The core protocol of WoopChain
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woop/node/node_cross_shard.go

413 lines
15 KiB

package node
import (
"encoding/binary"
"errors"
"github.com/harmony-one/harmony/p2p"
"github.com/harmony-one/harmony/p2p/host"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/rlp"
"github.com/harmony-one/bls/ffi/go/bls"
proto_node "github.com/harmony-one/harmony/api/proto/node"
"github.com/harmony-one/harmony/block"
"github.com/harmony-one/harmony/core"
"github.com/harmony-one/harmony/core/types"
bls_cosi "github.com/harmony-one/harmony/crypto/bls"
"github.com/harmony-one/harmony/internal/ctxerror"
"github.com/harmony-one/harmony/internal/utils"
)
// BroadcastCXReceipts broadcasts cross shard receipts to correspoding
// destination shards
func (node *Node) BroadcastCXReceipts(newBlock *types.Block, lastCommits []byte) {
//#### Read payload data from committed msg
if len(lastCommits) <= 96 {
utils.Logger().Debug().Int("lastCommitsLen", len(lastCommits)).Msg("[BroadcastCXReceipts] lastCommits Not Enough Length")
}
commitSig := make([]byte, 96)
commitBitmap := make([]byte, len(lastCommits)-96)
offset := 0
copy(commitSig[:], lastCommits[offset:offset+96])
offset += 96
copy(commitBitmap[:], lastCommits[offset:])
//#### END Read payload data from committed msg
epoch := newBlock.Header().Epoch()
shardingConfig := core.ShardingSchedule.InstanceForEpoch(epoch)
shardNum := int(shardingConfig.NumShards())
myShardID := node.Consensus.ShardID
utils.Logger().Info().Int("shardNum", shardNum).Uint32("myShardID", myShardID).Uint64("blockNum", newBlock.NumberU64()).Msg("[BroadcastCXReceipts]")
for i := 0; i < shardNum; i++ {
if i == int(myShardID) {
continue
}
go node.BroadcastCXReceiptsWithShardID(newBlock, commitSig, commitBitmap, uint32(i))
}
}
// BroadcastCXReceiptsWithShardID broadcasts cross shard receipts to given ToShardID
func (node *Node) BroadcastCXReceiptsWithShardID(block *types.Block, commitSig []byte, commitBitmap []byte, toShardID uint32) {
myShardID := node.Consensus.ShardID
utils.Logger().Info().Uint32("toShardID", toShardID).Uint32("myShardID", myShardID).Uint64("blockNum", block.NumberU64()).Msg("[BroadcastCXReceiptsWithShardID]")
cxReceipts, err := node.Blockchain().ReadCXReceipts(toShardID, block.NumberU64(), block.Hash(), false)
if err != nil || len(cxReceipts) == 0 {
utils.Logger().Warn().Err(err).Uint32("ToShardID", toShardID).Int("numCXReceipts", len(cxReceipts)).Msg("[BroadcastCXReceiptsWithShardID] No ReadCXReceipts found")
return
}
merkleProof, err := node.Blockchain().CXMerkleProof(toShardID, block)
if err != nil {
utils.Logger().Warn().Uint32("ToShardID", toShardID).Msg("[BroadcastCXReceiptsWithShardID] Unable to get merkleProof")
return
}
utils.Logger().Info().Uint32("ToShardID", toShardID).Msg("[BroadcastCXReceiptsWithShardID] ReadCXReceipts and MerkleProof Found")
groupID := p2p.ShardID(toShardID)
go node.host.SendMessageToGroups([]p2p.GroupID{p2p.NewGroupIDByShardID(groupID)}, host.ConstructP2pMessage(byte(0), proto_node.ConstructCXReceiptsProof(cxReceipts, merkleProof, block.Header(), commitSig, commitBitmap)))
}
// BroadcastMissingCXReceipts broadcasts missing cross shard receipts per request
func (node *Node) BroadcastMissingCXReceipts() {
sendNextTime := []core.CxEntry{}
it := node.CxPool.Pool().Iterator()
for entry := range it.C {
cxEntry := entry.(core.CxEntry)
toShardID := cxEntry.ToShardID
blk := node.Blockchain().GetBlockByHash(cxEntry.BlockHash)
if blk == nil {
continue
}
blockNum := blk.NumberU64()
nextHeader := node.Blockchain().GetHeaderByNumber(blockNum + 1)
if nextHeader == nil {
sendNextTime = append(sendNextTime, cxEntry)
continue
}
sig := nextHeader.LastCommitSignature()
bitmap := nextHeader.LastCommitBitmap()
go node.BroadcastCXReceiptsWithShardID(blk, sig[:], bitmap, toShardID)
}
node.CxPool.Clear()
// this should not happen or maybe happen for impatient user
for _, entry := range sendNextTime {
node.CxPool.Add(entry)
}
}
// VerifyBlockCrossLinks verifies the cross links of the block
func (node *Node) VerifyBlockCrossLinks(block *types.Block) error {
if len(block.Header().CrossLinks()) == 0 {
return nil
}
crossLinks := &types.CrossLinks{}
err := rlp.DecodeBytes(block.Header().CrossLinks(), crossLinks)
if err != nil {
return ctxerror.New("[CrossLinkVerification] failed to decode cross links",
"blockHash", block.Hash(),
"crossLinks", len(block.Header().CrossLinks()),
).WithCause(err)
}
if !crossLinks.IsSorted() {
return ctxerror.New("[CrossLinkVerification] cross links are not sorted",
"blockHash", block.Hash(),
"crossLinks", len(block.Header().CrossLinks()),
)
}
firstCrossLinkBlock := core.EpochFirstBlock(node.Blockchain().Config().CrossLinkEpoch)
for i, crossLink := range *crossLinks {
lastLink := &types.CrossLink{}
if i == 0 {
if crossLink.BlockNum().Cmp(firstCrossLinkBlock) > 0 {
lastLink, err = node.Blockchain().ReadShardLastCrossLink(crossLink.ShardID())
if err != nil {
return ctxerror.New("[CrossLinkVerification] no last cross link found 1",
"blockHash", block.Hash(),
"crossLink", lastLink,
).WithCause(err)
}
}
} else {
if (*crossLinks)[i-1].Header().ShardID() != crossLink.Header().ShardID() {
if crossLink.BlockNum().Cmp(firstCrossLinkBlock) > 0 {
lastLink, err = node.Blockchain().ReadShardLastCrossLink(crossLink.ShardID())
if err != nil {
return ctxerror.New("[CrossLinkVerification] no last cross link found 2",
"blockHash", block.Hash(),
"crossLink", lastLink,
).WithCause(err)
}
}
} else {
lastLink = &(*crossLinks)[i-1]
}
}
if crossLink.BlockNum().Cmp(firstCrossLinkBlock) > 0 { // TODO: verify genesis block
err = node.VerifyCrosslinkHeader(lastLink.Header(), crossLink.Header())
if err != nil {
return ctxerror.New("cannot ValidateNewBlock",
"blockHash", block.Hash(),
"numTx", len(block.Transactions()),
).WithCause(err)
}
}
}
return nil
}
// ProcessHeaderMessage verify and process Node/Header message into crosslink when it's valid
func (node *Node) ProcessHeaderMessage(msgPayload []byte) {
if node.NodeConfig.ShardID == 0 {
var headers []*block.Header
err := rlp.DecodeBytes(msgPayload, &headers)
if err != nil {
utils.Logger().Error().
Err(err).
Msg("[ProcessingHeader] Crosslink Headers Broadcast Unable to Decode")
return
}
// Try to reprocess all the pending cross links
node.pendingClMutex.Lock()
crossLinkHeadersToProcess := node.pendingCrossLinks
node.pendingCrossLinks = []*block.Header{}
node.pendingClMutex.Unlock()
firstCrossLinkBlock := core.EpochFirstBlock(node.Blockchain().Config().CrossLinkEpoch)
for _, header := range headers {
if header.Number().Cmp(firstCrossLinkBlock) >= 0 {
// Only process cross link starting from FirstCrossLinkBlock
utils.Logger().Debug().Msgf("[ProcessHeaderMessage] Add Pending CrossLink, shardID %d, blockNum %d", header.ShardID(), header.Number())
crossLinkHeadersToProcess = append(crossLinkHeadersToProcess, header)
}
}
utils.Logger().Debug().
Msgf("[ProcessingHeader] number of crosslink headers to propose %d, firstCrossLinkBlock %d", len(crossLinkHeadersToProcess), firstCrossLinkBlock)
headersToQuque := []*block.Header{}
for _, header := range crossLinkHeadersToProcess {
if len(headersToQuque) > crossLinkBatchSize {
break
}
exist, err := node.Blockchain().ReadCrossLink(header.ShardID(), header.Number().Uint64(), false)
if err == nil && exist != nil {
utils.Logger().Debug().
Msgf("[ProcessingHeader] Cross Link already exists, pass. Block num: %d, shardID %d", header.Number(), header.ShardID())
continue
}
if header.Number().Cmp(firstCrossLinkBlock) > 0 { // Directly trust the first cross-link
// Sanity check on the previous link with the new link
previousLink, err := node.Blockchain().ReadCrossLink(header.ShardID(), header.Number().Uint64()-1, false)
if err != nil {
previousLink, err = node.Blockchain().ReadCrossLink(header.ShardID(), header.Number().Uint64()-1, true)
if err != nil {
headersToQuque = append(headersToQuque, header)
utils.Logger().Error().Err(err).
Msgf("[ProcessingHeader] ReadCrossLink cannot read previousLink with number %d, shardID %d", header.Number().Uint64()-1, header.ShardID())
continue
}
}
err = node.VerifyCrosslinkHeader(previousLink.Header(), header)
if err != nil {
utils.Logger().Error().
Err(err).
Msgf("[ProcessingHeader] Failed to verify new cross link header for shardID %d, blockNum %d", header.ShardID(), header.Number())
continue
}
}
crossLink := types.NewCrossLink(header)
utils.Logger().Debug().
Msgf("[ProcessingHeader] committing for shardID %d, blockNum %d", header.ShardID(), header.Number().Uint64())
node.Blockchain().WriteCrossLinks(types.CrossLinks{crossLink}, true)
}
// Queue up the cross links that's in the future
node.pendingClMutex.Lock()
node.pendingCrossLinks = append(node.pendingCrossLinks, headersToQuque...)
node.pendingClMutex.Unlock()
}
}
func (node *Node) verifyIncomingReceipts(block *types.Block) error {
m := make(map[common.Hash]bool)
cxps := block.IncomingReceipts()
for _, cxp := range cxps {
// double spent
if node.Blockchain().IsSpent(cxp) {
return ctxerror.New("[verifyIncomingReceipts] Double Spent!")
}
hash := cxp.MerkleProof.BlockHash
// duplicated receipts
if _, ok := m[hash]; ok {
return ctxerror.New("[verifyIncomingReceipts] Double Spent!")
}
m[hash] = true
for _, item := range cxp.Receipts {
if item.ToShardID != node.Blockchain().ShardID() {
return ctxerror.New("[verifyIncomingReceipts] Invalid ToShardID", "myShardID", node.Blockchain().ShardID(), "expectShardID", item.ToShardID)
}
}
if err := node.Blockchain().Validator().ValidateCXReceiptsProof(cxp); err != nil {
return ctxerror.New("[verifyIncomingReceipts] verification failed").WithCause(err)
}
}
incomingReceiptHash := types.EmptyRootHash
if len(cxps) > 0 {
incomingReceiptHash = types.DeriveSha(cxps)
}
if incomingReceiptHash != block.Header().IncomingReceiptHash() {
return ctxerror.New("[verifyIncomingReceipts] Invalid IncomingReceiptHash in block header")
}
return nil
}
// VerifyCrosslinkHeader verifies the header is valid against the prevHeader.
func (node *Node) VerifyCrosslinkHeader(prevHeader, header *block.Header) error {
// TODO: add fork choice rule
parentHash := header.ParentHash()
if prevHeader.Hash() != parentHash {
return ctxerror.New("[CrossLink] Invalid cross link header - parent hash mismatch", "shardID", header.ShardID(), "blockNum", header.Number())
}
// Verify signature of the new cross link header
shardState, err := node.Blockchain().ReadShardState(prevHeader.Epoch())
committee := shardState.FindCommitteeByID(prevHeader.ShardID())
if err != nil || committee == nil {
return ctxerror.New("[CrossLink] Failed to read shard state for cross link header", "shardID", header.ShardID(), "blockNum", header.Number()).WithCause(err)
}
var committerKeys []*bls.PublicKey
parseKeysSuccess := true
for _, member := range committee.NodeList {
committerKey := new(bls.PublicKey)
err = member.BlsPublicKey.ToLibBLSPublicKey(committerKey)
if err != nil {
parseKeysSuccess = false
break
}
committerKeys = append(committerKeys, committerKey)
}
if !parseKeysSuccess {
return ctxerror.New("[CrossLink] cannot convert BLS public key", "shardID", header.ShardID(), "blockNum", header.Number()).WithCause(err)
}
if header.Number().Uint64() > 1 { // First block doesn't have last sig
mask, err := bls_cosi.NewMask(committerKeys, nil)
if err != nil {
return ctxerror.New("cannot create group sig mask", "shardID", header.ShardID(), "blockNum", header.Number()).WithCause(err)
}
if err := mask.SetMask(header.LastCommitBitmap()); err != nil {
return ctxerror.New("cannot set group sig mask bits", "shardID", header.ShardID(), "blockNum", header.Number()).WithCause(err)
}
aggSig := bls.Sign{}
sig := header.LastCommitSignature()
err = aggSig.Deserialize(sig[:])
if err != nil {
return ctxerror.New("unable to deserialize multi-signature from payload").WithCause(err)
}
blockNumBytes := make([]byte, 8)
binary.LittleEndian.PutUint64(blockNumBytes, header.Number().Uint64()-1)
commitPayload := append(blockNumBytes, parentHash[:]...)
if !aggSig.VerifyHash(mask.AggregatePublic, commitPayload) {
return ctxerror.New("Failed to verify the signature for cross link header ", "shardID", header.ShardID(), "blockNum", header.Number())
}
}
return nil
}
// ProposeCrossLinkDataForBeaconchain propose cross links for beacon chain new block
func (node *Node) ProposeCrossLinkDataForBeaconchain() (types.CrossLinks, error) {
utils.Logger().Info().
Uint64("blockNum", node.Blockchain().CurrentBlock().NumberU64()+1).
Msg("Proposing cross links ...")
curBlock := node.Blockchain().CurrentBlock()
numShards := core.ShardingSchedule.InstanceForEpoch(curBlock.Header().Epoch()).NumShards()
shardCrossLinks := make([]types.CrossLinks, numShards)
firstCrossLinkBlock := core.EpochFirstBlock(node.Blockchain().Config().CrossLinkEpoch)
for i := 0; i < int(numShards); i++ {
curShardID := uint32(i)
lastLink, err := node.Blockchain().ReadShardLastCrossLink(curShardID)
lastLinkblockNum := firstCrossLinkBlock
blockNumoffset := 0
if err == nil && lastLink != nil {
blockNumoffset = 1
lastLinkblockNum = lastLink.BlockNum()
}
for true {
link, err := node.Blockchain().ReadCrossLink(curShardID, lastLinkblockNum.Uint64()+uint64(blockNumoffset), true)
if err != nil || link == nil {
break
}
if link.BlockNum().Cmp(firstCrossLinkBlock) > 0 {
if lastLink == nil {
utils.Logger().Error().
Err(err).
Msgf("[CrossLink] Haven't received the first cross link %d", link.BlockNum().Uint64())
break
} else {
err := node.VerifyCrosslinkHeader(lastLink.Header(), link.Header())
if err != nil {
utils.Logger().Error().
Err(err).
Msgf("[CrossLink] Failed verifying temp cross link %d", link.BlockNum().Uint64())
break
}
}
}
shardCrossLinks[i] = append(shardCrossLinks[i], *link)
lastLink = link
blockNumoffset++
}
}
crossLinksToPropose := types.CrossLinks{}
for _, crossLinks := range shardCrossLinks {
crossLinksToPropose = append(crossLinksToPropose, crossLinks...)
}
if len(crossLinksToPropose) != 0 {
crossLinksToPropose.Sort()
return crossLinksToPropose, nil
}
return types.CrossLinks{}, errors.New("No cross link to propose")
}
// ProcessReceiptMessage store the receipts and merkle proof in local data store
func (node *Node) ProcessReceiptMessage(msgPayload []byte) {
cxp := types.CXReceiptsProof{}
if err := rlp.DecodeBytes(msgPayload, &cxp); err != nil {
utils.Logger().Error().Err(err).Msg("[ProcessReceiptMessage] Unable to Decode message Payload")
return
}
utils.Logger().Debug().Interface("cxp", cxp).Msg("[ProcessReceiptMessage] Add CXReceiptsProof to pending Receipts")
// TODO: integrate with txpool
node.AddPendingReceipts(&cxp)
}