The core protocol of WoopChain
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woop/consensus/validator.go

390 lines
12 KiB

package consensus
import (
"bytes"
"encoding/hex"
"time"
"github.com/harmony-one/harmony/crypto/bls"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/rlp"
msg_pb "github.com/harmony-one/harmony/api/proto/message"
"github.com/harmony-one/harmony/consensus/signature"
"github.com/harmony-one/harmony/core/types"
"github.com/harmony-one/harmony/p2p"
)
func (consensus *Consensus) onAnnounce(msg *msg_pb.Message) {
recvMsg, err := consensus.ParseFBFTMessage(msg)
if err != nil {
consensus.getLogger().Error().
Err(err).
Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("[OnAnnounce] Unparseable leader message")
return
}
// NOTE let it handle its own logs
if !consensus.onAnnounceSanityChecks(recvMsg) {
return
}
consensus.getLogger().Debug().
Uint64("MsgViewID", recvMsg.ViewID).
Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("[OnAnnounce] Announce message Added")
consensus.FBFTLog.AddMessage(recvMsg)
consensus.mutex.Lock()
defer consensus.mutex.Unlock()
consensus.blockHash = recvMsg.BlockHash
// we have already added message and block, skip check viewID
// and send prepare message if is in ViewChanging mode
if consensus.IsViewChangingMode() {
consensus.getLogger().Debug().
Msg("[OnAnnounce] Still in ViewChanging Mode, Exiting !!")
return
}
if consensus.checkViewID(recvMsg) != nil {
if consensus.current.Mode() == Normal {
consensus.getLogger().Debug().
Uint64("MsgViewID", recvMsg.ViewID).
Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("[OnAnnounce] ViewID check failed")
}
return
}
consensus.StartFinalityCount()
consensus.prepare()
}
func (consensus *Consensus) prepare() {
priKeys := consensus.getPriKeysInCommittee()
p2pMsgs := consensus.constructP2pMessages(msg_pb.MessageType_PREPARE, nil, priKeys)
if err := consensus.broadcastConsensusP2pMessages(p2pMsgs); err != nil {
consensus.getLogger().Warn().Err(err).Msg("[OnAnnounce] Cannot send prepare message")
} else {
consensus.getLogger().Info().
Str("blockHash", hex.EncodeToString(consensus.blockHash[:])).
Msg("[OnAnnounce] Sent Prepare Message!!")
}
consensus.switchPhase("Announce", FBFTPrepare)
}
// sendCommitMessages send out commit messages to leader
func (consensus *Consensus) sendCommitMessages(blockObj *types.Block) {
priKeys := consensus.getPriKeysInCommittee()
// Sign commit signature on the received block and construct the p2p messages
commitPayload := signature.ConstructCommitPayload(consensus.Blockchain,
blockObj.Epoch(), blockObj.Hash(), blockObj.NumberU64(), blockObj.Header().ViewID().Uint64())
p2pMsgs := consensus.constructP2pMessages(msg_pb.MessageType_COMMIT, commitPayload, priKeys)
if err := consensus.broadcastConsensusP2pMessages(p2pMsgs); err != nil {
consensus.getLogger().Warn().Err(err).Msg("[sendCommitMessages] Cannot send commit message!!")
} else {
consensus.getLogger().Info().
Uint64("blockNum", consensus.blockNum).
Hex("blockHash", consensus.blockHash[:]).
Msg("[sendCommitMessages] Sent Commit Message!!")
}
}
// if onPrepared accepts the prepared message from the leader, then
// it will send a COMMIT message for the leader to receive on the network.
func (consensus *Consensus) onPrepared(msg *msg_pb.Message) {
recvMsg, err := consensus.ParseFBFTMessage(msg)
if err != nil {
consensus.getLogger().Debug().Err(err).Msg("[OnPrepared] Unparseable validator message")
return
}
consensus.getLogger().Info().
Uint64("MsgBlockNum", recvMsg.BlockNum).
Uint64("MsgViewID", recvMsg.ViewID).
Msg("[OnPrepared] Received prepared message")
if recvMsg.BlockNum < consensus.blockNum {
consensus.getLogger().Debug().Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("Wrong BlockNum Received, ignoring!")
return
}
// check validity of prepared signature
blockHash := recvMsg.BlockHash
aggSig, mask, err := consensus.ReadSignatureBitmapPayload(recvMsg.Payload, 0)
if err != nil {
consensus.getLogger().Error().Err(err).Msg("ReadSignatureBitmapPayload failed!")
return
}
if !consensus.Decider.IsQuorumAchievedByMask(mask) {
consensus.getLogger().Warn().Msgf("[OnPrepared] Quorum Not achieved.")
return
}
if !aggSig.VerifyHash(mask.AggregatePublic, blockHash[:]) {
myBlockHash := common.Hash{}
myBlockHash.SetBytes(consensus.blockHash[:])
consensus.getLogger().Warn().
Uint64("MsgBlockNum", recvMsg.BlockNum).
Uint64("MsgViewID", recvMsg.ViewID).
Msg("[OnPrepared] failed to verify multi signature for prepare phase")
return
}
// check validity of block
var blockObj types.Block
if err := rlp.DecodeBytes(recvMsg.Block, &blockObj); err != nil {
consensus.getLogger().Warn().
Err(err).
Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("[OnPrepared] Unparseable block header data")
return
}
// let this handle it own logs
if !consensus.onPreparedSanityChecks(&blockObj, recvMsg) {
return
}
if recvMsg.BlockNum > consensus.blockNum {
consensus.getLogger().Warn().Msgf("[OnPrepared] low consensus block number. Spin sync")
consensus.spinUpStateSync()
}
consensus.mutex.Lock()
defer consensus.mutex.Unlock()
consensus.FBFTLog.AddBlock(&blockObj)
// add block field
blockPayload := make([]byte, len(recvMsg.Block))
copy(blockPayload[:], recvMsg.Block[:])
consensus.block = blockPayload
recvMsg.Block = []byte{} // save memory space
consensus.FBFTLog.AddMessage(recvMsg)
consensus.getLogger().Debug().
Uint64("MsgViewID", recvMsg.ViewID).
Uint64("MsgBlockNum", recvMsg.BlockNum).
Hex("blockHash", recvMsg.BlockHash[:]).
Msg("[OnPrepared] Prepared message and block added")
// tryCatchup is also run in onCommitted(), so need to lock with commitMutex.
if consensus.current.Mode() != Normal {
// don't sign the block that is not verified
consensus.getLogger().Info().Msg("[OnPrepared] Not in normal mode, Exiting!!")
return
}
if consensus.BlockVerifier == nil {
consensus.getLogger().Debug().Msg("[onPrepared] consensus received message before init. Ignoring")
return
}
if err := consensus.BlockVerifier(&blockObj); err != nil {
consensus.getLogger().Error().Err(err).Msg("[OnPrepared] Block verification failed")
return
}
consensus.FBFTLog.MarkBlockVerified(&blockObj)
if consensus.checkViewID(recvMsg) != nil {
if consensus.current.Mode() == Normal {
consensus.getLogger().Debug().
Uint64("MsgViewID", recvMsg.ViewID).
Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("[OnPrepared] ViewID check failed")
}
return
}
if recvMsg.BlockNum > consensus.blockNum {
consensus.getLogger().Debug().
Uint64("MsgBlockNum", recvMsg.BlockNum).
Uint64("blockNum", consensus.blockNum).
Msg("[OnPrepared] Future Block Received, ignoring!!")
return
}
// this is a temp fix for allows FN nodes to earning reward
if consensus.delayCommit > 0 {
time.Sleep(consensus.delayCommit)
}
// add preparedSig field
consensus.aggregatedPrepareSig = aggSig
consensus.prepareBitmap = mask
// Optimistically add blockhash field of prepare message
emptyHash := [32]byte{}
if bytes.Equal(consensus.blockHash[:], emptyHash[:]) {
copy(consensus.blockHash[:], blockHash[:])
}
consensus.sendCommitMessages(&blockObj)
consensus.switchPhase("onPrepared", FBFTCommit)
}
func (consensus *Consensus) onCommitted(msg *msg_pb.Message) {
recvMsg, err := consensus.ParseFBFTMessage(msg)
if err != nil {
consensus.getLogger().Warn().Msg("[OnCommitted] unable to parse msg")
return
}
consensus.getLogger().Info().
Uint64("MsgBlockNum", recvMsg.BlockNum).
Uint64("MsgViewID", recvMsg.ViewID).
Msg("[OnCommitted] Received committed message")
// NOTE let it handle its own logs
if !consensus.isRightBlockNumCheck(recvMsg) {
return
}
aggSig, mask, err := consensus.ReadSignatureBitmapPayload(recvMsg.Payload, 0)
if err != nil {
consensus.getLogger().Error().Err(err).Msg("[OnCommitted] readSignatureBitmapPayload failed")
return
}
if !consensus.Decider.IsQuorumAchievedByMask(mask) {
consensus.getLogger().Warn().Msgf("[OnCommitted] Quorum Not achieved.")
return
}
// Must have the corresponding block to verify committed message.
blockObj := consensus.FBFTLog.GetBlockByHash(recvMsg.BlockHash)
if blockObj == nil {
consensus.getLogger().Debug().
Uint64("blockNum", recvMsg.BlockNum).
Uint64("viewID", recvMsg.ViewID).
Str("blockHash", recvMsg.BlockHash.Hex()).
Msg("[OnCommitted] Failed finding a matching block for committed message")
return
}
commitPayload := signature.ConstructCommitPayload(consensus.Blockchain,
blockObj.Epoch(), blockObj.Hash(), blockObj.NumberU64(), blockObj.Header().ViewID().Uint64())
if !aggSig.VerifyHash(mask.AggregatePublic, commitPayload) {
consensus.getLogger().Error().
Uint64("MsgBlockNum", recvMsg.BlockNum).
Msg("[OnCommitted] Failed to verify the multi signature for commit phase")
return
}
consensus.FBFTLog.AddMessage(recvMsg)
if recvMsg.BlockNum > consensus.blockNum {
consensus.getLogger().Info().Msg("[OnCommitted] low consensus block number. Spin up state sync")
consensus.spinUpStateSync()
}
consensus.mutex.Lock()
defer consensus.mutex.Unlock()
consensus.aggregatedCommitSig = aggSig
consensus.commitBitmap = mask
// If we already have a committed signature received before, check whether the new one
// has more signatures and if yes, override the old data.
// Otherwise, simply write the commit signature in db.
commitSigBitmap, err := consensus.Blockchain.ReadCommitSig(blockObj.NumberU64())
if err == nil && len(commitSigBitmap) == len(recvMsg.Payload) {
new := mask.CountEnabled()
mask.SetMask(commitSigBitmap[bls.BLSSignatureSizeInBytes:])
cur := mask.CountEnabled()
if new > cur {
consensus.Blockchain.WriteCommitSig(blockObj.NumberU64(), recvMsg.Payload)
}
} else {
consensus.Blockchain.WriteCommitSig(blockObj.NumberU64(), recvMsg.Payload)
}
consensus.tryCatchup()
if recvMsg.BlockNum > consensus.blockNum {
consensus.getLogger().Info().Uint64("MsgBlockNum", recvMsg.BlockNum).Msg("[OnCommitted] OUT OF SYNC")
return
}
if consensus.IsViewChangingMode() {
consensus.getLogger().Info().Msg("[OnCommitted] Still in ViewChanging mode, Exiting!!")
return
}
if consensus.consensusTimeout[timeoutBootstrap].IsActive() {
consensus.consensusTimeout[timeoutBootstrap].Stop()
consensus.getLogger().Debug().Msg("[OnCommitted] Start consensus timer; stop bootstrap timer only once")
} else {
consensus.getLogger().Debug().Msg("[OnCommitted] Start consensus timer")
}
consensus.consensusTimeout[timeoutConsensus].Start()
}
// Collect private keys that are part of the current committee.
// TODO: cache valid private keys and only update when keys change.
func (consensus *Consensus) getPriKeysInCommittee() []*bls.PrivateKeyWrapper {
priKeys := []*bls.PrivateKeyWrapper{}
for i, key := range consensus.priKey {
if !consensus.IsValidatorInCommittee(key.Pub.Bytes) {
continue
}
priKeys = append(priKeys, &consensus.priKey[i])
}
return priKeys
}
func (consensus *Consensus) constructP2pMessages(msgType msg_pb.MessageType, payloadForSign []byte, priKeys []*bls.PrivateKeyWrapper) []*NetworkMessage {
p2pMsgs := []*NetworkMessage{}
if consensus.AggregateSig {
networkMessage, err := consensus.construct(msgType, payloadForSign, priKeys)
if err != nil {
logger := consensus.getLogger().Err(err).
Str("message-type", msgType.String())
for _, key := range priKeys {
logger.Str("key", key.Pri.SerializeToHexStr())
}
logger.Msg("could not construct message")
} else {
p2pMsgs = append(p2pMsgs, networkMessage)
}
} else {
for _, key := range priKeys {
networkMessage, err := consensus.construct(msgType, payloadForSign, []*bls.PrivateKeyWrapper{key})
if err != nil {
consensus.getLogger().Err(err).
Str("message-type", msgType.String()).
Str("key", key.Pri.SerializeToHexStr()).
Msg("could not construct message")
continue
}
p2pMsgs = append(p2pMsgs, networkMessage)
}
}
return p2pMsgs
}
func (consensus *Consensus) broadcastConsensusP2pMessages(p2pMsgs []*NetworkMessage) error {
groupID := []nodeconfig.GroupID{nodeconfig.NewGroupIDByShardID(nodeconfig.ShardID(consensus.ShardID))}
for _, p2pMsg := range p2pMsgs {
// TODO: this will not return immediately, may block
if consensus.current.Mode() != Listening {
if err := consensus.msgSender.SendWithoutRetry(
groupID,
p2p.ConstructMessage(p2pMsg.Bytes),
); err != nil {
return err
}
}
}
return nil
}
func (consensus *Consensus) spinUpStateSync() {
select {
case consensus.BlockNumLowChan <- struct{}{}:
consensus.current.SetMode(Syncing)
for _, v := range consensus.consensusTimeout {
v.Stop()
}
default:
}
}