondingMesh.Prune() if correspondingMesh.HasChanges() { logging.Log.WriteInfof("meshes %s has changes", correspondingMesh.GetMeshId()) } if self.GetType() == conf.PEER_ROLE && !correspondingMesh.HasChanges() && s.infectionCount == 0 { logging.Log.WriteInfof("no changes for %s", correspondingMesh.GetMeshId()) // If not synchronised in certain time pull from random neighbour if s.conf.PullTime != 0 && time.Now().Unix()-s.lastSync[correspondingMesh.GetMeshId()] > int64(s.conf.PullTime) { return s.Pull(self, correspondingMesh) } return nil } before := time.Now() s.manager.GetRouteManager().UpdateRoutes() publicKey := s.manager.GetPublicKey() nodeNames := correspondingMesh.GetPeers() if self != nil { nodeNames = lib.Filter(nodeNames, func(s string) bool { return s != mesh.NodeID(self) }) } var gossipNodes []string // Clients always pings its peer for configuration if self != nil && self.GetType() == conf.CLIENT_ROLE && len(nodeNames) > 1 { neighbours := s.cluster.GetNeighbours(nodeNames, publicKey.String()) if len(neighbours) == 0 { return nil } // Peer with 2 nodes so that there is redundnacy in // the situation the node leaves pre-emptively redundancyLength := min(len(neighbours), 2) gossipNodes = neighbours[:redundancyLength] } else { neighbours := s.cluster.GetNeighbours(nodeNames, publicKey.String()) gossipNodes = lib.RandomSubsetOfLength(neighbours, s.conf.BranchRate) if len(nodeNames) > s.conf.ClusterSize && rand.Float64() < s.conf.InterClusterChance { gossipNodes[len(gossipNodes)-1] = s.cluster.GetInterCluster(nodeNames, publicKey.String()) } } var succeeded bool = false // Do this synchronously to conserve bandwidth for _, node := range gossipNodes { correspondingPeer := s.manager.GetNode(correspondingMesh.GetMeshId(), node) if correspondingPeer == nil { logging.Log.WriteErrorf("node %s does not exist", node) continue } err := s.requester.SyncMesh(correspondingMesh.GetMeshId(), correspondingPeer) if err == nil || err == io.EOF { succeeded = true } if err != nil { logging.Log.WriteErrorf(err.Error()) } } s.syncCount++ logging.Log.WriteInfof("sync time: %v", time.Since(before)) logging.Log.WriteInfof("number of syncs: %d", s.syncCount) s.infectionCount = ((s.conf.InfectionCount + s.infectionCount - 1) % s.conf.InfectionCount) if !succeeded { s.infectionCount++ } correspondingMesh.SaveChanges() s.lastSync[correspondingMesh.GetMeshId()] = time.Now().Unix() return nil } // Pull one node in the cluster, if there has not been message dissemination // in a certain period of time pull a random node within the cluster func (s *SyncerImpl) Pull(self mesh.MeshNode, mesh mesh.MeshProvider) error { peers := mesh.GetPeers() pubKey, _ := self.GetPublicKey() neighbours := s.cluster.GetNeighbours(peers, pubKey.String()) neighbour := lib.RandomSubsetOfLength(neighbours, 1) if len(neighbour) == 0 { logging.Log.WriteInfof("no neighbours") return nil } logging.Log.WriteInfof("pulling from node %s", neighbour[0]) pullNode, err := mesh.GetNode(neighbour[0]) if err != nil || pullNode == nil { return fmt.Errorf("node %s does not exist in the mesh", neighbour[0]) } err = s.requester.SyncMesh(mesh.GetMeshId(), pullNode) if err == nil || err == io.EOF { s.lastSync[mesh.GetMeshId()] = time.Now().Unix() } else { return err } s.syncCount++ return nil } // SyncMeshes: Sync all meshes func (s *SyncerImpl) SyncMeshes() error { var wg sync.WaitGroup for _, mesh := range s.manager.GetMeshes() { wg.Add(1) sync := func() { defer wg.Done() err := s.Sync(mesh) if err != nil { logging.Log.WriteErrorf(err.Error()) } } go sync() } logging.Log.WriteInfof("updating the WireGuard configuration") err := s.manager.ApplyConfig() if err != nil { logging.Log.WriteInfof("failed to update config %w", err) } return nil } func NewSyncer(m mesh.MeshManager, conf *conf.DaemonConfiguration, r SyncRequester) Syncer { cluster, _ := conn.NewConnCluster(conf.ClusterSize) return &SyncerImpl{ manager: m, conf: conf, requester: r, infectionCount: 0, syncCount: 0, cluster: cluster, lastSync: make(map[string]int64)} }