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371 lines
12 KiB
371 lines
12 KiB
package consensus
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import (
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"bytes"
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"encoding/binary"
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"encoding/gob"
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"github.com/dedis/kyber/sign/schnorr"
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"github.com/simple-rules/harmony-benchmark/attack"
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"github.com/simple-rules/harmony-benchmark/blockchain"
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"github.com/simple-rules/harmony-benchmark/crypto"
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"github.com/simple-rules/harmony-benchmark/log"
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"github.com/simple-rules/harmony-benchmark/p2p"
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proto_consensus "github.com/simple-rules/harmony-benchmark/proto/consensus"
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"github.com/simple-rules/harmony-benchmark/utils"
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)
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// Validator's consensus message dispatcher
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func (consensus *Consensus) ProcessMessageValidator(message []byte, blockSyncing chan struct{}, syncNode bool) {
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msgType, err := proto_consensus.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 := proto_consensus.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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if syncNode {
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blockSyncing <- struct{}{}
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return
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}
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switch msgType {
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case proto_consensus.ANNOUNCE:
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consensus.processAnnounceMessage(payload)
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case proto_consensus.CHALLENGE:
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consensus.processChallengeMessage(payload, RESPONSE_DONE)
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case proto_consensus.FINAL_CHALLENGE:
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consensus.processChallengeMessage(payload, FINAL_RESPONSE_DONE)
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case proto_consensus.COLLECTIVE_SIG:
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consensus.processCollectiveSigMessage(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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// Processes the announce message sent from the leader
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func (consensus *Consensus) processAnnounceMessage(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 leader id
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leaderId := binary.BigEndian.Uint16(payload[offset : offset+2])
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offset += 2
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// n byte of message to cosign
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n := len(payload) - offset - 64 // the number means 64 signature
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blockHeader := payload[offset : offset+n]
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offset += n
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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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copy(consensus.blockHash[:], blockHash[:])
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// Verify block data
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// check leader Id
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myLeaderId := utils.GetUniqueIdFromPeer(consensus.leader)
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if leaderId != myLeaderId {
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consensus.Log.Warn("Received message from wrong leader", "myLeaderId", myLeaderId, "receivedLeaderId", leaderId, "consensus", consensus)
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return
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}
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// Verify signature
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if schnorr.Verify(crypto.Ed25519Curve, consensus.leader.PubKey, payload[:offset-64], signature) != nil {
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consensus.Log.Warn("Received message with invalid signature", "leaderKey", consensus.leader.PubKey, "consensus", consensus)
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return
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}
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// check block header is valid
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txDecoder := gob.NewDecoder(bytes.NewReader(blockHeader))
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var blockHeaderObj blockchain.Block // TODO: separate header from block. Right now, this blockHeader data is actually the whole block
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err := txDecoder.Decode(&blockHeaderObj)
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if err != nil {
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consensus.Log.Warn("Unparseable block header data", "consensus", consensus)
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return
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}
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consensus.blockHeader = blockHeader // TODO: think about remove this field and use blocksReceived instead
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consensus.mutex.Lock()
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consensus.blocksReceived[consensusId] = &BlockConsensusStatus{blockHeader, consensus.state}
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consensus.mutex.Unlock()
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// Add attack model of IncorrectResponse.
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if attack.GetInstance().IncorrectResponse() {
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consensus.Log.Warn("IncorrectResponse attacked")
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return
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}
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// check consensus Id
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if consensusId != consensus.consensusId {
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consensus.Log.Warn("Received message with wrong consensus Id", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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return
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}
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// check block hash
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if bytes.Compare(blockHash[:], blockHeaderObj.CalculateBlockHash()[:]) != 0 || bytes.Compare(blockHeaderObj.Hash[:], blockHeaderObj.CalculateBlockHash()[:]) != 0 {
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consensus.Log.Warn("Block hash doesn't match", "consensus", consensus)
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return
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}
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// check block data (transactions
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if !consensus.BlockVerifier(&blockHeaderObj) {
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consensus.Log.Warn("Block content is not verified successfully", "consensus", consensus)
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return
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}
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secret, msgToSend := consensus.constructCommitMessage(proto_consensus.COMMIT)
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// Store the commitment secret
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consensus.secret = secret
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p2p.SendMessage(consensus.leader, msgToSend)
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// Set state to COMMIT_DONE
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consensus.state = COMMIT_DONE
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}
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// Processes the challenge message sent from the leader
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func (consensus *Consensus) processChallengeMessage(payload []byte, targetState ConsensusState) {
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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 leader id
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leaderId := binary.BigEndian.Uint16(payload[offset : offset+2])
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offset += 2
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// 33 byte of aggregated commit
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aggreCommit := payload[offset : offset+33]
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offset += 33
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// 33 byte of aggregated key
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aggreKey := payload[offset : offset+33]
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offset += 33
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// 32 byte of challenge
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challenge := 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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// Update readyByConsensus for attack.
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attack.GetInstance().UpdateConsensusReady(consensusId)
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// Verify block data and the aggregated signatures
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// check leader Id
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myLeaderId := utils.GetUniqueIdFromPeer(consensus.leader)
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if leaderId != myLeaderId {
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consensus.Log.Warn("Received message from wrong leader", "myLeaderId", myLeaderId, "receivedLeaderId", leaderId, "consensus", consensus)
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return
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}
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// Verify signature
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if schnorr.Verify(crypto.Ed25519Curve, consensus.leader.PubKey, payload[:offset-64], signature) != nil {
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consensus.Log.Warn("Received message with invalid signature", "leaderKey", consensus.leader.PubKey, "consensus", consensus)
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return
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}
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consensus.mutex.Lock()
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// Add attack model of IncorrectResponse.
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if attack.GetInstance().IncorrectResponse() {
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consensus.Log.Warn("IncorrectResponse attacked")
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consensus.mutex.Unlock()
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return
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}
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// check block hash
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if bytes.Compare(blockHash[:], consensus.blockHash[:]) != 0 {
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consensus.Log.Warn("Block hash doesn't match", "consensus", consensus)
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consensus.mutex.Unlock()
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return
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}
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// check consensus Id
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if consensusId != consensus.consensusId {
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consensus.Log.Warn("Received message with wrong consensus Id", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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if _, ok := consensus.blocksReceived[consensus.consensusId]; !ok {
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consensus.mutex.Unlock()
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return
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}
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consensus.Log.Warn("ROLLING UP", "consensus", consensus)
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// If I received previous block (which haven't been processed. I will roll up to current block if everything checks.
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}
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aggCommitment := crypto.Ed25519Curve.Point()
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aggCommitment.UnmarshalBinary(aggreCommit[:32]) // TODO: figure out whether it's 33 bytes or 32 bytes
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aggKey := crypto.Ed25519Curve.Point()
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aggKey.UnmarshalBinary(aggreKey[:32])
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reconstructedChallenge, err := crypto.Challenge(crypto.Ed25519Curve, aggCommitment, aggKey, payload[:36]) // Only consensus Id and block hash
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if err != nil {
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log.Error("Failed to reconstruct the challenge from commits and keys")
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return
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}
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// For now, simply return the private key of this node.
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receivedChallenge := crypto.Ed25519Curve.Scalar()
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err = receivedChallenge.UnmarshalBinary(challenge)
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if err != nil {
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log.Error("Failed to deserialize challenge", "err", err)
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return
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}
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if !reconstructedChallenge.Equal(receivedChallenge) {
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log.Error("The challenge doesn't match the commitments and keys")
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return
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}
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response, err := crypto.Response(crypto.Ed25519Curve, consensus.priKey, consensus.secret, receivedChallenge)
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if err != nil {
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log.Warn("Failed to generate response", "err", err)
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return
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}
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msgTypeToSend := proto_consensus.RESPONSE
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if targetState == FINAL_RESPONSE_DONE {
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msgTypeToSend = proto_consensus.FINAL_RESPONSE
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}
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msgToSend := consensus.constructResponseMessage(msgTypeToSend, response)
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p2p.SendMessage(consensus.leader, msgToSend)
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// Set state to target state (RESPONSE_DONE, FINAL_RESPONSE_DONE)
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consensus.state = targetState
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if consensus.state == FINAL_RESPONSE_DONE {
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// BIG TODO: the block catch up logic is basically a mock now. More checks need to be done to make it correct.
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// The logic is to roll up to the latest blocks one by one to try catching up with the leader.
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for {
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val, ok := consensus.blocksReceived[consensus.consensusId]
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if ok {
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delete(consensus.blocksReceived, consensus.consensusId)
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consensus.blockHash = [32]byte{}
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consensus.consensusId++ // roll up one by one, until the next block is not received yet.
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// TODO: think about when validators know about the consensus is reached.
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// For now, the blockchain is updated right here.
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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 in consensus.blockHeader
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txDecoder := gob.NewDecoder(bytes.NewReader(val.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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// check block data (transactions
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if !consensus.BlockVerifier(&blockHeaderObj) {
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consensus.Log.Debug("[WARNING] Block content is not verified successfully", "consensusId", consensus.consensusId)
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consensus.mutex.Unlock()
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return
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}
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consensus.OnConsensusDone(&blockHeaderObj)
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} else {
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break
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}
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}
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}
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consensus.mutex.Unlock()
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}
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// Processes the collective signature message sent from the leader
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func (consensus *Consensus) processCollectiveSigMessage(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 leader id
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leaderId := binary.BigEndian.Uint16(payload[offset : offset+2])
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offset += 2
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// 64 byte of collective signature
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collectiveSig := payload[offset : offset+64]
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offset += 64
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// N byte of bitmap
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n := len(payload) - offset - 64 // the number means 64 signature
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bitmap := payload[offset : offset+n]
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offset += n
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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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copy(consensus.blockHash[:], blockHash[:])
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// Verify block data
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// check leader Id
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myLeaderId := utils.GetUniqueIdFromPeer(consensus.leader)
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if leaderId != myLeaderId {
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consensus.Log.Warn("Received message from wrong leader", "myLeaderId", myLeaderId, "receivedLeaderId", leaderId, "consensus", consensus)
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return
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}
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// Verify signature
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if schnorr.Verify(crypto.Ed25519Curve, consensus.leader.PubKey, payload[:offset-64], signature) != nil {
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consensus.Log.Warn("Received message with invalid signature", "leaderKey", consensus.leader.PubKey, "consensus", consensus)
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return
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}
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// Verify collective signature
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err := crypto.Verify(crypto.Ed25519Curve, consensus.publicKeys, payload[:36], append(collectiveSig, bitmap...), crypto.NewThresholdPolicy((2*len(consensus.publicKeys)/3)+1))
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if err != nil {
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consensus.Log.Warn("Failed to verify the collective sig message", "consensusId", consensusId, "err", err)
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}
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// Add attack model of IncorrectResponse.
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if attack.GetInstance().IncorrectResponse() {
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consensus.Log.Warn("IncorrectResponse attacked")
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return
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}
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// check consensus Id
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if consensusId != consensus.consensusId {
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consensus.Log.Warn("Received message with wrong consensus Id", "myConsensusId", consensus.consensusId, "theirConsensusId", consensusId, "consensus", consensus)
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return
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}
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// check block hash
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if bytes.Compare(blockHash[:], consensus.blockHash[:]) != 0 {
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consensus.Log.Warn("Block hash doesn't match", "consensus", consensus)
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return
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}
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secret, msgToSend := consensus.constructCommitMessage(proto_consensus.FINAL_COMMIT)
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// Store the commitment secret
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consensus.secret = secret
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p2p.SendMessage(consensus.leader, msgToSend)
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// Set state to COMMIT_DONE
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consensus.state = FINAL_COMMIT_DONE
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}
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