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

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package consensus
import (
"bytes"
"errors"
protobuf "github.com/golang/protobuf/proto"
"github.com/harmony-one/harmony/crypto/bls"
bls_core "github.com/harmony-one/bls/ffi/go/bls"
"github.com/harmony-one/harmony/api/proto"
msg_pb "github.com/harmony-one/harmony/api/proto/message"
"github.com/harmony-one/harmony/consensus/quorum"
"github.com/harmony-one/harmony/internal/utils"
)
// NetworkMessage is a message intended to be
// created only for distribution to
// all the other quorum members.
type NetworkMessage struct {
MessageType msg_pb.MessageType
Bytes []byte
FBFTMsg *FBFTMessage
OptionalAggregateSignature *bls_core.Sign
}
// Populates the common basic fields for all consensus message.
func (consensus *Consensus) populateMessageFields(
request *msg_pb.ConsensusRequest, blockHash []byte,
) *msg_pb.ConsensusRequest {
request.ViewId = consensus.getCurBlockViewID()
request.BlockNum = consensus.getBlockNum()
request.ShardId = consensus.ShardID
// 32 byte block hash
request.BlockHash = blockHash
return request
}
// Populates the common basic fields for the consensus message and senders bitmap.
func (consensus *Consensus) populateMessageFieldsAndSendersBitmap(
request *msg_pb.ConsensusRequest, blockHash []byte, bitmap []byte,
) *msg_pb.ConsensusRequest {
consensus.populateMessageFields(request, blockHash)
// sender address
request.SenderPubkeyBitmap = bitmap
return request
}
// Populates the common basic fields for the consensus message and single sender.
func (consensus *Consensus) populateMessageFieldsAndSender(
request *msg_pb.ConsensusRequest, blockHash []byte, pubKey bls.SerializedPublicKey,
) *msg_pb.ConsensusRequest {
consensus.populateMessageFields(request, blockHash)
// sender address
request.SenderPubkey = pubKey[:]
return request
}
// construct is the single creation point of messages intended for the wire.
func (consensus *Consensus) construct(
p msg_pb.MessageType, payloadForSign []byte, priKeys []*bls.PrivateKeyWrapper,
) (*NetworkMessage, error) {
if len(priKeys) == 0 {
return nil, errors.New("no elected bls keys provided")
}
message := &msg_pb.Message{
ServiceType: msg_pb.ServiceType_CONSENSUS,
Type: p,
Request: &msg_pb.Message_Consensus{
Consensus: &msg_pb.ConsensusRequest{},
},
}
var (
consensusMsg *msg_pb.ConsensusRequest
aggSig *bls_core.Sign
)
if len(priKeys) == 1 {
consensusMsg = consensus.populateMessageFieldsAndSender(
message.GetConsensus(), consensus.blockHash[:], priKeys[0].Pub.Bytes,
)
} else {
// TODO: use a persistent bitmap to report bitmap
mask := bls.NewMask(consensus.Decider.Participants())
for _, key := range priKeys {
mask.SetKey(key.Pub.Bytes, true)
}
consensusMsg = consensus.populateMessageFieldsAndSendersBitmap(
message.GetConsensus(), consensus.blockHash[:], mask.Bitmap,
)
}
// Do the signing, 96 byte of bls signature
needMsgSig := true
switch p {
case msg_pb.MessageType_ANNOUNCE:
consensusMsg.Block = consensus.block
consensusMsg.Payload = consensus.blockHash[:]
case msg_pb.MessageType_PREPARE:
needMsgSig = false
sig := bls_core.Sign{}
for _, priKey := range priKeys {
if s := priKey.Pri.SignHash(consensusMsg.BlockHash); s != nil {
sig.Add(s)
}
}
consensusMsg.Payload = sig.Serialize()
case msg_pb.MessageType_COMMIT:
needMsgSig = false
sig := bls_core.Sign{}
for _, priKey := range priKeys {
if s := priKey.Pri.SignHash(payloadForSign); s != nil {
sig.Add(s)
}
}
consensusMsg.Payload = sig.Serialize()
case msg_pb.MessageType_PREPARED:
consensusMsg.Block = consensus.block
consensusMsg.Payload = consensus.constructQuorumSigAndBitmap(quorum.Prepare)
case msg_pb.MessageType_COMMITTED:
consensusMsg.Payload = consensus.constructQuorumSigAndBitmap(quorum.Commit)
}
var marshaledMessage []byte
var err error
if needMsgSig {
// The message that needs signing only needs to be signed with a single key
marshaledMessage, err = consensus.signAndMarshalConsensusMessage(message, priKeys[0].Pri)
} else {
// Skip message (potentially multi-sig) signing for validator consensus messages (prepare and commit)
// as signature is already signed on the block data.
marshaledMessage, err = protobuf.Marshal(message)
}
if err != nil {
utils.Logger().Error().Err(err).
Str("phase", p.String()).
Msg("Failed to sign and marshal consensus message")
return nil, err
}
FBFTMsg, err2 := consensus.parseFBFTMessage(message)
if err2 != nil {
utils.Logger().Error().Err(err).
Str("phase", p.String()).
Msg("failed to deal with the FBFT message")
return nil, err
}
return &NetworkMessage{
MessageType: p,
Bytes: proto.ConstructConsensusMessage(marshaledMessage),
FBFTMsg: FBFTMsg,
OptionalAggregateSignature: aggSig,
}, nil
}
// constructQuorumSigAndBitmap constructs the aggregated sig and bitmap as
// a byte slice in format of: [[aggregated sig], [sig bitmap]]
func (consensus *Consensus) constructQuorumSigAndBitmap(p quorum.Phase) []byte {
buffer := bytes.Buffer{}
// 96 bytes aggregated signature
aggSig := consensus.Decider.AggregateVotes(p)
buffer.Write(aggSig.Serialize())
// Bitmap
if p == quorum.Prepare {
buffer.Write(consensus.prepareBitmap.Bitmap)
} else if p == quorum.Commit {
buffer.Write(consensus.commitBitmap.Bitmap)
} else {
utils.Logger().Error().
Str("phase", p.String()).
Msg("[constructQuorumSigAndBitmap] Invalid phase is supplied.")
return []byte{}
}
return buffer.Bytes()
}