package consensus import ( "bufio" "errors" "fmt" "os" "reflect" "strconv" "strings" "time" . "github.com/tendermint/go-common" "github.com/tendermint/go-wire" sm "github.com/tendermint/tendermint/state" "github.com/tendermint/tendermint/types" ) //-------------------------------------------------------- // types and functions for savings consensus messages type ConsensusLogMessage struct { Time time.Time `json:"time"` Msg ConsensusLogMessageInterface `json:"msg"` } type ConsensusLogMessageInterface interface{} var _ = wire.RegisterInterface( struct{ ConsensusLogMessageInterface }{}, wire.ConcreteType{&types.EventDataRoundState{}, 0x01}, wire.ConcreteType{msgInfo{}, 0x02}, wire.ConcreteType{timeoutInfo{}, 0x03}, ) // called in newStep and for each pass in receiveRoutine func (cs *ConsensusState) saveMsg(msg ConsensusLogMessageInterface) { if cs.msgLogFP != nil { var n int var err error wire.WriteJSON(ConsensusLogMessage{time.Now(), msg}, cs.msgLogFP, &n, &err) wire.WriteTo([]byte("\n"), cs.msgLogFP, &n, &err) // one message per line if err != nil { log.Error("Error writing to consensus message log file", "err", err, "msg", msg) } } } //-------------------------------------------------------- // replay the messages // Interactive playback func (cs ConsensusState) ReplayConsole(file string) error { return cs.replay(file, true) } // Full playback, with tests func (cs ConsensusState) ReplayMessages(file string) error { return cs.replay(file, false) } // replay all msgs or start the console func (cs *ConsensusState) replay(file string, console bool) error { if cs.IsRunning() { return errors.New("cs is already running, cannot replay") } cs.startForReplay() // set the FP to nil so we don't overwrite if cs.msgLogFP != nil { cs.msgLogFP.Close() cs.msgLogFP = nil } // ensure all new step events are regenerated as expected newStepCh := cs.evsw.SubscribeToEvent("replay-test", types.EventStringNewRoundStep(), 1) fp, err := os.OpenFile(file, os.O_RDONLY, 0666) if err != nil { return err } pb := newPlayback(file, fp, cs, newStepCh, cs.state.Copy()) defer pb.fp.Close() var nextN int // apply N msgs in a row for pb.scanner.Scan() { if nextN == 0 && console { nextN = pb.replayConsoleLoop() } if err := pb.readReplayMessage(); err != nil { return err } if nextN > 0 { nextN -= 1 } pb.count += 1 } return nil } //------------------------------------------------ // playback manager type playback struct { cs *ConsensusState file string fp *os.File scanner *bufio.Scanner newStepCh chan interface{} genesisState *sm.State count int } func newPlayback(file string, fp *os.File, cs *ConsensusState, ch chan interface{}, genState *sm.State) *playback { return &playback{ cs: cs, file: file, newStepCh: ch, genesisState: genState, fp: fp, scanner: bufio.NewScanner(fp), } } // go back count steps by resetting the state and running (pb.count - count) steps func (pb *playback) replayReset(count int) error { pb.cs.Stop() newCs := NewConsensusState(pb.genesisState.Copy(), pb.cs.proxyAppCtx, pb.cs.blockStore, pb.cs.mempool) newCs.SetEventSwitch(pb.cs.evsw) // ensure all new step events are regenerated as expected pb.newStepCh = newCs.evsw.SubscribeToEvent("replay-test", types.EventStringNewRoundStep(), 1) newCs.startForReplay() pb.fp.Close() fp, err := os.OpenFile(pb.file, os.O_RDONLY, 0666) if err != nil { return err } pb.fp = fp pb.scanner = bufio.NewScanner(fp) count = pb.count - count log.Notice(Fmt("Reseting from %d to %d", pb.count, count)) pb.count = 0 pb.cs = newCs for i := 0; pb.scanner.Scan() && i < count; i++ { if err := pb.readReplayMessage(); err != nil { return err } pb.count += 1 } return nil } func (cs *ConsensusState) startForReplay() { cs.BaseService.OnStart() go cs.receiveRoutine(0) // since we replay tocks we just ignore ticks go func() { for { select { case <-cs.tickChan: case <-cs.Quit: return } } }() } // console function for parsing input and running commands func (pb *playback) replayConsoleLoop() int { for { fmt.Printf("> ") bufReader := bufio.NewReader(os.Stdin) line, more, err := bufReader.ReadLine() if more { Exit("input is too long") } else if err != nil { Exit(err.Error()) } tokens := strings.Split(string(line), " ") if len(tokens) == 0 { continue } switch tokens[0] { case "next": // "next" -> replay next message // "next N" -> replay next N messages if len(tokens) == 1 { return 0 } else { i, err := strconv.Atoi(tokens[1]) if err != nil { fmt.Println("next takes an integer argument") } else { return i } } case "back": // "back" -> go back one message // "back N" -> go back N messages // NOTE: "back" is not supported in the state machine design, // so we restart and replay up to if len(tokens) == 1 { pb.replayReset(1) } else { i, err := strconv.Atoi(tokens[1]) if err != nil { fmt.Println("back takes an integer argument") } else if i > pb.count { fmt.Printf("argument to back must not be larger than the current count (%d)\n", pb.count) } else { pb.replayReset(i) } } case "rs": // "rs" -> print entire round state // "rs short" -> print height/round/step // "rs " -> print another field of the round state rs := pb.cs.RoundState if len(tokens) == 1 { fmt.Println(rs) } else { switch tokens[1] { case "short": fmt.Printf("%v/%v/%v\n", rs.Height, rs.Round, rs.Step) case "validators": fmt.Println(rs.Validators) case "proposal": fmt.Println(rs.Proposal) case "proposal_block": fmt.Printf("%v %v\n", rs.ProposalBlockParts.StringShort(), rs.ProposalBlock.StringShort()) case "locked_round": fmt.Println(rs.LockedRound) case "locked_block": fmt.Printf("%v %v\n", rs.LockedBlockParts.StringShort(), rs.LockedBlock.StringShort()) case "votes": fmt.Println(rs.Votes.StringIndented(" ")) default: fmt.Println("Unknown option", tokens[1]) } } case "n": fmt.Println(pb.count) } } return 0 } func (pb *playback) readReplayMessage() error { var err error var msg ConsensusLogMessage wire.ReadJSON(&msg, pb.scanner.Bytes(), &err) if err != nil { return fmt.Errorf("Error reading json data: %v", err) } // for logging switch m := msg.Msg.(type) { case *types.EventDataRoundState: log.Notice("New Step", "height", m.Height, "round", m.Round, "step", m.Step) // these are playback checks ticker := time.After(time.Second * 2) select { case mi := <-pb.newStepCh: m2 := mi.(*types.EventDataRoundState) if m.Height != m2.Height || m.Round != m2.Round || m.Step != m2.Step { return fmt.Errorf("RoundState mismatch. Got %v; Expected %v", m2, m) } case <-ticker: return fmt.Errorf("Failed to read off newStepCh") } case msgInfo: peerKey := m.PeerKey if peerKey == "" { peerKey = "local" } switch msg := m.Msg.(type) { case *ProposalMessage: p := msg.Proposal log.Notice("Proposal", "height", p.Height, "round", p.Round, "header", p.BlockPartsHeader, "pol", p.POLRound, "peer", peerKey) case *BlockPartMessage: log.Notice("BlockPart", "height", msg.Height, "round", msg.Round, "peer", peerKey) case *VoteMessage: v := msg.Vote log.Notice("Vote", "height", v.Height, "round", v.Round, "type", v.Type, "hash", v.BlockHash, "header", v.BlockPartsHeader, "peer", peerKey) } // internal or from peer if m.PeerKey == "" { pb.cs.internalMsgQueue <- m } else { pb.cs.peerMsgQueue <- m } case timeoutInfo: log.Notice("Timeout", "height", m.Height, "round", m.Round, "step", m.Step, "dur", m.Duration) pb.cs.tockChan <- m default: return fmt.Errorf("Unknown ConsensusLogMessage type: %v", reflect.TypeOf(msg.Msg)) } return nil }