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hermez-node/coordinator/coordinator.go

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package coordinator
import (
"context"
"fmt"
"strings"
"sync"
"time"
ethCommon "github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/types"
"github.com/hermeznetwork/hermez-node/batchbuilder"
"github.com/hermeznetwork/hermez-node/common"
"github.com/hermeznetwork/hermez-node/db/historydb"
"github.com/hermeznetwork/hermez-node/db/l2db"
"github.com/hermeznetwork/hermez-node/eth"
"github.com/hermeznetwork/hermez-node/log"
"github.com/hermeznetwork/hermez-node/prover"
"github.com/hermeznetwork/hermez-node/synchronizer"
"github.com/hermeznetwork/hermez-node/txselector"
"github.com/hermeznetwork/tracerr"
)
const queueLen = 16
// Config contains the Coordinator configuration
type Config struct {
// ForgerAddress is the address under which this coordinator is forging
ForgerAddress ethCommon.Address
// ConfirmBlocks is the number of confirmation blocks to wait for sent
// ethereum transactions before forgetting about them
ConfirmBlocks int64
// L1BatchTimeoutPerc is the portion of the range before the L1Batch
// timeout that will trigger a schedule to forge an L1Batch
L1BatchTimeoutPerc float64
// EthClientAttempts is the number of attempts to do an eth client RPC
// call before giving up
EthClientAttempts int
// EthClientAttemptsDelay is delay between attempts do do an eth client
// RPC call
EthClientAttemptsDelay time.Duration
// TxManagerCheckInterval is the waiting interval between receipt
// checks of ethereum transactions in the TxManager
TxManagerCheckInterval time.Duration
// DebugBatchPath if set, specifies the path where batchInfo is stored
// in JSON in every step/update of the pipeline
DebugBatchPath string
}
func (c *Config) debugBatchStore(batchInfo *BatchInfo) {
if c.DebugBatchPath != "" {
if err := batchInfo.DebugStore(c.DebugBatchPath); err != nil {
log.Warnw("Error storing debug BatchInfo",
"path", c.DebugBatchPath, "err", err)
}
}
}
// Coordinator implements the Coordinator type
type Coordinator struct {
// State
pipelineBatchNum common.BatchNum // batchNum from which we started the pipeline
provers []prover.Client
consts synchronizer.SCConsts
vars synchronizer.SCVariables
started bool
cfg Config
historyDB *historydb.HistoryDB
l2DB *l2db.L2DB
txSelector *txselector.TxSelector
batchBuilder *batchbuilder.BatchBuilder
msgCh chan interface{}
ctx context.Context
wg sync.WaitGroup
cancel context.CancelFunc
pipeline *Pipeline
txManager *TxManager
}
// NewCoordinator creates a new Coordinator
func NewCoordinator(cfg Config,
historyDB *historydb.HistoryDB,
l2DB *l2db.L2DB,
txSelector *txselector.TxSelector,
batchBuilder *batchbuilder.BatchBuilder,
serverProofs []prover.Client,
ethClient eth.ClientInterface,
scConsts *synchronizer.SCConsts,
initSCVars *synchronizer.SCVariables,
) (*Coordinator, error) {
// nolint reason: hardcoded `1.0`, by design the percentage can't be over 100%
if cfg.L1BatchTimeoutPerc >= 1.0 { //nolint:gomnd
return nil, tracerr.Wrap(fmt.Errorf("invalid value for Config.L1BatchTimeoutPerc (%v >= 1.0)",
cfg.L1BatchTimeoutPerc))
}
if cfg.EthClientAttempts < 1 {
return nil, tracerr.Wrap(fmt.Errorf("invalid value for Config.EthClientAttempts (%v < 1)",
cfg.EthClientAttempts))
}
ctx, cancel := context.WithCancel(context.Background())
c := Coordinator{
pipelineBatchNum: -1,
provers: serverProofs,
consts: *scConsts,
vars: *initSCVars,
cfg: cfg,
historyDB: historyDB,
l2DB: l2DB,
txSelector: txSelector,
batchBuilder: batchBuilder,
// ethClient: ethClient,
msgCh: make(chan interface{}),
ctx: ctx,
// wg
cancel: cancel,
}
txManager := NewTxManager(&cfg, ethClient, l2DB, &c)
c.txManager = txManager
return &c, nil
}
func (c *Coordinator) newPipeline(ctx context.Context) (*Pipeline, error) {
return NewPipeline(ctx, c.cfg, c.historyDB, c.l2DB,
c.txSelector, c.batchBuilder, c.txManager, c.provers, &c.consts)
}
// MsgSyncStats indicates an update to the Synchronizer stats
type MsgSyncStats struct {
Stats synchronizer.Stats
}
// MsgSyncSCVars indicates an update to Smart Contract Vars
type MsgSyncSCVars struct {
Rollup *common.RollupVariables
Auction *common.AuctionVariables
WDelayer *common.WDelayerVariables
}
// MsgSyncReorg indicates a reorg
type MsgSyncReorg struct {
Stats synchronizer.Stats
}
// MsgStopPipeline indicates a signal to reset the pipeline
type MsgStopPipeline struct {
Reason string
}
// SendMsg is a thread safe method to pass a message to the Coordinator
func (c *Coordinator) SendMsg(msg interface{}) {
c.msgCh <- msg
}
func (c *Coordinator) handleMsgSyncSCVars(msg *MsgSyncSCVars) {
if msg.Rollup != nil {
c.vars.Rollup = *msg.Rollup
}
if msg.Auction != nil {
c.vars.Auction = *msg.Auction
}
if msg.WDelayer != nil {
c.vars.WDelayer = *msg.WDelayer
}
}
func (c *Coordinator) canForge(stats *synchronizer.Stats) bool {
anyoneForge := false
if stats.Sync.Auction.CurrentSlot.BatchesLen == 0 &&
c.consts.Auction.RelativeBlock(stats.Eth.LastBlock.Num+1) > int64(c.vars.Auction.SlotDeadline) {
log.Debug("Coordinator: anyone can forge in the current slot (slotDeadline passed)")
anyoneForge = true
}
if stats.Sync.Auction.CurrentSlot.Forger == c.cfg.ForgerAddress || anyoneForge {
return true
}
return false
}
func (c *Coordinator) handleMsgSyncStats(ctx context.Context, stats *synchronizer.Stats) error {
if !stats.Synced() {
return nil
}
c.txManager.SetLastBlock(stats.Eth.LastBlock.Num)
canForge := c.canForge(stats)
if c.pipeline == nil {
if canForge {
log.Infow("Coordinator: forging state begin", "block", stats.Eth.LastBlock.Num,
"batch", stats.Sync.LastBatch)
batchNum := common.BatchNum(stats.Sync.LastBatch)
var err error
if c.pipeline, err = c.newPipeline(ctx); err != nil {
return tracerr.Wrap(err)
}
if err := c.pipeline.Start(batchNum, stats.Sync.LastForgeL1TxsNum,
stats, &c.vars); err != nil {
c.pipeline = nil
return tracerr.Wrap(err)
}
c.pipelineBatchNum = batchNum
}
} else {
if canForge {
c.pipeline.SetSyncStats(stats)
} else {
log.Infow("Coordinator: forging state end", "block", stats.Eth.LastBlock.Num)
c.pipeline.Stop(c.ctx)
c.pipeline = nil
}
}
return nil
}
func (c *Coordinator) handleStopPipeline(ctx context.Context, reason string) error {
if c.pipeline != nil {
c.pipeline.Stop(c.ctx)
c.pipeline = nil
}
if strings.Contains(reason, common.AuctionErrMsgCannotForge) { //nolint:staticcheck
// TODO: Check that we are in a slot in which we can't forge
}
return nil
}
// Start the coordinator
func (c *Coordinator) Start() {
if c.started {
log.Fatal("Coordinator already started")
}
c.started = true
c.wg.Add(1)
go func() {
c.txManager.Run(c.ctx)
c.wg.Done()
}()
c.wg.Add(1)
go func() {
for {
select {
case <-c.ctx.Done():
log.Info("Coordinator done")
c.wg.Done()
return
case msg := <-c.msgCh:
switch msg := msg.(type) {
case MsgSyncStats:
stats := msg.Stats
if err := c.handleMsgSyncStats(c.ctx, &stats); common.IsErrDone(err) {
continue
} else if err != nil {
log.Errorw("Coordinator.handleMsgSyncStats error", "err", err)
continue
}
case MsgSyncReorg:
if err := c.handleReorg(c.ctx, &msg.Stats); common.IsErrDone(err) {
continue
} else if err != nil {
log.Errorw("Coordinator.handleReorg error", "err", err)
continue
}
case MsgStopPipeline:
log.Infow("Coordinator received MsgStopPipeline", "reason", msg.Reason)
if err := c.handleStopPipeline(c.ctx, msg.Reason); common.IsErrDone(err) {
continue
} else if err != nil {
log.Errorw("Coordinator.handleStopPipeline", "err", err)
}
case MsgSyncSCVars:
c.handleMsgSyncSCVars(&msg)
default:
log.Fatalw("Coordinator Unexpected Coordinator msg of type %T: %+v", msg, msg)
}
}
}
}()
}
const stopCtxTimeout = 200 * time.Millisecond
// Stop the coordinator
func (c *Coordinator) Stop() {
if !c.started {
log.Fatal("Coordinator already stopped")
}
c.started = false
log.Infow("Stopping Coordinator...")
c.cancel()
c.wg.Wait()
if c.pipeline != nil {
ctx, cancel := context.WithTimeout(context.Background(), stopCtxTimeout)
defer cancel()
c.pipeline.Stop(ctx)
c.pipeline = nil
}
}
func (c *Coordinator) handleReorg(ctx context.Context, stats *synchronizer.Stats) error {
if common.BatchNum(stats.Sync.LastBatch) < c.pipelineBatchNum {
// There's been a reorg and the batch from which the pipeline
// was started was in a block that was discarded. The batch
// may not be in the main chain, so we stop the pipeline as a
// precaution (it will be started again once the node is in
// sync).
log.Infow("Coordinator.handleReorg StopPipeline sync.LastBatch < c.pipelineBatchNum",
"sync.LastBatch", stats.Sync.LastBatch,
"c.pipelineBatchNum", c.pipelineBatchNum)
if err := c.handleStopPipeline(ctx, "reorg"); err != nil {
return tracerr.Wrap(err)
}
if err := c.l2DB.Reorg(common.BatchNum(stats.Sync.LastBatch)); err != nil {
return tracerr.Wrap(err)
}
}
return nil
}
// TxManager handles everything related to ethereum transactions: It makes the
// call to forge, waits for transaction confirmation, and keeps checking them
// until a number of confirmed blocks have passed.
type TxManager struct {
cfg Config
ethClient eth.ClientInterface
l2DB *l2db.L2DB // Used only to mark forged txs as forged in the L2DB
coord *Coordinator // Used only to send messages to stop the pipeline
batchCh chan *BatchInfo
lastBlockCh chan int64
queue []*BatchInfo
lastBlock int64
// lastConfirmedBatch stores the last BatchNum that who's forge call was confirmed
lastConfirmedBatch common.BatchNum
}
// NewTxManager creates a new TxManager
func NewTxManager(cfg *Config, ethClient eth.ClientInterface, l2DB *l2db.L2DB,
coord *Coordinator) *TxManager {
return &TxManager{
cfg: *cfg,
ethClient: ethClient,
l2DB: l2DB,
coord: coord,
batchCh: make(chan *BatchInfo, queueLen),
lastBlockCh: make(chan int64, queueLen),
lastBlock: -1,
}
}
// AddBatch is a thread safe method to pass a new batch TxManager to be sent to
// the smart contract via the forge call
func (t *TxManager) AddBatch(batchInfo *BatchInfo) {
t.batchCh <- batchInfo
}
// SetLastBlock is a thread safe method to pass the lastBlock to the TxManager
func (t *TxManager) SetLastBlock(lastBlock int64) {
t.lastBlockCh <- lastBlock
}
func (t *TxManager) rollupForgeBatch(ctx context.Context, batchInfo *BatchInfo) error {
var ethTx *types.Transaction
var err error
for attempt := 0; attempt < t.cfg.EthClientAttempts; attempt++ {
ethTx, err = t.ethClient.RollupForgeBatch(batchInfo.ForgeBatchArgs)
if err != nil {
if strings.Contains(err.Error(), common.AuctionErrMsgCannotForge) {
log.Debugw("TxManager ethClient.RollupForgeBatch", "err", err,
"block", t.lastBlock)
return tracerr.Wrap(err)
}
log.Errorw("TxManager ethClient.RollupForgeBatch",
"attempt", attempt, "err", err, "block", t.lastBlock)
} else {
break
}
select {
case <-ctx.Done():
return tracerr.Wrap(common.ErrDone)
case <-time.After(t.cfg.EthClientAttemptsDelay):
}
}
if err != nil {
return tracerr.Wrap(fmt.Errorf("reached max attempts for ethClient.RollupForgeBatch: %w", err))
}
batchInfo.EthTx = ethTx
log.Infow("TxManager ethClient.RollupForgeBatch", "batch", batchInfo.BatchNum, "tx", ethTx.Hash().Hex())
t.cfg.debugBatchStore(batchInfo)
if err := t.l2DB.DoneForging(l2TxsIDs(batchInfo.L2Txs), batchInfo.BatchNum); err != nil {
return tracerr.Wrap(err)
}
return nil
}
func (t *TxManager) ethTransactionReceipt(ctx context.Context, batchInfo *BatchInfo) error {
txHash := batchInfo.EthTx.Hash()
var receipt *types.Receipt
var err error
for attempt := 0; attempt < t.cfg.EthClientAttempts; attempt++ {
receipt, err = t.ethClient.EthTransactionReceipt(ctx, txHash)
if err != nil {
log.Errorw("TxManager ethClient.EthTransactionReceipt",
"attempt", attempt, "err", err)
} else {
break
}
select {
case <-ctx.Done():
return tracerr.Wrap(common.ErrDone)
case <-time.After(t.cfg.EthClientAttemptsDelay):
}
}
if err != nil {
return tracerr.Wrap(fmt.Errorf("reached max attempts for ethClient.EthTransactionReceipt: %w", err))
}
batchInfo.Receipt = receipt
t.cfg.debugBatchStore(batchInfo)
return nil
}
func (t *TxManager) handleReceipt(batchInfo *BatchInfo) (*int64, error) {
receipt := batchInfo.Receipt
if receipt != nil {
if receipt.Status == types.ReceiptStatusFailed {
log.Errorw("TxManager receipt status is failed", "receipt", receipt)
return nil, tracerr.Wrap(fmt.Errorf("ethereum transaction receipt statis is failed"))
} else if receipt.Status == types.ReceiptStatusSuccessful {
if batchInfo.BatchNum > t.lastConfirmedBatch {
t.lastConfirmedBatch = batchInfo.BatchNum
}
confirm := t.lastBlock - receipt.BlockNumber.Int64()
return &confirm, nil
}
}
return nil, nil
}
const longWaitTime = 999 * time.Hour
// Run the TxManager
func (t *TxManager) Run(ctx context.Context) {
next := 0
waitTime := time.Duration(longWaitTime)
for {
select {
case <-ctx.Done():
log.Info("TxManager done")
return
case lastBlock := <-t.lastBlockCh:
t.lastBlock = lastBlock
case batchInfo := <-t.batchCh:
if err := t.rollupForgeBatch(ctx, batchInfo); common.IsErrDone(err) {
continue
} else if err != nil {
t.coord.SendMsg(MsgStopPipeline{Reason: fmt.Sprintf("forgeBatch call: %v", err)})
continue
}
log.Debugf("ethClient ForgeCall sent, batchNum: %d", batchInfo.BatchNum)
t.queue = append(t.queue, batchInfo)
waitTime = t.cfg.TxManagerCheckInterval
case <-time.After(waitTime):
if len(t.queue) == 0 {
continue
}
current := next
next = (current + 1) % len(t.queue)
batchInfo := t.queue[current]
err := t.ethTransactionReceipt(ctx, batchInfo)
if common.IsErrDone(err) {
continue
} else if err != nil { //nolint:staticcheck
// We can't get the receipt for the
// transaction, so we can't confirm if it was
// mined
t.coord.SendMsg(MsgStopPipeline{Reason: fmt.Sprintf("forgeBatch receipt: %v", err)})
}
confirm, err := t.handleReceipt(batchInfo)
if err != nil { //nolint:staticcheck
// Transaction was rejected
t.coord.SendMsg(MsgStopPipeline{Reason: fmt.Sprintf("forgeBatch reject: %v", err)})
}
if confirm != nil && *confirm >= t.cfg.ConfirmBlocks {
log.Debugw("TxManager tx for RollupForgeBatch confirmed",
"batch", batchInfo.BatchNum)
t.queue = append(t.queue[:current], t.queue[current+1:]...)
if len(t.queue) == 0 {
waitTime = longWaitTime
next = 0
} else {
next = current % len(t.queue)
}
}
}
}
}
// Pipeline manages the forging of batches with parallel server proofs
type Pipeline struct {
cfg Config
consts synchronizer.SCConsts
// state
batchNum common.BatchNum
vars synchronizer.SCVariables
lastScheduledL1BatchBlockNum int64
lastForgeL1TxsNum int64
started bool
proversPool *ProversPool
provers []prover.Client
txManager *TxManager
historyDB *historydb.HistoryDB
l2DB *l2db.L2DB
txSelector *txselector.TxSelector
batchBuilder *batchbuilder.BatchBuilder
stats synchronizer.Stats
statsCh chan synchronizer.Stats
ctx context.Context
wg sync.WaitGroup
cancel context.CancelFunc
}
// NewPipeline creates a new Pipeline
func NewPipeline(ctx context.Context,
cfg Config,
historyDB *historydb.HistoryDB,
l2DB *l2db.L2DB,
txSelector *txselector.TxSelector,
batchBuilder *batchbuilder.BatchBuilder,
txManager *TxManager,
provers []prover.Client,
scConsts *synchronizer.SCConsts,
) (*Pipeline, error) {
proversPool := NewProversPool(len(provers))
proversPoolSize := 0
for _, prover := range provers {
if err := prover.WaitReady(ctx); err != nil {
log.Errorw("prover.WaitReady", "err", err)
} else {
proversPool.Add(prover)
proversPoolSize++
}
}
if proversPoolSize == 0 {
return nil, tracerr.Wrap(fmt.Errorf("no provers in the pool"))
}
return &Pipeline{
cfg: cfg,
historyDB: historyDB,
l2DB: l2DB,
txSelector: txSelector,
batchBuilder: batchBuilder,
provers: provers,
proversPool: proversPool,
txManager: txManager,
consts: *scConsts,
statsCh: make(chan synchronizer.Stats, queueLen),
}, nil
}
// SetSyncStats is a thread safe method to sets the synchronizer Stats
func (p *Pipeline) SetSyncStats(stats *synchronizer.Stats) {
p.statsCh <- *stats
}
// Start the forging pipeline
func (p *Pipeline) Start(batchNum common.BatchNum, lastForgeL1TxsNum int64,
syncStats *synchronizer.Stats, initSCVars *synchronizer.SCVariables) error {
if p.started {
log.Fatal("Pipeline already started")
}
p.started = true
// Reset pipeline state
p.batchNum = batchNum
p.lastForgeL1TxsNum = lastForgeL1TxsNum
p.vars = *initSCVars
p.lastScheduledL1BatchBlockNum = 0
p.ctx, p.cancel = context.WithCancel(context.Background())
err := p.txSelector.Reset(p.batchNum)
if err != nil {
return tracerr.Wrap(err)
}
err = p.batchBuilder.Reset(p.batchNum, true)
if err != nil {
return tracerr.Wrap(err)
}
queueSize := 1
batchChSentServerProof := make(chan *BatchInfo, queueSize)
p.wg.Add(1)
go func() {
for {
select {
case <-p.ctx.Done():
log.Debug("Pipeline forgeSendServerProof loop done")
p.wg.Done()
return
case syncStats := <-p.statsCh:
p.stats = syncStats
default:
p.batchNum = p.batchNum + 1
batchInfo, err := p.forgeSendServerProof(p.ctx, p.batchNum)
if common.IsErrDone(err) {
continue
}
if err != nil {
log.Errorw("forgeSendServerProof", "err", err)
continue
}
batchChSentServerProof <- batchInfo
}
}
}()
p.wg.Add(1)
go func() {
for {
select {
case <-p.ctx.Done():
log.Debug("Pipeline waitServerProofSendEth loop done")
p.wg.Done()
return
case batchInfo := <-batchChSentServerProof:
err := p.waitServerProof(p.ctx, batchInfo)
if common.IsErrDone(err) {
continue
}
if err != nil {
log.Errorw("waitServerProof", "err", err)
continue
}
p.txManager.AddBatch(batchInfo)
}
}
}()
return nil
}
// Stop the forging pipeline
func (p *Pipeline) Stop(ctx context.Context) {
if !p.started {
log.Fatal("Pipeline already stopped")
}
p.started = false
log.Debug("Stopping Pipeline...")
p.cancel()
p.wg.Wait()
for _, prover := range p.provers {
if err := prover.Cancel(ctx); err != nil {
log.Errorw("prover.Cancel", "err", err)
}
}
}
func l2TxsIDs(txs []common.PoolL2Tx) []common.TxID {
txIDs := make([]common.TxID, len(txs))
for i, tx := range txs {
txIDs[i] = tx.TxID
}
return txIDs
}
// forgeSendServerProof the next batch, wait for a proof server to be available and send the
// circuit inputs to the proof server.
func (p *Pipeline) forgeSendServerProof(ctx context.Context, batchNum common.BatchNum) (*BatchInfo, error) {
// remove transactions from the pool that have been there for too long
err := p.l2DB.Purge(common.BatchNum(p.stats.Sync.LastBatch))
if err != nil {
return nil, tracerr.Wrap(err)
}
batchInfo := BatchInfo{BatchNum: batchNum} // to accumulate metadata of the batch
var poolL2Txs []common.PoolL2Tx
// var feesInfo
var l1UserTxsExtra, l1CoordTxs []common.L1Tx
// 1. Decide if we forge L2Tx or L1+L2Tx
if p.shouldL1L2Batch() {
p.lastScheduledL1BatchBlockNum = p.stats.Eth.LastBlock.Num
// 2a: L1+L2 txs
p.lastForgeL1TxsNum++
l1UserTxs, err := p.historyDB.GetL1UserTxs(p.lastForgeL1TxsNum)
if err != nil {
return nil, tracerr.Wrap(err)
}
l1UserTxsExtra, l1CoordTxs, poolL2Txs, err = p.txSelector.GetL1L2TxSelection([]common.Idx{}, batchNum, l1UserTxs) // TODO once feesInfo is added to method return, add the var
if err != nil {
return nil, tracerr.Wrap(err)
}
} else {
// 2b: only L2 txs
l1CoordTxs, poolL2Txs, err = p.txSelector.GetL2TxSelection([]common.Idx{}, batchNum)
if err != nil {
return nil, tracerr.Wrap(err)
}
l1UserTxsExtra = nil
}
// 3. Save metadata from TxSelector output for BatchNum
// TODO feesInfo
batchInfo.L1UserTxsExtra = l1UserTxsExtra
batchInfo.L1CoordTxs = l1CoordTxs
batchInfo.L2Txs = poolL2Txs
if err := p.l2DB.StartForging(l2TxsIDs(batchInfo.L2Txs), batchInfo.BatchNum); err != nil {
return nil, tracerr.Wrap(err)
}
// Run purger to invalidate transactions that become invalid beause of
// the poolL2Txs selected. Will mark as invalid the txs that have a
// (fromIdx, nonce) which already appears in the selected txs (includes
// all the nonces smaller than the current one)
err = p.purgeInvalidDueToL2TxsSelection(poolL2Txs)
if err != nil {
return nil, tracerr.Wrap(err)
}
// 4. Call BatchBuilder with TxSelector output
configBatch := &batchbuilder.ConfigBatch{
ForgerAddress: p.cfg.ForgerAddress,
}
zkInputs, err := p.batchBuilder.BuildBatch([]common.Idx{}, configBatch,
l1UserTxsExtra, l1CoordTxs, poolL2Txs, nil) // TODO []common.TokenID --> feesInfo
if err != nil {
return nil, tracerr.Wrap(err)
}
// 5. Save metadata from BatchBuilder output for BatchNum
batchInfo.ZKInputs = zkInputs
p.cfg.debugBatchStore(&batchInfo)
// 6. Wait for an available server proof blocking call
serverProof, err := p.proversPool.Get(ctx)
if err != nil {
return nil, tracerr.Wrap(err)
}
batchInfo.ServerProof = serverProof
defer func() {
// If there's an error further on, add the serverProof back to
// the pool
if err != nil {
p.proversPool.Add(serverProof)
}
}()
p.cfg.debugBatchStore(&batchInfo)
// 7. Call the selected idle server proof with BatchBuilder output,
// save server proof info for batchNum
err = batchInfo.ServerProof.CalculateProof(zkInputs)
if err != nil {
return nil, tracerr.Wrap(err)
}
return &batchInfo, nil
}
// waitServerProof gets the generated zkProof & sends it to the SmartContract
func (p *Pipeline) waitServerProof(ctx context.Context, batchInfo *BatchInfo) error {
proof, err := batchInfo.ServerProof.GetProof(ctx) // blocking call, until not resolved don't continue. Returns when the proof server has calculated the proof
if err != nil {
return tracerr.Wrap(err)
}
p.proversPool.Add(batchInfo.ServerProof)
batchInfo.ServerProof = nil
batchInfo.Proof = proof
batchInfo.ForgeBatchArgs = p.prepareForgeBatchArgs(batchInfo)
batchInfo.TxStatus = TxStatusPending
p.cfg.debugBatchStore(batchInfo)
return nil
}
func (p *Pipeline) purgeInvalidDueToL2TxsSelection(l2Txs []common.PoolL2Tx) error {
return nil // TODO
}
func (p *Pipeline) shouldL1L2Batch() bool {
// Take the lastL1BatchBlockNum as the biggest between the last
// scheduled one, and the synchronized one.
lastL1BatchBlockNum := p.lastScheduledL1BatchBlockNum
if p.stats.Sync.LastL1BatchBlock > lastL1BatchBlockNum {
lastL1BatchBlockNum = p.stats.Sync.LastL1BatchBlock
}
// Return true if we have passed the l1BatchTimeoutPerc portion of the
// range before the l1batch timeout.
if p.stats.Eth.LastBlock.Num-lastL1BatchBlockNum >=
int64(float64(p.vars.Rollup.ForgeL1L2BatchTimeout)*p.cfg.L1BatchTimeoutPerc) {
return true
}
return false
}
func (p *Pipeline) prepareForgeBatchArgs(batchInfo *BatchInfo) *eth.RollupForgeBatchArgs {
// TODO
return &eth.RollupForgeBatchArgs{}
}