package consensus import ( "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/rlp" protobuf "github.com/golang/protobuf/proto" "github.com/harmony-one/bls/ffi/go/bls" "github.com/harmony-one/harmony/api/proto" msg_pb "github.com/harmony-one/harmony/api/proto/message" "github.com/harmony-one/harmony/api/service/explorer" "github.com/harmony-one/harmony/core" "github.com/harmony-one/harmony/core/types" 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" "github.com/harmony-one/harmony/p2p/host" ) // handleMessageUpdate will update the consensus state according to received message func (consensus *Consensus) handleMessageUpdate(payload []byte) { if len(payload) == 0 { return } msg := &msg_pb.Message{} err := protobuf.Unmarshal(payload, msg) if err != nil { utils.GetLogInstance().Error("Failed to unmarshal message payload.", "err", err, "consensus", consensus) return } // stop receiving normal message when is in viewchanging if consensus.mode.Mode() == ViewChanging && msg.Type != msg_pb.MessageType_VIEWCHANGE && msg.Type != msg_pb.MessageType_NEWVIEW { return } switch msg.Type { case msg_pb.MessageType_ANNOUNCE: consensus.onAnnounce(msg) case msg_pb.MessageType_PREPARE: consensus.onPrepare(msg) case msg_pb.MessageType_PREPARED: consensus.onPrepared(msg) case msg_pb.MessageType_COMMIT: consensus.onCommit(msg) case msg_pb.MessageType_COMMITTED: consensus.onCommitted(msg) case msg_pb.MessageType_VIEWCHANGE: consensus.onViewChange(msg) case msg_pb.MessageType_NEWVIEW: consensus.onNewView(msg) } } // TODO: move to consensus_leader.go later func (consensus *Consensus) tryAnnounce(block *types.Block) { // here we assume the leader should always be update to date if block.NumberU64() != consensus.blockNum { utils.GetLogInstance().Debug("tryAnnounce blockNum not match", "blockNum", block.NumberU64(), "myBlockNum", consensus.blockNum) return } if !consensus.PubKey.IsEqual(consensus.LeaderPubKey) { utils.GetLogInstance().Debug("tryAnnounce key not match", "myKey", consensus.PubKey, "leaderKey", consensus.LeaderPubKey) return } blockHash := block.Hash() copy(consensus.blockHash[:], blockHash[:]) // prepare message and broadcast to validators encodedBlock, err := rlp.EncodeToBytes(block) if err != nil { utils.GetLogInstance().Debug("tryAnnounce Failed encoding block") return } consensus.block = encodedBlock msgToSend := consensus.constructAnnounceMessage() consensus.switchPhase(Prepare) // save announce message to pbftLog msgPayload, _ := proto.GetConsensusMessagePayload(msgToSend) msg := &msg_pb.Message{} _ = protobuf.Unmarshal(msgPayload, msg) pbftMsg, err := ParsePbftMessage(msg) if err != nil { utils.GetLogInstance().Warn("tryAnnounce unable to parse pbft message", "error", err) return } consensus.pbftLog.AddMessage(pbftMsg) consensus.pbftLog.AddBlock(block) // Leader sign the block hash itself consensus.prepareSigs[consensus.SelfAddress] = consensus.priKey.SignHash(consensus.blockHash[:]) // Construct broadcast p2p message utils.GetLogInstance().Warn("tryAnnounce", "sent announce message", len(msgToSend), "groupID", p2p.NewGroupIDByShardID(p2p.ShardID(consensus.ShardID))) consensus.host.SendMessageToGroups([]p2p.GroupID{p2p.NewGroupIDByShardID(p2p.ShardID(consensus.ShardID))}, host.ConstructP2pMessage(byte(17), msgToSend)) } func (consensus *Consensus) onAnnounce(msg *msg_pb.Message) { if consensus.PubKey.IsEqual(consensus.LeaderPubKey) { return } senderKey, err := consensus.verifySenderKey(msg) if err != nil { utils.GetLogInstance().Debug("onAnnounce verifySenderKey failed", "error", err) return } if !senderKey.IsEqual(consensus.LeaderPubKey) { utils.GetLogInstance().Warn("onAnnounce senderKey not match leader PubKey", "senderKey", senderKey.GetHexString(), "leaderKey", consensus.LeaderPubKey.GetHexString()) return } if err = verifyMessageSig(senderKey, msg); err != nil { utils.GetLogInstance().Debug("onAnnounce Failed to verify leader signature", "error", err) return } recvMsg, err := ParsePbftMessage(msg) if err != nil { utils.GetLogInstance().Debug("onAnnounce Unparseable leader message", "error", err) return } block := recvMsg.Payload // check block header is valid var blockObj types.Block err = rlp.DecodeBytes(block, &blockObj) if err != nil { utils.GetLogInstance().Warn("onAnnounce Unparseable block header data", "error", err) return } // check block data transactions if err := consensus.VerifyHeader(consensus.ChainReader, blockObj.Header(), false); err != nil { utils.GetLogInstance().Warn("onAnnounce block content is not verified successfully", "error", err) return } logMsgs := consensus.pbftLog.GetMessagesByTypeSeqView(msg_pb.MessageType_ANNOUNCE, recvMsg.BlockNum, recvMsg.ViewID) if len(logMsgs) > 0 { if logMsgs[0].BlockHash != blockObj.Header().Hash() { utils.GetLogInstance().Debug("onAnnounce leader is malicious", "leaderKey", utils.GetBlsAddress(consensus.LeaderPubKey)) consensus.startViewChange(consensus.viewID + 1) } return } blockPayload := make([]byte, len(block)) copy(blockPayload[:], block[:]) consensus.block = blockPayload consensus.blockHash = recvMsg.BlockHash consensus.pbftLog.AddMessage(recvMsg) consensus.pbftLog.AddBlock(&blockObj) consensus.tryPrepare(blockObj.Header().Hash()) consensus.consensusTimeout["bootstrap"].Stop() consensus.consensusTimeout["announce"].Stop() if !consensus.consensusTimeout["prepare"].IsActive() { consensus.consensusTimeout["prepare"].Start() } return } // tryPrepare will try to send prepare message func (consensus *Consensus) tryPrepare(blockHash common.Hash) { var hash common.Hash copy(hash[:], blockHash[:]) block := consensus.pbftLog.GetBlockByHash(hash) if block == nil { return } if consensus.phase != Announce || consensus.blockNum != block.NumberU64() || !consensus.pbftLog.HasMatchingAnnounce(consensus.blockNum, consensus.viewID, hash) { return } consensus.switchPhase(Prepare) if !consensus.PubKey.IsEqual(consensus.LeaderPubKey) { //TODO(chao): check whether this is necessary when calling tryPrepare // Construct and send prepare message msgToSend := consensus.constructPrepareMessage() utils.GetLogInstance().Info("tryPrepare", "sent prepare message", len(msgToSend)) consensus.host.SendMessageToGroups([]p2p.GroupID{p2p.NewGroupIDByShardID(p2p.ShardID(consensus.ShardID))}, host.ConstructP2pMessage(byte(17), msgToSend)) } } // TODO: move to consensus_leader.go later func (consensus *Consensus) onPrepare(msg *msg_pb.Message) { if !consensus.PubKey.IsEqual(consensus.LeaderPubKey) { return } senderKey, err := consensus.verifySenderKey(msg) if err != nil { utils.GetLogInstance().Debug("onPrepare verifySenderKey failed", "error", err) return } if err = verifyMessageSig(senderKey, msg); err != nil { utils.GetLogInstance().Debug("onPrepare Failed to verify sender's signature", "error", err) return } recvMsg, err := ParsePbftMessage(msg) if err != nil { utils.GetLogInstance().Debug("[Consensus] onPrepare Unparseable validator message", "error", err) return } if recvMsg.ViewID != consensus.viewID || recvMsg.BlockNum != consensus.blockNum || consensus.phase != Prepare { utils.GetLogInstance().Debug("onPrepare message not match", "myPhase", consensus.phase, "myViewID", consensus.viewID, "msgViewID", recvMsg.ViewID, "myBlockNum", consensus.blockNum, "msgBlockNum", recvMsg.BlockNum) return } if !consensus.pbftLog.HasMatchingAnnounce(consensus.blockNum, consensus.viewID, recvMsg.BlockHash) { utils.GetLogInstance().Debug("onPrepare no matching announce message", "blockNum", consensus.blockNum, "viewID", consensus.viewID, "blockHash", recvMsg.BlockHash) return } validatorPubKey := recvMsg.SenderPubkey addrBytes := validatorPubKey.GetAddress() validatorAddress := common.BytesToAddress(addrBytes[:]) prepareSig := recvMsg.Payload prepareSigs := consensus.prepareSigs prepareBitmap := consensus.prepareBitmap consensus.mutex.Lock() defer consensus.mutex.Unlock() if len(prepareSigs) >= ((len(consensus.PublicKeys)*2)/3 + 1) { // already have enough signatures return } // proceed only when the message is not received before _, ok := prepareSigs[validatorAddress] if ok { utils.GetLogInstance().Debug("Already received prepare message from the validator", "validatorAddress", validatorAddress) return } // Check BLS signature for the multi-sig var sign bls.Sign err = sign.Deserialize(prepareSig) if err != nil { utils.GetLogInstance().Error("Failed to deserialize bls signature", "validatorAddress", validatorAddress) return } if !sign.VerifyHash(validatorPubKey, consensus.blockHash[:]) { utils.GetLogInstance().Error("Received invalid BLS signature", "validatorAddress", validatorAddress) return } utils.GetLogInstance().Debug("Received new prepare signature", "numReceivedSoFar", len(prepareSigs), "validatorAddress", validatorAddress, "PublicKeys", len(consensus.PublicKeys)) prepareSigs[validatorAddress] = &sign prepareBitmap.SetKey(validatorPubKey, true) // Set the bitmap indicating that this validator signed. if len(prepareSigs) >= ((len(consensus.PublicKeys)*2)/3 + 1) { consensus.switchPhase(Commit) // Construct and broadcast prepared message msgToSend, aggSig := consensus.constructPreparedMessage() consensus.aggregatedPrepareSig = aggSig utils.GetLogInstance().Warn("onPrepare", "sent prepared message", len(msgToSend)) consensus.host.SendMessageToGroups([]p2p.GroupID{p2p.NewGroupIDByShardID(p2p.ShardID(consensus.ShardID))}, host.ConstructP2pMessage(byte(17), msgToSend)) // Leader sign the multi-sig and bitmap (for commit phase) multiSigAndBitmap := append(aggSig.Serialize(), prepareBitmap.Bitmap...) consensus.commitSigs[consensus.SelfAddress] = consensus.priKey.SignHash(multiSigAndBitmap) } return } func (consensus *Consensus) onPrepared(msg *msg_pb.Message) { if consensus.PubKey.IsEqual(consensus.LeaderPubKey) { return } senderKey, err := consensus.verifySenderKey(msg) if err != nil { utils.GetLogInstance().Debug("onPrepared verifySenderKey failed", "error", err) return } if !senderKey.IsEqual(consensus.LeaderPubKey) { utils.GetLogInstance().Warn("onPrepared senderKey not match leader PubKey") return } if err := verifyMessageSig(senderKey, msg); err != nil { utils.GetLogInstance().Debug("onPrepared Failed to verify sender's signature", "error", err) return } utils.GetLogInstance().Info("onPrepared received prepared message", "ValidatorAddress", consensus.SelfAddress) recvMsg, err := ParsePbftMessage(msg) if err != nil { utils.GetLogInstance().Debug("onPrepared Unparseable validator message", "error", err) return } if recvMsg.BlockNum < consensus.blockNum { return } blockHash := recvMsg.BlockHash pubKey := recvMsg.SenderPubkey if !pubKey.IsEqual(consensus.LeaderPubKey) { utils.GetLogInstance().Debug("onPrepared leader pubkey not match", "suppose", consensus.LeaderPubKey, "got", pubKey) return } addrBytes := pubKey.GetAddress() leaderAddress := common.BytesToAddress(addrBytes[:]).Hex() messagePayload := recvMsg.Payload //#### Read payload data offset := 0 // 48 byte of multi-sig multiSig := messagePayload[offset : offset+48] offset += 48 // bitmap bitmap := messagePayload[offset:] //#### END Read payload data consensus.mutex.Lock() defer consensus.mutex.Unlock() // Verify the multi-sig for prepare phase deserializedMultiSig := bls.Sign{} err = deserializedMultiSig.Deserialize(multiSig) if err != nil { utils.GetLogInstance().Warn("onPrepared failed to deserialize the multi signature for prepare phase", "Error", err, "leader Address", leaderAddress) return } mask, err := bls_cosi.NewMask(consensus.PublicKeys, nil) mask.SetMask(bitmap) // TODO: add 2f+1 signature checking if !deserializedMultiSig.VerifyHash(mask.AggregatePublic, blockHash[:]) || err != nil { myBlockHash := common.Hash{} myBlockHash.SetBytes(consensus.blockHash[:]) utils.GetLogInstance().Warn("onPrepared failed to verify multi signature for prepare phase", "error", err, "blockHash", blockHash, "myBlockHash", myBlockHash) return } consensus.pbftLog.AddMessage(recvMsg) if recvMsg.BlockNum > consensus.blockNum || consensus.phase != Prepare || recvMsg.ViewID != consensus.viewID { return } consensus.aggregatedPrepareSig = &deserializedMultiSig consensus.prepareBitmap = mask // Construct and send the commit message multiSigAndBitmap := append(multiSig, bitmap...) msgToSend := consensus.constructCommitMessage(multiSigAndBitmap) utils.GetLogInstance().Warn("[Consensus]", "sent commit message", len(msgToSend)) consensus.host.SendMessageToGroups([]p2p.GroupID{p2p.NewGroupIDByShardID(p2p.ShardID(consensus.ShardID))}, host.ConstructP2pMessage(byte(17), msgToSend)) consensus.switchPhase(Commit) consensus.consensusTimeout["prepare"].Stop() if !consensus.consensusTimeout["commit"].IsActive() { consensus.consensusTimeout["commit"].Start() } return } // TODO: move it to consensus_leader.go later func (consensus *Consensus) onCommit(msg *msg_pb.Message) { if !consensus.PubKey.IsEqual(consensus.LeaderPubKey) { return } senderKey, err := consensus.verifySenderKey(msg) if err != nil { utils.GetLogInstance().Debug("onCommit verifySenderKey failed", "error", err) return } if err = verifyMessageSig(senderKey, msg); err != nil { utils.GetLogInstance().Debug("onCommit Failed to verify sender's signature", "error", err) return } recvMsg, err := ParsePbftMessage(msg) if err != nil { utils.GetLogInstance().Debug("onCommit parse pbft message failed", "error", err) return } if recvMsg.ViewID != consensus.viewID || recvMsg.BlockNum != consensus.blockNum || consensus.phase != Commit { return } if !consensus.pbftLog.HasMatchingAnnounce(consensus.blockNum, consensus.viewID, recvMsg.BlockHash) { return } validatorPubKey := recvMsg.SenderPubkey addrBytes := validatorPubKey.GetAddress() validatorAddress := common.BytesToAddress(addrBytes[:]) commitSig := recvMsg.Payload consensus.mutex.Lock() defer consensus.mutex.Unlock() if !consensus.IsValidatorInCommittee(validatorAddress) { utils.GetLogInstance().Error("Invalid validator", "validatorAddress", validatorAddress) return } commitSigs := consensus.commitSigs commitBitmap := consensus.commitBitmap // proceed only when the message is not received before _, ok := commitSigs[validatorAddress] if ok { utils.GetLogInstance().Debug("Already received commit message from the validator", "validatorAddress", validatorAddress) return } if len((commitSigs)) >= ((len(consensus.PublicKeys)*2)/3 + 1) { return } // Verify the signature on prepare multi-sig and bitmap is correct var sign bls.Sign err = sign.Deserialize(commitSig) if err != nil { utils.GetLogInstance().Debug("Failed to deserialize bls signature", "validatorAddress", validatorAddress) return } aggSig := bls_cosi.AggregateSig(consensus.GetPrepareSigsArray()) if !sign.VerifyHash(validatorPubKey, append(aggSig.Serialize(), consensus.prepareBitmap.Bitmap...)) { utils.GetLogInstance().Error("Received invalid BLS signature", "validatorAddress", validatorAddress) return } utils.GetLogInstance().Debug("Received new commit message", "numReceivedSoFar", len(commitSigs), "validatorAddress", validatorAddress) commitSigs[validatorAddress] = &sign // Set the bitmap indicating that this validator signed. commitBitmap.SetKey(validatorPubKey, true) if len(commitSigs) >= ((len(consensus.PublicKeys)*2)/3 + 1) { utils.GetLogInstance().Info("Enough commits received!", "num", len(commitSigs), "state", consensus.state) consensus.switchPhase(Announce) // Construct and broadcast committed message msgToSend, aggSig := consensus.constructCommittedMessage() consensus.aggregatedCommitSig = aggSig utils.GetLogInstance().Warn("[Consensus]", "sent committed message", len(msgToSend)) consensus.host.SendMessageToGroups([]p2p.GroupID{p2p.NewGroupIDByShardID(p2p.ShardID(consensus.ShardID))}, host.ConstructP2pMessage(byte(17), msgToSend)) var blockObj types.Block err := rlp.DecodeBytes(consensus.block, &blockObj) if err != nil { utils.GetLogInstance().Debug("failed to construct the new block after consensus") } // Sign the block blockObj.SetPrepareSig( consensus.aggregatedPrepareSig.Serialize(), consensus.prepareBitmap.Bitmap) blockObj.SetCommitSig( consensus.aggregatedCommitSig.Serialize(), consensus.commitBitmap.Bitmap) select { case consensus.VerifiedNewBlock <- &blockObj: default: utils.GetLogInstance().Info("[SYNC] Failed to send consensus verified block for state sync", "blockHash", blockObj.Hash()) } consensus.reportMetrics(blockObj) // Dump new block into level db. explorer.GetStorageInstance(consensus.leader.IP, consensus.leader.Port, true).Dump(&blockObj, consensus.viewID) // Reset state to Finished, and clear other data. consensus.ResetState() consensus.viewID++ consensus.blockNum++ consensus.OnConsensusDone(&blockObj) utils.GetLogInstance().Debug("HOORAY!!!!!!! CONSENSUS REACHED!!!!!!!", "viewID", consensus.viewID, "numOfSignatures", len(commitSigs)) // Send signal to Node so the new block can be added and new round of consensus can be triggered consensus.ReadySignal <- struct{}{} } return } func (consensus *Consensus) onCommitted(msg *msg_pb.Message) { utils.GetLogInstance().Warn("Received Committed Message", "ValidatorAddress", consensus.SelfAddress) if consensus.PubKey.IsEqual(consensus.LeaderPubKey) { return } senderKey, err := consensus.verifySenderKey(msg) if err != nil { utils.GetLogInstance().Debug("onCommitted verifySenderKey failed", "error", err) return } if !senderKey.IsEqual(consensus.LeaderPubKey) { utils.GetLogInstance().Warn("onCommitted senderKey not match leader PubKey") return } if err = verifyMessageSig(senderKey, msg); err != nil { utils.GetLogInstance().Debug("onCommitted Failed to verify sender's signature", "error", err) return } recvMsg, err := ParsePbftMessage(msg) if err != nil { utils.GetLogInstance().Warn("onCommitted unable to parse msg", "error", err) return } if recvMsg.BlockNum < consensus.blockNum { return } validatorPubKey := recvMsg.SenderPubkey addrBytes := validatorPubKey.GetAddress() leaderAddress := common.BytesToAddress(addrBytes[:]).Hex() messagePayload := recvMsg.Payload //#### Read payload data offset := 0 // 48 byte of multi-sig multiSig := messagePayload[offset : offset+48] offset += 48 // bitmap bitmap := messagePayload[offset:] //#### END Read payload data consensus.mutex.Lock() defer consensus.mutex.Unlock() // Verify the multi-sig for commit phase deserializedMultiSig := bls.Sign{} err = deserializedMultiSig.Deserialize(multiSig) if err != nil { utils.GetLogInstance().Warn("Failed to deserialize the multi signature for commit phase", "Error", err, "leader Address", leaderAddress) return } mask, err := bls_cosi.NewMask(consensus.PublicKeys, nil) mask.SetMask(bitmap) prepareMultiSigAndBitmap := append(consensus.aggregatedPrepareSig.Serialize(), consensus.prepareBitmap.Bitmap...) // TODO: add 2f+1 signature checking if !deserializedMultiSig.VerifyHash(mask.AggregatePublic, prepareMultiSigAndBitmap) || err != nil { utils.GetLogInstance().Warn("Failed to verify the multi signature for commit phase", "Error", err, "leader Address", leaderAddress) return } consensus.pbftLog.AddMessage(recvMsg) if recvMsg.BlockNum > consensus.blockNum || consensus.phase != Commit || recvMsg.ViewID != consensus.viewID { return } consensus.aggregatedCommitSig = &deserializedMultiSig consensus.commitBitmap = mask consensus.tryCatchup() consensus.consensusTimeout["commit"].Stop() if !consensus.consensusTimeout["announce"].IsActive() { consensus.consensusTimeout["announce"].Start() } return } // try to catch up if fall behind func (consensus *Consensus) tryCatchup() { utils.GetLogInstance().Info("tryCatchup: commit new blocks", "blockNum", consensus.blockNum) if consensus.phase != Commit { return } consensus.switchPhase(Announce) for { msgs := consensus.pbftLog.GetMessagesByTypeSeq(msg_pb.MessageType_COMMITTED, consensus.blockNum) if len(msgs) == 0 { break } if len(msgs) > 1 { utils.GetLogInstance().Info("[PBFT] we should only get one committed message for a given blockNum", "blockNum", consensus.blockNum, "numMsgs", len(msgs)) } block := consensus.pbftLog.GetBlockByHash(msgs[0].BlockHash) if block == nil { break } if block.ParentHash() != consensus.ChainReader.CurrentHeader().Hash() { utils.GetLogInstance().Debug("[PBFT] parent block hash not match", "blockNum", consensus.blockNum) break } preparedMsgs := consensus.pbftLog.GetMessagesByTypeSeqHash(msg_pb.MessageType_PREPARED, msgs[0].BlockNum, msgs[0].BlockHash) if len(preparedMsgs) > 1 { utils.GetLogInstance().Info("[PBFT] we should only get one prepared message for a given blockNum", "blockNum", consensus.blockNum, "numMsgs", len(preparedMsgs)) } if len(preparedMsgs) == 0 { break } cnt := 0 for _, msg := range preparedMsgs { if msg.BlockHash == msgs[0].BlockHash { cnt++ consensus.blockHash = [32]byte{} consensus.blockNum = consensus.blockNum + 1 consensus.viewID = consensus.viewID + 1 //#### Read payload data from committed msg aggSig := make([]byte, 48) bitmap := make([]byte, len(msgs[0].Payload)-48) offset := 0 copy(aggSig[:], msgs[0].Payload[offset:offset+48]) offset += 48 copy(bitmap[:], msgs[0].Payload[offset:]) //#### END Read payload data from committed msg //#### Read payload data from prepared msg prepareSig := make([]byte, 48) prepareBitmap := make([]byte, len(msg.Payload)-48) offset = 0 copy(prepareSig[:], msg.Payload[offset:offset+48]) offset += 48 copy(prepareBitmap[:], msg.Payload[offset:]) //#### END Read payload data from committed msg // Put the signatures into the block block.SetPrepareSig(prepareSig, prepareBitmap) block.SetCommitSig(aggSig, bitmap) utils.GetLogInstance().Info("Adding block to chain", "numTx", len(block.Transactions())) consensus.OnConsensusDone(block) consensus.ResetState() select { case consensus.VerifiedNewBlock <- block: default: utils.GetLogInstance().Info("[SYNC] consensus verified block send to chan failed", "blockHash", block.Hash()) continue } break } } if cnt == 0 { // didn't find match block for current blockNum, return break } } } // Start waits for the next new block and run consensus func (consensus *Consensus) Start(blockChannel chan *types.Block, stopChan chan struct{}, stoppedChan chan struct{}, startChannel chan struct{}) { if nodeconfig.GetDefaultConfig().IsLeader() { <-startChannel } go func() { utils.GetLogInstance().Info("start consensus", "time", time.Now()) defer close(stoppedChan) ticker := time.NewTicker(3 * time.Second) consensus.consensusTimeout["bootstrap"].Start() for { select { case <-ticker.C: if !consensus.PubKey.IsEqual(consensus.LeaderPubKey) { for k, v := range consensus.consensusTimeout { if !v.CheckExpire() { continue } if k != "viewchange" { utils.GetLogInstance().Debug("ops", "phase", k, "mode", consensus.mode.Mode()) consensus.startViewChange(consensus.viewID + 1) break } else { utils.GetLogInstance().Debug("ops", "phase", k, "mode", consensus.mode.Mode()) viewID := consensus.mode.ViewID() consensus.startViewChange(viewID + 1) break } } } case newBlock := <-blockChannel: utils.GetLogInstance().Info("receive newBlock", "blockNum", newBlock.NumberU64()) if consensus.ShardID == 0 { if core.IsEpochBlock(newBlock) { // Only beacon chain do randomness generation // Receive pRnd from DRG protocol utils.GetLogInstance().Debug("[DRG] Waiting for pRnd") pRndAndBitmap := <-consensus.PRndChannel utils.GetLogInstance().Debug("[DRG] Got pRnd", "pRnd", pRndAndBitmap) pRnd := [32]byte{} copy(pRnd[:], pRndAndBitmap[:32]) bitmap := pRndAndBitmap[32:] vrfBitmap, _ := bls_cosi.NewMask(consensus.PublicKeys, consensus.leader.ConsensusPubKey) vrfBitmap.SetMask(bitmap) // TODO: check validity of pRnd newBlock.AddRandPreimage(pRnd) } rnd, blockHash, err := consensus.GetNextRnd() if err == nil { // Verify the randomness _ = blockHash utils.GetLogInstance().Info("Adding randomness into new block", "rnd", rnd) newBlock.AddRandSeed(rnd) } else { utils.GetLogInstance().Info("Failed to get randomness", "error", err) } } startTime = time.Now() utils.GetLogInstance().Debug("STARTING CONSENSUS", "numTxs", len(newBlock.Transactions()), "consensus", consensus, "startTime", startTime, "publicKeys", len(consensus.PublicKeys)) consensus.tryAnnounce(newBlock) case msg := <-consensus.MsgChan: consensus.handleMessageUpdate(msg) case <-stopChan: return } } }() }