package consensus import ( "bytes" "errors" "fmt" "reflect" "sync" "time" . "github.com/tendermint/go-common" "github.com/tendermint/go-p2p" "github.com/tendermint/go-wire" bc "github.com/tendermint/tendermint/blockchain" sm "github.com/tendermint/tendermint/state" "github.com/tendermint/tendermint/types" ) const ( StateChannel = byte(0x20) DataChannel = byte(0x21) VoteChannel = byte(0x22) peerGossipSleepDuration = 100 * time.Millisecond // Time to sleep if there's nothing to send. maxConsensusMessageSize = 1048576 // 1MB; NOTE: keep in sync with types.PartSet sizes. ) //----------------------------------------------------------------------------- type ConsensusReactor struct { p2p.BaseReactor // QuitService + p2p.Switch blockStore *bc.BlockStore conS *ConsensusState fastSync bool evsw types.EventSwitch } func NewConsensusReactor(consensusState *ConsensusState, blockStore *bc.BlockStore, fastSync bool) *ConsensusReactor { conR := &ConsensusReactor{ blockStore: blockStore, conS: consensusState, fastSync: fastSync, } conR.BaseReactor = *p2p.NewBaseReactor(log, "ConsensusReactor", conR) return conR } func (conR *ConsensusReactor) OnStart() error { log.Notice("ConsensusReactor ", "fastSync", conR.fastSync) conR.BaseReactor.OnStart() // callbacks for broadcasting new steps and votes to peers // upon their respective events (ie. uses evsw) conR.registerEventCallbacks() if !conR.fastSync { _, err := conR.conS.Start() if err != nil { return err } } return nil } func (conR *ConsensusReactor) OnStop() { conR.BaseReactor.OnStop() conR.conS.Stop() } // Switch from the fast_sync to the consensus: // reset the state, turn off fast_sync, start the consensus-state-machine func (conR *ConsensusReactor) SwitchToConsensus(state *sm.State) { log.Notice("SwitchToConsensus") conR.conS.reconstructLastCommit(state) // NOTE: The line below causes broadcastNewRoundStepRoutine() to // broadcast a NewRoundStepMessage. conR.conS.updateToState(state) conR.fastSync = false conR.conS.Start() } // Implements Reactor func (conR *ConsensusReactor) GetChannels() []*p2p.ChannelDescriptor { // TODO optimize return []*p2p.ChannelDescriptor{ &p2p.ChannelDescriptor{ ID: StateChannel, Priority: 5, SendQueueCapacity: 100, }, &p2p.ChannelDescriptor{ ID: DataChannel, // maybe split between gossiping current block and catchup stuff Priority: 10, // once we gossip the whole block there's nothing left to send until next height or round SendQueueCapacity: 100, RecvBufferCapacity: 50 * 4096, }, &p2p.ChannelDescriptor{ ID: VoteChannel, Priority: 5, SendQueueCapacity: 100, RecvBufferCapacity: 100 * 100, }, } } // Implements Reactor func (conR *ConsensusReactor) AddPeer(peer *p2p.Peer) { if !conR.IsRunning() { return } // Create peerState for peer peerState := NewPeerState(peer) peer.Data.Set(types.PeerStateKey, peerState) // Begin gossip routines for this peer. go conR.gossipDataRoutine(peer, peerState) go conR.gossipVotesRoutine(peer, peerState) // Send our state to peer. // If we're fast_syncing, broadcast a RoundStepMessage later upon SwitchToConsensus(). if !conR.fastSync { conR.sendNewRoundStepMessage(peer) } } // Implements Reactor func (conR *ConsensusReactor) RemovePeer(peer *p2p.Peer, reason interface{}) { if !conR.IsRunning() { return } // TODO //peer.Data.Get(PeerStateKey).(*PeerState).Disconnect() } // Implements Reactor // NOTE: We process these messages even when we're fast_syncing. // Messages affect either a peer state or the consensus state. // Peer state updates can happen in parallel, but processing of // proposals, block parts, and votes are ordered by the receiveRoutine // NOTE: blocks on consensus state for proposals, block parts, and votes func (conR *ConsensusReactor) Receive(chID byte, src *p2p.Peer, msgBytes []byte) { if !conR.IsRunning() { log.Debug("Receive", "src", src, "chId", chID, "bytes", msgBytes) return } _, msg, err := DecodeMessage(msgBytes) if err != nil { log.Warn("Error decoding message", "src", src, "chId", chID, "msg", msg, "error", err, "bytes", msgBytes) // TODO punish peer? return } log.Debug("Receive", "src", src, "chId", chID, "msg", msg) // Get peer states ps := src.Data.Get(types.PeerStateKey).(*PeerState) switch chID { case StateChannel: switch msg := msg.(type) { case *NewRoundStepMessage: ps.ApplyNewRoundStepMessage(msg) case *CommitStepMessage: ps.ApplyCommitStepMessage(msg) case *HasVoteMessage: ps.ApplyHasVoteMessage(msg) default: log.Warn(Fmt("Unknown message type %v", reflect.TypeOf(msg))) } case DataChannel: if conR.fastSync { log.Warn("Ignoring message received during fastSync", "msg", msg) return } switch msg := msg.(type) { case *ProposalMessage: ps.SetHasProposal(msg.Proposal) conR.conS.peerMsgQueue <- msgInfo{msg, src.Key} case *ProposalPOLMessage: ps.ApplyProposalPOLMessage(msg) case *BlockPartMessage: ps.SetHasProposalBlockPart(msg.Height, msg.Round, msg.Part.Index) conR.conS.peerMsgQueue <- msgInfo{msg, src.Key} default: log.Warn(Fmt("Unknown message type %v", reflect.TypeOf(msg))) } case VoteChannel: if conR.fastSync { log.Warn("Ignoring message received during fastSync", "msg", msg) return } switch msg := msg.(type) { case *VoteMessage: cs := conR.conS cs.mtx.Lock() height, valSize, lastCommitSize := cs.Height, cs.Validators.Size(), cs.LastCommit.Size() cs.mtx.Unlock() ps.EnsureVoteBitArrays(height, valSize) ps.EnsureVoteBitArrays(height-1, lastCommitSize) ps.SetHasVote(msg.Vote, msg.ValidatorIndex) conR.conS.peerMsgQueue <- msgInfo{msg, src.Key} default: // don't punish (leave room for soft upgrades) log.Warn(Fmt("Unknown message type %v", reflect.TypeOf(msg))) } default: log.Warn(Fmt("Unknown chId %X", chID)) } if err != nil { log.Warn("Error in Receive()", "error", err) } } // Sets our private validator account for signing votes. func (conR *ConsensusReactor) SetPrivValidator(priv *types.PrivValidator) { conR.conS.SetPrivValidator(priv) } // implements events.Eventable func (conR *ConsensusReactor) SetEventSwitch(evsw types.EventSwitch) { conR.evsw = evsw conR.conS.SetEventSwitch(evsw) } //-------------------------------------- // Listens for new steps and votes, // broadcasting the result to peers func (conR *ConsensusReactor) registerEventCallbacks() { types.AddListenerForEvent(conR.evsw, "conR", types.EventStringNewRoundStep(), func(data types.TMEventData) { rs := data.(types.EventDataRoundState).RoundState.(*RoundState) conR.broadcastNewRoundStep(rs) }) types.AddListenerForEvent(conR.evsw, "conR", types.EventStringVote(), func(data types.TMEventData) { edv := data.(types.EventDataVote) conR.broadcastHasVoteMessage(edv.Vote, edv.Index) }) } func (conR *ConsensusReactor) broadcastNewRoundStep(rs *RoundState) { nrsMsg, csMsg := makeRoundStepMessages(rs) if nrsMsg != nil { conR.Switch.Broadcast(StateChannel, struct{ ConsensusMessage }{nrsMsg}) } if csMsg != nil { conR.Switch.Broadcast(StateChannel, struct{ ConsensusMessage }{csMsg}) } } // Broadcasts HasVoteMessage to peers that care. func (conR *ConsensusReactor) broadcastHasVoteMessage(vote *types.Vote, index int) { msg := &HasVoteMessage{ Height: vote.Height, Round: vote.Round, Type: vote.Type, Index: index, } conR.Switch.Broadcast(StateChannel, struct{ ConsensusMessage }{msg}) /* // TODO: Make this broadcast more selective. for _, peer := range conR.Switch.Peers().List() { ps := peer.Data.Get(PeerStateKey).(*PeerState) prs := ps.GetRoundState() if prs.Height == vote.Height { // TODO: Also filter on round? peer.TrySend(StateChannel, struct{ ConsensusMessage }{msg}) } else { // Height doesn't match // TODO: check a field, maybe CatchupCommitRound? // TODO: But that requires changing the struct field comment. } } */ } func makeRoundStepMessages(rs *RoundState) (nrsMsg *NewRoundStepMessage, csMsg *CommitStepMessage) { nrsMsg = &NewRoundStepMessage{ Height: rs.Height, Round: rs.Round, Step: rs.Step, SecondsSinceStartTime: int(time.Now().Sub(rs.StartTime).Seconds()), LastCommitRound: rs.LastCommit.Round(), } if rs.Step == RoundStepCommit { csMsg = &CommitStepMessage{ Height: rs.Height, BlockPartsHeader: rs.ProposalBlockParts.Header(), BlockParts: rs.ProposalBlockParts.BitArray(), } } return } func (conR *ConsensusReactor) sendNewRoundStepMessage(peer *p2p.Peer) { rs := conR.conS.GetRoundState() nrsMsg, csMsg := makeRoundStepMessages(rs) if nrsMsg != nil { peer.Send(StateChannel, struct{ ConsensusMessage }{nrsMsg}) } if csMsg != nil { peer.Send(StateChannel, struct{ ConsensusMessage }{csMsg}) } } func (conR *ConsensusReactor) gossipDataRoutine(peer *p2p.Peer, ps *PeerState) { log := log.New("peer", peer) OUTER_LOOP: for { // Manage disconnects from self or peer. if !peer.IsRunning() || !conR.IsRunning() { log.Notice(Fmt("Stopping gossipDataRoutine for %v.", peer)) return } rs := conR.conS.GetRoundState() prs := ps.GetRoundState() // Send proposal Block parts? if rs.ProposalBlockParts.HasHeader(prs.ProposalBlockPartsHeader) { //log.Info("ProposalBlockParts matched", "blockParts", prs.ProposalBlockParts) if index, ok := rs.ProposalBlockParts.BitArray().Sub(prs.ProposalBlockParts.Copy()).PickRandom(); ok { part := rs.ProposalBlockParts.GetPart(index) msg := &BlockPartMessage{ Height: rs.Height, // This tells peer that this part applies to us. Round: rs.Round, // This tells peer that this part applies to us. Part: part, } peer.Send(DataChannel, struct{ ConsensusMessage }{msg}) ps.SetHasProposalBlockPart(prs.Height, prs.Round, index) continue OUTER_LOOP } } // If the peer is on a previous height, help catch up. if (0 < prs.Height) && (prs.Height < rs.Height) { //log.Info("Data catchup", "height", rs.Height, "peerHeight", prs.Height, "peerProposalBlockParts", prs.ProposalBlockParts) if index, ok := prs.ProposalBlockParts.Not().PickRandom(); ok { // Ensure that the peer's PartSetHeader is correct blockMeta := conR.blockStore.LoadBlockMeta(prs.Height) if !blockMeta.PartsHeader.Equals(prs.ProposalBlockPartsHeader) { log.Info("Peer ProposalBlockPartsHeader mismatch, sleeping", "peerHeight", prs.Height, "blockPartsHeader", blockMeta.PartsHeader, "peerBlockPartsHeader", prs.ProposalBlockPartsHeader) time.Sleep(peerGossipSleepDuration) continue OUTER_LOOP } // Load the part part := conR.blockStore.LoadBlockPart(prs.Height, index) if part == nil { log.Warn("Could not load part", "index", index, "peerHeight", prs.Height, "blockPartsHeader", blockMeta.PartsHeader, "peerBlockPartsHeader", prs.ProposalBlockPartsHeader) time.Sleep(peerGossipSleepDuration) continue OUTER_LOOP } // Send the part msg := &BlockPartMessage{ Height: prs.Height, // Not our height, so it doesn't matter. Round: prs.Round, // Not our height, so it doesn't matter. Part: part, } peer.Send(DataChannel, struct{ ConsensusMessage }{msg}) ps.SetHasProposalBlockPart(prs.Height, prs.Round, index) continue OUTER_LOOP } else { //log.Info("No parts to send in catch-up, sleeping") time.Sleep(peerGossipSleepDuration) continue OUTER_LOOP } } // If height and round don't match, sleep. if (rs.Height != prs.Height) || (rs.Round != prs.Round) { //log.Info("Peer Height|Round mismatch, sleeping", "peerHeight", prs.Height, "peerRound", prs.Round, "peer", peer) time.Sleep(peerGossipSleepDuration) continue OUTER_LOOP } // By here, height and round match. // Proposal block parts were already matched and sent if any were wanted. // (These can match on hash so the round doesn't matter) // Now consider sending other things, like the Proposal itself. // Send Proposal && ProposalPOL BitArray? if rs.Proposal != nil && !prs.Proposal { // Proposal { msg := &ProposalMessage{Proposal: rs.Proposal} peer.Send(DataChannel, struct{ ConsensusMessage }{msg}) ps.SetHasProposal(rs.Proposal) } // ProposalPOL. // Peer must receive ProposalMessage first. // rs.Proposal was validated, so rs.Proposal.POLRound <= rs.Round, // so we definitely have rs.Votes.Prevotes(rs.Proposal.POLRound). if 0 <= rs.Proposal.POLRound { msg := &ProposalPOLMessage{ Height: rs.Height, ProposalPOLRound: rs.Proposal.POLRound, ProposalPOL: rs.Votes.Prevotes(rs.Proposal.POLRound).BitArray(), } peer.Send(DataChannel, struct{ ConsensusMessage }{msg}) } continue OUTER_LOOP } // Nothing to do. Sleep. time.Sleep(peerGossipSleepDuration) continue OUTER_LOOP } } func (conR *ConsensusReactor) gossipVotesRoutine(peer *p2p.Peer, ps *PeerState) { log := log.New("peer", peer) // Simple hack to throttle logs upon sleep. var sleeping = 0 OUTER_LOOP: for { // Manage disconnects from self or peer. if !peer.IsRunning() || !conR.IsRunning() { log.Notice(Fmt("Stopping gossipVotesRoutine for %v.", peer)) return } rs := conR.conS.GetRoundState() prs := ps.GetRoundState() switch sleeping { case 1: // First sleep sleeping = 2 case 2: // No more sleep sleeping = 0 } //log.Debug("gossipVotesRoutine", "rsHeight", rs.Height, "rsRound", rs.Round, // "prsHeight", prs.Height, "prsRound", prs.Round, "prsStep", prs.Step) // If height matches, then send LastCommit, Prevotes, Precommits. if rs.Height == prs.Height { // If there are lastCommits to send... if prs.Step == RoundStepNewHeight { if ps.PickSendVote(rs.LastCommit) { log.Debug("Picked rs.LastCommit to send") continue OUTER_LOOP } } // If there are prevotes to send... if prs.Step <= RoundStepPrevote && prs.Round != -1 && prs.Round <= rs.Round { if ps.PickSendVote(rs.Votes.Prevotes(prs.Round)) { log.Debug("Picked rs.Prevotes(prs.Round) to send") continue OUTER_LOOP } } // If there are precommits to send... if prs.Step <= RoundStepPrecommit && prs.Round != -1 && prs.Round <= rs.Round { if ps.PickSendVote(rs.Votes.Precommits(prs.Round)) { log.Debug("Picked rs.Precommits(prs.Round) to send") continue OUTER_LOOP } } // If there are POLPrevotes to send... if prs.ProposalPOLRound != -1 { if polPrevotes := rs.Votes.Prevotes(prs.ProposalPOLRound); polPrevotes != nil { if ps.PickSendVote(polPrevotes) { log.Debug("Picked rs.Prevotes(prs.ProposalPOLRound) to send") continue OUTER_LOOP } } } } // Special catchup logic. // If peer is lagging by height 1, send LastCommit. if prs.Height != 0 && rs.Height == prs.Height+1 { if ps.PickSendVote(rs.LastCommit) { log.Debug("Picked rs.LastCommit to send") continue OUTER_LOOP } } // Catchup logic // If peer is lagging by more than 1, send Commit. if prs.Height != 0 && rs.Height >= prs.Height+2 { // Load the block commit for prs.Height, // which contains precommit signatures for prs.Height. commit := conR.blockStore.LoadBlockCommit(prs.Height) log.Debug("Loaded BlockCommit for catch-up", "height", prs.Height, "commit", commit) if ps.PickSendVote(commit) { log.Debug("Picked Catchup commit to send") continue OUTER_LOOP } } if sleeping == 0 { // We sent nothing. Sleep... sleeping = 1 log.Info("No votes to send, sleeping", "peer", peer, "localPV", rs.Votes.Prevotes(rs.Round).BitArray(), "peerPV", prs.Prevotes, "localPC", rs.Votes.Precommits(rs.Round).BitArray(), "peerPC", prs.Precommits) } else if sleeping == 2 { // Continued sleep... sleeping = 1 } time.Sleep(peerGossipSleepDuration) continue OUTER_LOOP } } //----------------------------------------------------------------------------- // Read only when returned by PeerState.GetRoundState(). type PeerRoundState struct { Height int // Height peer is at Round int // Round peer is at, -1 if unknown. Step RoundStepType // Step peer is at StartTime time.Time // Estimated start of round 0 at this height Proposal bool // True if peer has proposal for this round ProposalBlockPartsHeader types.PartSetHeader // ProposalBlockParts *BitArray // ProposalPOLRound int // Proposal's POL round. -1 if none. ProposalPOL *BitArray // nil until ProposalPOLMessage received. Prevotes *BitArray // All votes peer has for this round Precommits *BitArray // All precommits peer has for this round LastCommitRound int // Round of commit for last height. -1 if none. LastCommit *BitArray // All commit precommits of commit for last height. CatchupCommitRound int // Round that we have commit for. Not necessarily unique. -1 if none. CatchupCommit *BitArray // All commit precommits peer has for this height & CatchupCommitRound } //----------------------------------------------------------------------------- var ( ErrPeerStateHeightRegression = errors.New("Error peer state height regression") ErrPeerStateInvalidStartTime = errors.New("Error peer state invalid startTime") ) type PeerState struct { Peer *p2p.Peer mtx sync.Mutex PeerRoundState } func NewPeerState(peer *p2p.Peer) *PeerState { return &PeerState{ Peer: peer, PeerRoundState: PeerRoundState{ Round: -1, ProposalPOLRound: -1, LastCommitRound: -1, CatchupCommitRound: -1, }, } } // Returns an atomic snapshot of the PeerRoundState. // There's no point in mutating it since it won't change PeerState. func (ps *PeerState) GetRoundState() *PeerRoundState { ps.mtx.Lock() defer ps.mtx.Unlock() prs := ps.PeerRoundState // copy return &prs } // Returns an atomic snapshot of the PeerRoundState's height // used by the mempool to ensure peers are caught up before broadcasting new txs func (ps *PeerState) GetHeight() int { ps.mtx.Lock() defer ps.mtx.Unlock() return ps.PeerRoundState.Height } func (ps *PeerState) SetHasProposal(proposal *types.Proposal) { ps.mtx.Lock() defer ps.mtx.Unlock() if ps.Height != proposal.Height || ps.Round != proposal.Round { return } if ps.Proposal { return } ps.Proposal = true ps.ProposalBlockPartsHeader = proposal.BlockPartsHeader ps.ProposalBlockParts = NewBitArray(proposal.BlockPartsHeader.Total) ps.ProposalPOLRound = proposal.POLRound ps.ProposalPOL = nil // Nil until ProposalPOLMessage received. } func (ps *PeerState) SetHasProposalBlockPart(height int, round int, index int) { ps.mtx.Lock() defer ps.mtx.Unlock() if ps.Height != height || ps.Round != round { return } ps.ProposalBlockParts.SetIndex(index, true) } // Convenience function to send vote to peer. // Returns true if vote was sent. func (ps *PeerState) PickSendVote(votes types.VoteSetReader) (ok bool) { if index, vote, ok := ps.PickVoteToSend(votes); ok { msg := &VoteMessage{index, vote} ps.Peer.Send(VoteChannel, struct{ ConsensusMessage }{msg}) return true } return false } // votes: Must be the correct Size() for the Height(). func (ps *PeerState) PickVoteToSend(votes types.VoteSetReader) (index int, vote *types.Vote, ok bool) { ps.mtx.Lock() defer ps.mtx.Unlock() if votes.Size() == 0 { return 0, nil, false } height, round, type_, size := votes.Height(), votes.Round(), votes.Type(), votes.Size() // Lazily set data using 'votes'. if votes.IsCommit() { ps.ensureCatchupCommitRound(height, round, size) } ps.ensureVoteBitArrays(height, size) psVotes := ps.getVoteBitArray(height, round, type_) if psVotes == nil { return 0, nil, false // Not something worth sending } if index, ok := votes.BitArray().Sub(psVotes).PickRandom(); ok { ps.setHasVote(height, round, type_, index) return index, votes.GetByIndex(index), true } return 0, nil, false } func (ps *PeerState) getVoteBitArray(height, round int, type_ byte) *BitArray { if ps.Height == height { if ps.Round == round { switch type_ { case types.VoteTypePrevote: return ps.Prevotes case types.VoteTypePrecommit: return ps.Precommits default: PanicSanity(Fmt("Unexpected vote type %X", type_)) } } if ps.CatchupCommitRound == round { switch type_ { case types.VoteTypePrevote: return nil case types.VoteTypePrecommit: return ps.CatchupCommit default: PanicSanity(Fmt("Unexpected vote type %X", type_)) } } return nil } if ps.Height == height+1 { if ps.LastCommitRound == round { switch type_ { case types.VoteTypePrevote: return nil case types.VoteTypePrecommit: return ps.LastCommit default: PanicSanity(Fmt("Unexpected vote type %X", type_)) } } return nil } return nil } // 'round': A round for which we have a +2/3 commit. func (ps *PeerState) ensureCatchupCommitRound(height, round int, numValidators int) { if ps.Height != height { return } /* NOTE: This is wrong, 'round' could change. e.g. if orig round is not the same as block LastCommit round. if ps.CatchupCommitRound != -1 && ps.CatchupCommitRound != round { PanicSanity(Fmt("Conflicting CatchupCommitRound. Height: %v, Orig: %v, New: %v", height, ps.CatchupCommitRound, round)) } */ if ps.CatchupCommitRound == round { return // Nothing to do! } ps.CatchupCommitRound = round if round == ps.Round { ps.CatchupCommit = ps.Precommits } else { ps.CatchupCommit = NewBitArray(numValidators) } } // NOTE: It's important to make sure that numValidators actually matches // what the node sees as the number of validators for height. func (ps *PeerState) EnsureVoteBitArrays(height int, numValidators int) { ps.mtx.Lock() defer ps.mtx.Unlock() ps.ensureVoteBitArrays(height, numValidators) } func (ps *PeerState) ensureVoteBitArrays(height int, numValidators int) { if ps.Height == height { if ps.Prevotes == nil { ps.Prevotes = NewBitArray(numValidators) } if ps.Precommits == nil { ps.Precommits = NewBitArray(numValidators) } if ps.CatchupCommit == nil { ps.CatchupCommit = NewBitArray(numValidators) } if ps.ProposalPOL == nil { ps.ProposalPOL = NewBitArray(numValidators) } } else if ps.Height == height+1 { if ps.LastCommit == nil { ps.LastCommit = NewBitArray(numValidators) } } } func (ps *PeerState) SetHasVote(vote *types.Vote, index int) { ps.mtx.Lock() defer ps.mtx.Unlock() ps.setHasVote(vote.Height, vote.Round, vote.Type, index) } func (ps *PeerState) setHasVote(height int, round int, type_ byte, index int) { log := log.New("peer", ps.Peer, "peerRound", ps.Round, "height", height, "round", round) if type_ != types.VoteTypePrevote && type_ != types.VoteTypePrecommit { PanicSanity("Invalid vote type") } if ps.Height == height { if ps.Round == round { switch type_ { case types.VoteTypePrevote: ps.Prevotes.SetIndex(index, true) log.Debug("SetHasVote(round-match)", "prevotes", ps.Prevotes, "index", index) case types.VoteTypePrecommit: ps.Precommits.SetIndex(index, true) log.Debug("SetHasVote(round-match)", "precommits", ps.Precommits, "index", index) } } else if ps.CatchupCommitRound == round { switch type_ { case types.VoteTypePrevote: case types.VoteTypePrecommit: ps.CatchupCommit.SetIndex(index, true) log.Debug("SetHasVote(CatchupCommit)", "precommits", ps.Precommits, "index", index) } } else if ps.ProposalPOLRound == round { switch type_ { case types.VoteTypePrevote: ps.ProposalPOL.SetIndex(index, true) log.Debug("SetHasVote(ProposalPOL)", "prevotes", ps.Prevotes, "index", index) case types.VoteTypePrecommit: } } } else if ps.Height == height+1 { if ps.LastCommitRound == round { switch type_ { case types.VoteTypePrevote: case types.VoteTypePrecommit: ps.LastCommit.SetIndex(index, true) log.Debug("setHasVote(LastCommit)", "lastCommit", ps.LastCommit, "index", index) } } } else { // Does not apply. } } func (ps *PeerState) ApplyNewRoundStepMessage(msg *NewRoundStepMessage) { ps.mtx.Lock() defer ps.mtx.Unlock() // Ignore duplicates or decreases if CompareHRS(msg.Height, msg.Round, msg.Step, ps.Height, ps.Round, ps.Step) <= 0 { return } // Just remember these values. psHeight := ps.Height psRound := ps.Round //psStep := ps.Step psCatchupCommitRound := ps.CatchupCommitRound psCatchupCommit := ps.CatchupCommit startTime := time.Now().Add(-1 * time.Duration(msg.SecondsSinceStartTime) * time.Second) ps.Height = msg.Height ps.Round = msg.Round ps.Step = msg.Step ps.StartTime = startTime if psHeight != msg.Height || psRound != msg.Round { ps.Proposal = false ps.ProposalBlockPartsHeader = types.PartSetHeader{} ps.ProposalBlockParts = nil ps.ProposalPOLRound = -1 ps.ProposalPOL = nil // We'll update the BitArray capacity later. ps.Prevotes = nil ps.Precommits = nil } if psHeight == msg.Height && psRound != msg.Round && msg.Round == psCatchupCommitRound { // Peer caught up to CatchupCommitRound. // Preserve psCatchupCommit! // NOTE: We prefer to use prs.Precommits if // pr.Round matches pr.CatchupCommitRound. ps.Precommits = psCatchupCommit } if psHeight != msg.Height { // Shift Precommits to LastCommit. if psHeight+1 == msg.Height && psRound == msg.LastCommitRound { ps.LastCommitRound = msg.LastCommitRound ps.LastCommit = ps.Precommits } else { ps.LastCommitRound = msg.LastCommitRound ps.LastCommit = nil } // We'll update the BitArray capacity later. ps.CatchupCommitRound = -1 ps.CatchupCommit = nil } } func (ps *PeerState) ApplyCommitStepMessage(msg *CommitStepMessage) { ps.mtx.Lock() defer ps.mtx.Unlock() if ps.Height != msg.Height { return } ps.ProposalBlockPartsHeader = msg.BlockPartsHeader ps.ProposalBlockParts = msg.BlockParts } func (ps *PeerState) ApplyHasVoteMessage(msg *HasVoteMessage) { ps.mtx.Lock() defer ps.mtx.Unlock() if ps.Height != msg.Height { return } ps.setHasVote(msg.Height, msg.Round, msg.Type, msg.Index) } func (ps *PeerState) ApplyProposalPOLMessage(msg *ProposalPOLMessage) { ps.mtx.Lock() defer ps.mtx.Unlock() if ps.Height != msg.Height { return } if ps.ProposalPOLRound != msg.ProposalPOLRound { return } // TODO: Merge onto existing ps.ProposalPOL? // We might have sent some prevotes in the meantime. ps.ProposalPOL = msg.ProposalPOL } //----------------------------------------------------------------------------- // Messages const ( msgTypeNewRoundStep = byte(0x01) msgTypeCommitStep = byte(0x02) msgTypeProposal = byte(0x11) msgTypeProposalPOL = byte(0x12) msgTypeBlockPart = byte(0x13) // both block & POL msgTypeVote = byte(0x14) msgTypeHasVote = byte(0x15) ) type ConsensusMessage interface{} var _ = wire.RegisterInterface( struct{ ConsensusMessage }{}, wire.ConcreteType{&NewRoundStepMessage{}, msgTypeNewRoundStep}, wire.ConcreteType{&CommitStepMessage{}, msgTypeCommitStep}, wire.ConcreteType{&ProposalMessage{}, msgTypeProposal}, wire.ConcreteType{&ProposalPOLMessage{}, msgTypeProposalPOL}, wire.ConcreteType{&BlockPartMessage{}, msgTypeBlockPart}, wire.ConcreteType{&VoteMessage{}, msgTypeVote}, wire.ConcreteType{&HasVoteMessage{}, msgTypeHasVote}, ) // TODO: check for unnecessary extra bytes at the end. func DecodeMessage(bz []byte) (msgType byte, msg ConsensusMessage, err error) { msgType = bz[0] n := new(int) r := bytes.NewReader(bz) msg = wire.ReadBinary(struct{ ConsensusMessage }{}, r, maxConsensusMessageSize, n, &err).(struct{ ConsensusMessage }).ConsensusMessage return } //------------------------------------- // For every height/round/step transition type NewRoundStepMessage struct { Height int Round int Step RoundStepType SecondsSinceStartTime int LastCommitRound int } func (m *NewRoundStepMessage) String() string { return fmt.Sprintf("[NewRoundStep H:%v R:%v S:%v LCR:%v]", m.Height, m.Round, m.Step, m.LastCommitRound) } //------------------------------------- type CommitStepMessage struct { Height int BlockPartsHeader types.PartSetHeader BlockParts *BitArray } func (m *CommitStepMessage) String() string { return fmt.Sprintf("[CommitStep H:%v BP:%v BA:%v]", m.Height, m.BlockPartsHeader, m.BlockParts) } //------------------------------------- type ProposalMessage struct { Proposal *types.Proposal } func (m *ProposalMessage) String() string { return fmt.Sprintf("[Proposal %v]", m.Proposal) } //------------------------------------- type ProposalPOLMessage struct { Height int ProposalPOLRound int ProposalPOL *BitArray } func (m *ProposalPOLMessage) String() string { return fmt.Sprintf("[ProposalPOL H:%v POLR:%v POL:%v]", m.Height, m.ProposalPOLRound, m.ProposalPOL) } //------------------------------------- type BlockPartMessage struct { Height int Round int Part *types.Part } func (m *BlockPartMessage) String() string { return fmt.Sprintf("[BlockPart H:%v R:%v P:%v]", m.Height, m.Round, m.Part) } //------------------------------------- type VoteMessage struct { ValidatorIndex int Vote *types.Vote } func (m *VoteMessage) String() string { return fmt.Sprintf("[Vote VI:%v V:%v VI:%v]", m.ValidatorIndex, m.Vote, m.ValidatorIndex) } //------------------------------------- type HasVoteMessage struct { Height int Round int Type byte Index int } func (m *HasVoteMessage) String() string { return fmt.Sprintf("[HasVote VI:%v V:{%v/%02d/%v} VI:%v]", m.Index, m.Height, m.Round, m.Type, m.Index) }