// Copyright 2023 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package catalyst import ( "errors" "sync" "time" "github.com/ethereum/go-ethereum/beacon/engine" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rpc" ) const devEpochLength = 32 // withdrawalQueue implements a FIFO queue which holds withdrawals that are // pending inclusion. type withdrawalQueue struct { pending chan *types.Withdrawal } // add queues a withdrawal for future inclusion. func (w *withdrawalQueue) add(withdrawal *types.Withdrawal) error { select { case w.pending <- withdrawal: break default: return errors.New("withdrawal queue full") } return nil } // gatherPending returns a number of queued withdrawals up to a maximum count. func (w *withdrawalQueue) gatherPending(maxCount int) []*types.Withdrawal { withdrawals := []*types.Withdrawal{} for { select { case withdrawal := <-w.pending: withdrawals = append(withdrawals, withdrawal) if len(withdrawals) == maxCount { break } default: return withdrawals } } } type SimulatedBeacon struct { shutdownCh chan struct{} eth *eth.Ethereum period uint64 withdrawals withdrawalQueue feeRecipient common.Address feeRecipientLock sync.Mutex // lock gates concurrent access to the feeRecipient engineAPI *ConsensusAPI curForkchoiceState engine.ForkchoiceStateV1 lastBlockTime uint64 } func NewSimulatedBeacon(period uint64, eth *eth.Ethereum) (*SimulatedBeacon, error) { chainConfig := eth.APIBackend.ChainConfig() if !chainConfig.IsDevMode { return nil, errors.New("incompatible pre-existing chain configuration") } block := eth.BlockChain().CurrentBlock() current := engine.ForkchoiceStateV1{ HeadBlockHash: block.Hash(), SafeBlockHash: block.Hash(), FinalizedBlockHash: block.Hash(), } engineAPI := newConsensusAPIWithoutHeartbeat(eth) // if genesis block, send forkchoiceUpdated to trigger transition to PoS if block.Number.Sign() == 0 { if _, err := engineAPI.ForkchoiceUpdatedV2(current, nil); err != nil { return nil, err } } return &SimulatedBeacon{ eth: eth, period: period, shutdownCh: make(chan struct{}), engineAPI: engineAPI, lastBlockTime: block.Time, curForkchoiceState: current, withdrawals: withdrawalQueue{make(chan *types.Withdrawal, 20)}, }, nil } func (c *SimulatedBeacon) setFeeRecipient(feeRecipient common.Address) { c.feeRecipientLock.Lock() c.feeRecipient = feeRecipient c.feeRecipientLock.Unlock() } // Start invokes the SimulatedBeacon life-cycle function in a goroutine. func (c *SimulatedBeacon) Start() error { if c.period == 0 { go c.loopOnDemand() } else { go c.loop() } return nil } // Stop halts the SimulatedBeacon service. func (c *SimulatedBeacon) Stop() error { close(c.shutdownCh) return nil } // sealBlock initiates payload building for a new block and creates a new block // with the completed payload. func (c *SimulatedBeacon) sealBlock(withdrawals []*types.Withdrawal) error { tstamp := uint64(time.Now().Unix()) if tstamp <= c.lastBlockTime { tstamp = c.lastBlockTime + 1 } c.feeRecipientLock.Lock() feeRecipient := c.feeRecipient c.feeRecipientLock.Unlock() // Reset to CurrentBlock in case of the chain was rewound if header := c.eth.BlockChain().CurrentBlock(); c.curForkchoiceState.HeadBlockHash != header.Hash() { finalizedHash := c.finalizedBlockHash(header.Number.Uint64()) c.setCurrentState(header.Hash(), *finalizedHash) } fcResponse, err := c.engineAPI.ForkchoiceUpdatedV2(c.curForkchoiceState, &engine.PayloadAttributes{ Timestamp: tstamp, SuggestedFeeRecipient: feeRecipient, Withdrawals: withdrawals, }) if err != nil { return err } if fcResponse == engine.STATUS_SYNCING { return errors.New("chain rewind prevented invocation of payload creation") } envelope, err := c.engineAPI.getPayload(*fcResponse.PayloadID, true) if err != nil { return err } payload := envelope.ExecutionPayload var finalizedHash common.Hash if payload.Number%devEpochLength == 0 { finalizedHash = payload.BlockHash } else { if fh := c.finalizedBlockHash(payload.Number); fh == nil { return errors.New("chain rewind interrupted calculation of finalized block hash") } else { finalizedHash = *fh } } // Mark the payload as canon if _, err = c.engineAPI.NewPayloadV2(*payload); err != nil { return err } c.setCurrentState(payload.BlockHash, finalizedHash) // Mark the block containing the payload as canonical if _, err = c.engineAPI.ForkchoiceUpdatedV2(c.curForkchoiceState, nil); err != nil { return err } c.lastBlockTime = payload.Timestamp return nil } // loopOnDemand runs the block production loop for "on-demand" configuration (period = 0) func (c *SimulatedBeacon) loopOnDemand() { var ( newTxs = make(chan core.NewTxsEvent) sub = c.eth.TxPool().SubscribeNewTxsEvent(newTxs) ) defer sub.Unsubscribe() for { select { case <-c.shutdownCh: return case w := <-c.withdrawals.pending: withdrawals := append(c.withdrawals.gatherPending(9), w) if err := c.sealBlock(withdrawals); err != nil { log.Warn("Error performing sealing work", "err", err) } case <-newTxs: withdrawals := c.withdrawals.gatherPending(10) if err := c.sealBlock(withdrawals); err != nil { log.Warn("Error performing sealing work", "err", err) } } } } // loop runs the block production loop for non-zero period configuration func (c *SimulatedBeacon) loop() { timer := time.NewTimer(0) for { select { case <-c.shutdownCh: return case <-timer.C: withdrawals := c.withdrawals.gatherPending(10) if err := c.sealBlock(withdrawals); err != nil { log.Warn("Error performing sealing work", "err", err) } else { timer.Reset(time.Second * time.Duration(c.period)) } } } } // finalizedBlockHash returns the block hash of the finalized block corresponding to the given number // or nil if doesn't exist in the chain. func (c *SimulatedBeacon) finalizedBlockHash(number uint64) *common.Hash { var finalizedNumber uint64 if number%devEpochLength == 0 { finalizedNumber = number } else { finalizedNumber = (number - 1) / devEpochLength * devEpochLength } if finalizedBlock := c.eth.BlockChain().GetBlockByNumber(finalizedNumber); finalizedBlock != nil { fh := finalizedBlock.Hash() return &fh } return nil } // setCurrentState sets the current forkchoice state func (c *SimulatedBeacon) setCurrentState(headHash, finalizedHash common.Hash) { c.curForkchoiceState = engine.ForkchoiceStateV1{ HeadBlockHash: headHash, SafeBlockHash: headHash, FinalizedBlockHash: finalizedHash, } } func RegisterSimulatedBeaconAPIs(stack *node.Node, sim *SimulatedBeacon) { stack.RegisterAPIs([]rpc.API{ { Namespace: "dev", Service: &api{sim}, Version: "1.0", }, }) }