zolfa
/
tendermint

package consensus
import (	"bufio"	"context"	"errors"	"fmt"	"io"	"os"	"strconv"	"strings"
	dbm "github.com/tendermint/tm-db"
	cfg "github.com/tendermint/tendermint/config"	"github.com/tendermint/tendermint/libs/log"	tmos "github.com/tendermint/tendermint/libs/os"	"github.com/tendermint/tendermint/proxy"	sm "github.com/tendermint/tendermint/state"	"github.com/tendermint/tendermint/store"	"github.com/tendermint/tendermint/types")
const (	// event bus subscriber
	subscriber = "replay-file")
//--------------------------------------------------------
// replay messages interactively or all at once

// replay the wal file
func RunReplayFile(config cfg.BaseConfig, csConfig *cfg.ConsensusConfig, console bool) {	consensusState := newConsensusStateForReplay(config, csConfig)
	if err := consensusState.ReplayFile(csConfig.WalFile(), console); err != nil {		tmos.Exit(fmt.Sprintf("Error during consensus replay: %v", err))	}}
// Replay msgs in file or start the console
func (cs *State) ReplayFile(file string, console bool) error {
	if cs.IsRunning() {		return errors.New("cs is already running, cannot replay")	}	if cs.wal != nil {		return errors.New("cs wal is open, cannot replay")	}
	cs.startForReplay()
	// ensure all new step events are regenerated as expected

	ctx := context.Background()	newStepSub, err := cs.eventBus.Subscribe(ctx, subscriber, types.EventQueryNewRoundStep)	if err != nil {		return fmt.Errorf("failed to subscribe %s to %v", subscriber, types.EventQueryNewRoundStep)	}	defer cs.eventBus.Unsubscribe(ctx, subscriber, types.EventQueryNewRoundStep)
	// just open the file for reading, no need to use wal
	fp, err := os.OpenFile(file, os.O_RDONLY, 0600)	if err != nil {		return err	}
	pb := newPlayback(file, fp, cs, cs.state.Copy())	defer pb.fp.Close()
	var nextN int // apply N msgs in a row
	var msg *TimedWALMessage	for {		if nextN == 0 && console {			nextN = pb.replayConsoleLoop()		}
		msg, err = pb.dec.Decode()		if err == io.EOF {			return nil		} else if err != nil {			return err		}
		if err := pb.cs.readReplayMessage(msg, newStepSub); err != nil {			return err		}
		if nextN > 0 {			nextN--		}		pb.count++	}}
//------------------------------------------------
// playback manager

type playback struct {	cs *State
	fp    *os.File	dec   *WALDecoder	count int // how many lines/msgs into the file are we

	// replays can be reset to beginning
	fileName     string   // so we can close/reopen the file
	genesisState sm.State // so the replay session knows where to restart from
}
func newPlayback(fileName string, fp *os.File, cs *State, genState sm.State) *playback {	return &playback{		cs:           cs,		fp:           fp,		fileName:     fileName,		genesisState: genState,		dec:          NewWALDecoder(fp),	}}
// go back count steps by resetting the state and running (pb.count - count) steps
func (pb *playback) replayReset(count int, newStepSub types.Subscription) error {	pb.cs.Stop()	pb.cs.Wait()
	newCS := NewState(pb.cs.config, pb.genesisState.Copy(), pb.cs.blockExec,		pb.cs.blockStore, pb.cs.txNotifier, pb.cs.evpool)	newCS.SetEventBus(pb.cs.eventBus)	newCS.startForReplay()
	if err := pb.fp.Close(); err != nil {		return err	}	fp, err := os.OpenFile(pb.fileName, os.O_RDONLY, 0600)	if err != nil {		return err	}	pb.fp = fp	pb.dec = NewWALDecoder(fp)	count = pb.count - count	fmt.Printf("Reseting from %d to %d\n", pb.count, count)	pb.count = 0	pb.cs = newCS	var msg *TimedWALMessage	for i := 0; i < count; i++ {		msg, err = pb.dec.Decode()		if err == io.EOF {			return nil		} else if err != nil {			return err		}		if err := pb.cs.readReplayMessage(msg, newStepSub); err != nil {			return err		}		pb.count++	}	return nil}
func (cs *State) startForReplay() {	cs.Logger.Error("Replay commands are disabled until someone updates them and writes tests")	/* TODO:!	// 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 {			tmos.Exit("input is too long")		} else if err != nil {			tmos.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			}			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

			ctx := context.Background()			// ensure all new step events are regenerated as expected

			newStepSub, err := pb.cs.eventBus.Subscribe(ctx, subscriber, types.EventQueryNewRoundStep)			if err != nil {				tmos.Exit(fmt.Sprintf("failed to subscribe %s to %v", subscriber, types.EventQueryNewRoundStep))			}			defer pb.cs.eventBus.Unsubscribe(ctx, subscriber, types.EventQueryNewRoundStep)
			if len(tokens) == 1 {				if err := pb.replayReset(1, newStepSub); err != nil {					pb.cs.Logger.Error("Replay reset error", "err", err)				}			} 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 if err := pb.replayReset(i, newStepSub); err != nil {					pb.cs.Logger.Error("Replay reset error", "err", err)				}			}
		case "rs":			// "rs" -> print entire round state
			// "rs short" -> print height/round/step
			// "rs <field>" -> 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)		}	}}
//--------------------------------------------------------------------------------

// convenience for replay mode
func newConsensusStateForReplay(config cfg.BaseConfig, csConfig *cfg.ConsensusConfig) *State {	dbType := dbm.BackendType(config.DBBackend)	// Get BlockStore
	blockStoreDB, err := dbm.NewDB("blockstore", dbType, config.DBDir())	if err != nil {		tmos.Exit(err.Error())	}	blockStore := store.NewBlockStore(blockStoreDB)
	// Get State
	stateDB, err := dbm.NewDB("state", dbType, config.DBDir())	if err != nil {		tmos.Exit(err.Error())	}	gdoc, err := sm.MakeGenesisDocFromFile(config.GenesisFile())	if err != nil {		tmos.Exit(err.Error())	}	state, err := sm.MakeGenesisState(gdoc)	if err != nil {		tmos.Exit(err.Error())	}
	// Create proxyAppConn connection (consensus, mempool, query)
	clientCreator := proxy.DefaultClientCreator(config.ProxyApp, config.ABCI, config.DBDir())	proxyApp := proxy.NewAppConns(clientCreator)	err = proxyApp.Start()	if err != nil {		tmos.Exit(fmt.Sprintf("Error starting proxy app conns: %v", err))	}
	eventBus := types.NewEventBus()	if err := eventBus.Start(); err != nil {		tmos.Exit(fmt.Sprintf("Failed to start event bus: %v", err))	}
	handshaker := NewHandshaker(stateDB, state, blockStore, gdoc)	handshaker.SetEventBus(eventBus)	err = handshaker.Handshake(proxyApp)	if err != nil {		tmos.Exit(fmt.Sprintf("Error on handshake: %v", err))	}
	mempool, evpool := emptyMempool{}, emptyEvidencePool{}	blockExec := sm.NewBlockExecutor(stateDB, log.TestingLogger(), proxyApp.Consensus(), mempool, evpool)
	consensusState := NewState(csConfig, state.Copy(), blockExec,		blockStore, mempool, evpool)
	consensusState.SetEventBus(eventBus)	return consensusState}