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659 lines
22 KiB
659 lines
22 KiB
// Package consensus implements the Cosi PBFT consensus
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package consensus // consensus
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import (
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"bytes"
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"crypto/sha256"
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"encoding/hex"
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"errors"
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"fmt"
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"reflect"
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"strconv"
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"sync"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/params"
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"github.com/ethereum/go-ethereum/rlp"
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protobuf "github.com/golang/protobuf/proto"
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"github.com/harmony-one/bls/ffi/go/bls"
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proto_discovery "github.com/harmony-one/harmony/api/proto/discovery"
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msg_pb "github.com/harmony-one/harmony/api/proto/message"
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consensus_engine "github.com/harmony-one/harmony/consensus/engine"
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"github.com/harmony-one/harmony/core/state"
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"github.com/harmony-one/harmony/core/types"
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bls_cosi "github.com/harmony-one/harmony/crypto/bls"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/p2p"
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"github.com/harmony-one/harmony/p2p/host"
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"golang.org/x/crypto/sha3"
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)
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// Consensus is the main struct with all states and data related to consensus process.
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type Consensus struct {
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// The current state of the consensus
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state State
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// Commits collected from validators.
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prepareSigs map[uint32]*bls.Sign
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commitSigs map[uint32]*bls.Sign
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aggregatedPrepareSig *bls.Sign
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aggregatedCommitSig *bls.Sign
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prepareBitmap *bls_cosi.Mask
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commitBitmap *bls_cosi.Mask
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// The chain reader for the blockchain this consensus is working on
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ChainReader consensus_engine.ChainReader
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// map of nodeID to validator Peer object
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// FIXME: should use PubKey of p2p.Peer as the hashkey
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validators sync.Map // key is uint16, value is p2p.Peer
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// Minimal number of peers in the shard
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// If the number of validators is less than minPeers, the consensus won't start
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MinPeers int
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// Leader's address
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leader p2p.Peer
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// Public keys of the committee including leader and validators
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PublicKeys []*bls.PublicKey
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pubKeyLock sync.Mutex
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// private/public keys of current node
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priKey *bls.SecretKey
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PubKey *bls.PublicKey
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// Whether I am leader. False means I am validator
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IsLeader bool
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// Leader or validator Id - 4 byte
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nodeID uint32
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// Consensus Id (View Id) - 4 byte
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consensusID uint32
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// Blockhash - 32 byte
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blockHash [32]byte
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// Block to run consensus on
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block []byte
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// Array of block hashes.
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blockHashes [][32]byte
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// Shard Id which this node belongs to
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ShardID uint32
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// global consensus mutex
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mutex sync.Mutex
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// Validator specific fields
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// Blocks received but not done with consensus yet
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blocksReceived map[uint32]*BlockConsensusStatus
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// Signal channel for starting a new consensus process
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ReadySignal chan struct{}
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// The post-consensus processing func passed from Node object
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// Called when consensus on a new block is done
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OnConsensusDone func(*types.Block)
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// The verifier func passed from Node object
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BlockVerifier func(*types.Block) bool
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// current consensus block to check if out of sync
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ConsensusBlock chan *BFTBlockInfo
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// verified block to state sync broadcast
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VerifiedNewBlock chan *types.Block
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// Channel for DRG protocol to send pRnd (preimage of randomness resulting from combined vrf randomnesses) to consensus. The first 32 bytes are randomness, the rest is for bitmap.
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PRndChannel chan []byte
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// Channel for DRG protocol to send the final randomness to consensus. The first 32 bytes are the randomness and the last 32 bytes are the hash of the block where the corresponding pRnd was generated
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RndChannel chan [64]byte
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pendingRnds [][64]byte // A list of pending randomness
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uniqueIDInstance *utils.UniqueValidatorID
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// The p2p host used to send/receive p2p messages
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host p2p.Host
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// Signal channel for lost validators
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OfflinePeers chan p2p.Peer
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// List of offline Peers
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OfflinePeerList []p2p.Peer
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}
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// BFTBlockInfo send the latest block that was in BFT consensus process as well as its consensusID to state syncing
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// consensusID is necessary to make sure the out of sync node can enter the correct view
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type BFTBlockInfo struct {
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Block *types.Block
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ConsensusID uint32
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}
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// BlockConsensusStatus used to keep track of the consensus status of multiple blocks received so far
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// This is mainly used in the case that this node is lagging behind and needs to catch up.
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// For example, the consensus moved to round N and this node received message(N).
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// However, this node may still not finished with round N-1, so the newly received message(N)
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// should be stored in this temporary structure. In case the round N-1 finishes, it can catch
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// up to the latest state of round N by using this structure.
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type BlockConsensusStatus struct {
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block []byte // the block data
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state State // the latest state of the consensus
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}
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// UpdateConsensusID is used to update latest consensusID for nodes that out of sync
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func (consensus *Consensus) UpdateConsensusID(consensusID uint32) {
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consensus.mutex.Lock()
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defer consensus.mutex.Unlock()
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if consensus.consensusID < consensusID {
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utils.GetLogInstance().Debug("update consensusID", "myConsensusID", consensus.consensusID, "newConsensusID", consensusID)
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consensus.consensusID = consensusID
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}
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}
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// WaitForNewRandomness listens to the RndChannel to receive new VDF randomness.
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func (consensus *Consensus) WaitForNewRandomness() {
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go func() {
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for {
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vdfOutput := <-consensus.RndChannel
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consensus.pendingRnds = append(consensus.pendingRnds, vdfOutput)
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}
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}()
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}
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// GetNextRnd returns the oldest available randomness along with the hash of the block there randomness preimage is committed.
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func (consensus *Consensus) GetNextRnd() ([32]byte, [32]byte, error) {
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if len(consensus.pendingRnds) == 0 {
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return [32]byte{}, [32]byte{}, errors.New("No available randomness")
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}
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vdfOutput := consensus.pendingRnds[0]
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rnd := [32]byte{}
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blockHash := [32]byte{}
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copy(rnd[:], vdfOutput[:32])
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copy(blockHash[:], vdfOutput[32:])
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return rnd, blockHash, nil
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}
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// New creates a new Consensus object
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// TODO: put shardId into chain reader's chain config
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func New(host p2p.Host, ShardID string, peers []p2p.Peer, leader p2p.Peer, blsPriKey *bls.SecretKey) *Consensus {
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consensus := Consensus{}
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consensus.host = host
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selfPeer := host.GetSelfPeer()
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if leader.Port == selfPeer.Port && leader.IP == selfPeer.IP {
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consensus.IsLeader = true
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} else {
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consensus.IsLeader = false
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}
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consensus.leader = leader
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for _, peer := range peers {
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consensus.validators.Store(utils.GetUniqueIDFromPeer(peer), peer)
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}
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consensus.prepareSigs = map[uint32]*bls.Sign{}
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consensus.commitSigs = map[uint32]*bls.Sign{}
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// Initialize cosign bitmap
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allPublicKeys := make([]*bls.PublicKey, 0)
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for _, validatorPeer := range peers {
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allPublicKeys = append(allPublicKeys, validatorPeer.ConsensusPubKey)
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}
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allPublicKeys = append(allPublicKeys, leader.ConsensusPubKey)
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consensus.PublicKeys = allPublicKeys
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prepareBitmap, _ := bls_cosi.NewMask(consensus.PublicKeys, consensus.leader.ConsensusPubKey)
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commitBitmap, _ := bls_cosi.NewMask(consensus.PublicKeys, consensus.leader.ConsensusPubKey)
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consensus.prepareBitmap = prepareBitmap
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consensus.commitBitmap = commitBitmap
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consensus.aggregatedPrepareSig = nil
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consensus.aggregatedCommitSig = nil
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// For now use socket address as ID
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// TODO: populate Id derived from address
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consensus.nodeID = utils.GetUniqueIDFromPeer(selfPeer)
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if blsPriKey != nil {
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consensus.priKey = blsPriKey
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consensus.PubKey = blsPriKey.GetPublicKey()
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}
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consensus.consensusID = 0 // or view Id in the original pbft paper
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myShardID, err := strconv.Atoi(ShardID)
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if err != nil {
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panic("Unparseable shard Id" + ShardID)
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}
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consensus.ShardID = uint32(myShardID)
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// For validators to keep track of all blocks received but not yet committed, so as to catch up to latest consensus if lagged behind.
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consensus.blocksReceived = make(map[uint32]*BlockConsensusStatus)
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if consensus.IsLeader {
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consensus.ReadySignal = make(chan struct{})
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// send a signal to indicate it's ready to run consensus
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// this signal is consumed by node object to create a new block and in turn trigger a new consensus on it
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// this is a goroutine because go channel without buffer will block
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go func() {
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consensus.ReadySignal <- struct{}{}
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}()
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}
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consensus.uniqueIDInstance = utils.GetUniqueValidatorIDInstance()
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consensus.OfflinePeerList = make([]p2p.Peer, 0)
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// consensus.Log.Info("New Consensus", "IP", ip, "Port", port, "NodeID", consensus.nodeID, "priKey", consensus.priKey, "PubKey", consensus.PubKey)
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return &consensus
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}
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// RegisterPRndChannel registers the channel for receiving randomness preimage from DRG protocol
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func (consensus *Consensus) RegisterPRndChannel(pRndChannel chan []byte) {
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consensus.PRndChannel = pRndChannel
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}
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// RegisterRndChannel registers the channel for receiving final randomness from DRG protocol
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func (consensus *Consensus) RegisterRndChannel(rndChannel chan [64]byte) {
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consensus.RndChannel = rndChannel
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}
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// Checks the basic meta of a consensus message, including the signature.
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func (consensus *Consensus) checkConsensusMessage(message *msg_pb.Message, publicKey *bls.PublicKey) error {
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consensusMsg := message.GetConsensus()
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consensusID := consensusMsg.ConsensusId
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blockHash := consensusMsg.BlockHash
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// Verify message signature
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err := verifyMessageSig(publicKey, message)
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if err != nil {
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utils.GetLogInstance().Warn("Failed to verify the message signature", "Error", err)
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return consensus_engine.ErrInvalidConsensusMessage
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}
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// check consensus Id
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if consensusID != consensus.consensusID {
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utils.GetLogInstance().Warn("Wrong consensus Id", "myConsensusId", consensus.consensusID, "theirConsensusId", consensusID, "consensus", consensus)
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return consensus_engine.ErrConsensusIDNotMatch
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}
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if !bytes.Equal(blockHash, consensus.blockHash[:]) {
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utils.GetLogInstance().Warn("Wrong blockHash", "consensus", consensus)
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return consensus_engine.ErrInvalidConsensusMessage
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}
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return nil
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}
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// Gets the validator peer based on validator ID.
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func (consensus *Consensus) getValidatorPeerByID(validatorID uint32) *p2p.Peer {
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v, ok := consensus.validators.Load(validatorID)
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if !ok {
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utils.GetLogInstance().Warn("Unrecognized validator", "validatorID", validatorID, "consensus", consensus)
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return nil
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}
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value, ok := v.(p2p.Peer)
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if !ok {
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utils.GetLogInstance().Warn("Invalid validator", "validatorID", validatorID, "consensus", consensus)
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return nil
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}
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return &value
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}
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// Verify the signature of the message are valid from the signer's public key.
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func verifyMessageSig(signerPubKey *bls.PublicKey, message *msg_pb.Message) error {
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signature := message.Signature
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message.Signature = nil
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messageBytes, err := protobuf.Marshal(message)
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if err != nil {
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return err
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}
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msgSig := bls.Sign{}
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err = msgSig.Deserialize(signature)
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if err != nil {
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return err
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}
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msgHash := sha256.Sum256(messageBytes)
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if !msgSig.VerifyHash(signerPubKey, msgHash[:]) {
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return errors.New("failed to verify the signature")
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}
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return nil
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}
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// Author returns the author of the block header.
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func (consensus *Consensus) Author(header *types.Header) (common.Address, error) {
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// TODO: implement this
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return common.Address{}, nil
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}
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// Sign on the hash of the message
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func (consensus *Consensus) signMessage(message []byte) []byte {
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hash := sha256.Sum256(message)
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signature := consensus.priKey.SignHash(hash[:])
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return signature.Serialize()
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}
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// Sign on the consensus message signature field.
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func (consensus *Consensus) signConsensusMessage(message *msg_pb.Message) error {
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message.Signature = nil
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// TODO: use custom serialization method rather than protobuf
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marshaledMessage, err := protobuf.Marshal(message)
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if err != nil {
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return err
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}
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// 64 byte of signature on previous data
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signature := consensus.signMessage(marshaledMessage)
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message.Signature = signature
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return nil
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}
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// GetValidatorPeers returns list of validator peers.
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func (consensus *Consensus) GetValidatorPeers() []p2p.Peer {
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validatorPeers := make([]p2p.Peer, 0)
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consensus.validators.Range(func(k, v interface{}) bool {
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if peer, ok := v.(p2p.Peer); ok {
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validatorPeers = append(validatorPeers, peer)
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return true
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}
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return false
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})
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return validatorPeers
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}
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// GetPrepareSigsArray returns the signatures for prepare as a array
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func (consensus *Consensus) GetPrepareSigsArray() []*bls.Sign {
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sigs := []*bls.Sign{}
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for _, sig := range consensus.prepareSigs {
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sigs = append(sigs, sig)
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}
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return sigs
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}
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// GetCommitSigsArray returns the signatures for commit as a array
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func (consensus *Consensus) GetCommitSigsArray() []*bls.Sign {
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sigs := []*bls.Sign{}
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for _, sig := range consensus.commitSigs {
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sigs = append(sigs, sig)
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}
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return sigs
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}
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// ResetState resets the state of the consensus
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func (consensus *Consensus) ResetState() {
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consensus.state = Finished
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consensus.prepareSigs = map[uint32]*bls.Sign{}
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consensus.commitSigs = map[uint32]*bls.Sign{}
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prepareBitmap, _ := bls_cosi.NewMask(consensus.PublicKeys, consensus.leader.ConsensusPubKey)
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commitBitmap, _ := bls_cosi.NewMask(consensus.PublicKeys, consensus.leader.ConsensusPubKey)
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consensus.prepareBitmap = prepareBitmap
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consensus.commitBitmap = commitBitmap
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consensus.aggregatedPrepareSig = nil
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consensus.aggregatedCommitSig = nil
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// Clear the OfflinePeersList again
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consensus.OfflinePeerList = make([]p2p.Peer, 0)
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}
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// Returns a string representation of this consensus
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func (consensus *Consensus) String() string {
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var duty string
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if consensus.IsLeader {
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duty = "LDR" // leader
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} else {
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duty = "VLD" // validator
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}
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return fmt.Sprintf("[duty:%s, PubKey:%s, ShardID:%v, nodeID:%v, state:%s]",
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duty, hex.EncodeToString(consensus.PubKey.Serialize()), consensus.ShardID, consensus.nodeID, consensus.state)
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}
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// AddPeers adds new peers into the validator map of the consensus
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// and add the public keys
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func (consensus *Consensus) AddPeers(peers []*p2p.Peer) int {
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count := 0
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for _, peer := range peers {
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_, ok := consensus.validators.Load(utils.GetUniqueIDFromPeer(*peer))
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if !ok {
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if peer.ValidatorID == -1 {
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peer.ValidatorID = int(consensus.uniqueIDInstance.GetUniqueID())
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}
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consensus.validators.Store(utils.GetUniqueIDFromPeer(*peer), *peer)
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consensus.pubKeyLock.Lock()
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consensus.PublicKeys = append(consensus.PublicKeys, peer.ConsensusPubKey)
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consensus.pubKeyLock.Unlock()
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// utils.GetLogInstance().Debug("[SYNC]", "new peer added", peer)
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}
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count++
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}
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return count
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}
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// RemovePeers will remove the peer from the validator list and PublicKeys
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// It will be called when leader/node lost connection to peers
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func (consensus *Consensus) RemovePeers(peers []p2p.Peer) int {
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// early return as most of the cases no peers to remove
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if len(peers) == 0 {
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return 0
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}
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count := 0
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count2 := 0
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newList := append(consensus.PublicKeys[:0:0], consensus.PublicKeys...)
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for _, peer := range peers {
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consensus.validators.Range(func(k, v interface{}) bool {
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if p, ok := v.(p2p.Peer); ok {
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// We are using peer.IP and peer.Port to identify the unique peer
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// FIXME (lc): use a generic way to identify a peer
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if p.IP == peer.IP && p.Port == peer.Port {
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consensus.validators.Delete(k)
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count++
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}
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return true
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}
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return false
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})
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for i, pp := range newList {
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// Not Found the pubkey, if found pubkey, ignore it
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if reflect.DeepEqual(peer.ConsensusPubKey, pp) {
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// consensus.Log.Debug("RemovePeers", "i", i, "pp", pp, "peer.PubKey", peer.PubKey)
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newList = append(newList[:i], newList[i+1:]...)
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count2++
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}
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}
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}
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if count2 > 0 {
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consensus.UpdatePublicKeys(newList)
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// Send out Pong messages to everyone in the shard to keep the publickeys in sync
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// Or the shard won't be able to reach consensus if public keys are mismatch
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validators := consensus.GetValidatorPeers()
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pong := proto_discovery.NewPongMessage(validators, consensus.PublicKeys, consensus.leader.ConsensusPubKey)
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buffer := pong.ConstructPongMessage()
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consensus.host.SendMessageToGroups([]p2p.GroupID{p2p.GroupIDBeacon}, host.ConstructP2pMessage(byte(17), buffer))
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}
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return count2
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}
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// DebugPrintPublicKeys print all the PublicKeys in string format in Consensus
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func (consensus *Consensus) DebugPrintPublicKeys() {
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for _, k := range consensus.PublicKeys {
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str := fmt.Sprintf("%s", hex.EncodeToString(k.Serialize()))
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utils.GetLogInstance().Debug("pk:", "string", str)
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}
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utils.GetLogInstance().Debug("PublicKeys:", "#", len(consensus.PublicKeys))
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}
|
|
|
|
// DebugPrintValidators print all validator ip/port/key in string format in Consensus
|
|
func (consensus *Consensus) DebugPrintValidators() {
|
|
count := 0
|
|
consensus.validators.Range(func(k, v interface{}) bool {
|
|
if p, ok := v.(p2p.Peer); ok {
|
|
str2 := fmt.Sprintf("%s", p.ConsensusPubKey.Serialize())
|
|
utils.GetLogInstance().Debug("validator:", "IP", p.IP, "Port", p.Port, "VID", p.ValidatorID, "Key", str2)
|
|
count++
|
|
return true
|
|
}
|
|
return false
|
|
})
|
|
utils.GetLogInstance().Debug("Validators", "#", count)
|
|
}
|
|
|
|
// UpdatePublicKeys updates the PublicKeys variable, protected by a mutex
|
|
func (consensus *Consensus) UpdatePublicKeys(pubKeys []*bls.PublicKey) int {
|
|
consensus.pubKeyLock.Lock()
|
|
consensus.PublicKeys = append(pubKeys[:0:0], pubKeys...)
|
|
consensus.pubKeyLock.Unlock()
|
|
|
|
return len(consensus.PublicKeys)
|
|
}
|
|
|
|
// NewFaker returns a faker consensus.
|
|
func NewFaker() *Consensus {
|
|
return &Consensus{}
|
|
}
|
|
|
|
// VerifyHeader checks whether a header conforms to the consensus rules of the bft engine.
|
|
func (consensus *Consensus) VerifyHeader(chain consensus_engine.ChainReader, header *types.Header, seal bool) error {
|
|
parentHeader := chain.GetHeader(header.ParentHash, header.Number.Uint64()-1)
|
|
if parentHeader == nil {
|
|
return consensus_engine.ErrUnknownAncestor
|
|
}
|
|
if seal {
|
|
if err := consensus.VerifySeal(chain, header); err != nil {
|
|
return err
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// VerifyHeaders is similar to VerifyHeader, but verifies a batch of headers
|
|
// concurrently. The method returns a quit channel to abort the operations and
|
|
// a results channel to retrieve the async verifications.
|
|
func (consensus *Consensus) VerifyHeaders(chain consensus_engine.ChainReader, headers []*types.Header, seals []bool) (chan<- struct{}, <-chan error) {
|
|
abort, results := make(chan struct{}), make(chan error, len(headers))
|
|
for i := 0; i < len(headers); i++ {
|
|
results <- nil
|
|
}
|
|
return abort, results
|
|
}
|
|
|
|
// VerifySeal implements consensus.Engine, checking whether the given block satisfies
|
|
// the PoW difficulty requirements.
|
|
func (consensus *Consensus) VerifySeal(chain consensus_engine.ChainReader, header *types.Header) error {
|
|
return nil
|
|
}
|
|
|
|
// Finalize implements consensus.Engine, accumulating the block and uncle rewards,
|
|
// setting the final state and assembling the block.
|
|
func (consensus *Consensus) Finalize(chain consensus_engine.ChainReader, header *types.Header, state *state.DB, txs []*types.Transaction, receipts []*types.Receipt) (*types.Block, error) {
|
|
// Accumulate any block and uncle rewards and commit the final state root
|
|
// Header seems complete, assemble into a block and return
|
|
accumulateRewards(chain.Config(), state, header)
|
|
header.Root = state.IntermediateRoot(false)
|
|
return types.NewBlock(header, txs, receipts), nil
|
|
}
|
|
|
|
// SealHash returns the hash of a block prior to it being sealed.
|
|
func (consensus *Consensus) SealHash(header *types.Header) (hash common.Hash) {
|
|
hasher := sha3.NewLegacyKeccak256()
|
|
|
|
rlp.Encode(hasher, []interface{}{
|
|
header.ParentHash,
|
|
header.Coinbase,
|
|
header.Root,
|
|
header.TxHash,
|
|
header.ReceiptHash,
|
|
header.Bloom,
|
|
header.Difficulty,
|
|
header.Number,
|
|
header.GasLimit,
|
|
header.GasUsed,
|
|
header.Time,
|
|
header.Extra,
|
|
})
|
|
hasher.Sum(hash[:0])
|
|
return hash
|
|
}
|
|
|
|
// Seal is to seal final block.
|
|
func (consensus *Consensus) Seal(chain consensus_engine.ChainReader, block *types.Block, results chan<- *types.Block, stop <-chan struct{}) error {
|
|
// TODO: implement final block sealing
|
|
return nil
|
|
}
|
|
|
|
// Prepare is to prepare ...
|
|
// TODO(RJ): fix it.
|
|
func (consensus *Consensus) Prepare(chain consensus_engine.ChainReader, header *types.Header) error {
|
|
// TODO: implement prepare method
|
|
return nil
|
|
}
|
|
|
|
// AccumulateRewards credits the coinbase of the given block with the mining
|
|
// reward. The total reward consists of the static block reward and rewards for
|
|
// included uncles. The coinbase of each uncle block is also rewarded.
|
|
func accumulateRewards(config *params.ChainConfig, state *state.DB, header *types.Header) {
|
|
// TODO: implement mining rewards
|
|
}
|
|
|
|
// GetNodeID returns the nodeID
|
|
func (consensus *Consensus) GetNodeID() uint32 {
|
|
return consensus.nodeID
|
|
}
|
|
|
|
// GetPeerFromID will get peer from peerID, bool value in return true means success and false means fail
|
|
func (consensus *Consensus) GetPeerFromID(peerID uint32) (p2p.Peer, bool) {
|
|
v, ok := consensus.validators.Load(peerID)
|
|
if !ok {
|
|
return p2p.Peer{}, false
|
|
}
|
|
value, ok := v.(p2p.Peer)
|
|
if !ok {
|
|
return p2p.Peer{}, false
|
|
}
|
|
return value, true
|
|
}
|
|
|
|
// Populates the common basic fields for all consensus message.
|
|
func (consensus *Consensus) populateMessageFields(request *msg_pb.ConsensusRequest) {
|
|
// TODO(minhdoan): Maybe look into refactor this.
|
|
// 4 byte consensus id
|
|
request.ConsensusId = consensus.consensusID
|
|
|
|
// 32 byte block hash
|
|
request.BlockHash = consensus.blockHash[:]
|
|
|
|
// 4 byte sender id
|
|
request.SenderId = uint32(consensus.nodeID)
|
|
|
|
utils.GetLogInstance().Debug("[populateMessageFields]", "myConsensusID", consensus.consensusID, "SenderId", request.SenderId)
|
|
}
|
|
|
|
// Signs the consensus message and returns the marshaled message.
|
|
func (consensus *Consensus) signAndMarshalConsensusMessage(message *msg_pb.Message) ([]byte, error) {
|
|
err := consensus.signConsensusMessage(message)
|
|
if err != nil {
|
|
return []byte{}, err
|
|
}
|
|
|
|
marshaledMessage, err := protobuf.Marshal(message)
|
|
if err != nil {
|
|
return []byte{}, err
|
|
}
|
|
return marshaledMessage, nil
|
|
}
|
|
|
|
// SetLeaderPubKey deserialize the public key of consensus leader
|
|
func (consensus *Consensus) SetLeaderPubKey(k []byte) error {
|
|
consensus.leader.ConsensusPubKey = &bls.PublicKey{}
|
|
return consensus.leader.ConsensusPubKey.Deserialize(k)
|
|
}
|
|
|
|
// GetLeaderPubKey returns the public key of consensus leader
|
|
func (consensus *Consensus) GetLeaderPubKey() *bls.PublicKey {
|
|
return consensus.leader.ConsensusPubKey
|
|
}
|
|
|