plugeth/miner/worker.go

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// Copyright 2015 The go-ethereum Authors
// This file is part of the go-ethereum library.
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//
// The go-ethereum library is free software: you can redistribute it and/or modify
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// 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,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// 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 <http://www.gnu.org/licenses/>.
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package miner
import (
"bytes"
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"fmt"
"math/big"
"sync"
"sync/atomic"
"time"
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"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/consensus"
"github.com/ethereum/go-ethereum/consensus/misc"
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"github.com/ethereum/go-ethereum/core"
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"github.com/ethereum/go-ethereum/core/state"
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"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/core/vm"
"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/event"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/params"
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"gopkg.in/fatih/set.v0"
)
const (
resultQueueSize = 10
miningLogAtDepth = 5
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// txChanSize is the size of channel listening to NewTxsEvent.
// The number is referenced from the size of tx pool.
txChanSize = 4096
// chainHeadChanSize is the size of channel listening to ChainHeadEvent.
chainHeadChanSize = 10
// chainSideChanSize is the size of channel listening to ChainSideEvent.
chainSideChanSize = 10
)
// Agent can register themself with the worker
type Agent interface {
Work() chan<- *Work
SetReturnCh(chan<- *Result)
Stop()
Start()
GetHashRate() int64
}
// Work is the workers current environment and holds
// all of the current state information
type Work struct {
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config *params.ChainConfig
signer types.Signer
state *state.StateDB // apply state changes here
ancestors *set.Set // ancestor set (used for checking uncle parent validity)
family *set.Set // family set (used for checking uncle invalidity)
uncles *set.Set // uncle set
tcount int // tx count in cycle
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gasPool *core.GasPool // available gas used to pack transactions
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Block *types.Block // the new block
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header *types.Header
txs []*types.Transaction
receipts []*types.Receipt
createdAt time.Time
}
type Result struct {
Work *Work
Block *types.Block
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}
// worker is the main object which takes care of applying messages to the new state
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type worker struct {
config *params.ChainConfig
engine consensus.Engine
mu sync.Mutex
// update loop
mux *event.TypeMux
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txsCh chan core.NewTxsEvent
txsSub event.Subscription
chainHeadCh chan core.ChainHeadEvent
chainHeadSub event.Subscription
chainSideCh chan core.ChainSideEvent
chainSideSub event.Subscription
wg sync.WaitGroup
agents map[Agent]struct{}
recv chan *Result
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eth Backend
chain *core.BlockChain
proc core.Validator
chainDb ethdb.Database
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coinbase common.Address
extra []byte
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currentMu sync.Mutex
current *Work
snapshotMu sync.RWMutex
snapshotBlock *types.Block
snapshotState *state.StateDB
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uncleMu sync.Mutex
possibleUncles map[common.Hash]*types.Block
unconfirmed *unconfirmedBlocks // set of locally mined blocks pending canonicalness confirmations
// atomic status counters
mining int32
atWork int32
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}
func newWorker(config *params.ChainConfig, engine consensus.Engine, coinbase common.Address, eth Backend, mux *event.TypeMux) *worker {
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worker := &worker{
config: config,
engine: engine,
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eth: eth,
mux: mux,
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txsCh: make(chan core.NewTxsEvent, txChanSize),
chainHeadCh: make(chan core.ChainHeadEvent, chainHeadChanSize),
chainSideCh: make(chan core.ChainSideEvent, chainSideChanSize),
chainDb: eth.ChainDb(),
recv: make(chan *Result, resultQueueSize),
chain: eth.BlockChain(),
proc: eth.BlockChain().Validator(),
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possibleUncles: make(map[common.Hash]*types.Block),
coinbase: coinbase,
agents: make(map[Agent]struct{}),
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unconfirmed: newUnconfirmedBlocks(eth.BlockChain(), miningLogAtDepth),
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}
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// Subscribe NewTxsEvent for tx pool
worker.txsSub = eth.TxPool().SubscribeNewTxsEvent(worker.txsCh)
// Subscribe events for blockchain
worker.chainHeadSub = eth.BlockChain().SubscribeChainHeadEvent(worker.chainHeadCh)
worker.chainSideSub = eth.BlockChain().SubscribeChainSideEvent(worker.chainSideCh)
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go worker.update()
go worker.wait()
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worker.commitNewWork()
return worker
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}
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func (self *worker) setEtherbase(addr common.Address) {
self.mu.Lock()
defer self.mu.Unlock()
self.coinbase = addr
}
func (self *worker) setExtra(extra []byte) {
self.mu.Lock()
defer self.mu.Unlock()
self.extra = extra
}
func (self *worker) pending() (*types.Block, *state.StateDB) {
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if atomic.LoadInt32(&self.mining) == 0 {
// return a snapshot to avoid contention on currentMu mutex
self.snapshotMu.RLock()
defer self.snapshotMu.RUnlock()
return self.snapshotBlock, self.snapshotState.Copy()
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}
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self.currentMu.Lock()
defer self.currentMu.Unlock()
return self.current.Block, self.current.state.Copy()
}
func (self *worker) pendingBlock() *types.Block {
if atomic.LoadInt32(&self.mining) == 0 {
// return a snapshot to avoid contention on currentMu mutex
self.snapshotMu.RLock()
defer self.snapshotMu.RUnlock()
return self.snapshotBlock
}
self.currentMu.Lock()
defer self.currentMu.Unlock()
return self.current.Block
}
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func (self *worker) start() {
self.mu.Lock()
defer self.mu.Unlock()
atomic.StoreInt32(&self.mining, 1)
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// spin up agents
for agent := range self.agents {
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agent.Start()
}
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}
func (self *worker) stop() {
self.wg.Wait()
self.mu.Lock()
defer self.mu.Unlock()
if atomic.LoadInt32(&self.mining) == 1 {
for agent := range self.agents {
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agent.Stop()
}
}
atomic.StoreInt32(&self.mining, 0)
atomic.StoreInt32(&self.atWork, 0)
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}
func (self *worker) register(agent Agent) {
self.mu.Lock()
defer self.mu.Unlock()
self.agents[agent] = struct{}{}
agent.SetReturnCh(self.recv)
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}
func (self *worker) unregister(agent Agent) {
self.mu.Lock()
defer self.mu.Unlock()
delete(self.agents, agent)
agent.Stop()
}
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func (self *worker) update() {
defer self.txsSub.Unsubscribe()
defer self.chainHeadSub.Unsubscribe()
defer self.chainSideSub.Unsubscribe()
for {
// A real event arrived, process interesting content
select {
// Handle ChainHeadEvent
case <-self.chainHeadCh:
self.commitNewWork()
// Handle ChainSideEvent
case ev := <-self.chainSideCh:
self.uncleMu.Lock()
self.possibleUncles[ev.Block.Hash()] = ev.Block
self.uncleMu.Unlock()
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// Handle NewTxsEvent
case ev := <-self.txsCh:
// Apply transactions to the pending state if we're not mining.
//
// Note all transactions received may not be continuous with transactions
// already included in the current mining block. These transactions will
// be automatically eliminated.
if atomic.LoadInt32(&self.mining) == 0 {
self.currentMu.Lock()
txs := make(map[common.Address]types.Transactions)
for _, tx := range ev.Txs {
acc, _ := types.Sender(self.current.signer, tx)
txs[acc] = append(txs[acc], tx)
}
txset := types.NewTransactionsByPriceAndNonce(self.current.signer, txs)
self.current.commitTransactions(self.mux, txset, self.chain, self.coinbase)
self.updateSnapshot()
self.currentMu.Unlock()
} else {
// If we're mining, but nothing is being processed, wake on new transactions
if self.config.Clique != nil && self.config.Clique.Period == 0 {
self.commitNewWork()
}
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}
// System stopped
case <-self.txsSub.Err():
return
case <-self.chainHeadSub.Err():
return
case <-self.chainSideSub.Err():
return
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}
}
}
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func (self *worker) wait() {
for {
for result := range self.recv {
atomic.AddInt32(&self.atWork, -1)
if result == nil {
continue
}
block := result.Block
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work := result.Work
// Update the block hash in all logs since it is now available and not when the
// receipt/log of individual transactions were created.
for _, r := range work.receipts {
for _, l := range r.Logs {
l.BlockHash = block.Hash()
}
}
for _, log := range work.state.Logs() {
log.BlockHash = block.Hash()
}
stat, err := self.chain.WriteBlockWithState(block, work.receipts, work.state)
if err != nil {
log.Error("Failed writing block to chain", "err", err)
continue
}
// Broadcast the block and announce chain insertion event
self.mux.Post(core.NewMinedBlockEvent{Block: block})
var (
events []interface{}
logs = work.state.Logs()
)
events = append(events, core.ChainEvent{Block: block, Hash: block.Hash(), Logs: logs})
if stat == core.CanonStatTy {
events = append(events, core.ChainHeadEvent{Block: block})
}
self.chain.PostChainEvents(events, logs)
// Insert the block into the set of pending ones to wait for confirmations
self.unconfirmed.Insert(block.NumberU64(), block.Hash())
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}
}
}
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// push sends a new work task to currently live miner agents.
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func (self *worker) push(work *Work) {
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if atomic.LoadInt32(&self.mining) != 1 {
return
}
for agent := range self.agents {
atomic.AddInt32(&self.atWork, 1)
if ch := agent.Work(); ch != nil {
ch <- work
}
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}
}
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// makeCurrent creates a new environment for the current cycle.
func (self *worker) makeCurrent(parent *types.Block, header *types.Header) error {
state, err := self.chain.StateAt(parent.Root())
if err != nil {
return err
}
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work := &Work{
config: self.config,
signer: types.NewEIP155Signer(self.config.ChainID),
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state: state,
ancestors: set.New(),
family: set.New(),
uncles: set.New(),
header: header,
createdAt: time.Now(),
}
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// when 08 is processed ancestors contain 07 (quick block)
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for _, ancestor := range self.chain.GetBlocksFromHash(parent.Hash(), 7) {
for _, uncle := range ancestor.Uncles() {
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work.family.Add(uncle.Hash())
}
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work.family.Add(ancestor.Hash())
work.ancestors.Add(ancestor.Hash())
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}
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// Keep track of transactions which return errors so they can be removed
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work.tcount = 0
self.current = work
return nil
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}
func (self *worker) commitNewWork() {
self.mu.Lock()
defer self.mu.Unlock()
self.uncleMu.Lock()
defer self.uncleMu.Unlock()
self.currentMu.Lock()
defer self.currentMu.Unlock()
tstart := time.Now()
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parent := self.chain.CurrentBlock()
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tstamp := tstart.Unix()
if parent.Time().Cmp(new(big.Int).SetInt64(tstamp)) >= 0 {
tstamp = parent.Time().Int64() + 1
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}
// this will ensure we're not going off too far in the future
if now := time.Now().Unix(); tstamp > now+1 {
wait := time.Duration(tstamp-now) * time.Second
log.Info("Mining too far in the future", "wait", common.PrettyDuration(wait))
time.Sleep(wait)
}
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num := parent.Number()
header := &types.Header{
ParentHash: parent.Hash(),
Number: num.Add(num, common.Big1),
GasLimit: core.CalcGasLimit(parent),
Extra: self.extra,
Time: big.NewInt(tstamp),
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}
// Only set the coinbase if we are mining (avoid spurious block rewards)
if atomic.LoadInt32(&self.mining) == 1 {
header.Coinbase = self.coinbase
}
if err := self.engine.Prepare(self.chain, header); err != nil {
log.Error("Failed to prepare header for mining", "err", err)
return
}
// If we are care about TheDAO hard-fork check whether to override the extra-data or not
if daoBlock := self.config.DAOForkBlock; daoBlock != nil {
// Check whether the block is among the fork extra-override range
limit := new(big.Int).Add(daoBlock, params.DAOForkExtraRange)
if header.Number.Cmp(daoBlock) >= 0 && header.Number.Cmp(limit) < 0 {
// Depending whether we support or oppose the fork, override differently
if self.config.DAOForkSupport {
header.Extra = common.CopyBytes(params.DAOForkBlockExtra)
} else if bytes.Equal(header.Extra, params.DAOForkBlockExtra) {
header.Extra = []byte{} // If miner opposes, don't let it use the reserved extra-data
}
}
}
// Could potentially happen if starting to mine in an odd state.
err := self.makeCurrent(parent, header)
if err != nil {
log.Error("Failed to create mining context", "err", err)
return
}
// Create the current work task and check any fork transitions needed
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work := self.current
if self.config.DAOForkSupport && self.config.DAOForkBlock != nil && self.config.DAOForkBlock.Cmp(header.Number) == 0 {
misc.ApplyDAOHardFork(work.state)
}
pending, err := self.eth.TxPool().Pending()
if err != nil {
log.Error("Failed to fetch pending transactions", "err", err)
return
}
txs := types.NewTransactionsByPriceAndNonce(self.current.signer, pending)
work.commitTransactions(self.mux, txs, self.chain, self.coinbase)
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// compute uncles for the new block.
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var (
uncles []*types.Header
badUncles []common.Hash
)
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for hash, uncle := range self.possibleUncles {
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if len(uncles) == 2 {
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break
}
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if err := self.commitUncle(work, uncle.Header()); err != nil {
log.Trace("Bad uncle found and will be removed", "hash", hash)
log.Trace(fmt.Sprint(uncle))
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badUncles = append(badUncles, hash)
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} else {
log.Debug("Committing new uncle to block", "hash", hash)
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uncles = append(uncles, uncle.Header())
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}
}
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for _, hash := range badUncles {
delete(self.possibleUncles, hash)
}
// Create the new block to seal with the consensus engine
if work.Block, err = self.engine.Finalize(self.chain, header, work.state, work.txs, uncles, work.receipts); err != nil {
log.Error("Failed to finalize block for sealing", "err", err)
return
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}
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// We only care about logging if we're actually mining.
if atomic.LoadInt32(&self.mining) == 1 {
log.Info("Commit new mining work", "number", work.Block.Number(), "txs", work.tcount, "uncles", len(uncles), "elapsed", common.PrettyDuration(time.Since(tstart)))
self.unconfirmed.Shift(work.Block.NumberU64() - 1)
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}
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self.push(work)
self.updateSnapshot()
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}
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func (self *worker) commitUncle(work *Work, uncle *types.Header) error {
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hash := uncle.Hash()
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if work.uncles.Has(hash) {
return fmt.Errorf("uncle not unique")
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}
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if !work.ancestors.Has(uncle.ParentHash) {
return fmt.Errorf("uncle's parent unknown (%x)", uncle.ParentHash[0:4])
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}
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if work.family.Has(hash) {
return fmt.Errorf("uncle already in family (%x)", hash)
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}
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work.uncles.Add(uncle.Hash())
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return nil
}
func (self *worker) updateSnapshot() {
self.snapshotMu.Lock()
defer self.snapshotMu.Unlock()
self.snapshotBlock = types.NewBlock(
self.current.header,
self.current.txs,
nil,
self.current.receipts,
)
self.snapshotState = self.current.state.Copy()
}
func (env *Work) commitTransactions(mux *event.TypeMux, txs *types.TransactionsByPriceAndNonce, bc *core.BlockChain, coinbase common.Address) {
if env.gasPool == nil {
env.gasPool = new(core.GasPool).AddGas(env.header.GasLimit)
}
var coalescedLogs []*types.Log
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for {
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// If we don't have enough gas for any further transactions then we're done
if env.gasPool.Gas() < params.TxGas {
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log.Trace("Not enough gas for further transactions", "have", env.gasPool, "want", params.TxGas)
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break
}
// Retrieve the next transaction and abort if all done
tx := txs.Peek()
if tx == nil {
break
}
// Error may be ignored here. The error has already been checked
// during transaction acceptance is the transaction pool.
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//
// We use the eip155 signer regardless of the current hf.
from, _ := types.Sender(env.signer, tx)
// Check whether the tx is replay protected. If we're not in the EIP155 hf
// phase, start ignoring the sender until we do.
if tx.Protected() && !env.config.IsEIP155(env.header.Number) {
log.Trace("Ignoring reply protected transaction", "hash", tx.Hash(), "eip155", env.config.EIP155Block)
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txs.Pop()
continue
}
// Start executing the transaction
env.state.Prepare(tx.Hash(), common.Hash{}, env.tcount)
err, logs := env.commitTransaction(tx, bc, coinbase, env.gasPool)
switch err {
case core.ErrGasLimitReached:
// Pop the current out-of-gas transaction without shifting in the next from the account
log.Trace("Gas limit exceeded for current block", "sender", from)
txs.Pop()
case core.ErrNonceTooLow:
// New head notification data race between the transaction pool and miner, shift
log.Trace("Skipping transaction with low nonce", "sender", from, "nonce", tx.Nonce())
txs.Shift()
case core.ErrNonceTooHigh:
// Reorg notification data race between the transaction pool and miner, skip account =
log.Trace("Skipping account with hight nonce", "sender", from, "nonce", tx.Nonce())
txs.Pop()
case nil:
// Everything ok, collect the logs and shift in the next transaction from the same account
coalescedLogs = append(coalescedLogs, logs...)
env.tcount++
txs.Shift()
default:
// Strange error, discard the transaction and get the next in line (note, the
// nonce-too-high clause will prevent us from executing in vain).
log.Debug("Transaction failed, account skipped", "hash", tx.Hash(), "err", err)
txs.Shift()
}
}
if len(coalescedLogs) > 0 || env.tcount > 0 {
// make a copy, the state caches the logs and these logs get "upgraded" from pending to mined
// logs by filling in the block hash when the block was mined by the local miner. This can
// cause a race condition if a log was "upgraded" before the PendingLogsEvent is processed.
cpy := make([]*types.Log, len(coalescedLogs))
for i, l := range coalescedLogs {
cpy[i] = new(types.Log)
*cpy[i] = *l
}
go func(logs []*types.Log, tcount int) {
if len(logs) > 0 {
mux.Post(core.PendingLogsEvent{Logs: logs})
}
if tcount > 0 {
mux.Post(core.PendingStateEvent{})
}
}(cpy, env.tcount)
}
}
func (env *Work) commitTransaction(tx *types.Transaction, bc *core.BlockChain, coinbase common.Address, gp *core.GasPool) (error, []*types.Log) {
snap := env.state.Snapshot()
receipt, _, err := core.ApplyTransaction(env.config, bc, &coinbase, gp, env.state, env.header, tx, &env.header.GasUsed, vm.Config{})
if err != nil {
env.state.RevertToSnapshot(snap)
return err, nil
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}
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env.txs = append(env.txs, tx)
env.receipts = append(env.receipts, receipt)
return nil, receipt.Logs
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}