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

240 lines
7.7 KiB

package node
import (
"sort"
"time"
types2 "github.com/harmony-one/harmony/staking/types"
"github.com/ethereum/go-ethereum/common"
"github.com/harmony-one/harmony/core/types"
"github.com/harmony-one/harmony/internal/utils"
"github.com/harmony-one/harmony/shard"
)
// Constants of proposing a new block
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const (
PeriodicBlock = 200 * time.Millisecond
IncomingReceiptsLimit = 6000 // 2000 * (numShards - 1)
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)
// WaitForConsensusReadyV2 listen for the readiness signal from consensus and generate new block for consensus.
// only leader will receive the ready signal
// TODO: clean pending transactions for validators; or validators not prepare pending transactions
func (node *Node) WaitForConsensusReadyV2(readySignal chan struct{}, stopChan chan struct{}, stoppedChan chan struct{}) {
go func() {
// Setup stoppedChan
defer close(stoppedChan)
utils.Logger().Debug().
Msg("Waiting for Consensus ready")
// TODO: make local net start faster
time.Sleep(30 * time.Second) // Wait for other nodes to be ready (test-only)
// Set up the very first deadline.
deadline := time.Now().Add(node.BlockPeriod)
for {
// keep waiting for Consensus ready
select {
case <-stopChan:
utils.Logger().Debug().
Msg("Consensus new block proposal: STOPPED!")
return
case <-readySignal:
for node.Consensus != nil && node.Consensus.IsLeader() {
time.Sleep(PeriodicBlock)
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if time.Now().Before(deadline) {
continue
}
utils.Logger().Debug().
Uint64("blockNum", node.Blockchain().CurrentBlock().NumberU64()+1).
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Msg("PROPOSING NEW BLOCK ------------------------------------------------")
newBlock, err := node.proposeNewBlock()
if err == nil {
utils.Logger().Debug().
Uint64("blockNum", newBlock.NumberU64()).
Int("numTxs", newBlock.Transactions().Len()).
Int("crossShardReceipts", newBlock.IncomingReceipts().Len()).
Msg("=========Successfully Proposed New Block==========")
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// Set deadline will be BlockPeriod from now at this place. Announce stage happens right after this.
deadline = time.Now().Add(node.BlockPeriod)
// Send the new block to Consensus so it can be confirmed.
node.BlockChannel <- newBlock
break
} else {
utils.Logger().Err(err).
Msg("!!!!!!!!!cannot commit new block!!!!!!!!!")
}
}
}
}
}()
}
func (node *Node) proposeNewBlock() (*types.Block, error) {
// Update worker's current header and state data in preparation to propose/process new transactions
coinbase := node.Consensus.SelfAddress
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// Prepare transactions including staking transactions
pending, err := node.TxPool.Pending()
if err != nil {
utils.Logger().Err(err).Msg("Failed to fetch pending transactions")
return nil, err
}
// TODO: integrate staking transaction into tx pool
pendingStakingTransactions := types2.StakingTransactions{}
for _, tx := range node.pendingStakingTransactions {
pendingStakingTransactions = append(pendingStakingTransactions, tx)
}
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node.pendingStakingTransactions = make(map[common.Hash]*types2.StakingTransaction)
node.Worker.UpdateCurrent(coinbase)
if err := node.Worker.CommitTransactions(pending, pendingStakingTransactions, coinbase); err != nil {
utils.Logger().Error().Err(err).Msg("cannot commit transactions")
return nil, err
}
// Prepare cross shard transaction receipts
receiptsList := node.proposeReceiptsProof()
if len(receiptsList) != 0 {
if err := node.Worker.CommitReceipts(receiptsList); err != nil {
utils.Logger().Error().Err(err).Msg("cannot commit receipts")
}
}
// Prepare cross links
var crossLinks types.CrossLinks
if node.NodeConfig.ShardID == 0 {
crossLinksToPropose, localErr := node.ProposeCrossLinkDataForBeaconchain()
if localErr == nil {
crossLinks = crossLinksToPropose
}
}
// Prepare shard state
shardState, err := node.Worker.SuperCommitteeForNextEpoch(
node.Consensus.ShardID, node.Beaconchain(),
)
if err != nil {
return nil, err
}
// Prepare last commit signatures
sig, mask, err := node.Consensus.LastCommitSig()
if err != nil {
utils.Logger().Error().Err(err).Msg("Cannot get commit signatures from last block")
return nil, err
}
return node.Worker.FinalizeNewBlock(sig, mask, node.Consensus.GetViewID(), coinbase, crossLinks, shardState)
}
func (node *Node) proposeLocalShardState(block *types.Block) {
logger := block.Logger(utils.Logger())
// TODO ek – read this from beaconchain once BC sync is fixed
if node.nextShardState.master == nil {
logger.Debug().Msg("yet to receive master proposal from beaconchain")
return
}
nlogger := logger.With().
Uint64("nextEpoch", node.nextShardState.master.Epoch).
Time("proposeTime", node.nextShardState.proposeTime).
Logger()
logger = &nlogger
if time.Now().Before(node.nextShardState.proposeTime) {
logger.Debug().Msg("still waiting for shard state to propagate")
return
}
masterShardState := node.nextShardState.master.ShardState
var localShardState shard.State
committee := masterShardState.FindCommitteeByID(block.ShardID())
if committee != nil {
logger.Info().Msg("found local shard info; proposing it")
localShardState = append(localShardState, *committee)
} else {
logger.Info().Msg("beacon committee disowned us; proposing nothing")
// Leave local proposal empty to signal the end of shard (disbanding).
}
err := block.AddShardState(localShardState)
if err != nil {
logger.Error().Err(err).Msg("Failed proposin local shard state")
}
}
func (node *Node) proposeReceiptsProof() []*types.CXReceiptsProof {
if !node.Blockchain().Config().IsCrossTx(node.Worker.GetNewEpoch()) {
return []*types.CXReceiptsProof{}
}
numProposed := 0
validReceiptsList := []*types.CXReceiptsProof{}
pendingReceiptsList := []*types.CXReceiptsProof{}
node.pendingCXMutex.Lock()
defer node.pendingCXMutex.Unlock()
// not necessary to sort the list, but we just prefer to process the list ordered by shard and blocknum
pendingCXReceipts := []*types.CXReceiptsProof{}
for _, v := range node.pendingCXReceipts {
pendingCXReceipts = append(pendingCXReceipts, v)
}
sort.Slice(pendingCXReceipts, func(i, j int) bool {
return pendingCXReceipts[i].MerkleProof.ShardID < pendingCXReceipts[j].MerkleProof.ShardID || (pendingCXReceipts[i].MerkleProof.ShardID == pendingCXReceipts[j].MerkleProof.ShardID && pendingCXReceipts[i].MerkleProof.BlockNum.Cmp(pendingCXReceipts[j].MerkleProof.BlockNum) < 0)
})
m := make(map[common.Hash]bool)
Loop:
for _, cxp := range node.pendingCXReceipts {
if numProposed > IncomingReceiptsLimit {
pendingReceiptsList = append(pendingReceiptsList, cxp)
continue
}
// check double spent
if node.Blockchain().IsSpent(cxp) {
utils.Logger().Debug().Interface("cxp", cxp).Msg("[proposeReceiptsProof] CXReceipt is spent")
continue
}
hash := cxp.MerkleProof.BlockHash
// ignore duplicated receipts
if _, ok := m[hash]; ok {
continue
} else {
m[hash] = true
}
for _, item := range cxp.Receipts {
if item.ToShardID != node.Blockchain().ShardID() {
continue Loop
}
}
if err := node.Blockchain().Validator().ValidateCXReceiptsProof(cxp); err != nil {
utils.Logger().Error().Err(err).Msg("[proposeReceiptsProof] Invalid CXReceiptsProof")
continue
}
utils.Logger().Debug().Interface("cxp", cxp).Msg("[proposeReceiptsProof] CXReceipts Added")
validReceiptsList = append(validReceiptsList, cxp)
numProposed = numProposed + len(cxp.Receipts)
}
node.pendingCXReceipts = make(map[string]*types.CXReceiptsProof)
for _, v := range pendingReceiptsList {
blockNum := v.Header.Number().Uint64()
shardID := v.Header.ShardID()
key := utils.GetPendingCXKey(shardID, blockNum)
node.pendingCXReceipts[key] = v
}
utils.Logger().Debug().Msgf("[proposeReceiptsProof] number of validReceipts %d", len(validReceiptsList))
return validReceiptsList
}