package blockchain
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import (
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"bytes"
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"errors"
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"fmt"
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"sync/atomic"
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"time"
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"github.com/tendermint/tendermint/binary"
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. "github.com/tendermint/tendermint/common"
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"github.com/tendermint/tendermint/events"
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"github.com/tendermint/tendermint/p2p"
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sm "github.com/tendermint/tendermint/state"
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"github.com/tendermint/tendermint/types"
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)
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const (
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BlockchainChannel = byte(0x40)
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defaultChannelCapacity = 100
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defaultSleepIntervalMS = 500
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trySyncIntervalMS = 100
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// stop syncing when last block's time is
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// within this much of the system time.
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stopSyncingDurationMinutes = 10
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)
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type stateResetter interface {
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ResetToState(*sm.State)
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}
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// BlockchainReactor handles long-term catchup syncing.
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type BlockchainReactor struct {
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sw *p2p.Switch
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state *sm.State
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store *BlockStore
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pool *BlockPool
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sync bool
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requestsCh chan BlockRequest
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timeoutsCh chan string
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lastBlock *types.Block
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quit chan struct{}
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running uint32
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evsw events.Fireable
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}
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func NewBlockchainReactor(state *sm.State, store *BlockStore, sync bool) *BlockchainReactor {
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if state.LastBlockHeight != store.Height() {
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panic(Fmt("state (%v) and store (%v) height mismatch", state.LastBlockHeight, store.Height()))
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}
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requestsCh := make(chan BlockRequest, defaultChannelCapacity)
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timeoutsCh := make(chan string, defaultChannelCapacity)
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pool := NewBlockPool(
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store.Height()+1,
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requestsCh,
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timeoutsCh,
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)
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bcR := &BlockchainReactor{
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state: state,
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store: store,
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pool: pool,
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sync: sync,
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requestsCh: requestsCh,
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timeoutsCh: timeoutsCh,
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quit: make(chan struct{}),
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running: uint32(0),
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}
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return bcR
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}
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// Implements Reactor
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func (bcR *BlockchainReactor) Start(sw *p2p.Switch) {
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if atomic.CompareAndSwapUint32(&bcR.running, 0, 1) {
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log.Info("Starting BlockchainReactor")
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bcR.sw = sw
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bcR.pool.Start()
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if bcR.sync {
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go bcR.poolRoutine()
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}
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}
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}
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// Implements Reactor
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func (bcR *BlockchainReactor) Stop() {
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if atomic.CompareAndSwapUint32(&bcR.running, 1, 0) {
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log.Info("Stopping BlockchainReactor")
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close(bcR.quit)
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bcR.pool.Stop()
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}
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}
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// Implements Reactor
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func (bcR *BlockchainReactor) GetChannels() []*p2p.ChannelDescriptor {
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return []*p2p.ChannelDescriptor{
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&p2p.ChannelDescriptor{
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Id: BlockchainChannel,
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Priority: 5,
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SendQueueCapacity: 100,
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},
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}
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}
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// Implements Reactor
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func (bcR *BlockchainReactor) AddPeer(peer *p2p.Peer) {
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// Send peer our state.
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peer.Send(BlockchainChannel, bcPeerStatusMessage{bcR.store.Height()})
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}
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// Implements Reactor
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func (bcR *BlockchainReactor) RemovePeer(peer *p2p.Peer, reason interface{}) {
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// Remove peer from the pool.
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bcR.pool.RemovePeer(peer.Key)
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}
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// Implements Reactor
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func (bcR *BlockchainReactor) Receive(chId byte, src *p2p.Peer, msgBytes []byte) {
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_, msg_, err := DecodeMessage(msgBytes)
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if err != nil {
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log.Warn("Error decoding message", "error", err)
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return
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}
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log.Info("Received message", "msg", msg_)
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switch msg := msg_.(type) {
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case bcBlockRequestMessage:
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// Got a request for a block. Respond with block if we have it.
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block := bcR.store.LoadBlock(msg.Height)
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if block != nil {
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msg := bcBlockResponseMessage{Block: block}
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queued := src.TrySend(BlockchainChannel, msg)
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if !queued {
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// queue is full, just ignore.
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}
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} else {
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// TODO peer is asking for things we don't have.
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}
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case bcBlockResponseMessage:
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// Got a block.
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bcR.pool.AddBlock(msg.Block, src.Key)
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case bcPeerStatusMessage:
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// Got a peer status.
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bcR.pool.SetPeerHeight(src.Key, msg.Height)
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default:
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// Ignore unknown message
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}
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}
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// Handle messages from the poolReactor telling the reactor what to do.
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func (bcR *BlockchainReactor) poolRoutine() {
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trySyncTicker := time.NewTicker(trySyncIntervalMS * time.Millisecond)
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FOR_LOOP:
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for {
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select {
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case request := <-bcR.requestsCh: // chan BlockRequest
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peer := bcR.sw.Peers().Get(request.PeerId)
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if peer == nil {
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// We can't fulfill the request.
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continue FOR_LOOP
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}
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msg := bcBlockRequestMessage{request.Height}
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queued := peer.TrySend(BlockchainChannel, msg)
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if !queued {
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// We couldn't queue the request.
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time.Sleep(defaultSleepIntervalMS * time.Millisecond)
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continue FOR_LOOP
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}
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case peerId := <-bcR.timeoutsCh: // chan string
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// Peer timed out.
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peer := bcR.sw.Peers().Get(peerId)
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if peer != nil {
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bcR.sw.StopPeerForError(peer, errors.New("BlockchainReactor Timeout"))
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}
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case _ = <-trySyncTicker.C: // chan time
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//var lastValidatedBlock *types.Block
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SYNC_LOOP:
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for i := 0; i < 10; i++ {
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// See if there are any blocks to sync.
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first, second := bcR.pool.PeekTwoBlocks()
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//log.Debug("TrySync peeked", "first", first, "second", second)
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if first == nil || second == nil {
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// We need both to sync the first block.
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break SYNC_LOOP
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}
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firstParts := first.MakePartSet()
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firstPartsHeader := firstParts.Header()
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// Finally, verify the first block using the second's validation.
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err := bcR.state.BondedValidators.VerifyValidation(
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first.Hash(), firstPartsHeader, first.Height, second.Validation)
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if err != nil {
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log.Debug("error in validation", "error", err)
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bcR.pool.RedoRequest(first.Height)
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break SYNC_LOOP
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} else {
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bcR.pool.PopRequest()
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err := sm.ExecBlock(bcR.state, first, firstPartsHeader)
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if err != nil {
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// TODO This is bad, are we zombie?
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panic(Fmt("Failed to process committed block: %v", err))
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}
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bcR.store.SaveBlock(first, firstParts, second.Validation)
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bcR.state.Save()
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//lastValidatedBlock = first
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}
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}
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/*
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// We're done syncing for now (will do again shortly)
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// See if we want to stop syncing and turn on the
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// consensus reactor.
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// TODO: use other heuristics too besides blocktime.
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// It's not a security concern, as it only needs to happen
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// upon node sync, and there's also a second (slower)
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// method of syncing in the consensus reactor.
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if lastValidatedBlock != nil && time.Now().Sub(lastValidatedBlock.Time) < stopSyncingDurationMinutes*time.Minute {
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go func() {
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log.Info("Stopping blockpool syncing, turning on consensus...")
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trySyncTicker.Stop() // Just stop the block requests. Still serve blocks to others.
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conR := bcR.sw.Reactor("CONSENSUS")
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conR.(stateResetter).ResetToState(bcR.state)
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conR.Start(bcR.sw)
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for _, peer := range bcR.sw.Peers().List() {
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conR.AddPeer(peer)
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}
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}()
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break FOR_LOOP
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}
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*/
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continue FOR_LOOP
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case <-bcR.quit:
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break FOR_LOOP
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}
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}
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}
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func (bcR *BlockchainReactor) BroadcastStatus() error {
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bcR.sw.Broadcast(BlockchainChannel, bcPeerStatusMessage{bcR.store.Height()})
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return nil
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}
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// implements events.Eventable
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func (bcR *BlockchainReactor) SetFireable(evsw events.Fireable) {
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bcR.evsw = evsw
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}
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//-----------------------------------------------------------------------------
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// Messages
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const (
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msgTypeUnknown = byte(0x00)
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msgTypeBlockRequest = byte(0x10)
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msgTypeBlockResponse = byte(0x11)
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msgTypePeerStatus = byte(0x20)
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)
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// TODO: check for unnecessary extra bytes at the end.
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func DecodeMessage(bz []byte) (msgType byte, msg interface{}, err error) {
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n := new(int64)
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msgType = bz[0]
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r := bytes.NewReader(bz)
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switch msgType {
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case msgTypeBlockRequest:
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msg = binary.ReadBinary(bcBlockRequestMessage{}, r, n, &err)
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case msgTypeBlockResponse:
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msg = binary.ReadBinary(bcBlockResponseMessage{}, r, n, &err)
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case msgTypePeerStatus:
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msg = binary.ReadBinary(bcPeerStatusMessage{}, r, n, &err)
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default:
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msg = nil
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}
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return
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}
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//-------------------------------------
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type bcBlockRequestMessage struct {
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Height uint
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}
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func (m bcBlockRequestMessage) TypeByte() byte { return msgTypeBlockRequest }
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func (m bcBlockRequestMessage) String() string {
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return fmt.Sprintf("[bcBlockRequestMessage %v]", m.Height)
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}
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//-------------------------------------
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type bcBlockResponseMessage struct {
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Block *types.Block
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}
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func (m bcBlockResponseMessage) TypeByte() byte { return msgTypeBlockResponse }
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func (m bcBlockResponseMessage) String() string {
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return fmt.Sprintf("[bcBlockResponseMessage %v]", m.Block.Height)
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}
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//-------------------------------------
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type bcPeerStatusMessage struct {
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Height uint
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}
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func (m bcPeerStatusMessage) TypeByte() byte { return msgTypePeerStatus }
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func (m bcPeerStatusMessage) String() string {
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return fmt.Sprintf("[bcPeerStatusMessage %v]", m.Height)
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}
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