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package coordinator
import ( "context" "fmt" "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/eth" "github.com/hermeznetwork/hermez-node/log" "github.com/hermeznetwork/hermez-node/txselector" )
var errTODO = fmt.Errorf("TODO")
// ErrStop is returned when the function is stopped asynchronously via the stop
// channel. It doesn't indicate an error.
var ErrStop = fmt.Errorf("Stopped")
// Config contains the Coordinator configuration
type Config struct { ForgerAddress ethCommon.Address }
// Coordinator implements the Coordinator type
type Coordinator struct { forging bool // rw *sync.RWMutex
// isForgeSeq bool // WIP just for testing while implementing
config Config
batchNum common.BatchNum serverProofPool *ServerProofPool
// synchronizer *synchronizer.Synchronizer
hdb *historydb.HistoryDB txsel *txselector.TxSelector batchBuilder *batchbuilder.BatchBuilder
ethClient eth.ClientInterface ethTxs []*types.Transaction // ethTxStore kvdb.Storage
}
// NewCoordinator creates a new Coordinator
func NewCoordinator(conf Config, hdb *historydb.HistoryDB, txsel *txselector.TxSelector, bb *batchbuilder.BatchBuilder, serverProofs []ServerProofInterface, ethClient eth.ClientInterface) *Coordinator { // once synchronizer is ready, synchronizer.Synchronizer will be passed as parameter here
serverProofPool := NewServerProofPool(len(serverProofs)) for _, serverProof := range serverProofs { serverProofPool.Add(serverProof) } c := Coordinator{ config: conf, serverProofPool: serverProofPool, hdb: hdb, txsel: txsel, batchBuilder: bb, ethClient: ethClient,
ethTxs: make([]*types.Transaction, 0), // ethTxStore: memory.NewMemoryStorage(),
// rw: &sync.RWMutex{},
} return &c }
// TODO(Edu): Change the current design of the coordinator structur:
// - Move Start and Stop functions (from node/node.go) here
// - Add concept of StartPipeline, StopPipeline, that spawns and stops the goroutines
// - Add a Manager that calls StartPipeline and StopPipeline, checks when it's time to forge, schedules new batches, etc.
// - Add a TxMonitor that monitors successful ForgeBatch ethereum transactions and waits for N blocks of confirmation, and reports back errors to the Manager.
// ForgeLoopFn is the function ran in a loop that checks if it's time to forge
// and forges a batch if so and sends it to outBatchCh. Returns true if it's
// the coordinator turn to forge.
func (c *Coordinator) ForgeLoopFn(outBatchCh chan *BatchInfo, stopCh chan bool) (forgetime bool, err error) { // TODO: Move the logic to check if it's forge time or not outside the pipeline
isForgeSequence, err := c.isForgeSequence() if err != nil { return false, err } if !isForgeSequence { if c.forging { log.Info("ForgeLoopFn: forging state end") c.forging = false } log.Debug("ForgeLoopFn: not in forge time") return false, nil } log.Debug("ForgeLoopFn: forge time") if !c.forging { // Start pipeline from a batchNum state taken from synchronizer
log.Info("ForgeLoopFn: forging state begin") // c.batchNum = c.hdb.GetLastBatchNum() // uncomment when HistoryDB is ready
err := c.txsel.Reset(c.batchNum) if err != nil { log.Errorw("ForgeLoopFn: TxSelector.Reset", "error", err) return true, err } err = c.batchBuilder.Reset(c.batchNum, true) if err != nil { log.Errorw("ForgeLoopFn: BatchBuilder.Reset", "error", err) return true, err } // c.batchQueue = NewBatchQueue()
c.forging = true } // TODO once synchronizer has this method ready:
// If there's been a reorg, handle it
// handleReorg() function decides if the reorg must restart the pipeline or not
// if c.synchronizer.Reorg():
_ = c.handleReorg()
defer func() { if err == ErrStop { log.Info("ForgeLoopFn: forgeLoopFn stopped") } }()
// 0. Wait for an available server proof
// blocking call
serverProof, err := c.serverProofPool.Get(stopCh) if err != nil { return true, err } defer func() { if !forgetime || err != nil { c.serverProofPool.Add(serverProof) } }()
log.Debugw("ForgeLoopFn: using serverProof", "server", serverProof) log.Debugw("ForgeLoopFn: forge start") // forge for batchNum = batchNum + 1.
batchInfo, err := c.forge(serverProof) if err != nil { log.Errorw("forge", "error", err) return true, err } log.Debugw("ForgeLoopFn: forge end", "batchNum", batchInfo.batchNum) outBatchCh <- batchInfo return true, nil }
// GetProofCallForgeLoopFn is the function ran in a loop that gets a forged
// batch via inBatchCh, waits for the proof server to finish, calls the ForgeBatch
// function in the Rollup Smart Contract, and sends the batch to outBatchCh.
func (c *Coordinator) GetProofCallForgeLoopFn(inBatchCh, outBatchCh chan *BatchInfo, stopCh chan bool) (err error) { defer func() { if err == ErrStop { log.Info("GetProofCallForgeLoopFn: forgeLoopFn stopped") } }() select { case <-stopCh: return ErrStop case batchInfo := <-inBatchCh: log.Debugw("GetProofCallForgeLoopFn: getProofCallForge start", "batchNum", batchInfo.batchNum) if err := c.getProofCallForge(batchInfo, stopCh); err != nil { return err } log.Debugw("GetProofCallForgeLoopFn: getProofCallForge end", "batchNum", batchInfo.batchNum) outBatchCh <- batchInfo } return nil }
// ForgeCallConfirmLoopFn is the function ran in a loop that gets a batch that
// has been sent to the Rollup Smart Contract via inBatchCh and waits for the
// ethereum transaction confirmation.
func (c *Coordinator) ForgeCallConfirmLoopFn(inBatchCh chan *BatchInfo, stopCh chan bool) (err error) { defer func() { if err == ErrStop { log.Info("ForgeCallConfirmLoopFn: forgeConfirmLoopFn stopped") } }() select { case <-stopCh: return ErrStop case batchInfo := <-inBatchCh: log.Debugw("ForgeCallConfirmLoopFn: forgeCallConfirm start", "batchNum", batchInfo.batchNum) if err := c.forgeCallConfirm(batchInfo, stopCh); err != nil { return err } log.Debugw("ForgeCallConfirmLoopFn: forgeCallConfirm end", "batchNum", batchInfo.batchNum) } return nil }
func (c *Coordinator) forge(serverProof ServerProofInterface) (*BatchInfo, error) { // remove transactions from the pool that have been there for too long
err := c.purgeRemoveByTimeout() if err != nil { return nil, err }
c.batchNum = c.batchNum + 1 batchInfo := NewBatchInfo(c.batchNum, serverProof) // to accumulate metadata of the batch
var poolL2Txs []common.PoolL2Tx // var feesInfo
var l1UserTxsExtra, l1OperatorTxs []common.L1Tx // 1. Decide if we forge L2Tx or L1+L2Tx
if c.shouldL1L2Batch() { // 2a: L1+L2 txs
// l1UserTxs, toForgeL1TxsNumber := c.hdb.GetNextL1UserTxs() // TODO once HistoryDB is ready, uncomment
var l1UserTxs []common.L1Tx = nil // tmp, depends on HistoryDB
l1UserTxsExtra, l1OperatorTxs, poolL2Txs, err = c.txsel.GetL1L2TxSelection(c.batchNum, l1UserTxs) // TODO once feesInfo is added to method return, add the var
if err != nil { return nil, err } } else { // 2b: only L2 txs
poolL2Txs, err = c.txsel.GetL2TxSelection(c.batchNum) // TODO once feesInfo is added to method return, add the var
if err != nil { return nil, err } l1UserTxsExtra = nil l1OperatorTxs = nil }
// 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 = c.purgeInvalidDueToL2TxsSelection(poolL2Txs) if err != nil { return nil, err }
// 3. Save metadata from TxSelector output for BatchNum
batchInfo.SetTxsInfo(l1UserTxsExtra, l1OperatorTxs, poolL2Txs) // TODO feesInfo
// 4. Call BatchBuilder with TxSelector output
configBatch := &batchbuilder.ConfigBatch{ ForgerAddress: c.config.ForgerAddress, } zkInputs, err := c.batchBuilder.BuildBatch(configBatch, l1UserTxsExtra, l1OperatorTxs, poolL2Txs, nil) // TODO []common.TokenID --> feesInfo
if err != nil { return nil, err }
// 5. Save metadata from BatchBuilder output for BatchNum
batchInfo.SetZKInputs(zkInputs)
// 6. Call an idle server proof with BatchBuilder output, save server proof info for batchNum
err = batchInfo.serverProof.CalculateProof(zkInputs) if err != nil { return nil, err }
return &batchInfo, nil }
// getProofCallForge gets the generated zkProof & sends it to the SmartContract
func (c *Coordinator) getProofCallForge(batchInfo *BatchInfo, stopCh chan bool) error { serverProof := batchInfo.serverProof proof, err := serverProof.GetProof(stopCh) // blocking call, until not resolved don't continue. Returns when the proof server has calculated the proof
c.serverProofPool.Add(serverProof) batchInfo.serverProof = nil if err != nil { return err } batchInfo.SetProof(proof) forgeBatchArgs := c.prepareForgeBatchArgs(batchInfo) ethTx, err := c.ethClient.RollupForgeBatch(forgeBatchArgs) if err != nil { return err } // TODO: Move this to the next step (forgeCallConfirm)
log.Debugf("ethClient ForgeCall sent, batchNum: %d", c.batchNum) batchInfo.SetEthTx(ethTx)
// TODO(FUTURE) once tx data type is defined, store ethTx (returned by ForgeCall)
// TBD if use ethTxStore as a disk k-v database, or use a Queue
// tx, err := c.ethTxStore.NewTx()
// if err != nil {
// return err
// }
// tx.Put(ethTx.Hash(), ethTx.Bytes())
// if err := tx.Commit(); err!=nil {
// return nil
// }
return nil }
func (c *Coordinator) forgeCallConfirm(batchInfo *BatchInfo, stopCh chan bool) error { // TODO strategy of this sequence TBD
// confirm eth txs and mark them as accepted sequence
// IDEA: Keep an array in Coordinator with the list of sent ethTx.
// Here, loop over them and only delete them once the number of
// confirmed blocks is over a configured value. If the tx is rejected,
// return error.
// ethTx := ethTxStore.GetFirstPending()
// waitForAccepted(ethTx) // blocking call, returns once the ethTx is mined
// ethTxStore.MarkAccepted(ethTx)
txID := batchInfo.ethTx.Hash() // TODO: Follow EthereumClient.waitReceipt logic
count := 0 // TODO: Define this waitTime in the config
waitTime := 100 * time.Millisecond //nolint:gomnd
select { case <-time.After(waitTime): receipt, err := c.ethClient.EthTransactionReceipt(context.TODO(), txID) if err != nil { return err } if receipt != nil { if receipt.Status == types.ReceiptStatusFailed { return fmt.Errorf("receipt status is failed") } else if receipt.Status == types.ReceiptStatusSuccessful { return nil } } // TODO: Call go-ethereum:
// if err == nil && receipt == nil :
// `func (ec *Client) TransactionByHash(ctx context.Context, hash common.Hash) (tx *types.Transaction, isPending bool, err error) {`
count++ if time.Duration(count)*waitTime > 60*time.Second { log.Warnw("Waiting for ethTx receipt for more than 60 seconds", "tx", batchInfo.ethTx) // TODO: Decide if we resend the Tx with higher gas price
} case <-stopCh: return ErrStop } return fmt.Errorf("timeout") }
func (c *Coordinator) handleReorg() error { return nil // TODO
}
// isForgeSequence returns true if the node is the Forger in the current ethereum block
func (c *Coordinator) isForgeSequence() (bool, error) { // TODO: Consider checking if we can forge by quering the Synchronizer instead of using ethClient
blockNum, err := c.ethClient.EthCurrentBlock() if err != nil { return false, err } addr, err := c.ethClient.EthAddress() if err != nil { return false, err } return c.ethClient.AuctionCanForge(*addr, blockNum+1) }
func (c *Coordinator) purgeRemoveByTimeout() error { return nil // TODO
}
func (c *Coordinator) purgeInvalidDueToL2TxsSelection(l2Txs []common.PoolL2Tx) error { return nil // TODO
}
func (c *Coordinator) shouldL1L2Batch() bool { return false // TODO
}
func (c *Coordinator) prepareForgeBatchArgs(batchInfo *BatchInfo) *eth.RollupForgeBatchArgs { // TODO
return ð.RollupForgeBatchArgs{} }
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