471 lines
16 KiB
Go
471 lines
16 KiB
Go
// Copyright 2020 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 state
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import (
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"errors"
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"sync"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/metrics"
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)
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var (
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// triePrefetchMetricsPrefix is the prefix under which to publish the metrics.
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triePrefetchMetricsPrefix = "trie/prefetch/"
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// errTerminated is returned if a fetcher is attempted to be operated after it
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// has already terminated.
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errTerminated = errors.New("fetcher is already terminated")
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)
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// triePrefetcher is an active prefetcher, which receives accounts or storage
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// items and does trie-loading of them. The goal is to get as much useful content
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// into the caches as possible.
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//
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// Note, the prefetcher's API is not thread safe.
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type triePrefetcher struct {
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verkle bool // Flag whether the prefetcher is in verkle mode
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db Database // Database to fetch trie nodes through
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root common.Hash // Root hash of the account trie for metrics
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fetchers map[string]*subfetcher // Subfetchers for each trie
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term chan struct{} // Channel to signal interruption
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noreads bool // Whether to ignore state-read-only prefetch requests
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deliveryMissMeter metrics.Meter
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accountLoadReadMeter metrics.Meter
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accountLoadWriteMeter metrics.Meter
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accountDupReadMeter metrics.Meter
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accountDupWriteMeter metrics.Meter
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accountDupCrossMeter metrics.Meter
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accountWasteMeter metrics.Meter
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storageLoadReadMeter metrics.Meter
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storageLoadWriteMeter metrics.Meter
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storageDupReadMeter metrics.Meter
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storageDupWriteMeter metrics.Meter
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storageDupCrossMeter metrics.Meter
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storageWasteMeter metrics.Meter
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}
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func newTriePrefetcher(db Database, root common.Hash, namespace string, noreads bool) *triePrefetcher {
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prefix := triePrefetchMetricsPrefix + namespace
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return &triePrefetcher{
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verkle: db.TrieDB().IsVerkle(),
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db: db,
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root: root,
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fetchers: make(map[string]*subfetcher), // Active prefetchers use the fetchers map
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term: make(chan struct{}),
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noreads: noreads,
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deliveryMissMeter: metrics.GetOrRegisterMeter(prefix+"/deliverymiss", nil),
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accountLoadReadMeter: metrics.GetOrRegisterMeter(prefix+"/account/load/read", nil),
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accountLoadWriteMeter: metrics.GetOrRegisterMeter(prefix+"/account/load/write", nil),
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accountDupReadMeter: metrics.GetOrRegisterMeter(prefix+"/account/dup/read", nil),
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accountDupWriteMeter: metrics.GetOrRegisterMeter(prefix+"/account/dup/write", nil),
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accountDupCrossMeter: metrics.GetOrRegisterMeter(prefix+"/account/dup/cross", nil),
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accountWasteMeter: metrics.GetOrRegisterMeter(prefix+"/account/waste", nil),
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storageLoadReadMeter: metrics.GetOrRegisterMeter(prefix+"/storage/load/read", nil),
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storageLoadWriteMeter: metrics.GetOrRegisterMeter(prefix+"/storage/load/write", nil),
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storageDupReadMeter: metrics.GetOrRegisterMeter(prefix+"/storage/dup/read", nil),
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storageDupWriteMeter: metrics.GetOrRegisterMeter(prefix+"/storage/dup/write", nil),
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storageDupCrossMeter: metrics.GetOrRegisterMeter(prefix+"/storage/dup/cross", nil),
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storageWasteMeter: metrics.GetOrRegisterMeter(prefix+"/storage/waste", nil),
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}
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}
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// terminate iterates over all the subfetchers and issues a termination request
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// to all of them. Depending on the async parameter, the method will either block
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// until all subfetchers spin down, or return immediately.
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func (p *triePrefetcher) terminate(async bool) {
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// Short circuit if the fetcher is already closed
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select {
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case <-p.term:
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return
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default:
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}
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// Terminate all sub-fetchers, sync or async, depending on the request
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for _, fetcher := range p.fetchers {
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fetcher.terminate(async)
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}
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close(p.term)
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}
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// report aggregates the pre-fetching and usage metrics and reports them.
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func (p *triePrefetcher) report() {
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if !metrics.Enabled {
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return
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}
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for _, fetcher := range p.fetchers {
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fetcher.wait() // ensure the fetcher's idle before poking in its internals
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if fetcher.root == p.root {
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p.accountLoadReadMeter.Mark(int64(len(fetcher.seenReadAddr)))
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p.accountLoadWriteMeter.Mark(int64(len(fetcher.seenWriteAddr)))
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p.accountDupReadMeter.Mark(int64(fetcher.dupsRead))
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p.accountDupWriteMeter.Mark(int64(fetcher.dupsWrite))
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p.accountDupCrossMeter.Mark(int64(fetcher.dupsCross))
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for _, key := range fetcher.usedAddr {
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delete(fetcher.seenReadAddr, key)
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delete(fetcher.seenWriteAddr, key)
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}
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p.accountWasteMeter.Mark(int64(len(fetcher.seenReadAddr) + len(fetcher.seenWriteAddr)))
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} else {
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p.storageLoadReadMeter.Mark(int64(len(fetcher.seenReadSlot)))
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p.storageLoadWriteMeter.Mark(int64(len(fetcher.seenWriteSlot)))
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p.storageDupReadMeter.Mark(int64(fetcher.dupsRead))
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p.storageDupWriteMeter.Mark(int64(fetcher.dupsWrite))
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p.storageDupCrossMeter.Mark(int64(fetcher.dupsCross))
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for _, key := range fetcher.usedSlot {
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delete(fetcher.seenReadSlot, key)
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delete(fetcher.seenWriteSlot, key)
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}
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p.storageWasteMeter.Mark(int64(len(fetcher.seenReadSlot) + len(fetcher.seenWriteSlot)))
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}
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}
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}
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// prefetch schedules a batch of trie items to prefetch. After the prefetcher is
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// closed, all the following tasks scheduled will not be executed and an error
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// will be returned.
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//
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// prefetch is called from two locations:
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//
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// 1. Finalize of the state-objects storage roots. This happens at the end
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// of every transaction, meaning that if several transactions touches
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// upon the same contract, the parameters invoking this method may be
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// repeated.
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// 2. Finalize of the main account trie. This happens only once per block.
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func (p *triePrefetcher) prefetch(owner common.Hash, root common.Hash, addr common.Address, addrs []common.Address, slots []common.Hash, read bool) error {
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// If the state item is only being read, but reads are disabled, return
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if read && p.noreads {
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return nil
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}
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// Ensure the subfetcher is still alive
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select {
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case <-p.term:
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return errTerminated
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default:
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}
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id := p.trieID(owner, root)
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fetcher := p.fetchers[id]
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if fetcher == nil {
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fetcher = newSubfetcher(p.db, p.root, owner, root, addr)
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p.fetchers[id] = fetcher
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}
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return fetcher.schedule(addrs, slots, read)
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}
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// trie returns the trie matching the root hash, blocking until the fetcher of
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// the given trie terminates. If no fetcher exists for the request, nil will be
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// returned.
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func (p *triePrefetcher) trie(owner common.Hash, root common.Hash) Trie {
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// Bail if no trie was prefetched for this root
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fetcher := p.fetchers[p.trieID(owner, root)]
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if fetcher == nil {
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log.Error("Prefetcher missed to load trie", "owner", owner, "root", root)
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p.deliveryMissMeter.Mark(1)
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return nil
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}
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// Subfetcher exists, retrieve its trie
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return fetcher.peek()
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}
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// used marks a batch of state items used to allow creating statistics as to
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// how useful or wasteful the fetcher is.
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func (p *triePrefetcher) used(owner common.Hash, root common.Hash, usedAddr []common.Address, usedSlot []common.Hash) {
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if fetcher := p.fetchers[p.trieID(owner, root)]; fetcher != nil {
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fetcher.wait() // ensure the fetcher's idle before poking in its internals
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fetcher.usedAddr = append(fetcher.usedAddr, usedAddr...)
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fetcher.usedSlot = append(fetcher.usedSlot, usedSlot...)
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}
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}
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// trieID returns an unique trie identifier consists the trie owner and root hash.
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func (p *triePrefetcher) trieID(owner common.Hash, root common.Hash) string {
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// The trie in verkle is only identified by state root
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if p.verkle {
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return p.root.Hex()
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}
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// The trie in merkle is either identified by state root (account trie),
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// or identified by the owner and trie root (storage trie)
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trieID := make([]byte, common.HashLength*2)
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copy(trieID, owner.Bytes())
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copy(trieID[common.HashLength:], root.Bytes())
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return string(trieID)
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}
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// subfetcher is a trie fetcher goroutine responsible for pulling entries for a
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// single trie. It is spawned when a new root is encountered and lives until the
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// main prefetcher is paused and either all requested items are processed or if
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// the trie being worked on is retrieved from the prefetcher.
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type subfetcher struct {
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db Database // Database to load trie nodes through
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state common.Hash // Root hash of the state to prefetch
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owner common.Hash // Owner of the trie, usually account hash
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root common.Hash // Root hash of the trie to prefetch
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addr common.Address // Address of the account that the trie belongs to
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trie Trie // Trie being populated with nodes
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tasks []*subfetcherTask // Items queued up for retrieval
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lock sync.Mutex // Lock protecting the task queue
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wake chan struct{} // Wake channel if a new task is scheduled
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stop chan struct{} // Channel to interrupt processing
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term chan struct{} // Channel to signal interruption
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seenReadAddr map[common.Address]struct{} // Tracks the accounts already loaded via read operations
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seenWriteAddr map[common.Address]struct{} // Tracks the accounts already loaded via write operations
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seenReadSlot map[common.Hash]struct{} // Tracks the storage already loaded via read operations
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seenWriteSlot map[common.Hash]struct{} // Tracks the storage already loaded via write operations
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dupsRead int // Number of duplicate preload tasks via reads only
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dupsWrite int // Number of duplicate preload tasks via writes only
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dupsCross int // Number of duplicate preload tasks via read-write-crosses
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usedAddr []common.Address // Tracks the accounts used in the end
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usedSlot []common.Hash // Tracks the storage used in the end
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}
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// subfetcherTask is a trie path to prefetch, tagged with whether it originates
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// from a read or a write request.
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type subfetcherTask struct {
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read bool
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addr *common.Address
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slot *common.Hash
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}
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// newSubfetcher creates a goroutine to prefetch state items belonging to a
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// particular root hash.
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func newSubfetcher(db Database, state common.Hash, owner common.Hash, root common.Hash, addr common.Address) *subfetcher {
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sf := &subfetcher{
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db: db,
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state: state,
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owner: owner,
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root: root,
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addr: addr,
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wake: make(chan struct{}, 1),
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stop: make(chan struct{}),
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term: make(chan struct{}),
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seenReadAddr: make(map[common.Address]struct{}),
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seenWriteAddr: make(map[common.Address]struct{}),
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seenReadSlot: make(map[common.Hash]struct{}),
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seenWriteSlot: make(map[common.Hash]struct{}),
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}
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go sf.loop()
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return sf
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}
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// schedule adds a batch of trie keys to the queue to prefetch.
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func (sf *subfetcher) schedule(addrs []common.Address, slots []common.Hash, read bool) error {
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// Ensure the subfetcher is still alive
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select {
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case <-sf.term:
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return errTerminated
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default:
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}
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// Append the tasks to the current queue
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sf.lock.Lock()
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for _, addr := range addrs {
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sf.tasks = append(sf.tasks, &subfetcherTask{read: read, addr: &addr})
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}
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for _, slot := range slots {
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sf.tasks = append(sf.tasks, &subfetcherTask{read: read, slot: &slot})
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}
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sf.lock.Unlock()
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// Notify the background thread to execute scheduled tasks
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select {
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case sf.wake <- struct{}{}:
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// Wake signal sent
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default:
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// Wake signal not sent as a previous one is already queued
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}
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return nil
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}
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// wait blocks until the subfetcher terminates. This method is used to block on
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// an async termination before accessing internal fields from the fetcher.
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func (sf *subfetcher) wait() {
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<-sf.term
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}
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// peek retrieves the fetcher's trie, populated with any pre-fetched data. The
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// returned trie will be a shallow copy, so modifying it will break subsequent
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// peeks for the original data. The method will block until all the scheduled
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// data has been loaded and the fethcer terminated.
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func (sf *subfetcher) peek() Trie {
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// Block until the fetcher terminates, then retrieve the trie
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sf.wait()
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return sf.trie
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}
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// terminate requests the subfetcher to stop accepting new tasks and spin down
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// as soon as everything is loaded. Depending on the async parameter, the method
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// will either block until all disk loads finish or return immediately.
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func (sf *subfetcher) terminate(async bool) {
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select {
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case <-sf.stop:
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default:
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close(sf.stop)
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}
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if async {
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return
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}
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<-sf.term
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}
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// openTrie resolves the target trie from database for prefetching.
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func (sf *subfetcher) openTrie() error {
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// Open the verkle tree if the sub-fetcher is in verkle mode. Note, there is
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// only a single fetcher for verkle.
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if sf.db.TrieDB().IsVerkle() {
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tr, err := sf.db.OpenTrie(sf.state)
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if err != nil {
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log.Warn("Trie prefetcher failed opening verkle trie", "root", sf.root, "err", err)
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return err
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}
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sf.trie = tr
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return nil
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}
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// Open the merkle tree if the sub-fetcher is in merkle mode
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if sf.owner == (common.Hash{}) {
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tr, err := sf.db.OpenTrie(sf.state)
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if err != nil {
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log.Warn("Trie prefetcher failed opening account trie", "root", sf.root, "err", err)
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return err
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}
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sf.trie = tr
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return nil
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}
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tr, err := sf.db.OpenStorageTrie(sf.state, sf.addr, sf.root, nil)
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if err != nil {
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log.Warn("Trie prefetcher failed opening storage trie", "root", sf.root, "err", err)
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return err
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}
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sf.trie = tr
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return nil
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}
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// loop loads newly-scheduled trie tasks as they are received and loads them, stopping
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// when requested.
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func (sf *subfetcher) loop() {
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// No matter how the loop stops, signal anyone waiting that it's terminated
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defer close(sf.term)
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if err := sf.openTrie(); err != nil {
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return
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}
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for {
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select {
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case <-sf.wake:
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// Execute all remaining tasks in a single run
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sf.lock.Lock()
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tasks := sf.tasks
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sf.tasks = nil
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sf.lock.Unlock()
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for _, task := range tasks {
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if task.addr != nil {
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key := *task.addr
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if task.read {
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if _, ok := sf.seenReadAddr[key]; ok {
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sf.dupsRead++
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continue
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}
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if _, ok := sf.seenWriteAddr[key]; ok {
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sf.dupsCross++
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continue
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}
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} else {
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if _, ok := sf.seenReadAddr[key]; ok {
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sf.dupsCross++
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continue
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}
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if _, ok := sf.seenWriteAddr[key]; ok {
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sf.dupsWrite++
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continue
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}
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}
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} else {
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key := *task.slot
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if task.read {
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if _, ok := sf.seenReadSlot[key]; ok {
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sf.dupsRead++
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continue
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}
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if _, ok := sf.seenWriteSlot[key]; ok {
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sf.dupsCross++
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continue
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}
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} else {
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if _, ok := sf.seenReadSlot[key]; ok {
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sf.dupsCross++
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continue
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}
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if _, ok := sf.seenWriteSlot[key]; ok {
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sf.dupsWrite++
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continue
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}
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}
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}
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if task.addr != nil {
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sf.trie.GetAccount(*task.addr)
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} else {
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sf.trie.GetStorage(sf.addr, (*task.slot)[:])
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}
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if task.read {
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if task.addr != nil {
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sf.seenReadAddr[*task.addr] = struct{}{}
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} else {
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sf.seenReadSlot[*task.slot] = struct{}{}
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}
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} else {
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if task.addr != nil {
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sf.seenWriteAddr[*task.addr] = struct{}{}
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} else {
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sf.seenWriteSlot[*task.slot] = struct{}{}
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}
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}
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}
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case <-sf.stop:
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// Termination is requested, abort if no more tasks are pending. If
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// there are some, exhaust them first.
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sf.lock.Lock()
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done := sf.tasks == nil
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sf.lock.Unlock()
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if done {
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return
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}
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// Some tasks are pending, loop and pick them up (that wake branch
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// will be selected eventually, whilst stop remains closed to this
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// branch will also run afterwards).
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}
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}
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}
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