go-ethereum/miner/worker.go

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package miner
import (
"fmt"
"math/big"
"sort"
"sync"
"sync/atomic"
"time"
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"github.com/ethereum/go-ethereum/accounts"
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"github.com/ethereum/go-ethereum/common"
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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/event"
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"github.com/ethereum/go-ethereum/logger"
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"github.com/ethereum/go-ethereum/logger/glog"
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"github.com/ethereum/go-ethereum/pow"
"gopkg.in/fatih/set.v0"
)
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var jsonlogger = logger.NewJsonLogger()
// Work holds the current work
type Work struct {
Number uint64
Nonce uint64
MixDigest []byte
SeedHash []byte
}
// Agent can register themself with the worker
type Agent interface {
Work() chan<- *types.Block
SetReturnCh(chan<- *types.Block)
Stop()
Start()
GetHashRate() int64
}
const miningLogAtDepth = 5
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type uint64RingBuffer struct {
ints []uint64 //array of all integers in buffer
next int //where is the next insertion? assert 0 <= next < len(ints)
}
// environment is the workers current environment and holds
// all of the current state information
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type environment struct {
totalUsedGas *big.Int // total gas usage in the cycle
state *state.StateDB // apply state changes here
coinbase *state.StateObject // the miner's account
block *types.Block // the new block
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
remove *set.Set // tx which will be removed
tcount int // tx count in cycle
ignoredTransactors *set.Set
lowGasTransactors *set.Set
ownedAccounts *set.Set
lowGasTxs types.Transactions
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localMinedBlocks *uint64RingBuffer // the most recent block numbers that were mined locally (used to check block inclusion)
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}
// env returns a new environment for the current cycle
func env(block *types.Block, eth core.Backend) *environment {
state := state.New(block.Root(), eth.StateDb())
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env := &environment{
totalUsedGas: new(big.Int),
state: state,
block: block,
ancestors: set.New(),
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family: set.New(),
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uncles: set.New(),
coinbase: state.GetOrNewStateObject(block.Coinbase()),
}
return env
}
// worker is the main object which takes care of applying messages to the new state
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type worker struct {
mu sync.Mutex
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agents []Agent
recv chan *types.Block
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mux *event.TypeMux
quit chan struct{}
pow pow.PoW
eth core.Backend
chain *core.ChainManager
proc *core.BlockProcessor
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coinbase common.Address
gasPrice *big.Int
extra []byte
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currentMu sync.Mutex
current *environment
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uncleMu sync.Mutex
possibleUncles map[common.Hash]*types.Block
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txQueueMu sync.Mutex
txQueue map[common.Hash]*types.Transaction
// atomic status counters
mining int32
atWork int32
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}
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func newWorker(coinbase common.Address, eth core.Backend) *worker {
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worker := &worker{
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eth: eth,
mux: eth.EventMux(),
recv: make(chan *types.Block),
gasPrice: new(big.Int),
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chain: eth.ChainManager(),
proc: eth.BlockProcessor(),
possibleUncles: make(map[common.Hash]*types.Block),
coinbase: coinbase,
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txQueue: make(map[common.Hash]*types.Transaction),
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quit: make(chan struct{}),
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}
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go worker.update()
go worker.wait()
worker.commitNewWork()
return worker
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}
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func (self *worker) pendingState() *state.StateDB {
self.currentMu.Lock()
defer self.currentMu.Unlock()
return self.current.state
}
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func (self *worker) pendingBlock() *types.Block {
self.currentMu.Lock()
defer self.currentMu.Unlock()
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return self.current.block
}
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 {
agent.Start()
}
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}
func (self *worker) stop() {
self.mu.Lock()
defer self.mu.Unlock()
if atomic.LoadInt32(&self.mining) == 1 {
var keep []Agent
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// stop all agents
for _, agent := range self.agents {
agent.Stop()
// keep all that's not a cpu agent
if _, ok := agent.(*CpuAgent); !ok {
keep = append(keep, agent)
}
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}
self.agents = keep
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}
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()
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self.agents = append(self.agents, agent)
agent.SetReturnCh(self.recv)
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}
func (self *worker) update() {
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events := self.mux.Subscribe(core.ChainHeadEvent{}, core.ChainSideEvent{}, core.TxPreEvent{})
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out:
for {
select {
case event := <-events.Chan():
switch ev := event.(type) {
case core.ChainHeadEvent:
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self.commitNewWork()
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case core.ChainSideEvent:
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self.uncleMu.Lock()
self.possibleUncles[ev.Block.Hash()] = ev.Block
self.uncleMu.Unlock()
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case core.TxPreEvent:
// Apply transaction to the pending state if we're not mining
if atomic.LoadInt32(&self.mining) == 0 {
self.mu.Lock()
self.commitTransactions(types.Transactions{ev.Tx})
self.mu.Unlock()
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}
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}
case <-self.quit:
break out
}
}
events.Unsubscribe()
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}
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func newLocalMinedBlock(blockNumber uint64, prevMinedBlocks *uint64RingBuffer) (minedBlocks *uint64RingBuffer) {
if prevMinedBlocks == nil {
minedBlocks = &uint64RingBuffer{next: 0, ints: make([]uint64, miningLogAtDepth+1)}
} else {
minedBlocks = prevMinedBlocks
}
minedBlocks.ints[minedBlocks.next] = blockNumber
minedBlocks.next = (minedBlocks.next + 1) % len(minedBlocks.ints)
return minedBlocks
}
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func (self *worker) wait() {
for {
for block := range self.recv {
atomic.AddInt32(&self.atWork, -1)
if block == nil {
continue
}
if _, err := self.chain.InsertChain(types.Blocks{block}); err == nil {
for _, uncle := range block.Uncles() {
delete(self.possibleUncles, uncle.Hash())
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}
self.mux.Post(core.NewMinedBlockEvent{block})
var stale, confirm string
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canonBlock := self.chain.GetBlockByNumber(block.NumberU64())
if canonBlock != nil && canonBlock.Hash() != block.Hash() {
stale = "stale "
} else {
confirm = "Wait 5 blocks for confirmation"
self.current.localMinedBlocks = newLocalMinedBlock(block.Number().Uint64(), self.current.localMinedBlocks)
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}
glog.V(logger.Info).Infof("🔨 Mined %sblock (#%v / %x). %s", stale, block.Number(), block.Hash().Bytes()[:4], confirm)
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jsonlogger.LogJson(&logger.EthMinerNewBlock{
BlockHash: block.Hash().Hex(),
BlockNumber: block.Number(),
ChainHeadHash: block.ParentHeaderHash.Hex(),
BlockPrevHash: block.ParentHeaderHash.Hex(),
})
} else {
self.commitNewWork()
}
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}
}
}
func (self *worker) push() {
if atomic.LoadInt32(&self.mining) == 1 {
self.current.block.SetRoot(self.current.state.Root())
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// push new work to agents
for _, agent := range self.agents {
atomic.AddInt32(&self.atWork, 1)
if agent.Work() != nil {
agent.Work() <- self.current.block.Copy()
} else {
common.Report(fmt.Sprintf("%v %T\n", agent, agent))
}
}
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}
}
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func (self *worker) makeCurrent() {
block := self.chain.NewBlock(self.coinbase)
parent := self.chain.GetBlock(block.ParentHash())
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// TMP fix for build server ...
if parent == nil {
return
}
if block.Time() <= parent.Time() {
block.Header().Time = parent.Header().Time + 1
}
block.Header().Extra = self.extra
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// when 08 is processed ancestors contain 07 (quick block)
current := env(block, self.eth)
for _, ancestor := range self.chain.GetAncestors(block, 7) {
for _, uncle := range ancestor.Uncles() {
current.family.Add(uncle.Hash())
}
current.family.Add(ancestor.Hash())
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current.ancestors.Add(ancestor.Hash())
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}
accounts, _ := self.eth.AccountManager().Accounts()
// Keep track of transactions which return errors so they can be removed
current.remove = set.New()
current.tcount = 0
current.ignoredTransactors = set.New()
current.lowGasTransactors = set.New()
current.ownedAccounts = accountAddressesSet(accounts)
if self.current != nil {
current.localMinedBlocks = self.current.localMinedBlocks
}
current.coinbase.SetGasLimit(core.CalcGasLimit(parent))
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self.current = current
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}
func (w *worker) setGasPrice(p *big.Int) {
w.mu.Lock()
defer w.mu.Unlock()
// calculate the minimal gas price the miner accepts when sorting out transactions.
const pct = int64(90)
w.gasPrice = gasprice(p, pct)
w.mux.Post(core.GasPriceChanged{w.gasPrice})
}
func (self *worker) isBlockLocallyMined(deepBlockNum uint64) bool {
//Did this instance mine a block at {deepBlockNum} ?
var isLocal = false
for idx, blockNum := range self.current.localMinedBlocks.ints {
if deepBlockNum == blockNum {
isLocal = true
self.current.localMinedBlocks.ints[idx] = 0 //prevent showing duplicate logs
break
}
}
//Short-circuit on false, because the previous and following tests must both be true
if !isLocal {
return false
}
//Does the block at {deepBlockNum} send earnings to my coinbase?
var block = self.chain.GetBlockByNumber(deepBlockNum)
return block != nil && block.Header().Coinbase == self.coinbase
}
func (self *worker) logLocalMinedBlocks(previous *environment) {
if previous != nil && self.current.localMinedBlocks != nil {
nextBlockNum := self.current.block.Number().Uint64()
for checkBlockNum := previous.block.Number().Uint64(); checkBlockNum < nextBlockNum; checkBlockNum++ {
inspectBlockNum := checkBlockNum - miningLogAtDepth
if self.isBlockLocallyMined(inspectBlockNum) {
glog.V(logger.Info).Infof("🔨 🔗 Mined %d blocks back: block #%v", miningLogAtDepth, inspectBlockNum)
}
}
}
}
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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()
previous := self.current
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self.makeCurrent()
current := self.current
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transactions := self.eth.TxPool().GetTransactions()
sort.Sort(types.TxByNonce{transactions})
// commit transactions for this run
self.commitTransactions(transactions)
self.eth.TxPool().RemoveTransactions(current.lowGasTxs)
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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
}
if err := self.commitUncle(uncle.Header()); err != nil {
if glog.V(logger.Ridiculousness) {
glog.V(logger.Detail).Infof("Bad uncle found and will be removed (%x)\n", hash[:4])
glog.V(logger.Detail).Infoln(uncle)
}
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badUncles = append(badUncles, hash)
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} else {
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glog.V(logger.Debug).Infof("commiting %x as uncle\n", hash[:4])
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uncles = append(uncles, uncle.Header())
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}
}
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// We only care about logging if we're actually mining
if atomic.LoadInt32(&self.mining) == 1 {
glog.V(logger.Info).Infof("commit new work on block %v with %d txs & %d uncles. Took %v\n", current.block.Number(), current.tcount, len(uncles), time.Since(tstart))
self.logLocalMinedBlocks(previous)
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}
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for _, hash := range badUncles {
delete(self.possibleUncles, hash)
}
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self.current.block.SetUncles(uncles)
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core.AccumulateRewards(self.current.state, self.current.block)
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self.current.state.Update()
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self.push()
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}
var (
inclusionReward = new(big.Int).Div(core.BlockReward, big.NewInt(32))
_uncleReward = new(big.Int).Mul(core.BlockReward, big.NewInt(15))
uncleReward = new(big.Int).Div(_uncleReward, big.NewInt(16))
)
func (self *worker) commitUncle(uncle *types.Header) error {
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if self.current.uncles.Has(uncle.Hash()) {
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// Error not unique
return core.UncleError("Uncle not unique")
}
if !self.current.ancestors.Has(uncle.ParentHash) {
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return core.UncleError(fmt.Sprintf("Uncle's parent unknown (%x)", uncle.ParentHash[0:4]))
}
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if self.current.family.Has(uncle.Hash()) {
return core.UncleError(fmt.Sprintf("Uncle already in family (%x)", uncle.Hash()))
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}
self.current.uncles.Add(uncle.Hash())
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return nil
}
func (self *worker) commitTransactions(transactions types.Transactions) {
current := self.current
for _, tx := range transactions {
// We can skip err. It has already been validated in the tx pool
from, _ := tx.From()
// Check if it falls within margin. Txs from owned accounts are always processed.
if tx.GasPrice().Cmp(self.gasPrice) < 0 && !current.ownedAccounts.Has(from) {
// ignore the transaction and transactor. We ignore the transactor
// because nonce will fail after ignoring this transaction so there's
// no point
current.lowGasTransactors.Add(from)
glog.V(logger.Info).Infof("transaction(%x) below gas price (tx=%v ask=%v). All sequential txs from this address(%x) will be ignored\n", tx.Hash().Bytes()[:4], common.CurrencyToString(tx.GasPrice()), common.CurrencyToString(self.gasPrice), from[:4])
}
// Continue with the next transaction if the transaction sender is included in
// the low gas tx set. This will also remove the tx and all sequential transaction
// from this transactor
if current.lowGasTransactors.Has(from) {
// add tx to the low gas set. This will be removed at the end of the run
// owned accounts are ignored
if !current.ownedAccounts.Has(from) {
current.lowGasTxs = append(current.lowGasTxs, tx)
}
continue
}
// Move on to the next transaction when the transactor is in ignored transactions set
// This may occur when a transaction hits the gas limit. When a gas limit is hit and
// the transaction is processed (that could potentially be included in the block) it
// will throw a nonce error because the previous transaction hasn't been processed.
// Therefor we need to ignore any transaction after the ignored one.
if current.ignoredTransactors.Has(from) {
continue
}
self.current.state.StartRecord(tx.Hash(), common.Hash{}, 0)
err := self.commitTransaction(tx)
switch {
case core.IsNonceErr(err) || core.IsInvalidTxErr(err):
current.remove.Add(tx.Hash())
if glog.V(logger.Detail) {
glog.Infof("TX (%x) failed, will be removed: %v\n", tx.Hash().Bytes()[:4], err)
}
case state.IsGasLimitErr(err):
from, _ := tx.From()
// ignore the transactor so no nonce errors will be thrown for this account
// next time the worker is run, they'll be picked up again.
current.ignoredTransactors.Add(from)
glog.V(logger.Detail).Infof("Gas limit reached for (%x) in this block. Continue to try smaller txs\n", from[:4])
default:
current.tcount++
}
}
self.current.block.Header().GasUsed = self.current.totalUsedGas
}
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func (self *worker) commitTransaction(tx *types.Transaction) error {
snap := self.current.state.Copy()
receipt, _, err := self.proc.ApplyTransaction(self.current.coinbase, self.current.state, self.current.block, tx, self.current.totalUsedGas, true)
if err != nil && (core.IsNonceErr(err) || state.IsGasLimitErr(err) || core.IsInvalidTxErr(err)) {
self.current.state.Set(snap)
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return err
}
self.current.block.AddTransaction(tx)
self.current.block.AddReceipt(receipt)
return nil
}
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// TODO: remove or use
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func (self *worker) HashRate() int64 {
return 0
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}
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// gasprice calculates a reduced gas price based on the pct
// XXX Use big.Rat?
func gasprice(price *big.Int, pct int64) *big.Int {
p := new(big.Int).Set(price)
p.Div(p, big.NewInt(100))
p.Mul(p, big.NewInt(pct))
return p
}
func accountAddressesSet(accounts []accounts.Account) *set.Set {
accountSet := set.New()
for _, account := range accounts {
accountSet.Add(account.Address)
}
return accountSet
}