2016-07-01 10:59:55 -05:00
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// Copyright 2016 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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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
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// 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
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package core
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import (
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"container/heap"
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"math"
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"math/big"
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"sort"
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"github.com/ethereum/go-ethereum/core/types"
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)
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// nonceHeap is a heap.Interface implementation over 64bit unsigned integers for
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// retrieving sorted transactions from the possibly gapped future queue.
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type nonceHeap []uint64
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func (h nonceHeap) Len() int { return len(h) }
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func (h nonceHeap) Less(i, j int) bool { return h[i] < h[j] }
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func (h nonceHeap) Swap(i, j int) { h[i], h[j] = h[j], h[i] }
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func (h *nonceHeap) Push(x interface{}) {
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*h = append(*h, x.(uint64))
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}
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func (h *nonceHeap) Pop() interface{} {
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old := *h
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n := len(old)
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x := old[n-1]
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*h = old[0 : n-1]
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return x
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}
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// txList is a "list" of transactions belonging to an account, sorted by account
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// nonce. The same type can be used both for storing contiguous transactions for
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// the executable/pending queue; and for storing gapped transactions for the non-
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// executable/future queue, with minor behavoiral changes.
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type txList struct {
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strict bool // Whether nonces are strictly continuous or not
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items map[uint64]*types.Transaction // Hash map storing the transaction data
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cache types.Transactions // Cache of the transactions already sorted
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first uint64 // Nonce of the lowest stored transaction (strict mode)
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last uint64 // Nonce of the highest stored transaction (strict mode)
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index *nonceHeap // Heap of nonces of all the stored transactions (non-strict mode)
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costcap *big.Int // Price of the highest costing transaction (reset only if exceeds balance)
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}
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// newTxList create a new transaction list for maintaining nonce-indexable fast,
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// gapped, sortable transaction lists.
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func newTxList(strict bool) *txList {
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return &txList{
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strict: strict,
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items: make(map[uint64]*types.Transaction),
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first: math.MaxUint64,
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index: &nonceHeap{},
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costcap: new(big.Int),
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}
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}
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2016-08-17 08:53:15 -05:00
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// Add tries to insert a new transaction into the list, returning whether the
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// transaction was accepted, and if yes, any previous transaction it replaced.
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//
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// In case of strict lists (contiguous nonces) the nonce boundaries are updated
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// appropriately with the new transaction. Otherwise (gapped nonces) the heap of
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// nonces is expanded with the new transaction.
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func (l *txList) Add(tx *types.Transaction) (bool, *types.Transaction) {
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// If an existing transaction is better, discard new one
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nonce := tx.Nonce()
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old, ok := l.items[nonce]
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if ok && old.GasPrice().Cmp(tx.GasPrice()) >= 0 {
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return false, nil
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}
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// Otherwise insert the transaction and replace any previous one
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l.items[nonce] = tx
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if cost := tx.Cost(); l.costcap.Cmp(cost) < 0 {
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l.costcap = cost
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}
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if l.strict {
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// In strict mode, maintain the nonce sequence boundaries
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if nonce < l.first {
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l.first = nonce
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}
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if nonce > l.last {
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l.last = nonce
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}
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} else {
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// In gapped mode, maintain the nonce heap
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heap.Push(l.index, nonce)
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}
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l.cache = nil
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return true, old
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}
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// Forward removes all transactions from the list with a nonce lower than the
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// provided threshold. Every removed transaction is returned for any post-removal
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// maintenance.
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func (l *txList) Forward(threshold uint64) types.Transactions {
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var removed types.Transactions
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if l.strict {
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// In strict mode, push the lowest nonce forward to the threshold
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for l.first < threshold {
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if tx, ok := l.items[l.first]; ok {
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removed = append(removed, tx)
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}
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delete(l.items, l.first)
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l.first++
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}
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if l.first > l.last {
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l.last = l.first
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}
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} else {
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// In gapped mode, pop off heap items until the threshold is reached
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for l.index.Len() > 0 && (*l.index)[0] < threshold {
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nonce := heap.Pop(l.index).(uint64)
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removed = append(removed, l.items[nonce])
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delete(l.items, nonce)
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}
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}
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l.cache = nil
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return removed
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}
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// Filter removes all transactions from the list with a cost higher than the
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// provided threshold. Every removed transaction is returned for any post-removal
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// maintenance. Strict-mode invalidated transactions are also returned.
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//
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// This method uses the cached costcap to quickly decide if there's even a point
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// in calculating all the costs or if the balance covers all. If the threshold is
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// lower than the costcap, the costcap will be reset to a new high after removing
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// expensive the too transactions.
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func (l *txList) Filter(threshold *big.Int) (types.Transactions, types.Transactions) {
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// If all transactions are below the threshold, short circuit
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if l.costcap.Cmp(threshold) <= 0 {
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return nil, nil
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}
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l.costcap = new(big.Int).Set(threshold) // Lower the cap to the threshold
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// Gather all the transactions needing deletion
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var removed types.Transactions
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for _, tx := range l.items {
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if cost := tx.Cost(); cost.Cmp(threshold) > 0 {
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removed = append(removed, tx)
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delete(l.items, tx.Nonce())
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}
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}
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// Readjust the nonce boundaries/indexes and gather invalidate tranactions
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var invalids types.Transactions
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if l.strict {
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// In strict mode iterate find the first gap and invalidate everything after it
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for i := l.first; i <= l.last; i++ {
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if _, ok := l.items[i]; !ok {
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// Gap found, invalidate all subsequent transactions
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for j := i + 1; j <= l.last; j++ {
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if tx, ok := l.items[j]; ok {
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invalids = append(invalids, tx)
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delete(l.items, j)
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}
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}
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// Reduce the highest transaction nonce and return
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l.last = i - 1
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break
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}
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}
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} else {
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// In gapped mode no transactions are invalid, but the heap is ruined
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l.index = &nonceHeap{}
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for nonce, _ := range l.items {
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*l.index = append(*l.index, nonce)
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}
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heap.Init(l.index)
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}
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l.cache = nil
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return removed, invalids
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}
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// Cap places a hard limit on the number of items, returning all transactions
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// exceeding that limit.
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func (l *txList) Cap(threshold int) types.Transactions {
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// Short circuit if the number of items is under the limit
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if len(l.items) < threshold {
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return nil
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}
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// Otherwise gather and drop the highest nonce'd transactions
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var drops types.Transactions
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if l.strict {
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// In strict mode, just gather top down from last to first
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for len(l.items) > threshold {
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if tx, ok := l.items[l.last]; ok {
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drops = append(drops, tx)
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delete(l.items, l.last)
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l.last--
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}
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}
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} else {
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// In gapped mode it's expensive: we need to sort and drop like that
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sort.Sort(*l.index)
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for size := len(l.items); size > threshold; size-- {
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drops = append(drops, l.items[(*l.index)[size-1]])
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delete(l.items, (*l.index)[size-1])
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*l.index = (*l.index)[:size-1]
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}
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heap.Init(l.index)
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}
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l.cache = nil
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return drops
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}
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// Remove deletes a transaction from the maintained list, returning whether the
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// transaction was found, and also returning any transaction invalidated due to
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// the deletion (strict mode only).
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func (l *txList) Remove(tx *types.Transaction) (bool, types.Transactions) {
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nonce := tx.Nonce()
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if _, ok := l.items[nonce]; ok {
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// Remove the item and invalidate the sorted cache
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delete(l.items, nonce)
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l.cache = nil
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// Remove all invalidated transactions (strict mode only!)
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var invalids types.Transactions
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if l.strict {
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invalids = make(types.Transactions, 0, l.last-nonce)
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for i := nonce + 1; i <= l.last; i++ {
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invalids = append(invalids, l.items[i])
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delete(l.items, i)
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}
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l.last = nonce - 1
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} else {
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// In gapped mode, remove the nonce from the index but honour the heap
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for i := 0; i < l.index.Len(); i++ {
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if (*l.index)[i] == nonce {
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heap.Remove(l.index, i)
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break
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}
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}
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}
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return true, invalids
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}
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return false, nil
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}
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// Ready retrieves a sequentially increasing list of transactions starting at the
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// provided nonce that is ready for processing. The returned transactions will be
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// removed from the list.
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//
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// Note, all transactions with nonces lower than start will also be returned to
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// prevent getting into and invalid state. This is not something that should ever
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// happen but better to be self correcting than failing!
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func (l *txList) Ready(start uint64) types.Transactions {
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var txs types.Transactions
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if l.strict {
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// In strict mode make sure we have valid transaction, return all contiguous
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if l.first > start {
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return nil
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}
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for {
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if tx, ok := l.items[l.first]; ok {
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txs = append(txs, tx)
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delete(l.items, l.first)
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l.first++
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continue
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}
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break
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}
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} else {
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// In gapped mode, check the heap start and return all contiguous
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if l.index.Len() == 0 || (*l.index)[0] > start {
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return nil
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}
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next := (*l.index)[0]
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for l.index.Len() > 0 && (*l.index)[0] == next {
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txs = append(txs, l.items[next])
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delete(l.items, next)
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heap.Pop(l.index)
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next++
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}
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}
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l.cache = nil
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return txs
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}
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// Len returns the length of the transaction list.
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func (l *txList) Len() int {
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return len(l.items)
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}
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// Empty returns whether the list of transactions is empty or not.
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func (l *txList) Empty() bool {
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return len(l.items) == 0
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}
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// Flatten creates a nonce-sorted slice of transactions based on the loosely
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// sorted internal representation. The result of the sorting is cached in case
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// it's requested again before any modifications are made to the contents.
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func (l *txList) Flatten() types.Transactions {
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// If the sorting was not cached yet, create and cache it
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if l.cache == nil {
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l.cache = make(types.Transactions, 0, len(l.items))
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for _, tx := range l.items {
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l.cache = append(l.cache, tx)
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}
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sort.Sort(types.TxByNonce(l.cache))
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}
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// Copy the cache to prevent accidental modifications
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txs := make(types.Transactions, len(l.cache))
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copy(txs, l.cache)
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return txs
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}
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