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343 lines
10 KiB
343 lines
10 KiB
package consensus
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import (
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"bytes"
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"crypto/sha256"
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"encoding/binary"
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"encoding/gob"
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"harmony-benchmark/blockchain"
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"harmony-benchmark/p2p"
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"strings"
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"time"
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)
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var (
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startTime time.Time
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)
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// Waits for the next new block to run consensus on
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func (consensus *Consensus) WaitForNewBlock(blockChannel chan blockchain.Block) {
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consensus.Log.Debug("Waiting for block", "consensus", consensus)
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for { // keep waiting for new blocks
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newBlock := <-blockChannel
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// TODO: think about potential race condition
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startTime = time.Now()
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consensus.Log.Info("STARTING CONSENSUS", "consensus", consensus, "startTime", startTime)
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for consensus.state == FINISHED {
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time.Sleep(500 * time.Millisecond)
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consensus.startConsensus(&newBlock)
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break
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}
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}
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}
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// Consensus message dispatcher for the leader
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func (consensus *Consensus) ProcessMessageLeader(message []byte) {
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msgType, err := GetConsensusMessageType(message)
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if err != nil {
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consensus.Log.Error("Failed to get consensus message type.", "err", err, "consensus", consensus)
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}
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payload, err := GetConsensusMessagePayload(message)
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if err != nil {
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consensus.Log.Error("Failed to get consensus message payload.", "err", err, "consensus", consensus)
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}
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switch msgType {
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case ANNOUNCE:
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consensus.Log.Error("Unexpected message type", "msgType", msgType, "consensus", consensus)
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case COMMIT:
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consensus.processCommitMessage(payload)
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case CHALLENGE:
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consensus.Log.Error("Unexpected message type", "msgType", msgType, "consensus", consensus)
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case RESPONSE:
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consensus.processResponseMessage(payload)
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case START_CONSENSUS:
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consensus.processStartConsensusMessage(payload)
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default:
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consensus.Log.Error("Unexpected message type", "msgType", msgType, "consensus", consensus)
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}
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}
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// Handler for message which triggers consensus process
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func (consensus *Consensus) processStartConsensusMessage(payload []byte) {
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tx := blockchain.NewCoinbaseTX("x", "y", 0)
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consensus.startConsensus(blockchain.NewGenesisBlock(tx, 0))
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}
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// Starts a new consensus for a block by broadcast a announce message to the validators
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func (consensus *Consensus) startConsensus(newBlock *blockchain.Block) {
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// Copy over block hash and block header data
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copy(consensus.blockHash[:], newBlock.Hash[:])
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// prepare message and broadcast to validators
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byteBuffer := bytes.NewBuffer([]byte{})
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encoder := gob.NewEncoder(byteBuffer)
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encoder.Encode(newBlock)
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consensus.blockHeader = byteBuffer.Bytes()
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msgToSend := consensus.constructAnnounceMessage()
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p2p.BroadcastMessage(consensus.validators, msgToSend)
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// Set state to ANNOUNCE_DONE
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consensus.state = ANNOUNCE_DONE
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}
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// Constructs the announce message
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func (consensus *Consensus) constructAnnounceMessage() []byte {
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buffer := bytes.NewBuffer([]byte{})
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// 4 byte consensus id
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fourBytes := make([]byte, 4)
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binary.BigEndian.PutUint32(fourBytes, consensus.consensusId)
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buffer.Write(fourBytes)
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// 32 byte block hash
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buffer.Write(consensus.blockHash[:])
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// 2 byte leader id
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twoBytes := make([]byte, 2)
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binary.BigEndian.PutUint16(twoBytes, consensus.nodeId)
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buffer.Write(twoBytes)
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// n byte of block header
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buffer.Write(consensus.blockHeader)
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// 4 byte of payload size
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sizeOfPayload := uint32(len(consensus.blockHeader))
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binary.BigEndian.PutUint32(fourBytes, sizeOfPayload)
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buffer.Write(fourBytes)
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// 64 byte of signature on previous data
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signature := signMessage(buffer.Bytes())
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buffer.Write(signature)
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return consensus.ConstructConsensusMessage(ANNOUNCE, buffer.Bytes())
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}
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func signMessage(message []byte) []byte {
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// TODO: implement real ECC signature
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mockSignature := sha256.Sum256(message)
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return append(mockSignature[:], mockSignature[:]...)
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}
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// Processes the commit message sent from validators
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func (consensus *Consensus) processCommitMessage(payload []byte) {
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//#### Read payload data
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offset := 0
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// 4 byte consensus id
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consensusId := binary.BigEndian.Uint32(payload[offset : offset+4])
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offset += 4
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// 32 byte block hash
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blockHash := payload[offset : offset+32]
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offset += 32
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// 2 byte validator id
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validatorId := string(payload[offset : offset+2])
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offset += 2
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// 33 byte commit
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commit := payload[offset : offset+33]
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offset += 33
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// 64 byte of signature on previous data
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signature := payload[offset : offset+64]
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offset += 64
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//#### END: Read payload data
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// TODO: make use of the data. This is just to avoid the unused variable warning
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_ = commit
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_ = signature
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// check consensus Id
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consensus.mutex.Lock()
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defer consensus.mutex.Unlock()
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if consensusId != consensus.consensusId {
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consensus.Log.Warn("Received COMMIT with wrong consensus Id", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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return
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}
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if bytes.Compare(blockHash, consensus.blockHash[:]) != 0 {
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consensus.Log.Warn("Received COMMIT with wrong blockHash", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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return
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}
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// proceed only when the message is not received before
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_, ok := consensus.commits[validatorId]
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shouldProcess := !ok
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if shouldProcess {
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consensus.commits[validatorId] = validatorId
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//consensus.Log.Debug("Number of commits received", "consensusId", consensus.consensusId, "count", len(consensus.commits))
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}
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if !shouldProcess {
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return
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}
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if len(consensus.commits) >= (2*len(consensus.validators))/3+1 && consensus.state < CHALLENGE_DONE {
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consensus.Log.Debug("Enough commits received with signatures", "numOfSignatures", len(consensus.commits))
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// Broadcast challenge
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msgToSend := consensus.constructChallengeMessage()
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p2p.BroadcastMessage(consensus.validators, msgToSend)
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// Set state to CHALLENGE_DONE
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consensus.state = CHALLENGE_DONE
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}
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}
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// Construct the challenge message
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func (consensus *Consensus) constructChallengeMessage() []byte {
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buffer := bytes.NewBuffer([]byte{})
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// 4 byte consensus id
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fourBytes := make([]byte, 4)
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binary.BigEndian.PutUint32(fourBytes, consensus.consensusId)
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buffer.Write(fourBytes)
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// 32 byte block hash
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buffer.Write(consensus.blockHash[:])
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// 2 byte leader id
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twoBytes := make([]byte, 2)
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binary.BigEndian.PutUint16(twoBytes, consensus.nodeId)
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buffer.Write(twoBytes)
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// 33 byte aggregated commit
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buffer.Write(getAggregatedCommit(consensus.commits))
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// 33 byte aggregated key
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buffer.Write(getAggregatedKey(consensus.commits))
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// 32 byte challenge
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buffer.Write(getChallenge())
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// 64 byte of signature on previous data
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signature := signMessage(buffer.Bytes())
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buffer.Write(signature)
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return consensus.ConstructConsensusMessage(CHALLENGE, buffer.Bytes())
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}
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func getAggregatedCommit(commits map[string]string) []byte {
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// TODO: implement actual commit aggregation
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var commitArray []string
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for _, val := range commits {
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commitArray = append(commitArray, val)
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}
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var commit [32]byte
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commit = sha256.Sum256([]byte(strings.Join(commitArray, "")))
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return append(commit[:], byte(0))
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}
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func getAggregatedKey(commits map[string]string) []byte {
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// TODO: implement actual key aggregation
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var commitArray []string
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for key := range commits {
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commitArray = append(commitArray, key)
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}
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var commit [32]byte
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commit = sha256.Sum256([]byte(strings.Join(commitArray, "")))
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return append(commit[:], byte(0))
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}
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func getChallenge() []byte {
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// TODO: implement actual challenge data
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return make([]byte, 32)
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}
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// Processes the response message sent from validators
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func (consensus *Consensus) processResponseMessage(payload []byte) {
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//#### Read payload data
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offset := 0
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// 4 byte consensus id
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consensusId := binary.BigEndian.Uint32(payload[offset : offset+4])
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offset += 4
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// 32 byte block hash
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blockHash := payload[offset : offset+32]
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offset += 32
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// 2 byte validator id
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validatorId := string(payload[offset : offset+2])
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offset += 2
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// 32 byte response
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response := payload[offset : offset+32]
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offset += 32
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// 64 byte of signature on previous data
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signature := payload[offset : offset+64]
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offset += 64
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//#### END: Read payload data
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// TODO: make use of the data. This is just to avoid the unused variable warning
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_ = consensusId
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_ = blockHash
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_ = response
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_ = signature
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shouldProcess := true
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consensus.mutex.Lock()
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// check consensus Id
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if consensusId != consensus.consensusId {
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shouldProcess = false
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consensus.Log.Warn("Received RESPONSE with wrong consensus Id", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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}
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if bytes.Compare(blockHash, consensus.blockHash[:]) != 0 {
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consensus.Log.Warn("Received RESPONSE with wrong blockHash", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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return
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}
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// proceed only when the message is not received before
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_, ok := consensus.responses[validatorId]
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shouldProcess = shouldProcess && !ok
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if shouldProcess {
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consensus.responses[validatorId] = validatorId
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//consensus.Log.Debug("Number of responses received", "consensusId", consensus.consensusId, "count", len(consensus.responses))
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}
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consensus.mutex.Unlock()
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if !shouldProcess {
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return
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}
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//consensus.Log.Debug("RECEIVED RESPONSE", "consensusId", consensusId)
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if len(consensus.responses) >= (2*len(consensus.validators))/3+1 && consensus.state != FINISHED {
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consensus.mutex.Lock()
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if len(consensus.responses) >= (2*len(consensus.validators))/3+1 && consensus.state != FINISHED {
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consensus.Log.Debug("Consensus reached with signatures.", "numOfSignatures", len(consensus.responses))
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// Reset state to FINISHED, and clear other data.
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consensus.ResetState()
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consensus.consensusId++
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consensus.Log.Debug("HOORAY!!! CONSENSUS REACHED!!!", "consensusId", consensus.consensusId)
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// TODO: reconstruct the whole block from header and transactions
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// For now, we used the stored whole block already stored in consensus.blockHeader
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txDecoder := gob.NewDecoder(bytes.NewReader(consensus.blockHeader))
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var blockHeaderObj blockchain.Block
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err := txDecoder.Decode(&blockHeaderObj)
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if err != nil {
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consensus.Log.Debug("failed to construct the new block after consensus")
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}
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consensus.OnConsensusDone(&blockHeaderObj)
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// TODO: @ricl these logic are irrelevant to consensus, move them to another file, say profiler.
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endTime := time.Now()
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timeElapsed := endTime.Sub(startTime)
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numOfTxs := blockHeaderObj.NumTransactions
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consensus.Log.Info("TPS Report",
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"numOfTXs", numOfTxs,
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"startTime", startTime,
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"endTime", endTime,
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"timeElapsed", timeElapsed,
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"TPS", float64(numOfTxs)/timeElapsed.Seconds(),
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"consensus", consensus)
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// Send signal to Node so the new block can be added and new round of consensus can be triggered
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consensus.ReadySignal <- 1
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}
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consensus.mutex.Unlock()
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}
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}
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