forked from cerc-io/plugeth
620 lines
21 KiB
Go
620 lines
21 KiB
Go
// Copyright 2023 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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//go:build (arm64 || amd64) && !openbsd
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// Package pebble implements the key-value database layer based on pebble.
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package pebble
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import (
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"bytes"
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"fmt"
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"runtime"
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"sync"
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"sync/atomic"
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"time"
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"github.com/cockroachdb/pebble"
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"github.com/cockroachdb/pebble/bloom"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/ethdb"
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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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const (
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// minCache is the minimum amount of memory in megabytes to allocate to pebble
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// read and write caching, split half and half.
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minCache = 16
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// minHandles is the minimum number of files handles to allocate to the open
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// database files.
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minHandles = 16
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// metricsGatheringInterval specifies the interval to retrieve pebble database
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// compaction, io and pause stats to report to the user.
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metricsGatheringInterval = 3 * time.Second
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)
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// Database is a persistent key-value store based on the pebble storage engine.
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// Apart from basic data storage functionality it also supports batch writes and
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// iterating over the keyspace in binary-alphabetical order.
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type Database struct {
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fn string // filename for reporting
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db *pebble.DB // Underlying pebble storage engine
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compTimeMeter metrics.Meter // Meter for measuring the total time spent in database compaction
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compReadMeter metrics.Meter // Meter for measuring the data read during compaction
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compWriteMeter metrics.Meter // Meter for measuring the data written during compaction
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writeDelayNMeter metrics.Meter // Meter for measuring the write delay number due to database compaction
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writeDelayMeter metrics.Meter // Meter for measuring the write delay duration due to database compaction
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diskSizeGauge metrics.Gauge // Gauge for tracking the size of all the levels in the database
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diskReadMeter metrics.Meter // Meter for measuring the effective amount of data read
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diskWriteMeter metrics.Meter // Meter for measuring the effective amount of data written
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memCompGauge metrics.Gauge // Gauge for tracking the number of memory compaction
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level0CompGauge metrics.Gauge // Gauge for tracking the number of table compaction in level0
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nonlevel0CompGauge metrics.Gauge // Gauge for tracking the number of table compaction in non0 level
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seekCompGauge metrics.Gauge // Gauge for tracking the number of table compaction caused by read opt
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manualMemAllocGauge metrics.Gauge // Gauge for tracking amount of non-managed memory currently allocated
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quitLock sync.RWMutex // Mutex protecting the quit channel and the closed flag
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quitChan chan chan error // Quit channel to stop the metrics collection before closing the database
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closed bool // keep track of whether we're Closed
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log log.Logger // Contextual logger tracking the database path
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activeComp int // Current number of active compactions
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compStartTime time.Time // The start time of the earliest currently-active compaction
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compTime atomic.Int64 // Total time spent in compaction in ns
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level0Comp atomic.Uint32 // Total number of level-zero compactions
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nonLevel0Comp atomic.Uint32 // Total number of non level-zero compactions
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writeDelayStartTime time.Time // The start time of the latest write stall
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writeDelayCount atomic.Int64 // Total number of write stall counts
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writeDelayTime atomic.Int64 // Total time spent in write stalls
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}
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func (d *Database) onCompactionBegin(info pebble.CompactionInfo) {
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if d.activeComp == 0 {
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d.compStartTime = time.Now()
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}
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l0 := info.Input[0]
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if l0.Level == 0 {
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d.level0Comp.Add(1)
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} else {
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d.nonLevel0Comp.Add(1)
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}
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d.activeComp++
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}
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func (d *Database) onCompactionEnd(info pebble.CompactionInfo) {
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if d.activeComp == 1 {
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d.compTime.Add(int64(time.Since(d.compStartTime)))
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} else if d.activeComp == 0 {
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panic("should not happen")
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}
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d.activeComp--
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}
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func (d *Database) onWriteStallBegin(b pebble.WriteStallBeginInfo) {
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d.writeDelayStartTime = time.Now()
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}
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func (d *Database) onWriteStallEnd() {
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d.writeDelayTime.Add(int64(time.Since(d.writeDelayStartTime)))
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}
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// New returns a wrapped pebble DB object. The namespace is the prefix that the
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// metrics reporting should use for surfacing internal stats.
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func New(file string, cache int, handles int, namespace string, readonly bool) (*Database, error) {
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// Ensure we have some minimal caching and file guarantees
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if cache < minCache {
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cache = minCache
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}
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if handles < minHandles {
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handles = minHandles
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}
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logger := log.New("database", file)
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logger.Info("Allocated cache and file handles", "cache", common.StorageSize(cache*1024*1024), "handles", handles)
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// The max memtable size is limited by the uint32 offsets stored in
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// internal/arenaskl.node, DeferredBatchOp, and flushableBatchEntry.
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// Taken from https://github.com/cockroachdb/pebble/blob/master/open.go#L38
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maxMemTableSize := 4<<30 - 1 // Capped by 4 GB
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// Two memory tables is configured which is identical to leveldb,
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// including a frozen memory table and another live one.
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memTableLimit := 2
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memTableSize := cache * 1024 * 1024 / 2 / memTableLimit
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if memTableSize > maxMemTableSize {
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memTableSize = maxMemTableSize
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}
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db := &Database{
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fn: file,
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log: logger,
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quitChan: make(chan chan error),
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}
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opt := &pebble.Options{
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// Pebble has a single combined cache area and the write
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// buffers are taken from this too. Assign all available
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// memory allowance for cache.
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Cache: pebble.NewCache(int64(cache * 1024 * 1024)),
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MaxOpenFiles: handles,
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// The size of memory table(as well as the write buffer).
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// Note, there may have more than two memory tables in the system.
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MemTableSize: memTableSize,
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// MemTableStopWritesThreshold places a hard limit on the size
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// of the existent MemTables(including the frozen one).
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// Note, this must be the number of tables not the size of all memtables
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// according to https://github.com/cockroachdb/pebble/blob/master/options.go#L738-L742
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// and to https://github.com/cockroachdb/pebble/blob/master/db.go#L1892-L1903.
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MemTableStopWritesThreshold: memTableLimit,
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// The default compaction concurrency(1 thread),
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// Here use all available CPUs for faster compaction.
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MaxConcurrentCompactions: func() int { return runtime.NumCPU() },
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// Per-level options. Options for at least one level must be specified. The
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// options for the last level are used for all subsequent levels.
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Levels: []pebble.LevelOptions{
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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{TargetFileSize: 2 * 1024 * 1024, FilterPolicy: bloom.FilterPolicy(10)},
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},
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ReadOnly: readonly,
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EventListener: &pebble.EventListener{
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CompactionBegin: db.onCompactionBegin,
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CompactionEnd: db.onCompactionEnd,
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WriteStallBegin: db.onWriteStallBegin,
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WriteStallEnd: db.onWriteStallEnd,
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},
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}
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// Disable seek compaction explicitly. Check https://github.com/ethereum/go-ethereum/pull/20130
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// for more details.
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opt.Experimental.ReadSamplingMultiplier = -1
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// Open the db and recover any potential corruptions
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innerDB, err := pebble.Open(file, opt)
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if err != nil {
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return nil, err
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}
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db.db = innerDB
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db.compTimeMeter = metrics.NewRegisteredMeter(namespace+"compact/time", nil)
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db.compReadMeter = metrics.NewRegisteredMeter(namespace+"compact/input", nil)
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db.compWriteMeter = metrics.NewRegisteredMeter(namespace+"compact/output", nil)
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db.diskSizeGauge = metrics.NewRegisteredGauge(namespace+"disk/size", nil)
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db.diskReadMeter = metrics.NewRegisteredMeter(namespace+"disk/read", nil)
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db.diskWriteMeter = metrics.NewRegisteredMeter(namespace+"disk/write", nil)
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db.writeDelayMeter = metrics.NewRegisteredMeter(namespace+"compact/writedelay/duration", nil)
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db.writeDelayNMeter = metrics.NewRegisteredMeter(namespace+"compact/writedelay/counter", nil)
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db.memCompGauge = metrics.NewRegisteredGauge(namespace+"compact/memory", nil)
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db.level0CompGauge = metrics.NewRegisteredGauge(namespace+"compact/level0", nil)
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db.nonlevel0CompGauge = metrics.NewRegisteredGauge(namespace+"compact/nonlevel0", nil)
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db.seekCompGauge = metrics.NewRegisteredGauge(namespace+"compact/seek", nil)
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db.manualMemAllocGauge = metrics.NewRegisteredGauge(namespace+"memory/manualalloc", nil)
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// Start up the metrics gathering and return
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go db.meter(metricsGatheringInterval)
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return db, nil
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}
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// Close stops the metrics collection, flushes any pending data to disk and closes
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// all io accesses to the underlying key-value store.
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func (d *Database) Close() error {
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d.quitLock.Lock()
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defer d.quitLock.Unlock()
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// Allow double closing, simplifies things
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if d.closed {
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return nil
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}
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d.closed = true
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if d.quitChan != nil {
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errc := make(chan error)
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d.quitChan <- errc
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if err := <-errc; err != nil {
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d.log.Error("Metrics collection failed", "err", err)
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}
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d.quitChan = nil
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}
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return d.db.Close()
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}
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// Has retrieves if a key is present in the key-value store.
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func (d *Database) Has(key []byte) (bool, error) {
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d.quitLock.RLock()
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defer d.quitLock.RUnlock()
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if d.closed {
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return false, pebble.ErrClosed
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}
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_, closer, err := d.db.Get(key)
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if err == pebble.ErrNotFound {
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return false, nil
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} else if err != nil {
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return false, err
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}
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closer.Close()
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return true, nil
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}
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// Get retrieves the given key if it's present in the key-value store.
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func (d *Database) Get(key []byte) ([]byte, error) {
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d.quitLock.RLock()
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defer d.quitLock.RUnlock()
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if d.closed {
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return nil, pebble.ErrClosed
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}
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dat, closer, err := d.db.Get(key)
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if err != nil {
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return nil, err
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}
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ret := make([]byte, len(dat))
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copy(ret, dat)
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closer.Close()
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return ret, nil
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}
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// Put inserts the given value into the key-value store.
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func (d *Database) Put(key []byte, value []byte) error {
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d.quitLock.RLock()
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defer d.quitLock.RUnlock()
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if d.closed {
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return pebble.ErrClosed
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}
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return d.db.Set(key, value, pebble.NoSync)
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}
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// Delete removes the key from the key-value store.
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func (d *Database) Delete(key []byte) error {
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d.quitLock.RLock()
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defer d.quitLock.RUnlock()
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if d.closed {
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return pebble.ErrClosed
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}
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return d.db.Delete(key, nil)
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}
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// NewBatch creates a write-only key-value store that buffers changes to its host
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// database until a final write is called.
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func (d *Database) NewBatch() ethdb.Batch {
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return &batch{
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b: d.db.NewBatch(),
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db: d,
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}
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}
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// NewBatchWithSize creates a write-only database batch with pre-allocated buffer.
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// It's not supported by pebble, but pebble has better memory allocation strategy
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// which turns out a lot faster than leveldb. It's performant enough to construct
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// batch object without any pre-allocated space.
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func (d *Database) NewBatchWithSize(_ int) ethdb.Batch {
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return &batch{
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b: d.db.NewBatch(),
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db: d,
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}
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}
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// snapshot wraps a pebble snapshot for implementing the Snapshot interface.
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type snapshot struct {
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db *pebble.Snapshot
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}
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// NewSnapshot creates a database snapshot based on the current state.
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// The created snapshot will not be affected by all following mutations
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// happened on the database.
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// Note don't forget to release the snapshot once it's used up, otherwise
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// the stale data will never be cleaned up by the underlying compactor.
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func (d *Database) NewSnapshot() (ethdb.Snapshot, error) {
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snap := d.db.NewSnapshot()
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return &snapshot{db: snap}, nil
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}
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// Has retrieves if a key is present in the snapshot backing by a key-value
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// data store.
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func (snap *snapshot) Has(key []byte) (bool, error) {
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_, closer, err := snap.db.Get(key)
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if err != nil {
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if err != pebble.ErrNotFound {
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return false, err
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} else {
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return false, nil
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}
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}
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closer.Close()
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return true, nil
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}
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// Get retrieves the given key if it's present in the snapshot backing by
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// key-value data store.
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func (snap *snapshot) Get(key []byte) ([]byte, error) {
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dat, closer, err := snap.db.Get(key)
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if err != nil {
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return nil, err
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}
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ret := make([]byte, len(dat))
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copy(ret, dat)
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closer.Close()
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return ret, nil
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}
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// Release releases associated resources. Release should always succeed and can
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// be called multiple times without causing error.
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func (snap *snapshot) Release() {
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snap.db.Close()
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}
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// upperBound returns the upper bound for the given prefix
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func upperBound(prefix []byte) (limit []byte) {
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for i := len(prefix) - 1; i >= 0; i-- {
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c := prefix[i]
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if c == 0xff {
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continue
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}
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limit = make([]byte, i+1)
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copy(limit, prefix)
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limit[i] = c + 1
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break
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}
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return limit
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}
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// Stat returns a particular internal stat of the database.
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func (d *Database) Stat(property string) (string, error) {
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return "", nil
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}
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// Compact flattens the underlying data store for the given key range. In essence,
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// deleted and overwritten versions are discarded, and the data is rearranged to
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// reduce the cost of operations needed to access them.
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//
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// A nil start is treated as a key before all keys in the data store; a nil limit
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// is treated as a key after all keys in the data store. If both is nil then it
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// will compact entire data store.
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func (d *Database) Compact(start []byte, limit []byte) error {
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// There is no special flag to represent the end of key range
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// in pebble(nil in leveldb). Use an ugly hack to construct a
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// large key to represent it.
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// Note any prefixed database entry will be smaller than this
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// flag, as for trie nodes we need the 32 byte 0xff because
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// there might be a shared prefix starting with a number of
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// 0xff-s, so 32 ensures than only a hash collision could touch it.
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// https://github.com/cockroachdb/pebble/issues/2359#issuecomment-1443995833
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if limit == nil {
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limit = bytes.Repeat([]byte{0xff}, 32)
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}
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return d.db.Compact(start, limit, true) // Parallelization is preferred
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}
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// Path returns the path to the database directory.
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func (d *Database) Path() string {
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return d.fn
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}
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// meter periodically retrieves internal pebble counters and reports them to
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// the metrics subsystem.
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func (d *Database) meter(refresh time.Duration) {
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var errc chan error
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timer := time.NewTimer(refresh)
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defer timer.Stop()
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// Create storage and warning log tracer for write delay.
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var (
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compTimes [2]int64
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writeDelayTimes [2]int64
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writeDelayCounts [2]int64
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compWrites [2]int64
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compReads [2]int64
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nWrites [2]int64
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)
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// Iterate ad infinitum and collect the stats
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for i := 1; errc == nil; i++ {
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var (
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compWrite int64
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compRead int64
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nWrite int64
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metrics = d.db.Metrics()
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compTime = d.compTime.Load()
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writeDelayCount = d.writeDelayCount.Load()
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writeDelayTime = d.writeDelayTime.Load()
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nonLevel0CompCount = int64(d.nonLevel0Comp.Load())
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level0CompCount = int64(d.level0Comp.Load())
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)
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writeDelayTimes[i%2] = writeDelayTime
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writeDelayCounts[i%2] = writeDelayCount
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compTimes[i%2] = compTime
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for _, levelMetrics := range metrics.Levels {
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nWrite += int64(levelMetrics.BytesCompacted)
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nWrite += int64(levelMetrics.BytesFlushed)
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compWrite += int64(levelMetrics.BytesCompacted)
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compRead += int64(levelMetrics.BytesRead)
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}
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nWrite += int64(metrics.WAL.BytesWritten)
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compWrites[i%2] = compWrite
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compReads[i%2] = compRead
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nWrites[i%2] = nWrite
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if d.writeDelayNMeter != nil {
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d.writeDelayNMeter.Mark(writeDelayCounts[i%2] - writeDelayCounts[(i-1)%2])
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}
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if d.writeDelayMeter != nil {
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d.writeDelayMeter.Mark(writeDelayTimes[i%2] - writeDelayTimes[(i-1)%2])
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}
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if d.compTimeMeter != nil {
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d.compTimeMeter.Mark(compTimes[i%2] - compTimes[(i-1)%2])
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}
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if d.compReadMeter != nil {
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d.compReadMeter.Mark(compReads[i%2] - compReads[(i-1)%2])
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}
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if d.compWriteMeter != nil {
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d.compWriteMeter.Mark(compWrites[i%2] - compWrites[(i-1)%2])
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}
|
|
if d.diskSizeGauge != nil {
|
|
d.diskSizeGauge.Update(int64(metrics.DiskSpaceUsage()))
|
|
}
|
|
if d.diskReadMeter != nil {
|
|
d.diskReadMeter.Mark(0) // pebble doesn't track non-compaction reads
|
|
}
|
|
if d.diskWriteMeter != nil {
|
|
d.diskWriteMeter.Mark(nWrites[i%2] - nWrites[(i-1)%2])
|
|
}
|
|
// See https://github.com/cockroachdb/pebble/pull/1628#pullrequestreview-1026664054
|
|
manuallyAllocated := metrics.BlockCache.Size + int64(metrics.MemTable.Size) + int64(metrics.MemTable.ZombieSize)
|
|
d.manualMemAllocGauge.Update(manuallyAllocated)
|
|
d.memCompGauge.Update(metrics.Flush.Count)
|
|
d.nonlevel0CompGauge.Update(nonLevel0CompCount)
|
|
d.level0CompGauge.Update(level0CompCount)
|
|
d.seekCompGauge.Update(metrics.Compact.ReadCount)
|
|
|
|
// Sleep a bit, then repeat the stats collection
|
|
select {
|
|
case errc = <-d.quitChan:
|
|
// Quit requesting, stop hammering the database
|
|
case <-timer.C:
|
|
timer.Reset(refresh)
|
|
// Timeout, gather a new set of stats
|
|
}
|
|
}
|
|
errc <- nil
|
|
}
|
|
|
|
// batch is a write-only batch that commits changes to its host database
|
|
// when Write is called. A batch cannot be used concurrently.
|
|
type batch struct {
|
|
b *pebble.Batch
|
|
db *Database
|
|
size int
|
|
}
|
|
|
|
// Put inserts the given value into the batch for later committing.
|
|
func (b *batch) Put(key, value []byte) error {
|
|
b.b.Set(key, value, nil)
|
|
b.size += len(key) + len(value)
|
|
return nil
|
|
}
|
|
|
|
// Delete inserts the a key removal into the batch for later committing.
|
|
func (b *batch) Delete(key []byte) error {
|
|
b.b.Delete(key, nil)
|
|
b.size += len(key)
|
|
return nil
|
|
}
|
|
|
|
// ValueSize retrieves the amount of data queued up for writing.
|
|
func (b *batch) ValueSize() int {
|
|
return b.size
|
|
}
|
|
|
|
// Write flushes any accumulated data to disk.
|
|
func (b *batch) Write() error {
|
|
b.db.quitLock.RLock()
|
|
defer b.db.quitLock.RUnlock()
|
|
if b.db.closed {
|
|
return pebble.ErrClosed
|
|
}
|
|
return b.b.Commit(pebble.NoSync)
|
|
}
|
|
|
|
// Reset resets the batch for reuse.
|
|
func (b *batch) Reset() {
|
|
b.b.Reset()
|
|
b.size = 0
|
|
}
|
|
|
|
// Replay replays the batch contents.
|
|
func (b *batch) Replay(w ethdb.KeyValueWriter) error {
|
|
reader := b.b.Reader()
|
|
for {
|
|
kind, k, v, ok := reader.Next()
|
|
if !ok {
|
|
break
|
|
}
|
|
// The (k,v) slices might be overwritten if the batch is reset/reused,
|
|
// and the receiver should copy them if they are to be retained long-term.
|
|
if kind == pebble.InternalKeyKindSet {
|
|
w.Put(k, v)
|
|
} else if kind == pebble.InternalKeyKindDelete {
|
|
w.Delete(k)
|
|
} else {
|
|
return fmt.Errorf("unhandled operation, keytype: %v", kind)
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// pebbleIterator is a wrapper of underlying iterator in storage engine.
|
|
// The purpose of this structure is to implement the missing APIs.
|
|
type pebbleIterator struct {
|
|
iter *pebble.Iterator
|
|
moved bool
|
|
}
|
|
|
|
// NewIterator creates a binary-alphabetical iterator over a subset
|
|
// of database content with a particular key prefix, starting at a particular
|
|
// initial key (or after, if it does not exist).
|
|
func (d *Database) NewIterator(prefix []byte, start []byte) ethdb.Iterator {
|
|
iter := d.db.NewIter(&pebble.IterOptions{
|
|
LowerBound: append(prefix, start...),
|
|
UpperBound: upperBound(prefix),
|
|
})
|
|
iter.First()
|
|
return &pebbleIterator{iter: iter, moved: true}
|
|
}
|
|
|
|
// Next moves the iterator to the next key/value pair. It returns whether the
|
|
// iterator is exhausted.
|
|
func (iter *pebbleIterator) Next() bool {
|
|
if iter.moved {
|
|
iter.moved = false
|
|
return iter.iter.Valid()
|
|
}
|
|
return iter.iter.Next()
|
|
}
|
|
|
|
// Error returns any accumulated error. Exhausting all the key/value pairs
|
|
// is not considered to be an error.
|
|
func (iter *pebbleIterator) Error() error {
|
|
return iter.iter.Error()
|
|
}
|
|
|
|
// Key returns the key of the current key/value pair, or nil if done. The caller
|
|
// should not modify the contents of the returned slice, and its contents may
|
|
// change on the next call to Next.
|
|
func (iter *pebbleIterator) Key() []byte {
|
|
return iter.iter.Key()
|
|
}
|
|
|
|
// Value returns the value of the current key/value pair, or nil if done. The
|
|
// caller should not modify the contents of the returned slice, and its contents
|
|
// may change on the next call to Next.
|
|
func (iter *pebbleIterator) Value() []byte {
|
|
return iter.iter.Value()
|
|
}
|
|
|
|
// Release releases associated resources. Release should always succeed and can
|
|
// be called multiple times without causing error.
|
|
func (iter *pebbleIterator) Release() { iter.iter.Close() }
|