package consensus import ( "encoding/hex" "strconv" "time" "github.com/ethereum/go-ethereum/rlp" protobuf "github.com/golang/protobuf/proto" "github.com/harmony-one/bls/ffi/go/bls" consensus_proto "github.com/harmony-one/harmony/api/consensus" "github.com/harmony-one/harmony/api/services/explorer" "github.com/harmony-one/harmony/core/types" bls_cosi "github.com/harmony-one/harmony/crypto/bls" "github.com/harmony-one/harmony/internal/profiler" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/p2p/host" ) const ( waitForEnoughValidators = 1000 ) var ( startTime time.Time ) // WaitForNewBlock waits for the next new block to run consensus on func (consensus *Consensus) WaitForNewBlock(blockChannel chan *types.Block, stopChan chan struct{}, stoppedChan chan struct{}) { go func() { defer close(stoppedChan) for { select { default: utils.GetLogInstance().Debug("Waiting for block", "consensus", consensus) // keep waiting for new blocks newBlock := <-blockChannel // TODO: think about potential race condition c := consensus.RemovePeers(consensus.OfflinePeerList) if c > 0 { utils.GetLogInstance().Debug("WaitForNewBlock", "removed peers", c) } for !consensus.HasEnoughValidators() { utils.GetLogInstance().Debug("Not enough validators", "# Validators", len(consensus.PublicKeys)) time.Sleep(waitForEnoughValidators * time.Millisecond) } startTime = time.Now() utils.GetLogInstance().Debug("STARTING CONSENSUS", "numTxs", len(newBlock.Transactions()), "consensus", consensus, "startTime", startTime, "publicKeys", len(consensus.PublicKeys)) for { // Wait until last consensus is finished if consensus.state == Finished { consensus.ResetState() consensus.startConsensus(newBlock) break } time.Sleep(500 * time.Millisecond) } case <-stopChan: return } } }() } // ProcessMessageLeader dispatches consensus message for the leader. func (consensus *Consensus) ProcessMessageLeader(payload []byte) { message := consensus_proto.Message{} err := protobuf.Unmarshal(payload, &message) if err != nil { utils.GetLogInstance().Error("Failed to unmarshal message payload.", "err", err, "consensus", consensus) } switch message.Type { case consensus_proto.MessageType_PREPARE: consensus.processPrepareMessage(message) case consensus_proto.MessageType_COMMIT: consensus.processCommitMessage(message) default: utils.GetLogInstance().Error("Unexpected message type", "msgType", message.Type, "consensus", consensus) } } // startConsensus starts a new consensus for a block by broadcast a announce message to the validators func (consensus *Consensus) startConsensus(newBlock *types.Block) { // Copy over block hash and block header data blockHash := newBlock.Hash() copy(consensus.blockHash[:], blockHash[:]) utils.GetLogInstance().Debug("Start encoding block") // prepare message and broadcast to validators encodedBlock, err := rlp.EncodeToBytes(newBlock) if err != nil { utils.GetLogInstance().Debug("Failed encoding block") return } consensus.block = encodedBlock utils.GetLogInstance().Debug("Stop encoding block") msgToSend := consensus.constructAnnounceMessage() // Set state to AnnounceDone consensus.state = AnnounceDone // Leader sign the block hash itself (*consensus.prepareSigs)[consensus.nodeID] = consensus.priKey.SignHash(consensus.blockHash[:]) host.BroadcastMessageFromLeader(consensus.host, consensus.GetValidatorPeers(), msgToSend, consensus.OfflinePeers) } // processPrepareMessage processes the prepare message sent from validators func (consensus *Consensus) processPrepareMessage(message consensus_proto.Message) { validatorID := message.SenderId prepareSig := message.Payload prepareSigs := consensus.prepareSigs prepareBitmap := consensus.prepareBitmap consensus.mutex.Lock() defer consensus.mutex.Unlock() validatorPeer := consensus.getValidatorPeerByID(validatorID) if !consensus.checkConsensusMessage(message, validatorPeer.PubKey) { utils.GetLogInstance().Debug("Failed to check the validator message", "validatorID", validatorID) return } // proceed only when the message is not received before _, ok := (*prepareSigs)[validatorID] if ok { utils.GetLogInstance().Debug("Already received prepare message from the validator", "validatorID", validatorID) return } if len((*prepareSigs)) >= ((len(consensus.PublicKeys)*2)/3 + 1) { utils.GetLogInstance().Debug("Received additional new prepare message", "validatorID", validatorID) 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", "validatorID", validatorID) return } if !sign.VerifyHash(validatorPeer.PubKey, consensus.blockHash[:]) { utils.GetLogInstance().Error("Received invalid BLS signature", "validatorID", validatorID) return } utils.GetLogInstance().Debug("Received new prepare signature", "numReceivedSoFar", len(*prepareSigs), "validatorID", validatorID, "PublicKeys", len(consensus.PublicKeys)) (*prepareSigs)[validatorID] = &sign prepareBitmap.SetKey(validatorPeer.PubKey, true) // Set the bitmap indicating that this validator signed. targetState := PreparedDone if len((*prepareSigs)) >= ((len(consensus.PublicKeys)*2)/3+1) && consensus.state < targetState { utils.GetLogInstance().Debug("Enough prepares received with signatures", "num", len(*prepareSigs), "state", consensus.state) // Construct and broadcast prepared message msgToSend, aggSig := consensus.constructPreparedMessage() consensus.aggregatedPrepareSig = aggSig host.BroadcastMessageFromLeader(consensus.host, consensus.GetValidatorPeers(), msgToSend, consensus.OfflinePeers) // Set state to targetState consensus.state = targetState // Leader sign the multi-sig and bitmap (for commit phase) multiSigAndBitmap := append(aggSig.Serialize(), prepareBitmap.Bitmap...) (*consensus.commitSigs)[consensus.nodeID] = consensus.priKey.SignHash(multiSigAndBitmap) } } // Processes the commit message sent from validators func (consensus *Consensus) processCommitMessage(message consensus_proto.Message) { validatorID := message.SenderId commitSig := message.Payload consensus.mutex.Lock() defer consensus.mutex.Unlock() validatorPeer := consensus.getValidatorPeerByID(validatorID) if !consensus.checkConsensusMessage(message, validatorPeer.PubKey) { utils.GetLogInstance().Debug("Failed to check the validator message", "validatorID", validatorID) return } commitSigs := consensus.commitSigs commitBitmap := consensus.commitBitmap // proceed only when the message is not received before _, ok := (*commitSigs)[validatorID] if ok { utils.GetLogInstance().Debug("Already received commit message from the validator", "validatorID", validatorID) return } if len((*commitSigs)) >= ((len(consensus.PublicKeys)*2)/3 + 1) { utils.GetLogInstance().Debug("Received additional new commit message", "validatorID", strconv.Itoa(int(validatorID))) 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", "validatorID", validatorID) return } aggSig := bls_cosi.AggregateSig(consensus.GetPrepareSigsArray()) if !sign.VerifyHash(validatorPeer.PubKey, append(aggSig.Serialize(), consensus.prepareBitmap.Bitmap...)) { utils.GetLogInstance().Error("Received invalid BLS signature", "validatorID", validatorID) return } utils.GetLogInstance().Debug("Received new commit message", "numReceivedSoFar", len(*commitSigs), "validatorID", strconv.Itoa(int(validatorID))) (*commitSigs)[validatorID] = &sign // Set the bitmap indicating that this validator signed. commitBitmap.SetKey(validatorPeer.PubKey, true) targetState := CommittedDone if len(*commitSigs) >= ((len(consensus.PublicKeys)*2)/3+1) && consensus.state != targetState { utils.GetLogInstance().Info("Enough commits received!", "num", len(*commitSigs), "state", consensus.state) // Construct and broadcast committed message msgToSend, aggSig := consensus.constructCommittedMessage() consensus.aggregatedCommitSig = aggSig host.BroadcastMessageFromLeader(consensus.host, consensus.GetValidatorPeers(), msgToSend, consensus.OfflinePeers) 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 copy(blockObj.Header().PrepareSignature[:], consensus.aggregatedPrepareSig.Serialize()[:]) copy(blockObj.Header().PrepareBitmap[:], consensus.prepareBitmap.Bitmap) copy(blockObj.Header().CommitSignature[:], consensus.aggregatedCommitSig.Serialize()[:]) copy(blockObj.Header().CommitBitmap[:], consensus.commitBitmap.Bitmap) consensus.OnConsensusDone(&blockObj) consensus.state = targetState select { case consensus.VerifiedNewBlock <- &blockObj: default: utils.GetLogInstance().Info("[SYNC] consensus verified block send to chan failed", "blockHash", blockObj.Hash()) } consensus.reportMetrics(blockObj) // Dump new block into level db. explorer.GetStorageInstance(consensus.leader.IP, consensus.leader.Port, true).Dump(&blockObj, consensus.consensusID) // Reset state to Finished, and clear other data. consensus.ResetState() consensus.consensusID++ utils.GetLogInstance().Debug("HOORAY!!! CONSENSUS REACHED!!!", "consensusID", consensus.consensusID, "numOfSignatures", len(*commitSigs)) // TODO: remove this temporary delay time.Sleep(500 * time.Millisecond) // Send signal to Node so the new block can be added and new round of consensus can be triggered consensus.ReadySignal <- struct{}{} } } func (consensus *Consensus) reportMetrics(block types.Block) { endTime := time.Now() timeElapsed := endTime.Sub(startTime) numOfTxs := len(block.Transactions()) tps := float64(numOfTxs) / timeElapsed.Seconds() utils.GetLogInstance().Info("TPS Report", "numOfTXs", numOfTxs, "startTime", startTime, "endTime", endTime, "timeElapsed", timeElapsed, "TPS", tps, "consensus", consensus) // Post metrics profiler := profiler.GetProfiler() if profiler.MetricsReportURL == "" { return } txHashes := []string{} for i, end := 0, len(block.Transactions()); i < 3 && i < end; i++ { txHash := block.Transactions()[end-1-i].Hash() txHashes = append(txHashes, hex.EncodeToString(txHash[:])) } metrics := map[string]interface{}{ "key": hex.EncodeToString(consensus.pubKey.Serialize()), "tps": tps, "txCount": numOfTxs, "nodeCount": len(consensus.PublicKeys) + 1, "latestBlockHash": hex.EncodeToString(consensus.blockHash[:]), "latestTxHashes": txHashes, "blockLatency": int(timeElapsed / time.Millisecond), } profiler.LogMetrics(metrics) } // HasEnoughValidators checks the number of publicKeys to determine // if the shard has enough validators // FIXME (HAR-82): we need epoch support or a better way to determine // when to initiate the consensus func (consensus *Consensus) HasEnoughValidators() bool { if len(consensus.PublicKeys) < consensus.MinPeers { return false } return true }