package consensus import ( "bytes" "encoding/binary" "encoding/hex" "sync" "time" "github.com/harmony-one/harmony/crypto/bls" "github.com/ethereum/go-ethereum/rlp" "github.com/harmony-one/harmony/core/types" "github.com/ethereum/go-ethereum/common" bls_core "github.com/harmony-one/bls/ffi/go/bls" msg_pb "github.com/harmony-one/harmony/api/proto/message" "github.com/harmony-one/harmony/consensus/quorum" "github.com/harmony-one/harmony/consensus/signature" bls_cosi "github.com/harmony-one/harmony/crypto/bls" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/p2p" ) // MaxViewIDDiff limits the received view ID to only 100 further from the current view ID const MaxViewIDDiff = 100 // State contains current mode and current viewID type State struct { mode Mode modeMux sync.RWMutex // current view id in normal mode // it changes per successful consensus curViewID uint64 cViewMux sync.RWMutex // view changing id is used during view change mode // it is the next view id viewChangingID uint64 viewMux sync.RWMutex } // Mode return the current node mode func (pm *State) Mode() Mode { pm.modeMux.RLock() defer pm.modeMux.RUnlock() return pm.mode } // SetMode set the node mode as required func (pm *State) SetMode(s Mode) { pm.modeMux.Lock() defer pm.modeMux.Unlock() pm.mode = s } // GetCurViewID return the current view id func (pm *State) GetCurViewID() uint64 { pm.cViewMux.RLock() defer pm.cViewMux.RUnlock() return pm.curViewID } // SetCurViewID sets the current view id func (pm *State) SetCurViewID(viewID uint64) { pm.cViewMux.Lock() defer pm.cViewMux.Unlock() pm.curViewID = viewID } // GetViewChangingID return the current view changing id // It is meaningful during view change mode func (pm *State) GetViewChangingID() uint64 { pm.viewMux.RLock() defer pm.viewMux.RUnlock() return pm.viewChangingID } // SetViewChangingID set the current view changing id // It is meaningful during view change mode func (pm *State) SetViewChangingID(id uint64) { pm.viewMux.Lock() defer pm.viewMux.Unlock() pm.viewChangingID = id } // GetViewChangeDuraion return the duration of the current view change // It increase in the power of difference betweeen view changing ID and current view ID func (pm *State) GetViewChangeDuraion() time.Duration { pm.viewMux.RLock() pm.cViewMux.RLock() defer pm.viewMux.RUnlock() defer pm.cViewMux.RUnlock() diff := int64(pm.viewChangingID - pm.curViewID) return time.Duration(diff * diff * int64(viewChangeDuration)) } // switchPhase will switch FBFTPhase to nextPhase if the desirePhase equals the nextPhase func (consensus *Consensus) switchPhase(desired FBFTPhase, override bool) { if override { consensus.phase = desired return } var nextPhase FBFTPhase switch consensus.phase { case FBFTAnnounce: nextPhase = FBFTPrepare case FBFTPrepare: nextPhase = FBFTCommit case FBFTCommit: nextPhase = FBFTAnnounce } if nextPhase == desired { consensus.phase = nextPhase } } // GetNextLeaderKey uniquely determine who is the leader for given viewID func (consensus *Consensus) GetNextLeaderKey(viewID uint64) *bls.PublicKeyWrapper { gap := 1 if viewID > consensus.GetCurViewID() { gap = int(viewID - consensus.GetCurViewID()) } wasFound, next := consensus.Decider.NextAfter(consensus.LeaderPubKey, gap) if !wasFound { consensus.getLogger().Warn(). Str("key", consensus.LeaderPubKey.Bytes.Hex()). Msg("GetNextLeaderKey: currentLeaderKey not found") } return next } // ResetViewChangeState reset the state for viewchange func (consensus *Consensus) ResetViewChangeState() { consensus.getLogger().Debug(). Str("Phase", consensus.phase.String()). Msg("[ResetViewChangeState] Resetting view change state") consensus.current.SetMode(Normal) consensus.m1Payload = []byte{} consensus.bhpSigs = map[uint64]map[string]*bls_core.Sign{} consensus.nilSigs = map[uint64]map[string]*bls_core.Sign{} consensus.viewIDSigs = map[uint64]map[string]*bls_core.Sign{} consensus.bhpBitmap = map[uint64]*bls_cosi.Mask{} consensus.nilBitmap = map[uint64]*bls_cosi.Mask{} consensus.viewIDBitmap = map[uint64]*bls_cosi.Mask{} consensus.Decider.ResetViewChangeVotes() } func createTimeout() map[TimeoutType]*utils.Timeout { timeouts := make(map[TimeoutType]*utils.Timeout) timeouts[timeoutConsensus] = utils.NewTimeout(phaseDuration) timeouts[timeoutViewChange] = utils.NewTimeout(viewChangeDuration) timeouts[timeoutBootstrap] = utils.NewTimeout(bootstrapDuration) return timeouts } // startViewChange send a new view change func (consensus *Consensus) startViewChange(viewID uint64) { if consensus.disableViewChange { return } consensus.consensusTimeout[timeoutConsensus].Stop() consensus.consensusTimeout[timeoutBootstrap].Stop() consensus.current.SetMode(ViewChanging) consensus.SetViewChangingID(viewID) nextLeaderPubKey := consensus.GetNextLeaderKey(viewID) duration := consensus.current.GetViewChangeDuraion() consensus.getLogger().Warn(). Uint64("viewChangingID", consensus.GetViewChangingID()). Dur("timeoutDuration", duration). Str("NextLeader", nextLeaderPubKey.Bytes.Hex()). Msg("[startViewChange]") for _, key := range consensus.priKey { if !consensus.IsValidatorInCommittee(key.Pub.Bytes) { continue } msgToSend := consensus.constructViewChangeMessage(&key, nextLeaderPubKey) consensus.host.SendMessageToGroups([]nodeconfig.GroupID{ nodeconfig.NewGroupIDByShardID(nodeconfig.ShardID(consensus.ShardID)), }, p2p.ConstructMessage(msgToSend), ) } consensus.consensusTimeout[timeoutViewChange].SetDuration(duration) consensus.consensusTimeout[timeoutViewChange].Start() } func (consensus *Consensus) onViewChange(msg *msg_pb.Message) { recvMsg, err := ParseViewChangeMessage(msg) if err != nil { consensus.getLogger().Warn().Msg("[onViewChange] Unable To Parse Viewchange Message") return } // if not leader, noop newLeaderKey := recvMsg.LeaderPubkey newLeaderPriKey, err := consensus.GetLeaderPrivateKey(newLeaderKey.Object) if err != nil { return } if consensus.Decider.IsQuorumAchieved(quorum.ViewChange) { consensus.getLogger().Info(). Int64("have", consensus.Decider.SignersCount(quorum.ViewChange)). Int64("need", consensus.Decider.TwoThirdsSignersCount()). Str("validatorPubKey", recvMsg.SenderPubkey.Bytes.Hex()). Msg("[onViewChange] Received Enough View Change Messages") return } if !consensus.onViewChangeSanityCheck(recvMsg) { return } senderKey := recvMsg.SenderPubkey consensus.vcLock.Lock() defer consensus.vcLock.Unlock() // update the dictionary key if the viewID is first time received consensus.addViewIDKeyIfNotExist(recvMsg.ViewID) // TODO: remove NIL type message // add self m1 or m2 type message signature and bitmap _, ok1 := consensus.nilSigs[recvMsg.ViewID][newLeaderKey.Bytes.Hex()] _, ok2 := consensus.bhpSigs[recvMsg.ViewID][newLeaderKey.Bytes.Hex()] if !(ok1 || ok2) { // add own signature for newview message preparedMsgs := consensus.FBFTLog.GetMessagesByTypeSeq( msg_pb.MessageType_PREPARED, recvMsg.BlockNum, ) preparedMsg := consensus.FBFTLog.FindMessageByMaxViewID(preparedMsgs) hasBlock := false if preparedMsg != nil { if preparedBlock := consensus.FBFTLog.GetBlockByHash( preparedMsg.BlockHash, ); preparedBlock != nil { if consensus.BlockVerifier(preparedBlock); err != nil { consensus.getLogger().Error().Err(err).Msg("[onViewChange] My own prepared block verification failed") } else { hasBlock = true } } } if hasBlock { consensus.getLogger().Info().Msg("[onViewChange] add my M1 type messaage") msgToSign := append(preparedMsg.BlockHash[:], preparedMsg.Payload...) for i, key := range consensus.priKey { if err := consensus.bhpBitmap[recvMsg.ViewID].SetKey(key.Pub.Bytes, true); err != nil { consensus.getLogger().Warn().Msgf("[onViewChange] bhpBitmap setkey failed for key at index %d", i) continue } consensus.bhpSigs[recvMsg.ViewID][key.Pub.Bytes.Hex()] = key.Pri.SignHash(msgToSign) } // if m1Payload is empty, we just add one if len(consensus.m1Payload) == 0 { consensus.m1Payload = append(preparedMsg.BlockHash[:], preparedMsg.Payload...) } } else { consensus.getLogger().Info().Msg("[onViewChange] add my M2(NIL) type messaage") for i, key := range consensus.priKey { if err := consensus.nilBitmap[recvMsg.ViewID].SetKey(key.Pub.Bytes, true); err != nil { consensus.getLogger().Warn().Msgf("[onViewChange] nilBitmap setkey failed for key at index %d", i) continue } consensus.nilSigs[recvMsg.ViewID][key.Pub.Bytes.Hex()] = key.Pri.SignHash(NIL) } } } // add self m3 type message signature and bitmap _, ok3 := consensus.viewIDSigs[recvMsg.ViewID][newLeaderKey.Bytes.Hex()] if !ok3 { viewIDBytes := make([]byte, 8) binary.LittleEndian.PutUint64(viewIDBytes, recvMsg.ViewID) for i, key := range consensus.priKey { if err := consensus.viewIDBitmap[recvMsg.ViewID].SetKey(key.Pub.Bytes, true); err != nil { consensus.getLogger().Warn().Msgf("[onViewChange] viewIDBitmap setkey failed for key at index %d", i) continue } consensus.viewIDSigs[recvMsg.ViewID][key.Pub.Bytes.Hex()] = key.Pri.SignHash(viewIDBytes) } } preparedBlock := &types.Block{} hasBlock := false if len(recvMsg.Payload) != 0 && len(recvMsg.Block) != 0 { if err := rlp.DecodeBytes(recvMsg.Block, preparedBlock); err != nil { consensus.getLogger().Warn(). Err(err). Uint64("MsgBlockNum", recvMsg.BlockNum). Msg("[onViewChange] Unparseable prepared block data") return } hasBlock = true } // m2 type message if !hasBlock { _, ok := consensus.nilSigs[recvMsg.ViewID][senderKey.Bytes.Hex()] if ok { consensus.getLogger().Debug(). Str("validatorPubKey", senderKey.Bytes.Hex()). Msg("[onViewChange] Already Received M2 message from validator") return } if !recvMsg.ViewchangeSig.VerifyHash(senderKey.Object, NIL) { consensus.getLogger().Warn().Msg("[onViewChange] Failed To Verify Signature For M2 Type Viewchange Message") return } consensus.getLogger().Info(). Str("validatorPubKey", senderKey.Bytes.Hex()). Msg("[onViewChange] Add M2 (NIL) type message") consensus.nilSigs[recvMsg.ViewID][senderKey.Bytes.Hex()] = recvMsg.ViewchangeSig consensus.nilBitmap[recvMsg.ViewID].SetKey(recvMsg.SenderPubkey.Bytes, true) // Set the bitmap indicating that this validator signed. } else { // m1 type message if consensus.BlockVerifier(preparedBlock); err != nil { consensus.getLogger().Error().Err(err).Msg("[onViewChange] Prepared block verification failed") return } _, ok := consensus.bhpSigs[recvMsg.ViewID][senderKey.Bytes.Hex()] if ok { consensus.getLogger().Debug(). Str("validatorPubKey", senderKey.Bytes.Hex()). Msg("[onViewChange] Already Received M1 Message From the Validator") return } if !recvMsg.ViewchangeSig.VerifyHash(recvMsg.SenderPubkey.Object, recvMsg.Payload) { consensus.getLogger().Warn().Msg("[onViewChange] Failed to Verify Signature for M1 Type Viewchange Message") return } // first time receive m1 type message, need verify validity of prepared message if len(consensus.m1Payload) == 0 || !bytes.Equal(consensus.m1Payload, recvMsg.Payload) { if len(recvMsg.Payload) <= 32 { consensus.getLogger().Warn(). Int("len", len(recvMsg.Payload)). Msg("[onViewChange] M1 RecvMsg Payload Not Enough Length") return } blockHash := recvMsg.Payload[:32] aggSig, mask, err := consensus.ReadSignatureBitmapPayload(recvMsg.Payload, 32) if err != nil { consensus.getLogger().Error().Err(err).Msg("[onViewChange] M1 RecvMsg Payload Read Error") return } if !consensus.Decider.IsQuorumAchievedByMask(mask) { consensus.getLogger().Warn(). Msgf("[onViewChange] Quorum Not achieved") return } // Verify the multi-sig for prepare phase if !aggSig.VerifyHash(mask.AggregatePublic, blockHash[:]) { consensus.getLogger().Warn(). Hex("blockHash", blockHash). Msg("[onViewChange] failed to verify multi signature for m1 prepared payload") return } // if m1Payload is empty, we just add one if len(consensus.m1Payload) == 0 { consensus.m1Payload = append(recvMsg.Payload[:0:0], recvMsg.Payload...) // create prepared message for new leader preparedMsg := FBFTMessage{ MessageType: msg_pb.MessageType_PREPARED, ViewID: recvMsg.ViewID, BlockNum: recvMsg.BlockNum, } preparedMsg.BlockHash = common.Hash{} copy(preparedMsg.BlockHash[:], recvMsg.Payload[:32]) preparedMsg.Payload = make([]byte, len(recvMsg.Payload)-32) copy(preparedMsg.Payload[:], recvMsg.Payload[32:]) preparedMsg.SenderPubkey = newLeaderKey consensus.getLogger().Info().Msg("[onViewChange] New Leader Prepared Message Added") consensus.FBFTLog.AddMessage(&preparedMsg) consensus.FBFTLog.AddBlock(preparedBlock) } } consensus.getLogger().Info(). Str("validatorPubKey", senderKey.Bytes.Hex()). Msg("[onViewChange] Add M1 (prepared) type message") consensus.bhpSigs[recvMsg.ViewID][senderKey.Bytes.Hex()] = recvMsg.ViewchangeSig consensus.bhpBitmap[recvMsg.ViewID].SetKey(recvMsg.SenderPubkey.Bytes, true) // Set the bitmap indicating that this validator signed. } // check and add viewID (m3 type) message signature if _, ok := consensus.viewIDSigs[recvMsg.ViewID][senderKey.Bytes.Hex()]; ok { consensus.getLogger().Debug(). Str("validatorPubKey", senderKey.Bytes.Hex()). Msg("[onViewChange] Already Received M3(ViewID) message from the validator") return } viewIDHash := make([]byte, 8) binary.LittleEndian.PutUint64(viewIDHash, recvMsg.ViewID) if !recvMsg.ViewidSig.VerifyHash(recvMsg.SenderPubkey.Object, viewIDHash) { consensus.getLogger().Warn(). Uint64("MsgViewID", recvMsg.ViewID). Msg("[onViewChange] Failed to Verify M3 Message Signature") return } consensus.getLogger().Info(). Str("validatorPubKey", senderKey.Bytes.Hex()). Msg("[onViewChange] Add M3 (ViewID) type message") consensus.viewIDSigs[recvMsg.ViewID][senderKey.Bytes.Hex()] = recvMsg.ViewidSig // Set the bitmap indicating that this validator signed. consensus.viewIDBitmap[recvMsg.ViewID].SetKey(recvMsg.SenderPubkey.Bytes, true) consensus.getLogger().Info(). Int("have", len(consensus.viewIDSigs[recvMsg.ViewID])). Int64("total", consensus.Decider.ParticipantsCount()). Msg("[onViewChange]") // received enough view change messages, change state to normal consensus if consensus.Decider.IsQuorumAchievedByMask(consensus.viewIDBitmap[recvMsg.ViewID]) { consensus.current.SetMode(Normal) consensus.LeaderPubKey = newLeaderKey consensus.ResetState() if len(consensus.m1Payload) == 0 { // TODO(Chao): explain why ReadySignal is sent only in this case but not the other case. // Make sure the newly proposed block have the correct view ID consensus.SetCurViewID(recvMsg.ViewID) go func() { consensus.ReadySignal <- struct{}{} }() } else { consensus.getLogger().Info(). Str("From", consensus.phase.String()). Str("To", FBFTCommit.String()). Msg("[OnViewChange] Switching phase") consensus.switchPhase(FBFTCommit, true) copy(consensus.blockHash[:], consensus.m1Payload[:32]) aggSig, mask, err := consensus.ReadSignatureBitmapPayload(consensus.m1Payload, 32) if err != nil { consensus.getLogger().Error().Err(err). Msg("[onViewChange] ReadSignatureBitmapPayload Fail") return } consensus.aggregatedPrepareSig = aggSig consensus.prepareBitmap = mask // Leader sign and add commit message block := consensus.FBFTLog.GetBlockByHash(consensus.blockHash) if block == nil { consensus.getLogger().Warn().Msg("[onViewChange] failed to get prepared block for self commit") return } commitPayload := signature.ConstructCommitPayload(consensus.ChainReader, block.Epoch(), block.Hash(), block.NumberU64(), block.Header().ViewID().Uint64()) for i, key := range consensus.priKey { if err := consensus.commitBitmap.SetKey(key.Pub.Bytes, true); err != nil { consensus.getLogger().Warn(). Msgf("[OnViewChange] New Leader commit bitmap set failed for key at index %d", i) continue } if _, err := consensus.Decider.SubmitVote( quorum.Commit, key.Pub.Bytes, key.Pri.SignHash(commitPayload), common.BytesToHash(consensus.blockHash[:]), block.NumberU64(), block.Header().ViewID().Uint64(), ); err != nil { consensus.getLogger().Warn().Msg("submit vote on viewchange commit failed") return } } } consensus.SetViewChangingID(recvMsg.ViewID) msgToSend := consensus.constructNewViewMessage( recvMsg.ViewID, newLeaderPriKey, ) consensus.getLogger().Warn(). Int("payloadSize", len(consensus.m1Payload)). Hex("M1Payload", consensus.m1Payload). Msg("[onViewChange] Sent NewView Message") if err := consensus.msgSender.SendWithRetry( consensus.blockNum, msg_pb.MessageType_NEWVIEW, []nodeconfig.GroupID{ nodeconfig.NewGroupIDByShardID(nodeconfig.ShardID(consensus.ShardID))}, p2p.ConstructMessage(msgToSend), ); err != nil { consensus.getLogger().Err(err). Msg("could not send out the NEWVIEW message") } consensus.SetCurViewID(recvMsg.ViewID) consensus.ResetViewChangeState() consensus.consensusTimeout[timeoutViewChange].Stop() consensus.consensusTimeout[timeoutConsensus].Start() consensus.getLogger().Info().Str("myKey", newLeaderKey.Bytes.Hex()).Msg("[onViewChange] I am the New Leader") } } // TODO: move to consensus_leader.go later func (consensus *Consensus) onNewView(msg *msg_pb.Message) { consensus.getLogger().Info().Msg("[onNewView] Received NewView Message") recvMsg, err := consensus.ParseNewViewMessage(msg) if err != nil { consensus.getLogger().Warn().Err(err).Msg("[onNewView] Unable to Parse NewView Message") return } if !consensus.onNewViewSanityCheck(recvMsg) { return } senderKey := recvMsg.SenderPubkey consensus.vcLock.Lock() defer consensus.vcLock.Unlock() if recvMsg.M3AggSig == nil || recvMsg.M3Bitmap == nil { consensus.getLogger().Error().Msg("[onNewView] M3AggSig or M3Bitmap is nil") return } m3Sig := recvMsg.M3AggSig m3Mask := recvMsg.M3Bitmap viewIDBytes := make([]byte, 8) binary.LittleEndian.PutUint64(viewIDBytes, recvMsg.ViewID) if !consensus.Decider.IsQuorumAchievedByMask(m3Mask) { consensus.getLogger().Warn(). Msgf("[onNewView] Quorum Not achieved") return } if !m3Sig.VerifyHash(m3Mask.AggregatePublic, viewIDBytes) { consensus.getLogger().Warn(). Str("m3Sig", m3Sig.SerializeToHexStr()). Hex("m3Mask", m3Mask.Bitmap). Uint64("MsgViewID", recvMsg.ViewID). Msg("[onNewView] Unable to Verify Aggregated Signature of M3 (ViewID) payload") return } m2Mask := recvMsg.M2Bitmap if recvMsg.M2AggSig != nil { consensus.getLogger().Info().Msg("[onNewView] M2AggSig (NIL) is Not Empty") m2Sig := recvMsg.M2AggSig if !m2Sig.VerifyHash(m2Mask.AggregatePublic, NIL) { consensus.getLogger().Warn(). Msg("[onNewView] Unable to Verify Aggregated Signature of M2 (NIL) payload") return } } // check when M3 sigs > M2 sigs, then M1 (recvMsg.Payload) should not be empty preparedBlock := &types.Block{} hasBlock := false if len(recvMsg.Payload) != 0 && len(recvMsg.Block) != 0 { if err := rlp.DecodeBytes(recvMsg.Block, preparedBlock); err != nil { consensus.getLogger().Warn(). Err(err). Uint64("MsgBlockNum", recvMsg.BlockNum). Msg("[onNewView] Unparseable prepared block data") return } blockHash := recvMsg.Payload[:32] preparedBlockHash := preparedBlock.Hash() if !bytes.Equal(preparedBlockHash[:], blockHash) { consensus.getLogger().Warn(). Err(err). Str("blockHash", preparedBlock.Hash().Hex()). Str("payloadBlockHash", hex.EncodeToString(blockHash)). Msg("[onNewView] Prepared block hash doesn't match msg block hash.") return } hasBlock = true if consensus.BlockVerifier(preparedBlock); err != nil { consensus.getLogger().Error().Err(err).Msg("[onNewView] Prepared block verification failed") return } } if m2Mask == nil || m2Mask.Bitmap == nil || (m2Mask != nil && m2Mask.Bitmap != nil && utils.CountOneBits(m3Mask.Bitmap) > utils.CountOneBits(m2Mask.Bitmap)) { if len(recvMsg.Payload) <= 32 { consensus.getLogger().Info(). Msg("[onNewView] M1 (prepared) Type Payload Not Have Enough Length") return } // m1 is not empty, check it's valid blockHash := recvMsg.Payload[:32] aggSig, mask, err := consensus.ReadSignatureBitmapPayload(recvMsg.Payload, 32) if err != nil { consensus.getLogger().Error().Err(err). Msg("[onNewView] ReadSignatureBitmapPayload Failed") return } if !aggSig.VerifyHash(mask.AggregatePublic, blockHash) { consensus.getLogger().Warn(). Msg("[onNewView] Failed to Verify Signature for M1 (prepare) message") return } copy(consensus.blockHash[:], blockHash) consensus.aggregatedPrepareSig = aggSig consensus.prepareBitmap = mask // create prepared message from newview preparedMsg := FBFTMessage{ MessageType: msg_pb.MessageType_PREPARED, ViewID: recvMsg.ViewID, BlockNum: recvMsg.BlockNum, } preparedMsg.BlockHash = common.Hash{} copy(preparedMsg.BlockHash[:], blockHash[:]) preparedMsg.Payload = make([]byte, len(recvMsg.Payload)-32) copy(preparedMsg.Payload[:], recvMsg.Payload[32:]) preparedMsg.SenderPubkey = senderKey consensus.FBFTLog.AddMessage(&preparedMsg) if hasBlock { consensus.FBFTLog.AddBlock(preparedBlock) } } // newView message verified success, override my state consensus.SetViewIDs(recvMsg.ViewID) consensus.LeaderPubKey = senderKey consensus.ResetViewChangeState() // change view and leaderKey to keep in sync with network if consensus.blockNum != recvMsg.BlockNum { consensus.getLogger().Info(). Str("newLeaderKey", consensus.LeaderPubKey.Bytes.Hex()). Uint64("MsgBlockNum", recvMsg.BlockNum). Msg("[onNewView] New Leader Changed") return } // NewView message is verified, change state to normal consensus if hasBlock { // Construct and send the commit message commitPayload := signature.ConstructCommitPayload(consensus.ChainReader, preparedBlock.Epoch(), preparedBlock.Hash(), preparedBlock.NumberU64(), preparedBlock.Header().ViewID().Uint64()) groupID := []nodeconfig.GroupID{ nodeconfig.NewGroupIDByShardID(nodeconfig.ShardID(consensus.ShardID))} for _, key := range consensus.priKey { if !consensus.IsValidatorInCommittee(key.Pub.Bytes) { continue } network, err := consensus.construct( msg_pb.MessageType_COMMIT, commitPayload, &key, ) if err != nil { consensus.getLogger().Err(err).Msg("could not create commit message") return } msgToSend := network.Bytes consensus.getLogger().Info().Msg("onNewView === commit") consensus.host.SendMessageToGroups( groupID, p2p.ConstructMessage(msgToSend), ) } consensus.getLogger().Info(). Str("From", consensus.phase.String()). Str("To", FBFTCommit.String()). Msg("[OnViewChange] Switching phase") consensus.switchPhase(FBFTCommit, true) } else { consensus.ResetState() consensus.getLogger().Info().Msg("onNewView === announce") } consensus.getLogger().Info(). Str("newLeaderKey", consensus.LeaderPubKey.Bytes.Hex()). Msg("new leader changed") consensus.consensusTimeout[timeoutConsensus].Start() consensus.consensusTimeout[timeoutViewChange].Stop() }