go-ethereum/core/state/trie_prefetcher.go

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// Copyright 2020 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// 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,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// 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/>.
package state
import (
"sync"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/metrics"
)
var (
// triePrefetchMetricsPrefix is the prefix under which to publish the metrics.
triePrefetchMetricsPrefix = "trie/prefetch/"
)
// triePrefetcher is an active prefetcher, which receives accounts or storage
// items and does trie-loading of them. The goal is to get as much useful content
// into the caches as possible.
//
// Note, the prefetcher's API is not thread safe.
type triePrefetcher struct {
db Database // Database to fetch trie nodes through
root common.Hash // Root hash of the account trie for metrics
fetches map[string]Trie // Partially or fully fetcher tries
fetchers map[string]*subfetcher // Subfetchers for each trie
deliveryMissMeter metrics.Meter
accountLoadMeter metrics.Meter
accountDupMeter metrics.Meter
accountSkipMeter metrics.Meter
accountWasteMeter metrics.Meter
storageLoadMeter metrics.Meter
storageDupMeter metrics.Meter
storageSkipMeter metrics.Meter
storageWasteMeter metrics.Meter
}
func newTriePrefetcher(db Database, root common.Hash, namespace string) *triePrefetcher {
prefix := triePrefetchMetricsPrefix + namespace
p := &triePrefetcher{
db: db,
root: root,
fetchers: make(map[string]*subfetcher), // Active prefetchers use the fetchers map
deliveryMissMeter: metrics.GetOrRegisterMeter(prefix+"/deliverymiss", nil),
accountLoadMeter: metrics.GetOrRegisterMeter(prefix+"/account/load", nil),
accountDupMeter: metrics.GetOrRegisterMeter(prefix+"/account/dup", nil),
accountSkipMeter: metrics.GetOrRegisterMeter(prefix+"/account/skip", nil),
accountWasteMeter: metrics.GetOrRegisterMeter(prefix+"/account/waste", nil),
storageLoadMeter: metrics.GetOrRegisterMeter(prefix+"/storage/load", nil),
storageDupMeter: metrics.GetOrRegisterMeter(prefix+"/storage/dup", nil),
storageSkipMeter: metrics.GetOrRegisterMeter(prefix+"/storage/skip", nil),
storageWasteMeter: metrics.GetOrRegisterMeter(prefix+"/storage/waste", nil),
}
return p
}
// close iterates over all the subfetchers, aborts any that were left spinning
// and reports the stats to the metrics subsystem.
func (p *triePrefetcher) close() {
for _, fetcher := range p.fetchers {
fetcher.abort() // safe to do multiple times
if metrics.Enabled {
if fetcher.root == p.root {
p.accountLoadMeter.Mark(int64(len(fetcher.seen)))
p.accountDupMeter.Mark(int64(fetcher.dups))
p.accountSkipMeter.Mark(int64(len(fetcher.tasks)))
for _, key := range fetcher.used {
delete(fetcher.seen, string(key))
}
p.accountWasteMeter.Mark(int64(len(fetcher.seen)))
} else {
p.storageLoadMeter.Mark(int64(len(fetcher.seen)))
p.storageDupMeter.Mark(int64(fetcher.dups))
p.storageSkipMeter.Mark(int64(len(fetcher.tasks)))
for _, key := range fetcher.used {
delete(fetcher.seen, string(key))
}
p.storageWasteMeter.Mark(int64(len(fetcher.seen)))
}
}
}
// Clear out all fetchers (will crash on a second call, deliberate)
p.fetchers = nil
}
// copy creates a deep-but-inactive copy of the trie prefetcher. Any trie data
// already loaded will be copied over, but no goroutines will be started. This
// is mostly used in the miner which creates a copy of it's actively mutated
// state to be sealed while it may further mutate the state.
func (p *triePrefetcher) copy() *triePrefetcher {
copy := &triePrefetcher{
db: p.db,
root: p.root,
fetches: make(map[string]Trie), // Active prefetchers use the fetches map
deliveryMissMeter: p.deliveryMissMeter,
accountLoadMeter: p.accountLoadMeter,
accountDupMeter: p.accountDupMeter,
accountSkipMeter: p.accountSkipMeter,
accountWasteMeter: p.accountWasteMeter,
storageLoadMeter: p.storageLoadMeter,
storageDupMeter: p.storageDupMeter,
storageSkipMeter: p.storageSkipMeter,
storageWasteMeter: p.storageWasteMeter,
}
// If the prefetcher is already a copy, duplicate the data
if p.fetches != nil {
for root, fetch := range p.fetches {
if fetch == nil {
continue
}
copy.fetches[root] = p.db.CopyTrie(fetch)
}
return copy
}
// Otherwise we're copying an active fetcher, retrieve the current states
for id, fetcher := range p.fetchers {
copy.fetches[id] = fetcher.peek()
}
return copy
}
// prefetch schedules a batch of trie items to prefetch.
func (p *triePrefetcher) prefetch(owner common.Hash, root common.Hash, keys [][]byte) {
// If the prefetcher is an inactive one, bail out
if p.fetches != nil {
return
}
// Active fetcher, schedule the retrievals
id := p.trieID(owner, root)
fetcher := p.fetchers[id]
if fetcher == nil {
fetcher = newSubfetcher(p.db, p.root, owner, root)
p.fetchers[id] = fetcher
}
fetcher.schedule(keys)
}
// trie returns the trie matching the root hash, or nil if the prefetcher doesn't
// have it.
func (p *triePrefetcher) trie(owner common.Hash, root common.Hash) Trie {
// If the prefetcher is inactive, return from existing deep copies
id := p.trieID(owner, root)
if p.fetches != nil {
trie := p.fetches[id]
if trie == nil {
p.deliveryMissMeter.Mark(1)
return nil
}
return p.db.CopyTrie(trie)
}
// Otherwise the prefetcher is active, bail if no trie was prefetched for this root
fetcher := p.fetchers[id]
if fetcher == nil {
p.deliveryMissMeter.Mark(1)
return nil
}
// Interrupt the prefetcher if it's by any chance still running and return
// a copy of any pre-loaded trie.
fetcher.abort() // safe to do multiple times
trie := fetcher.peek()
if trie == nil {
p.deliveryMissMeter.Mark(1)
return nil
}
return trie
}
// used marks a batch of state items used to allow creating statistics as to
// how useful or wasteful the prefetcher is.
func (p *triePrefetcher) used(owner common.Hash, root common.Hash, used [][]byte) {
if fetcher := p.fetchers[p.trieID(owner, root)]; fetcher != nil {
fetcher.used = used
}
}
// trieID returns an unique trie identifier consists the trie owner and root hash.
func (p *triePrefetcher) trieID(owner common.Hash, root common.Hash) string {
return string(append(owner.Bytes(), root.Bytes()...))
}
// subfetcher is a trie fetcher goroutine responsible for pulling entries for a
// single trie. It is spawned when a new root is encountered and lives until the
// main prefetcher is paused and either all requested items are processed or if
// the trie being worked on is retrieved from the prefetcher.
type subfetcher struct {
db Database // Database to load trie nodes through
state common.Hash // Root hash of the state to prefetch
owner common.Hash // Owner of the trie, usually account hash
root common.Hash // Root hash of the trie to prefetch
trie Trie // Trie being populated with nodes
tasks [][]byte // Items queued up for retrieval
lock sync.Mutex // Lock protecting the task queue
wake chan struct{} // Wake channel if a new task is scheduled
stop chan struct{} // Channel to interrupt processing
term chan struct{} // Channel to signal interruption
copy chan chan Trie // Channel to request a copy of the current trie
seen map[string]struct{} // Tracks the entries already loaded
dups int // Number of duplicate preload tasks
used [][]byte // Tracks the entries used in the end
}
// newSubfetcher creates a goroutine to prefetch state items belonging to a
// particular root hash.
func newSubfetcher(db Database, state common.Hash, owner common.Hash, root common.Hash) *subfetcher {
sf := &subfetcher{
db: db,
state: state,
owner: owner,
root: root,
wake: make(chan struct{}, 1),
stop: make(chan struct{}),
term: make(chan struct{}),
copy: make(chan chan Trie),
seen: make(map[string]struct{}),
}
go sf.loop()
return sf
}
// schedule adds a batch of trie keys to the queue to prefetch.
func (sf *subfetcher) schedule(keys [][]byte) {
// Append the tasks to the current queue
sf.lock.Lock()
sf.tasks = append(sf.tasks, keys...)
sf.lock.Unlock()
// Notify the prefetcher, it's fine if it's already terminated
select {
case sf.wake <- struct{}{}:
default:
}
}
// peek tries to retrieve a deep copy of the fetcher's trie in whatever form it
// is currently.
func (sf *subfetcher) peek() Trie {
ch := make(chan Trie)
select {
case sf.copy <- ch:
// Subfetcher still alive, return copy from it
return <-ch
case <-sf.term:
// Subfetcher already terminated, return a copy directly
if sf.trie == nil {
return nil
}
return sf.db.CopyTrie(sf.trie)
}
}
// abort interrupts the subfetcher immediately. It is safe to call abort multiple
// times but it is not thread safe.
func (sf *subfetcher) abort() {
select {
case <-sf.stop:
default:
close(sf.stop)
}
<-sf.term
}
// loop waits for new tasks to be scheduled and keeps loading them until it runs
// out of tasks or its underlying trie is retrieved for committing.
func (sf *subfetcher) loop() {
// No matter how the loop stops, signal anyone waiting that it's terminated
defer close(sf.term)
// Start by opening the trie and stop processing if it fails
if sf.owner == (common.Hash{}) {
trie, err := sf.db.OpenTrie(sf.root)
if err != nil {
log.Warn("Trie prefetcher failed opening trie", "root", sf.root, "err", err)
return
}
sf.trie = trie
} else {
trie, err := sf.db.OpenStorageTrie(sf.state, sf.owner, sf.root)
if err != nil {
log.Warn("Trie prefetcher failed opening trie", "root", sf.root, "err", err)
return
}
sf.trie = trie
}
// Trie opened successfully, keep prefetching items
for {
select {
case <-sf.wake:
// Subfetcher was woken up, retrieve any tasks to avoid spinning the lock
sf.lock.Lock()
tasks := sf.tasks
sf.tasks = nil
sf.lock.Unlock()
// Prefetch any tasks until the loop is interrupted
for i, task := range tasks {
select {
case <-sf.stop:
// If termination is requested, add any leftover back and return
sf.lock.Lock()
sf.tasks = append(sf.tasks, tasks[i:]...)
sf.lock.Unlock()
return
case ch := <-sf.copy:
// Somebody wants a copy of the current trie, grant them
ch <- sf.db.CopyTrie(sf.trie)
default:
// No termination request yet, prefetch the next entry
if _, ok := sf.seen[string(task)]; ok {
sf.dups++
} else {
sf.trie.TryGet(task)
sf.seen[string(task)] = struct{}{}
}
}
}
case ch := <-sf.copy:
// Somebody wants a copy of the current trie, grant them
ch <- sf.db.CopyTrie(sf.trie)
case <-sf.stop:
// Termination is requested, abort and leave remaining tasks
return
}
}
}