// Sends SnapshotRecoveryRequest RPCs to a peer when the server is the candidate. func (t *transporter) SendSnapshotRecoveryRequest(server raft.Server, peer *raft.Peer, req *raft.SnapshotRecoveryRequest) *raft.SnapshotRecoveryResponse { var b bytes.Buffer if _, err := req.Encode(&b); err != nil { log.Warn("transporter.ss.encoding.error:", err) return nil } u, _ := t.registry.PeerURL(peer.Name) log.Debugf("Send Snapshot Recovery from %s to %s", server.Name(), u) resp, httpRequest, err := t.Post(fmt.Sprintf("%s/snapshotRecovery", u), &b) if err != nil { log.Debugf("Cannot send Snapshot Recovery to %s : %s", u, err) } if resp != nil { defer resp.Body.Close() t.CancelWhenTimeout(httpRequest) ssrrsp := &raft.SnapshotRecoveryResponse{} if _, err = ssrrsp.Decode(resp.Body); err != nil && err != io.EOF { log.Warn("transporter.ssr.decoding.error:", err) return nil } return ssrrsp } return nil }
// Send join requests to peer. func (s *PeerServer) joinByPeer(server raft.Server, peer string, scheme string) error { var b bytes.Buffer // t must be ok t, _ := server.Transporter().(*transporter) // Our version must match the leaders version versionURL := url.URL{Host: peer, Scheme: scheme, Path: "/version"} version, err := getVersion(t, versionURL) if err != nil { return fmt.Errorf("Error during join version check: %v", err) } if version < store.MinVersion() || version > store.MaxVersion() { return fmt.Errorf("Unable to join: cluster version is %d; version compatibility is %d - %d", version, store.MinVersion(), store.MaxVersion()) } json.NewEncoder(&b).Encode(NewJoinCommand(store.MinVersion(), store.MaxVersion(), server.Name(), s.Config.URL, s.server.URL())) joinURL := url.URL{Host: peer, Scheme: scheme, Path: "/join"} log.Debugf("Send Join Request to %s", joinURL.String()) resp, req, err := t.Post(joinURL.String(), &b) for { if err != nil { return fmt.Errorf("Unable to join: %v", err) } if resp != nil { defer resp.Body.Close() t.CancelWhenTimeout(req) if resp.StatusCode == http.StatusOK { b, _ := ioutil.ReadAll(resp.Body) s.joinIndex, _ = binary.Uvarint(b) return nil } if resp.StatusCode == http.StatusTemporaryRedirect { address := resp.Header.Get("Location") log.Debugf("Send Join Request to %s", address) json.NewEncoder(&b).Encode(NewJoinCommand(store.MinVersion(), store.MaxVersion(), server.Name(), s.Config.URL, s.server.URL())) resp, req, err = t.Post(address, &b) } else if resp.StatusCode == http.StatusBadRequest { log.Debug("Reach max number peers in the cluster") decoder := json.NewDecoder(resp.Body) err := &etcdErr.Error{} decoder.Decode(err) return *err } else { return fmt.Errorf("Unable to join") } } } }
// Set the key-value pair if the current value of the key equals to the given prevValue func (c *CompareAndDeleteCommand) Apply(server raft.Server) (interface{}, error) { s, _ := server.StateMachine().(store.Store) e, err := s.CompareAndDelete(c.Key, c.PrevValue, c.PrevIndex) if err != nil { log.Debug(err) return nil, err } return e, nil }
func (s *PeerServer) SetRaftServer(raftServer raft.Server) { s.snapConf = &snapshotConf{ checkingInterval: time.Second * 3, // this is not accurate, we will update raft to provide an api lastIndex: raftServer.CommitIndex(), snapshotThr: uint64(s.Config.SnapshotCount), } raftServer.AddEventListener(raft.StateChangeEventType, s.raftEventLogger) raftServer.AddEventListener(raft.LeaderChangeEventType, s.raftEventLogger) raftServer.AddEventListener(raft.TermChangeEventType, s.raftEventLogger) raftServer.AddEventListener(raft.AddPeerEventType, s.raftEventLogger) raftServer.AddEventListener(raft.RemovePeerEventType, s.raftEventLogger) raftServer.AddEventListener(raft.HeartbeatIntervalEventType, s.raftEventLogger) raftServer.AddEventListener(raft.ElectionTimeoutThresholdEventType, s.raftEventLogger) raftServer.AddEventListener(raft.HeartbeatEventType, s.recordMetricEvent) s.raftServer = raftServer }