go-ethereum/ethchain/transaction_pool.go

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package ethchain
import (
"bytes"
"container/list"
"errors"
"fmt"
"github.com/ethereum/eth-go/ethutil"
"github.com/ethereum/eth-go/ethwire"
"log"
"math/big"
"sync"
)
const (
txPoolQueueSize = 50
)
type TxPoolHook chan *Transaction
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type TxMsgTy byte
const (
TxPre = iota
TxPost
)
type TxMsg struct {
Tx *Transaction
Type TxMsgTy
}
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func FindTx(pool *list.List, finder func(*Transaction, *list.Element) bool) *Transaction {
for e := pool.Front(); e != nil; e = e.Next() {
if tx, ok := e.Value.(*Transaction); ok {
if finder(tx, e) {
return tx
}
}
}
return nil
}
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type TxProcessor interface {
ProcessTransaction(tx *Transaction)
}
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// The tx pool a thread safe transaction pool handler. In order to
// guarantee a non blocking pool we use a queue channel which can be
// independently read without needing access to the actual pool. If the
// pool is being drained or synced for whatever reason the transactions
// will simple queue up and handled when the mutex is freed.
type TxPool struct {
Ethereum EthManager
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// The mutex for accessing the Tx pool.
mutex sync.Mutex
// Queueing channel for reading and writing incoming
// transactions to
queueChan chan *Transaction
// Quiting channel
quit chan bool
// The actual pool
pool *list.List
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SecondaryProcessor TxProcessor
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subscribers []chan TxMsg
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}
func NewTxPool(ethereum EthManager) *TxPool {
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return &TxPool{
//server: s,
mutex: sync.Mutex{},
pool: list.New(),
queueChan: make(chan *Transaction, txPoolQueueSize),
quit: make(chan bool),
Ethereum: ethereum,
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}
}
// Blocking function. Don't use directly. Use QueueTransaction instead
func (pool *TxPool) addTransaction(tx *Transaction) {
pool.mutex.Lock()
pool.pool.PushBack(tx)
pool.mutex.Unlock()
// Broadcast the transaction to the rest of the peers
pool.Ethereum.Broadcast(ethwire.MsgTxTy, []interface{}{tx.RlpData()})
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}
// Process transaction validates the Tx and processes funds from the
// sender to the recipient.
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func (pool *TxPool) ProcessTransaction(tx *Transaction, block *Block, toContract bool) (err error) {
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defer func() {
if r := recover(); r != nil {
log.Println(r)
err = fmt.Errorf("%v", r)
}
}()
// Get the sender
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sender := block.state.GetAccount(tx.Sender())
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if sender.Nonce != tx.Nonce {
return fmt.Errorf("[TXPL] Invalid account nonce, state nonce is %d transaction nonce is %d instead", sender.Nonce, tx.Nonce)
}
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// Make sure there's enough in the sender's account. Having insufficient
// funds won't invalidate this transaction but simple ignores it.
totAmount := new(big.Int).Add(tx.Value, new(big.Int).Mul(TxFee, TxFeeRat))
if sender.Amount.Cmp(totAmount) < 0 {
return fmt.Errorf("[TXPL] Insufficient amount in sender's (%x) account", tx.Sender())
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}
// Get the receiver
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receiver := block.state.GetAccount(tx.Recipient)
sender.Nonce += 1
// Send Tx to self
if bytes.Compare(tx.Recipient, tx.Sender()) == 0 {
// Subtract the fee
sender.SubAmount(new(big.Int).Mul(TxFee, TxFeeRat))
} else {
// Subtract the amount from the senders account
sender.SubAmount(totAmount)
// Add the amount to receivers account which should conclude this transaction
receiver.AddAmount(tx.Value)
block.state.UpdateStateObject(receiver)
}
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block.state.UpdateStateObject(sender)
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log.Printf("[TXPL] Processed Tx %x\n", tx.Hash())
pool.notifySubscribers(TxPost, tx)
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return
}
func (pool *TxPool) ValidateTransaction(tx *Transaction) error {
// Get the last block so we can retrieve the sender and receiver from
// the merkle trie
block := pool.Ethereum.BlockChain().CurrentBlock
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// Something has gone horribly wrong if this happens
if block == nil {
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return errors.New("[TXPL] No last block on the block chain")
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}
// Get the sender
accountState := pool.Ethereum.StateManager().GetAddrState(tx.Sender())
sender := accountState.Object
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totAmount := new(big.Int).Add(tx.Value, new(big.Int).Mul(TxFee, TxFeeRat))
// Make sure there's enough in the sender's account. Having insufficient
// funds won't invalidate this transaction but simple ignores it.
if sender.Amount.Cmp(totAmount) < 0 {
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return fmt.Errorf("[TXPL] Insufficient amount in sender's (%x) account", tx.Sender())
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}
// Increment the nonce making each tx valid only once to prevent replay
// attacks
return nil
}
func (pool *TxPool) queueHandler() {
out:
for {
select {
case tx := <-pool.queueChan:
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log.Println("Received new Tx to queue")
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hash := tx.Hash()
foundTx := FindTx(pool.pool, func(tx *Transaction, e *list.Element) bool {
return bytes.Compare(tx.Hash(), hash) == 0
})
if foundTx != nil {
break
}
// Validate the transaction
err := pool.ValidateTransaction(tx)
if err != nil {
if ethutil.Config.Debug {
log.Println("Validating Tx failed", err)
}
} else {
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log.Println("Transaction ok, adding")
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// Call blocking version. At this point it
// doesn't matter since this is a goroutine
pool.addTransaction(tx)
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log.Println("Added")
// Notify the subscribers
pool.Ethereum.Reactor().Post("newTx", tx)
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// Notify the subscribers
pool.notifySubscribers(TxPre, tx)
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}
case <-pool.quit:
break out
}
}
}
func (pool *TxPool) QueueTransaction(tx *Transaction) {
pool.queueChan <- tx
}
func (pool *TxPool) CurrentTransactions() []*Transaction {
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pool.mutex.Lock()
defer pool.mutex.Unlock()
txList := make([]*Transaction, pool.pool.Len())
i := 0
for e := pool.pool.Front(); e != nil; e = e.Next() {
if tx, ok := e.Value.(*Transaction); ok {
txList[i] = tx
}
i++
}
return txList
}
func (pool *TxPool) Flush() []*Transaction {
txList := pool.CurrentTransactions()
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// Recreate a new list all together
// XXX Is this the fastest way?
pool.pool = list.New()
return txList
}
func (pool *TxPool) Start() {
go pool.queueHandler()
}
func (pool *TxPool) Stop() {
close(pool.quit)
pool.Flush()
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log.Println("[TXP] Stopped")
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}
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func (pool *TxPool) Subscribe(channel chan TxMsg) {
pool.subscribers = append(pool.subscribers, channel)
}
func (pool *TxPool) notifySubscribers(ty TxMsgTy, tx *Transaction) {
msg := TxMsg{Type: ty, Tx: tx}
for _, subscriber := range pool.subscribers {
subscriber <- msg
}
}