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package synchronizer
import (
"context"
"database/sql"
"fmt"
"math/big"
"sync"
"time"
"github.com/ethereum/go-ethereum"
"github.com/hermeznetwork/hermez-node/common"
"github.com/hermeznetwork/hermez-node/db/historydb"
"github.com/hermeznetwork/hermez-node/db/statedb"
"github.com/hermeznetwork/hermez-node/eth"
"github.com/hermeznetwork/hermez-node/log"
"github.com/hermeznetwork/hermez-node/txprocessor"
"github.com/hermeznetwork/tracerr"
)
const (
// errStrUnknownBlock is the string returned by geth when querying an
// unknown block
errStrUnknownBlock = "unknown block"
)
var (
// ErrUnknownBlock is the error returned by the Synchronizer when a
// block is queried by hash but the ethereum node doesn't find it due
// to it being discarded from a reorg.
ErrUnknownBlock = fmt.Errorf("unknown block")
)
// Stats of the synchronizer
type Stats struct {
Eth struct {
RefreshPeriod time.Duration
Updated time.Time
FirstBlockNum int64
LastBlock common.Block
LastBatchNum int64
}
Sync struct {
Updated time.Time
LastBlock common.Block
LastBatch common.Batch
// LastL1BatchBlock is the last ethereum block in which an
// l1Batch was forged
LastL1BatchBlock int64
LastForgeL1TxsNum int64
Auction struct {
CurrentSlot common.Slot
NextSlot common.Slot
}
}
}
// Synced returns true if the Synchronizer is up to date with the last ethereum block
func (s *Stats) Synced() bool {
return s.Eth.LastBlock.Num == s.Sync.LastBlock.Num
}
// TODO(Edu): Consider removing all the mutexes from StatsHolder, make
// Synchronizer.Stats not thread-safe, don't pass the synchronizer to the
// debugAPI, and have a copy of the Stats in the DebugAPI that the node passes
// when the Sync updates.
// StatsHolder stores stats and that allows reading and writing them
// concurrently
type StatsHolder struct {
Stats
rw sync.RWMutex
}
// NewStatsHolder creates a new StatsHolder
func NewStatsHolder(firstBlockNum int64, refreshPeriod time.Duration) *StatsHolder {
stats := Stats{}
stats.Eth.RefreshPeriod = refreshPeriod
stats.Eth.FirstBlockNum = firstBlockNum
stats.Sync.LastForgeL1TxsNum = -1
return &StatsHolder{Stats: stats}
}
// UpdateCurrentNextSlot updates the auction stats
func (s *StatsHolder) UpdateCurrentNextSlot(current *common.Slot, next *common.Slot) {
s.rw.Lock()
s.Sync.Auction.CurrentSlot = *current
s.Sync.Auction.NextSlot = *next
s.rw.Unlock()
}
// UpdateSync updates the synchronizer stats
func (s *StatsHolder) UpdateSync(lastBlock *common.Block, lastBatch *common.Batch,
lastL1BatchBlock *int64, lastForgeL1TxsNum *int64) {
now := time.Now()
s.rw.Lock()
s.Sync.LastBlock = *lastBlock
if lastBatch != nil {
s.Sync.LastBatch = *lastBatch
}
if lastL1BatchBlock != nil {
s.Sync.LastL1BatchBlock = *lastL1BatchBlock
s.Sync.LastForgeL1TxsNum = *lastForgeL1TxsNum
}
s.Sync.Updated = now
s.rw.Unlock()
}
// UpdateEth updates the ethereum stats, only if the previous stats expired
func (s *StatsHolder) UpdateEth(ethClient eth.ClientInterface) error {
now := time.Now()
s.rw.RLock()
elapsed := now.Sub(s.Eth.Updated)
s.rw.RUnlock()
if elapsed < s.Eth.RefreshPeriod {
return nil
}
lastBlock, err := ethClient.EthBlockByNumber(context.TODO(), -1)
if err != nil {
return tracerr.Wrap(fmt.Errorf("EthBlockByNumber: %w", err))
}
lastBatchNum, err := ethClient.RollupLastForgedBatch()
if err != nil {
return tracerr.Wrap(fmt.Errorf("RollupLastForgedBatch: %w", err))
}
s.rw.Lock()
s.Eth.Updated = now
s.Eth.LastBlock = *lastBlock
s.Eth.LastBatchNum = lastBatchNum
s.rw.Unlock()
return nil
}
// CopyStats returns a copy of the inner Stats
func (s *StatsHolder) CopyStats() *Stats {
s.rw.RLock()
sCopy := s.Stats
if s.Sync.Auction.CurrentSlot.BidValue != nil {
sCopy.Sync.Auction.CurrentSlot.BidValue =
common.CopyBigInt(s.Sync.Auction.CurrentSlot.BidValue)
}
if s.Sync.Auction.CurrentSlot.DefaultSlotBid != nil {
sCopy.Sync.Auction.CurrentSlot.DefaultSlotBid =
common.CopyBigInt(s.Sync.Auction.CurrentSlot.DefaultSlotBid)
}
if s.Sync.Auction.NextSlot.BidValue != nil {
sCopy.Sync.Auction.NextSlot.BidValue =
common.CopyBigInt(s.Sync.Auction.NextSlot.BidValue)
}
if s.Sync.Auction.NextSlot.DefaultSlotBid != nil {
sCopy.Sync.Auction.NextSlot.DefaultSlotBid =
common.CopyBigInt(s.Sync.Auction.NextSlot.DefaultSlotBid)
}
if s.Sync.LastBatch.StateRoot != nil {
sCopy.Sync.LastBatch.StateRoot =
common.CopyBigInt(s.Sync.LastBatch.StateRoot)
}
s.rw.RUnlock()
return &sCopy
}
func (s *StatsHolder) blocksPerc() float64 {
syncLastBlockNum := s.Sync.LastBlock.Num
if s.Sync.LastBlock.Num == 0 {
syncLastBlockNum = s.Eth.FirstBlockNum - 1
}
return float64(syncLastBlockNum-(s.Eth.FirstBlockNum-1)) * 100.0 /
float64(s.Eth.LastBlock.Num-(s.Eth.FirstBlockNum-1))
}
func (s *StatsHolder) batchesPerc(batchNum common.BatchNum) float64 {
return float64(batchNum) * 100.0 /
float64(s.Eth.LastBatchNum)
}
// StartBlockNums sets the first block used to start tracking the smart
// contracts
type StartBlockNums struct {
Rollup int64
Auction int64
WDelayer int64
}
// SCVariables joins all the smart contract variables in a single struct
type SCVariables struct {
Rollup common.RollupVariables `validate:"required"`
Auction common.AuctionVariables `validate:"required"`
WDelayer common.WDelayerVariables `validate:"required"`
}
// SCVariablesPtr joins all the smart contract variables as pointers in a single
// struct
type SCVariablesPtr struct {
Rollup *common.RollupVariables `validate:"required"`
Auction *common.AuctionVariables `validate:"required"`
WDelayer *common.WDelayerVariables `validate:"required"`
}
// SCConsts joins all the smart contract constants in a single struct
type SCConsts struct {
Rollup common.RollupConstants
Auction common.AuctionConstants
WDelayer common.WDelayerConstants
}
// Config is the Synchronizer configuration
type Config struct {
StatsRefreshPeriod time.Duration
ChainID uint16
}
// Synchronizer implements the Synchronizer type
type Synchronizer struct {
ethClient eth.ClientInterface
consts SCConsts
historyDB *historydb.HistoryDB
stateDB *statedb.StateDB
cfg Config
initVars SCVariables
startBlockNum int64
vars SCVariables
stats *StatsHolder
resetStateFailed bool
}
// NewSynchronizer creates a new Synchronizer
func NewSynchronizer(ethClient eth.ClientInterface, historyDB *historydb.HistoryDB,
stateDB *statedb.StateDB, cfg Config) (*Synchronizer, error) {
auctionConstants, err := ethClient.AuctionConstants()
if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("NewSynchronizer ethClient.AuctionConstants(): %w",
err))
}
rollupConstants, err := ethClient.RollupConstants()
if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("NewSynchronizer ethClient.RollupConstants(): %w",
err))
}
wDelayerConstants, err := ethClient.WDelayerConstants()
if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("NewSynchronizer ethClient.WDelayerConstants(): %w",
err))
}
consts := SCConsts{
Rollup: *rollupConstants,
Auction: *auctionConstants,
WDelayer: *wDelayerConstants,
}
initVars, startBlockNums, err := getInitialVariables(ethClient, &consts)
if err != nil {
return nil, tracerr.Wrap(err)
}
log.Infow("Synchronizer syncing from smart contract blocks",
"rollup", startBlockNums.Rollup,
"auction", startBlockNums.Auction,
"wdelayer", startBlockNums.WDelayer,
)
// Set startBlockNum to the minimum between Auction, Rollup and
// WDelayer StartBlockNum
startBlockNum := startBlockNums.Auction
if startBlockNums.Rollup < startBlockNum {
startBlockNum = startBlockNums.Rollup
}
if startBlockNums.WDelayer < startBlockNum {
startBlockNum = startBlockNums.WDelayer
}
stats := NewStatsHolder(startBlockNum, cfg.StatsRefreshPeriod)
s := &Synchronizer{
ethClient: ethClient,
consts: consts,
historyDB: historyDB,
stateDB: stateDB,
cfg: cfg,
initVars: *initVars,
startBlockNum: startBlockNum,
stats: stats,
}
return s, s.init()
}
// StateDB returns the inner StateDB
func (s *Synchronizer) StateDB() *statedb.StateDB {
return s.stateDB
}
// Stats returns a copy of the Synchronizer Stats. It is safe to call Stats()
// during a Sync call
func (s *Synchronizer) Stats() *Stats {
return s.stats.CopyStats()
}
// AuctionConstants returns the AuctionConstants read from the smart contract
func (s *Synchronizer) AuctionConstants() *common.AuctionConstants {
return &s.consts.Auction
}
// RollupConstants returns the RollupConstants read from the smart contract
func (s *Synchronizer) RollupConstants() *common.RollupConstants {
return &s.consts.Rollup
}
// WDelayerConstants returns the WDelayerConstants read from the smart contract
func (s *Synchronizer) WDelayerConstants() *common.WDelayerConstants {
return &s.consts.WDelayer
}
// SCVars returns a copy of the Smart Contract Variables
func (s *Synchronizer) SCVars() SCVariablesPtr {
return SCVariablesPtr{
Rollup: s.vars.Rollup.Copy(),
Auction: s.vars.Auction.Copy(),
WDelayer: s.vars.WDelayer.Copy(),
}
}
// setSlotCoordinator queries the highest bidder of a slot in the HistoryDB to
// determine the coordinator that can bid in a slot
func (s *Synchronizer) setSlotCoordinator(slot *common.Slot) error {
bidCoord, err := s.historyDB.GetBestBidCoordinator(slot.SlotNum)
if err != nil && tracerr.Unwrap(err) != sql.ErrNoRows {
return tracerr.Wrap(err)
}
if tracerr.Unwrap(err) == sql.ErrNoRows {
slot.BootCoord = true
slot.Forger = s.vars.Auction.BootCoordinator
slot.URL = s.vars.Auction.BootCoordinatorURL
} else if err == nil {
slot.BidValue = bidCoord.BidValue
slot.DefaultSlotBid = bidCoord.DefaultSlotSetBid[slot.SlotNum%6]
// Only if the highest bid value is greater/equal than
// the default slot bid, the bidder is the winner of
// the slot. Otherwise the boot coordinator is the
// winner.
if slot.BidValue.Cmp(slot.DefaultSlotBid) >= 0 {
slot.Bidder = bidCoord.Bidder
slot.Forger = bidCoord.Forger
slot.URL = bidCoord.URL
} else {
slot.BootCoord = true
slot.Forger = s.vars.Auction.BootCoordinator
slot.URL = s.vars.Auction.BootCoordinatorURL
}
}
return nil
}
// updateCurrentSlot updates the slot with information of the current slot.
// The information about which coordinator is allowed to forge is only updated
// when we are Synced.
// hasBatch is true when the last synced block contained at least one batch.
func (s *Synchronizer) updateCurrentSlot(slot *common.Slot, reset bool, hasBatch bool) error {
// We want the next block because the current one is already mined
blockNum := s.stats.Sync.LastBlock.Num + 1
slotNum := s.consts.Auction.SlotNum(blockNum)
firstBatchBlockNum := s.stats.Sync.LastBlock.Num
if reset {
// Using this query only to know if there
dbFirstBatchBlockNum, err := s.historyDB.GetFirstBatchBlockNumBySlot(slotNum)
if err != nil && tracerr.Unwrap(err) != sql.ErrNoRows {
return tracerr.Wrap(fmt.Errorf("historyDB.GetFirstBatchBySlot: %w", err))
} else if tracerr.Unwrap(err) == sql.ErrNoRows {
hasBatch = false
} else {
hasBatch = true
firstBatchBlockNum = dbFirstBatchBlockNum
}
slot.ForgerCommitment = false
} else if slotNum > slot.SlotNum {
// We are in a new slotNum, start from default values
slot.ForgerCommitment = false
}
slot.SlotNum = slotNum
slot.StartBlock, slot.EndBlock = s.consts.Auction.SlotBlocks(slot.SlotNum)
// If Synced, update the current coordinator
if s.stats.Synced() && blockNum >= s.consts.Auction.GenesisBlockNum {
if err := s.setSlotCoordinator(slot); err != nil {
return tracerr.Wrap(err)
}
if hasBatch &&
s.consts.Auction.RelativeBlock(firstBatchBlockNum) <
int64(s.vars.Auction.SlotDeadline) {
slot.ForgerCommitment = true
}
// TODO: Remove this SANITY CHECK once this code is tested enough
// BEGIN SANITY CHECK
canForge, err := s.ethClient.AuctionCanForge(slot.Forger, blockNum)
if err != nil {
return tracerr.Wrap(fmt.Errorf("AuctionCanForge: %w", err))
}
if !canForge {
return tracerr.Wrap(fmt.Errorf("Synchronized value of forger address for closed slot "+
"differs from smart contract: %+v", slot))
}
// END SANITY CHECK
}
return nil
}
// updateNextSlot updates the slot with information of the next slot.
// The information about which coordinator is allowed to forge is only updated
// when we are Synced.
func (s *Synchronizer) updateNextSlot(slot *common.Slot) error {
// We want the next block because the current one is already mined
blockNum := s.stats.Sync.LastBlock.Num + 1
slotNum := s.consts.Auction.SlotNum(blockNum) + 1
slot.SlotNum = slotNum
slot.ForgerCommitment = false
slot.StartBlock, slot.EndBlock = s.consts.Auction.SlotBlocks(slot.SlotNum)
// If Synced, update the current coordinator
if s.stats.Synced() && blockNum >= s.consts.Auction.GenesisBlockNum {
if err := s.setSlotCoordinator(slot); err != nil {
return tracerr.Wrap(err)
}
// TODO: Remove this SANITY CHECK once this code is tested enough
// BEGIN SANITY CHECK
canForge, err := s.ethClient.AuctionCanForge(slot.Forger, slot.StartBlock)
if err != nil {
return tracerr.Wrap(fmt.Errorf("AuctionCanForge: %w", err))
}
if !canForge {
return tracerr.Wrap(fmt.Errorf("Synchronized value of forger address for closed slot "+
"differs from smart contract: %+v", slot))
}
// END SANITY CHECK
}
return nil
}
// updateCurrentNextSlotIfSync updates the current and next slot. Information
// about forger address that is allowed to forge is only updated if we are
// Synced.
func (s *Synchronizer) updateCurrentNextSlotIfSync(reset bool, hasBatch bool) error {
current := s.stats.Sync.Auction.CurrentSlot
next := s.stats.Sync.Auction.NextSlot
if err := s.updateCurrentSlot(&current, reset, hasBatch); err != nil {
return tracerr.Wrap(err)
}
if err := s.updateNextSlot(&next); err != nil {
return tracerr.Wrap(err)
}
s.stats.UpdateCurrentNextSlot(&current, &next)
return nil
}
func (s *Synchronizer) init() error {
// Update stats parameters so that they have valid values before the
// first Sync call
if err := s.stats.UpdateEth(s.ethClient); err != nil {
return tracerr.Wrap(err)
}
lastBlock := &common.Block{}
lastSavedBlock, err := s.historyDB.GetLastBlock()
// `s.historyDB.GetLastBlock()` will never return `sql.ErrNoRows`
// because we always have the default block 0 in the DB
if err != nil {
return tracerr.Wrap(err)
}
// If we only have the default block 0,
// make sure that the stateDB is clean
if lastSavedBlock.Num == 0 {
if err := s.stateDB.Reset(0); err != nil {
return tracerr.Wrap(err)
}
} else {
lastBlock = lastSavedBlock
}
if err := s.resetState(lastBlock); err != nil {
s.resetStateFailed = true
return tracerr.Wrap(err)
}
s.resetStateFailed = false
log.Infow("Sync init block",
"syncLastBlock", s.stats.Sync.LastBlock,
"syncBlocksPerc", s.stats.blocksPerc(),
"ethFirstBlockNum", s.stats.Eth.FirstBlockNum,
"ethLastBlock", s.stats.Eth.LastBlock,
)
log.Infow("Sync init batch",
"syncLastBatch", s.stats.Sync.LastBatch.BatchNum,
"syncBatchesPerc", s.stats.batchesPerc(s.stats.Sync.LastBatch.BatchNum),
"ethLastBatch", s.stats.Eth.LastBatchNum,
)
return nil
}
func (s *Synchronizer) resetIntermediateState() error {
lastBlock, err := s.historyDB.GetLastBlock()
if tracerr.Unwrap(err) == sql.ErrNoRows {
lastBlock = &common.Block{}
} else if err != nil {
return tracerr.Wrap(fmt.Errorf("historyDB.GetLastBlock: %w", err))
}
if err := s.resetState(lastBlock); err != nil {
s.resetStateFailed = true
return tracerr.Wrap(fmt.Errorf("resetState at block %v: %w", lastBlock.Num, err))
}
s.resetStateFailed = false
return nil
}
// Sync attempts to synchronize an ethereum block starting from lastSavedBlock.
// If lastSavedBlock is nil, the lastSavedBlock value is obtained from de DB.
// If a block is synced, it will be returned and also stored in the DB. If a
// reorg is detected, the number of discarded blocks will be returned and no
// synchronization will be made.
// TODO: Be smart about locking: only lock during the read/write operations
func (s *Synchronizer) Sync(ctx context.Context,
lastSavedBlock *common.Block) (blockData *common.BlockData, discarded *int64, err error) {
if s.resetStateFailed {
if err := s.resetIntermediateState(); err != nil {
return nil, nil, tracerr.Wrap(err)
}
}
var nextBlockNum int64 // next block number to sync
if lastSavedBlock == nil {
// Get lastSavedBlock from History DB
lastSavedBlock, err = s.historyDB.GetLastBlock()
if err != nil && tracerr.Unwrap(err) != sql.ErrNoRows {
return nil, nil, tracerr.Wrap(err)
}
// If we don't have any stored block, we must do a full sync
// starting from the startBlockNum
if tracerr.Unwrap(err) == sql.ErrNoRows || lastSavedBlock.Num == 0 {
nextBlockNum = s.startBlockNum
lastSavedBlock = nil
}
}
if lastSavedBlock != nil {
nextBlockNum = lastSavedBlock.Num + 1
if lastSavedBlock.Num < s.startBlockNum {
return nil, nil, tracerr.Wrap(
fmt.Errorf("lastSavedBlock (%v) < startBlockNum (%v)",
lastSavedBlock.Num, s.startBlockNum))
}
}
ethBlock, err := s.ethClient.EthBlockByNumber(ctx, nextBlockNum)
if tracerr.Unwrap(err) == ethereum.NotFound {
return nil, nil, nil
} else if err != nil {
return nil, nil, tracerr.Wrap(fmt.Errorf("EthBlockByNumber: %w", err))
}
log.Debugf("ethBlock: num: %v, parent: %v, hash: %v",
ethBlock.Num, ethBlock.ParentHash.String(), ethBlock.Hash.String())
if err := s.stats.UpdateEth(s.ethClient); err != nil {
return nil, nil, tracerr.Wrap(err)
}
log.Debugw("Syncing...",
"block", nextBlockNum,
"ethLastBlock", s.stats.Eth.LastBlock,
)
// Check that the obtained ethBlock.ParentHash == prevEthBlock.Hash; if not, reorg!
if lastSavedBlock != nil {
if lastSavedBlock.Hash != ethBlock.ParentHash {
// Reorg detected
log.Debugw("Reorg Detected",
"blockNum", ethBlock.Num,
"block.parent(got)", ethBlock.ParentHash, "parent.hash(exp)", lastSavedBlock.Hash)
lastDBBlockNum, err := s.reorg(lastSavedBlock)
if err != nil {
return nil, nil, tracerr.Wrap(err)
}
discarded := lastSavedBlock.Num - lastDBBlockNum
return nil, &discarded, nil
}
}
defer func() {
// If there was an error during sync, reset to the last block
// in the historyDB because the historyDB is written last in
// the Sync method and is the source of consistency. This
// allows resetting the stateDB in the case a batch was
// processed but the historyDB block was not committed due to an
// error.
if err != nil {
if err2 := s.resetIntermediateState(); err2 != nil {
log.Errorw("sync revert", "err", err2)
}
}
}()
// Get data from the rollup contract
rollupData, err := s.rollupSync(ethBlock)
if err != nil {
return nil, nil, tracerr.Wrap(err)
}
// Get data from the auction contract
auctionData, err := s.auctionSync(ethBlock)
if err != nil {
return nil, nil, tracerr.Wrap(err)
}
// Get data from the WithdrawalDelayer contract
wDelayerData, err := s.wdelayerSync(ethBlock)
if err != nil {
return nil, nil, tracerr.Wrap(err)
}
for i := range rollupData.Withdrawals {
withdrawal := &rollupData.Withdrawals[i]
if !withdrawal.InstantWithdraw {
wDelayerTransfers := wDelayerData.DepositsByTxHash[withdrawal.TxHash]
if len(wDelayerTransfers) == 0 {
return nil, nil, tracerr.Wrap(fmt.Errorf("WDelayer deposit corresponding to " +
"non-instant rollup withdrawal not found"))
}
// Pop the first wDelayerTransfer to consume them in chronological order
wDelayerTransfer := wDelayerTransfers[0]
wDelayerData.DepositsByTxHash[withdrawal.TxHash] =
wDelayerData.DepositsByTxHash[withdrawal.TxHash][1:]
withdrawal.Owner = wDelayerTransfer.Owner
withdrawal.Token = wDelayerTransfer.Token
}
}
// Group all the block data into the structs to save into HistoryDB
blockData = &common.BlockData{
Block: *ethBlock,
Rollup: *rollupData,
Auction: *auctionData,
WDelayer: *wDelayerData,
}
err = s.historyDB.AddBlockSCData(blockData)
if err != nil {
return nil, nil, tracerr.Wrap(err)
}
batchesLen := len(rollupData.Batches)
if batchesLen == 0 {
s.stats.UpdateSync(ethBlock, nil, nil, nil)
} else {
var lastL1BatchBlock *int64
var lastForgeL1TxsNum *int64
for _, batchData := range rollupData.Batches {
if batchData.L1Batch {
lastL1BatchBlock = &batchData.Batch.EthBlockNum
lastForgeL1TxsNum = batchData.Batch.ForgeL1TxsNum
}
}
s.stats.UpdateSync(ethBlock,
&rollupData.Batches[batchesLen-1].Batch,
lastL1BatchBlock, lastForgeL1TxsNum)
}
hasBatch := false
if len(rollupData.Batches) > 0 {
hasBatch = true
}
if err := s.updateCurrentNextSlotIfSync(false, hasBatch); err != nil {
return nil, nil, tracerr.Wrap(err)
}
for _, batchData := range rollupData.Batches {
metricSyncedLastBatchNum.Set(float64(batchData.Batch.BatchNum))
metricEthLastBatchNum.Set(float64(s.stats.Eth.LastBatchNum))
log.Debugw("Synced batch",
"syncLastBatch", batchData.Batch.BatchNum,
"syncBatchesPerc", s.stats.batchesPerc(batchData.Batch.BatchNum),
"ethLastBatch", s.stats.Eth.LastBatchNum,
)
}
metricSyncedLastBlockNum.Set(float64(s.stats.Sync.LastBlock.Num))
metricEthLastBlockNum.Set(float64(s.stats.Eth.LastBlock.Num))
log.Debugw("Synced block",
"syncLastBlockNum", s.stats.Sync.LastBlock.Num,
"syncBlocksPerc", s.stats.blocksPerc(),
"ethLastBlockNum", s.stats.Eth.LastBlock.Num,
)
return blockData, nil, nil
}
// reorg manages a reorg, updating History and State DB as needed. Keeps
// checking previous blocks from the HistoryDB against the blockchain until a
// block hash match is found. All future blocks in the HistoryDB and
// corresponding batches in StateBD are discarded. Returns the last valid
// blockNum from the HistoryDB.
func (s *Synchronizer) reorg(uncleBlock *common.Block) (int64, error) {
blockNum := uncleBlock.Num
var block *common.Block
for blockNum >= s.startBlockNum {
ethBlock, err := s.ethClient.EthBlockByNumber(context.Background(), blockNum)
if err != nil {
return 0, tracerr.Wrap(fmt.Errorf("ethClient.EthBlockByNumber: %w", err))
}
block, err = s.historyDB.GetBlock(blockNum)
if err != nil {
return 0, tracerr.Wrap(fmt.Errorf("historyDB.GetBlock: %w", err))
}
if block.Hash == ethBlock.Hash {
log.Debugf("Found valid block: %v", blockNum)
break
}
blockNum--
}
total := uncleBlock.Num - block.Num
log.Debugw("Discarding blocks", "total", total, "from", uncleBlock.Num, "to", block.Num+1)
// Set History DB and State DB to the correct state
if err := s.historyDB.Reorg(block.Num); err != nil {
return 0, tracerr.Wrap(err)
}
if err := s.resetState(block); err != nil {
s.resetStateFailed = true
return 0, tracerr.Wrap(err)
}
s.resetStateFailed = false
return block.Num, nil
}
func getInitialVariables(ethClient eth.ClientInterface,
consts *SCConsts) (*SCVariables, *StartBlockNums, error) {
rollupInit, rollupInitBlock, err := ethClient.RollupEventInit()
if err != nil {
return nil, nil, tracerr.Wrap(fmt.Errorf("RollupEventInit: %w", err))
}
auctionInit, auctionInitBlock, err := ethClient.AuctionEventInit()
if err != nil {
return nil, nil, tracerr.Wrap(fmt.Errorf("AuctionEventInit: %w", err))
}
wDelayerInit, wDelayerInitBlock, err := ethClient.WDelayerEventInit()
if err != nil {
return nil, nil, tracerr.Wrap(fmt.Errorf("WDelayerEventInit: %w", err))
}
rollupVars := rollupInit.RollupVariables()
auctionVars := auctionInit.AuctionVariables(consts.Auction.InitialMinimalBidding)
wDelayerVars := wDelayerInit.WDelayerVariables()
return &SCVariables{
Rollup: *rollupVars,
Auction: *auctionVars,
WDelayer: *wDelayerVars,
}, &StartBlockNums{
Rollup: rollupInitBlock,
Auction: auctionInitBlock,
WDelayer: wDelayerInitBlock,
}, nil
}
func (s *Synchronizer) resetState(block *common.Block) error {
rollup, auction, wDelayer, err := s.historyDB.GetSCVars()
// If SCVars are not in the HistoryDB, this is probably the first run
// of the Synchronizer: store the initial vars taken from config
if tracerr.Unwrap(err) == sql.ErrNoRows {
vars := s.initVars
log.Info("Setting initial SCVars in HistoryDB")
if err = s.historyDB.SetInitialSCVars(&vars.Rollup, &vars.Auction, &vars.WDelayer); err != nil {
return tracerr.Wrap(fmt.Errorf("historyDB.SetInitialSCVars: %w", err))
}
s.vars.Rollup = *vars.Rollup.Copy()
s.vars.Auction = *vars.Auction.Copy()
s.vars.WDelayer = *vars.WDelayer.Copy()
// Add initial boot coordinator to HistoryDB
if err := s.historyDB.AddCoordinators([]common.Coordinator{{
Forger: s.initVars.Auction.BootCoordinator,
URL: s.initVars.Auction.BootCoordinatorURL,
EthBlockNum: s.initVars.Auction.EthBlockNum,
}}); err != nil {
return tracerr.Wrap(err)
}
} else if err != nil {
return tracerr.Wrap(err)
} else {
s.vars.Rollup = *rollup
s.vars.Auction = *auction
s.vars.WDelayer = *wDelayer
}
batch, err := s.historyDB.GetLastBatch()
if err != nil && tracerr.Unwrap(err) != sql.ErrNoRows {
return tracerr.Wrap(fmt.Errorf("historyDB.GetLastBatchNum: %w", err))
}
if tracerr.Unwrap(err) == sql.ErrNoRows {
batch = &common.Batch{}
}
err = s.stateDB.Reset(batch.BatchNum)
if err != nil {
return tracerr.Wrap(fmt.Errorf("stateDB.Reset: %w", err))
}
lastL1BatchBlockNum, err := s.historyDB.GetLastL1BatchBlockNum()
if err != nil && tracerr.Unwrap(err) != sql.ErrNoRows {
return tracerr.Wrap(fmt.Errorf("historyDB.GetLastL1BatchBlockNum: %w", err))
}
if tracerr.Unwrap(err) == sql.ErrNoRows {
lastL1BatchBlockNum = 0
}
lastForgeL1TxsNum, err := s.historyDB.GetLastL1TxsNum()
if err != nil && tracerr.Unwrap(err) != sql.ErrNoRows {
return tracerr.Wrap(fmt.Errorf("historyDB.GetLastL1BatchBlockNum: %w", err))
}
if tracerr.Unwrap(err) == sql.ErrNoRows || lastForgeL1TxsNum == nil {
n := int64(-1)
lastForgeL1TxsNum = &n
}
s.stats.UpdateSync(block, batch, &lastL1BatchBlockNum, lastForgeL1TxsNum)
if err := s.updateCurrentNextSlotIfSync(true, false); err != nil {
return tracerr.Wrap(err)
}
return nil
}
// rollupSync retrieves all the Rollup Smart Contract Data that happened at
// ethBlock.blockNum with ethBlock.Hash.
func (s *Synchronizer) rollupSync(ethBlock *common.Block) (*common.RollupData, error) {
blockNum := ethBlock.Num
var rollupData = common.NewRollupData()
// var forgeL1TxsNum int64
// Get rollup events in the block, and make sure the block hash matches
// the expected one.
rollupEvents, err := s.ethClient.RollupEventsByBlock(blockNum, &ethBlock.Hash)
if err != nil && err.Error() == errStrUnknownBlock {
return nil, tracerr.Wrap(ErrUnknownBlock)
} else if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("RollupEventsByBlock: %w", err))
}
// No events in this block
if rollupEvents == nil {
return &rollupData, nil
}
var nextForgeL1TxsNum int64 // forgeL1TxsNum for the next L1Batch
nextForgeL1TxsNumPtr, err := s.historyDB.GetLastL1TxsNum()
if err != nil {
return nil, tracerr.Wrap(err)
}
if nextForgeL1TxsNumPtr != nil {
nextForgeL1TxsNum = *nextForgeL1TxsNumPtr + 1
} else {
nextForgeL1TxsNum = 0
}
// Get L1UserTX
rollupData.L1UserTxs, err = getL1UserTx(rollupEvents.L1UserTx, blockNum)
if err != nil {
return nil, tracerr.Wrap(err)
}
// Get ForgeBatch events to get the L1CoordinatorTxs
for _, evtForgeBatch := range rollupEvents.ForgeBatch {
batchData := common.NewBatchData()
position := 0
// Get the input for each Tx
forgeBatchArgs, sender, err := s.ethClient.RollupForgeBatchArgs(evtForgeBatch.EthTxHash,
evtForgeBatch.L1UserTxsLen)
if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("RollupForgeBatchArgs: %w", err))
}
batchNum := common.BatchNum(evtForgeBatch.BatchNum)
var l1UserTxs []common.L1Tx
// Check if this is a L1Batch to get L1 Tx from it
if forgeBatchArgs.L1Batch {
// Get L1UserTxs with toForgeL1TxsNum, which correspond
// to the L1UserTxs that are forged in this batch, so
// that stateDB can process them.
// First try to find them in HistoryDB.
l1UserTxs, err = s.historyDB.GetUnforgedL1UserTxs(nextForgeL1TxsNum)
if err != nil {
return nil, tracerr.Wrap(err)
}
// Apart from the DB, try to find them in this block.
// This could happen because in a block there could be
// multiple batches with L1Batch = true (although it's
// a very rare case). If not found in the DB and the
// block doesn't contain the l1UserTxs, it means that
// the L1UserTxs queue with toForgeL1TxsNum was closed
// empty, so we leave `l1UserTxs` as an empty slice.
for _, l1UserTx := range rollupData.L1UserTxs {
if *l1UserTx.ToForgeL1TxsNum == nextForgeL1TxsNum {
l1UserTxs = append(l1UserTxs, l1UserTx)
}
}
position = len(l1UserTxs)
}
// Get L1 Coordinator Txs
for i := range forgeBatchArgs.L1CoordinatorTxs {
l1CoordinatorTx := forgeBatchArgs.L1CoordinatorTxs[i]
l1CoordinatorTx.Position = position
// l1CoordinatorTx.ToForgeL1TxsNum = &forgeL1TxsNum
l1CoordinatorTx.UserOrigin = false
l1CoordinatorTx.EthBlockNum = blockNum
l1CoordinatorTx.BatchNum = &batchNum
l1Tx, err := common.NewL1Tx(&l1CoordinatorTx)
if err != nil {
return nil, tracerr.Wrap(err)
}
batchData.L1CoordinatorTxs = append(batchData.L1CoordinatorTxs, *l1Tx)
position++
// fmt.Println("DGB l1coordtx")
}
// Insert all the txs forged in this batch (l1UserTxs,
// L1CoordinatorTxs, PoolL2Txs) into stateDB so that they are
// processed.
// Set TxType to the forged L2Txs
for i := range forgeBatchArgs.L2TxsData {
if err := forgeBatchArgs.L2TxsData[i].SetType(); err != nil {
return nil, tracerr.Wrap(err)
}
}
// Transform L2 txs to PoolL2Txs
// NOTE: This is a big ugly, find a better way
poolL2Txs := common.L2TxsToPoolL2Txs(forgeBatchArgs.L2TxsData)
if int(forgeBatchArgs.VerifierIdx) >= len(s.consts.Rollup.Verifiers) {
return nil, tracerr.Wrap(fmt.Errorf("forgeBatchArgs.VerifierIdx (%v) >= "+
" len(s.consts.Rollup.Verifiers) (%v)",
forgeBatchArgs.VerifierIdx, len(s.consts.Rollup.Verifiers)))
}
tpc := txprocessor.Config{
NLevels: uint32(s.consts.Rollup.Verifiers[forgeBatchArgs.VerifierIdx].NLevels),
MaxTx: uint32(s.consts.Rollup.Verifiers[forgeBatchArgs.VerifierIdx].MaxTx),
ChainID: s.cfg.ChainID,
MaxFeeTx: common.RollupConstMaxFeeIdxCoordinator,
MaxL1Tx: common.RollupConstMaxL1Tx,
}
tp := txprocessor.NewTxProcessor(s.stateDB, tpc)
// ProcessTxs updates poolL2Txs adding: Nonce (and also TokenID, but we don't use it).
processTxsOut, err := tp.ProcessTxs(forgeBatchArgs.FeeIdxCoordinator,
l1UserTxs, batchData.L1CoordinatorTxs, poolL2Txs)
if err != nil {
return nil, tracerr.Wrap(err)
}
if s.stateDB.CurrentBatch() != batchNum {
return nil, tracerr.Wrap(fmt.Errorf("stateDB.BatchNum (%v) != "+
"evtForgeBatch.BatchNum = (%v)",
s.stateDB.CurrentBatch(), batchNum))
}
if s.stateDB.MT.Root().BigInt().Cmp(forgeBatchArgs.NewStRoot) != 0 {
return nil, tracerr.Wrap(fmt.Errorf("stateDB.MTRoot (%v) != "+
"forgeBatchArgs.NewStRoot (%v)",
s.stateDB.MT.Root().BigInt(), forgeBatchArgs.NewStRoot))
}
// Transform processed PoolL2 txs to L2 and store in BatchData
l2Txs, err := common.PoolL2TxsToL2Txs(poolL2Txs) // NOTE: This is a big uggly, find a better way
if err != nil {
return nil, tracerr.Wrap(err)
}
// Set TxID, BlockNum, BatchNum and Position to the forged L2Txs
for i := range l2Txs {
if err := l2Txs[i].SetID(); err != nil {
return nil, tracerr.Wrap(err)
}
l2Txs[i].EthBlockNum = blockNum
l2Txs[i].BatchNum = batchNum
l2Txs[i].Position = position
position++
}
batchData.L2Txs = l2Txs
// Set the BatchNum in the forged L1UserTxs
for i := range l1UserTxs {
l1UserTxs[i].BatchNum = &batchNum
}
batchData.L1UserTxs = l1UserTxs
// Set batchNum in exits
for i := range processTxsOut.ExitInfos {
exit := &processTxsOut.ExitInfos[i]
exit.BatchNum = batchNum
}
batchData.ExitTree = processTxsOut.ExitInfos
for i := range processTxsOut.CreatedAccounts {
createdAccount := &processTxsOut.CreatedAccounts[i]
createdAccount.Nonce = 0
createdAccount.Balance = big.NewInt(0)
createdAccount.BatchNum = batchNum
}
batchData.CreatedAccounts = processTxsOut.CreatedAccounts
batchData.UpdatedAccounts = make([]common.AccountUpdate, 0,
len(processTxsOut.UpdatedAccounts))
for _, acc := range processTxsOut.UpdatedAccounts {
batchData.UpdatedAccounts = append(batchData.UpdatedAccounts,
common.AccountUpdate{
EthBlockNum: blockNum,
BatchNum: batchNum,
Idx: acc.Idx,
Nonce: acc.Nonce,
Balance: acc.Balance,
})
}
slotNum := int64(0)
if ethBlock.Num >= s.consts.Auction.GenesisBlockNum {
slotNum = (ethBlock.Num - s.consts.Auction.GenesisBlockNum) /
int64(s.consts.Auction.BlocksPerSlot)
}
// Get Batch information
batch := common.Batch{
BatchNum: batchNum,
EthBlockNum: blockNum,
ForgerAddr: *sender,
CollectedFees: processTxsOut.CollectedFees,
FeeIdxsCoordinator: forgeBatchArgs.FeeIdxCoordinator,
StateRoot: forgeBatchArgs.NewStRoot,
NumAccounts: len(batchData.CreatedAccounts),
LastIdx: forgeBatchArgs.NewLastIdx,
ExitRoot: forgeBatchArgs.NewExitRoot,
SlotNum: slotNum,
}
nextForgeL1TxsNumCpy := nextForgeL1TxsNum
if forgeBatchArgs.L1Batch {
batch.ForgeL1TxsNum = &nextForgeL1TxsNumCpy
batchData.L1Batch = true
nextForgeL1TxsNum++
}
batchData.Batch = batch
rollupData.Batches = append(rollupData.Batches, *batchData)
}
// Get Registered Tokens
for _, evtAddToken := range rollupEvents.AddToken {
var token common.Token
token.TokenID = common.TokenID(evtAddToken.TokenID)
token.EthAddr = evtAddToken.TokenAddress
token.EthBlockNum = blockNum
if consts, err := s.ethClient.EthERC20Consts(evtAddToken.TokenAddress); err != nil {
log.Warnw("Error retreiving ERC20 token constants", "addr", evtAddToken.TokenAddress)
token.Name = "ERC20_ETH_ERROR"
token.Symbol = "ERROR"
token.Decimals = 1
} else {
token.Name = cutStringMax(consts.Name, 20)
token.Symbol = cutStringMax(consts.Symbol, 10)
token.Decimals = consts.Decimals
}
rollupData.AddedTokens = append(rollupData.AddedTokens, token)
}
for _, evt := range rollupEvents.UpdateBucketWithdraw {
rollupData.UpdateBucketWithdraw = append(rollupData.UpdateBucketWithdraw,
common.BucketUpdate{
EthBlockNum: blockNum,
NumBucket: evt.NumBucket,
BlockStamp: evt.BlockStamp,
Withdrawals: evt.Withdrawals,
})
}
for _, evt := range rollupEvents.Withdraw {
rollupData.Withdrawals = append(rollupData.Withdrawals, common.WithdrawInfo{
Idx: common.Idx(evt.Idx),
NumExitRoot: common.BatchNum(evt.NumExitRoot),
InstantWithdraw: evt.InstantWithdraw,
TxHash: evt.TxHash,
})
}
for _, evt := range rollupEvents.UpdateTokenExchange {
if len(evt.AddressArray) != len(evt.ValueArray) {
return nil, tracerr.Wrap(fmt.Errorf("in RollupEventUpdateTokenExchange "+
"len(AddressArray) != len(ValueArray) (%v != %v)",
len(evt.AddressArray), len(evt.ValueArray)))
}
for i := range evt.AddressArray {
rollupData.TokenExchanges = append(rollupData.TokenExchanges,
common.TokenExchange{
EthBlockNum: blockNum,
Address: evt.AddressArray[i],
ValueUSD: int64(evt.ValueArray[i]),
})
}
}
varsUpdate := false
for _, evt := range rollupEvents.UpdateForgeL1L2BatchTimeout {
s.vars.Rollup.ForgeL1L2BatchTimeout = evt.NewForgeL1L2BatchTimeout
varsUpdate = true
}
for _, evt := range rollupEvents.UpdateFeeAddToken {
s.vars.Rollup.FeeAddToken = evt.NewFeeAddToken
varsUpdate = true
}
for _, evt := range rollupEvents.UpdateWithdrawalDelay {
s.vars.Rollup.WithdrawalDelay = evt.NewWithdrawalDelay
varsUpdate = true
}
// NOTE: We skip the event rollupEvents.SafeMode because the
// implementation RollupEventsByBlock already inserts a non-existing
// RollupEventUpdateBucketsParameters into UpdateBucketsParameters with
// all the bucket values at 0 and SafeMode = true
for _, evt := range rollupEvents.UpdateBucketsParameters {
for i, bucket := range evt.ArrayBuckets {
s.vars.Rollup.Buckets[i] = common.BucketParams{
CeilUSD: bucket.CeilUSD,
Withdrawals: bucket.Withdrawals,
BlockWithdrawalRate: bucket.BlockWithdrawalRate,
MaxWithdrawals: bucket.MaxWithdrawals,
}
}
s.vars.Rollup.SafeMode = evt.SafeMode
varsUpdate = true
}
if varsUpdate {
s.vars.Rollup.EthBlockNum = blockNum
rollupData.Vars = s.vars.Rollup.Copy()
}
return &rollupData, nil
}
func cutStringMax(s string, max int) string {
if len(s) > max {
return s[:max]
}
return s
}
// auctionSync gets information from the Auction Contract
func (s *Synchronizer) auctionSync(ethBlock *common.Block) (*common.AuctionData, error) {
blockNum := ethBlock.Num
var auctionData = common.NewAuctionData()
// Get auction events in the block
auctionEvents, err := s.ethClient.AuctionEventsByBlock(blockNum, &ethBlock.Hash)
if err != nil && err.Error() == errStrUnknownBlock {
return nil, tracerr.Wrap(ErrUnknownBlock)
} else if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("AuctionEventsByBlock: %w", err))
}
// No events in this block
if auctionEvents == nil {
return &auctionData, nil
}
// Get bids
for _, evt := range auctionEvents.NewBid {
bid := common.Bid{
SlotNum: evt.Slot,
BidValue: evt.BidAmount,
Bidder: evt.Bidder,
EthBlockNum: blockNum,
}
auctionData.Bids = append(auctionData.Bids, bid)
}
// Get Coordinators
for _, evt := range auctionEvents.SetCoordinator {
coordinator := common.Coordinator{
Bidder: evt.BidderAddress,
Forger: evt.ForgerAddress,
URL: evt.CoordinatorURL,
EthBlockNum: blockNum,
}
auctionData.Coordinators = append(auctionData.Coordinators, coordinator)
}
varsUpdate := false
for _, evt := range auctionEvents.NewSlotDeadline {
s.vars.Auction.SlotDeadline = evt.NewSlotDeadline
varsUpdate = true
}
for _, evt := range auctionEvents.NewClosedAuctionSlots {
s.vars.Auction.ClosedAuctionSlots = evt.NewClosedAuctionSlots
varsUpdate = true
}
for _, evt := range auctionEvents.NewOutbidding {
s.vars.Auction.Outbidding = evt.NewOutbidding
varsUpdate = true
}
for _, evt := range auctionEvents.NewDonationAddress {
s.vars.Auction.DonationAddress = evt.NewDonationAddress
varsUpdate = true
}
for _, evt := range auctionEvents.NewBootCoordinator {
s.vars.Auction.BootCoordinator = evt.NewBootCoordinator
s.vars.Auction.BootCoordinatorURL = evt.NewBootCoordinatorURL
varsUpdate = true
// Add new boot coordinator
auctionData.Coordinators = append(auctionData.Coordinators, common.Coordinator{
Forger: evt.NewBootCoordinator,
URL: evt.NewBootCoordinatorURL,
EthBlockNum: blockNum,
})
}
for _, evt := range auctionEvents.NewOpenAuctionSlots {
s.vars.Auction.OpenAuctionSlots = evt.NewOpenAuctionSlots
varsUpdate = true
}
for _, evt := range auctionEvents.NewAllocationRatio {
s.vars.Auction.AllocationRatio = evt.NewAllocationRatio
varsUpdate = true
}
for _, evt := range auctionEvents.NewDefaultSlotSetBid {
if evt.SlotSet > 6 { //nolint:gomnd
return nil, tracerr.Wrap(fmt.Errorf("unexpected SlotSet in "+
"auctionEvents.NewDefaultSlotSetBid: %v", evt.SlotSet))
}
s.vars.Auction.DefaultSlotSetBid[evt.SlotSet] = evt.NewInitialMinBid
s.vars.Auction.DefaultSlotSetBidSlotNum = s.consts.Auction.SlotNum(blockNum) +
int64(s.vars.Auction.ClosedAuctionSlots)
varsUpdate = true
}
// NOTE: We ignore NewForgeAllocated
// NOTE: We ignore NewForge because we're already tracking ForgeBatch event from Rollup
// NOTE: We ignore HEZClaimed
if varsUpdate {
s.vars.Auction.EthBlockNum = blockNum
auctionData.Vars = s.vars.Auction.Copy()
}
return &auctionData, nil
}
// wdelayerSync gets information from the Withdrawal Delayer Contract
func (s *Synchronizer) wdelayerSync(ethBlock *common.Block) (*common.WDelayerData, error) {
blockNum := ethBlock.Num
wDelayerData := common.NewWDelayerData()
// Get wDelayer events in the block
wDelayerEvents, err := s.ethClient.WDelayerEventsByBlock(blockNum, &ethBlock.Hash)
if err != nil && err.Error() == errStrUnknownBlock {
return nil, tracerr.Wrap(ErrUnknownBlock)
} else if err != nil {
return nil, tracerr.Wrap(fmt.Errorf("WDelayerEventsByBlock: %w", err))
}
// No events in this block
if wDelayerEvents == nil {
return &wDelayerData, nil
}
for _, evt := range wDelayerEvents.Deposit {
wDelayerData.Deposits = append(wDelayerData.Deposits, common.WDelayerTransfer{
Owner: evt.Owner,
Token: evt.Token,
Amount: evt.Amount,
})
wDelayerData.DepositsByTxHash[evt.TxHash] =
append(wDelayerData.DepositsByTxHash[evt.TxHash],
&wDelayerData.Deposits[len(wDelayerData.Deposits)-1])
}
for _, evt := range wDelayerEvents.Withdraw {
wDelayerData.Withdrawals = append(wDelayerData.Withdrawals, common.WDelayerTransfer{
Owner: evt.Owner,
Token: evt.Token,
Amount: evt.Amount,
})
}
for _, evt := range wDelayerEvents.EscapeHatchWithdrawal {
wDelayerData.EscapeHatchWithdrawals = append(wDelayerData.EscapeHatchWithdrawals,
common.WDelayerEscapeHatchWithdrawal{
EthBlockNum: blockNum,
Who: evt.Who,
To: evt.To,
TokenAddr: evt.Token,
Amount: evt.Amount,
})
}
varsUpdate := false
for range wDelayerEvents.EmergencyModeEnabled {
s.vars.WDelayer.EmergencyMode = true
s.vars.WDelayer.EmergencyModeStartingBlock = blockNum
varsUpdate = true
}
for _, evt := range wDelayerEvents.NewWithdrawalDelay {
s.vars.WDelayer.WithdrawalDelay = evt.WithdrawalDelay
varsUpdate = true
}
for _, evt := range wDelayerEvents.NewEmergencyCouncil {
s.vars.WDelayer.EmergencyCouncilAddress = evt.NewEmergencyCouncil
varsUpdate = true
}
for _, evt := range wDelayerEvents.NewHermezGovernanceAddress {
s.vars.WDelayer.HermezGovernanceAddress = evt.NewHermezGovernanceAddress
varsUpdate = true
}
if varsUpdate {
s.vars.WDelayer.EthBlockNum = blockNum
wDelayerData.Vars = s.vars.WDelayer.Copy()
}
return &wDelayerData, nil
}
func getL1UserTx(eventsL1UserTx []eth.RollupEventL1UserTx, blockNum int64) ([]common.L1Tx, error) {
l1Txs := make([]common.L1Tx, len(eventsL1UserTx))
for i := range eventsL1UserTx {
eventsL1UserTx[i].L1UserTx.EthBlockNum = blockNum
// Check validity of L1UserTx
l1Tx, err := common.NewL1Tx(&eventsL1UserTx[i].L1UserTx)
if err != nil {
return nil, tracerr.Wrap(err)
}
l1Txs[i] = *l1Tx
}
return l1Txs, nil
}