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store_compact.go
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store_compact.go
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// Copyright 2016-Present Couchbase, Inc.
//
// Use of this software is governed by the Business Source License included
// in the file licenses/BSL-Couchbase.txt. As of the Change Date specified
// in that file, in accordance with the Business Source License, use of this
// software will be governed by the Apache License, Version 2.0, included in
// the file licenses/APL2.txt.
package moss
import (
"fmt"
"os"
"time"
)
func (s *Store) compactMaybe(higher Snapshot,
persistOptions StorePersistOptions) (bool, error) {
if s.Options().CollectionOptions.ReadOnly {
return false, nil
}
compactionConcern := persistOptions.CompactionConcern
if compactionConcern <= 0 {
return false, nil
}
footer, err := s.snapshot()
if err != nil {
return false, err
}
defer footer.DecRef()
slocs, _ := footer.segmentLocs()
defer footer.DecRef()
var partialCompactStart int
if compactionConcern == CompactionAllow {
// First compute size of the incoming batch of data.
var incomingDataSize uint64
if higher != nil {
higherSS, ok := higher.(*segmentStack)
if ok {
higherStats := higherSS.Stats()
if higherStats != nil {
incomingDataSize = higherStats.CurBytes
}
}
}
// Try leveled compaction to same file.
var doCompact bool
partialCompactStart, doCompact =
calcPartialCompactionStart(slocs, incomingDataSize, s.options)
if doCompact {
compactionConcern = CompactionForce
} // Else append data to the end of the same file.
}
if compactionConcern != CompactionForce {
return false, nil
}
err = s.compact(footer, partialCompactStart, higher, persistOptions)
if err != nil {
if err == ErrNothingToCompact {
return false, nil // Swallow the error internally.
}
return false, err
}
var sizeBefore, sizeAfter int64
if len(slocs) > 0 {
mref := slocs[0].mref
if mref != nil && mref.fref != nil {
var finfo os.FileInfo
if partialCompactStart == 0 {
finfo, err = s.removeFileOnClose(mref.fref)
} else {
finfo, err = mref.fref.file.Stat()
}
if err == nil && len(finfo.Name()) > 0 {
sizeBefore = finfo.Size() // Fetch old file size.
}
}
}
slocs, _ = footer.segmentLocs()
defer footer.DecRef()
if len(slocs) > 0 {
mref := slocs[0].mref
if mref != nil && mref.fref != nil {
finfo, err := mref.fref.file.Stat()
if err == nil && len(finfo.Name()) > 0 {
sizeAfter = finfo.Size() // Fetch new file size.
}
}
}
s.m.Lock()
s.numLastCompactionBeforeBytes = uint64(sizeBefore)
s.numLastCompactionAfterBytes = uint64(sizeAfter)
delta := sizeBefore - sizeAfter
if delta > 0 {
s.totCompactionDecreaseBytes += uint64(delta)
if s.maxCompactionDecreaseBytes < uint64(delta) {
s.maxCompactionDecreaseBytes = uint64(delta)
}
} else if delta < 0 {
delta = -delta
s.totCompactionIncreaseBytes += uint64(delta)
if s.maxCompactionIncreaseBytes < uint64(delta) {
s.maxCompactionIncreaseBytes = uint64(delta)
}
}
s.m.Unlock()
return true, nil
}
// calcPartialCompactionStart - returns an index into the segment
// locations from which point it would be better to merge segments
// into a larger one.
//
// Return Values:
// 0 => Full compaction into a new file.
// >0 => Partially Compact all the segments starting at this
// return index, and append this one segment at the end of
// the file while retaining all segments before this
// starting segment.
//
// false => Append data to the end of the file.
// true => Perform compaction.
//
// Example: ||
// ||
// Say CompactionLevelMaxSegments = 2 ||
// ||
// || || ||
// || || || || ?? ||
// || || ==> || || ?? ==> ||
// || || || || ?? ||
// || || || || ?? ||
// || || || || ## || || ?? ||
// || || || || ## || || ?? ||
// -----------------> -----------> -----> (new file)
// level1 level0 new level1 hits max! final file
//
func calcPartialCompactionStart(slocs SegmentLocs, newDataSize uint64,
options *StoreOptions) (compStartIdx int, doCompact bool) {
maxSegmentsPerLevel := options.CompactionLevelMaxSegments
if maxSegmentsPerLevel == 0 {
maxSegmentsPerLevel = DefaultStoreOptions.CompactionLevelMaxSegments
}
fragmentationThreshold := options.CompactionPercentage
if fragmentationThreshold == 0.0 {
fragmentationThreshold = DefaultStoreOptions.CompactionPercentage
}
levelMultiplier := options.CompactionLevelMultiplier
if levelMultiplier == 0 {
levelMultiplier = DefaultStoreOptions.CompactionLevelMultiplier
}
if newDataSize == 0 { // Idle compaction => attempt full compaction.
return 0, true
}
if len(slocs) < maxSegmentsPerLevel {
return -1, false // No segments => append to end of same file.
}
determineExponent := func(segSize, curLevelSize uint64, curLevel int) int {
newLevel := curLevel
growBy := uint64(levelMultiplier)
for sz := curLevelSize * growBy; sz <= segSize && sz > 0; sz *= growBy {
newLevel++
}
return newLevel
}
compStartIdx = -1 // Assume we need to append to end of file.
// sizeSoFar represents the estimated size of the partially compacted
// future segment if we were to start compacting from current segment.
sizeSoFar := newDataSize
curLevelSize := newDataSize
curLevel := 0
numInLevel := 1 // Incoming batch is assumed to be appended in L0.
for idx := len(slocs) - 1; idx >= 0; idx-- {
segSize := slocs[idx].TotKeyByte + slocs[idx].TotValByte
newLevel := determineExponent(segSize, curLevelSize, curLevel)
if newLevel > curLevel {
break
}
numInLevel++
sizeSoFar += segSize
if numInLevel > maxSegmentsPerLevel {
compStartIdx = idx
curLevel = determineExponent(sizeSoFar, curLevelSize, curLevel)
numInLevel = 1
curLevelSize = sizeSoFar
}
}
if compStartIdx > 0 && fragmentationThreshold > 0 {
totDataSize := uint64(0)
for idx := 0; idx < len(slocs); idx++ {
totDataSize += slocs[idx].TotKeyByte + slocs[idx].TotValByte
}
finfo, err := slocs[0].mref.fref.file.Stat()
if err != nil {
return 0, true
}
predictedDataSize := int64(totDataSize) + int64(newDataSize)
predictedFileSize := finfo.Size() + int64(curLevelSize)
staleDataSize := predictedFileSize - predictedDataSize
fragPercentage := float64(staleDataSize) / float64(predictedFileSize)
if fragPercentage > fragmentationThreshold {
return 0, true // File is too fragmented for partial compaction.
}
}
if compStartIdx >= 0 {
doCompact = true
}
return compStartIdx, doCompact
}
func (s *Store) compact(footer *Footer, partialCompactStart int,
higher Snapshot, persistOptions StorePersistOptions) error {
startTime := time.Now()
var newSS *segmentStack // Segments to compact (all segs when full compaction).
var newBase *segmentStack // Segments not compacted (nil when full compaction).
if higher != nil {
ssHigher, ok := higher.(*segmentStack)
if !ok {
return fmt.Errorf("store_compact: higher not a segmentStack")
}
if ssHigher.isEmpty() && len(footer.SegmentLocs) <= 1 {
// No incoming data to persist and 1 or fewer footer segments.
return ErrNothingToCompact
}
ssHigher.ensureFullySorted()
newSS, newBase = s.mergeSegStacks(footer, partialCompactStart, ssHigher)
} else {
newSS = footer.ss // Safe as footer ref count is held positive.
if len(newSS.a) <= 1 { // No incoming data & 1 or fewer footer segments.
return ErrNothingToCompact // no need to perform compaction.
}
}
var frefCompact *FileRef
var fileCompact File
var err error
if partialCompactStart == 0 {
s.m.Lock()
frefCompact, fileCompact, err = s.startFileLOCKED()
s.m.Unlock()
} else {
frefCompact, fileCompact, err = s.startOrReuseFile()
}
if err != nil {
return err
}
defer frefCompact.DecRef()
syncAfterBytes := 0
if s.options != nil {
syncAfterBytes = s.options.CompactionSyncAfterBytes
if syncAfterBytes == 0 {
syncAfterBytes = DefaultStoreOptions.CompactionSyncAfterBytes
}
}
compactFooter, err := s.writeSegments(newSS, newBase,
frefCompact,
fileCompact,
partialCompactStart != 0, // Include deletions for partialCompactions.
syncAfterBytes)
if err != nil {
if partialCompactStart == 0 {
s.removeFileOnClose(frefCompact)
}
return err
}
// Prefix restore the footer's partialCompactStart.
if partialCompactStart != 0 {
compactFooter.spliceFooter(footer, partialCompactStart)
}
if s.options != nil &&
(s.options.CompactionSync || s.options.CompactionSyncAfterBytes > 0) {
persistOptions.NoSync = false
}
err = s.persistFooter(fileCompact, compactFooter, persistOptions)
if err != nil {
if partialCompactStart == 0 {
s.removeFileOnClose(frefCompact)
}
return err
}
err = compactFooter.loadSegments(s.options, frefCompact)
if err != nil {
if partialCompactStart == 0 {
s.removeFileOnClose(frefCompact)
}
return err
}
s.m.Lock()
footerPrev := s.footer
s.footer = compactFooter // Owns the frefCompact ref-count.
if partialCompactStart == 0 {
s.totCompactions++
} else {
s.totCompactionsPartial++
}
s.m.Unlock()
s.histograms["CompactUsecs"].Add(
uint64(time.Since(startTime).Nanoseconds()/1000), 1)
if footerPrev != nil {
footerPrev.DecRef()
}
return nil
}
func (s *Store) mergeSegStacks(footer *Footer, splicePoint int,
higher *segmentStack) (rv, rvBase *segmentStack) {
var footerSS *segmentStack
var lenFooterSS int
if footer != nil && footer.ss != nil {
footerSS = footer.ss
lenFooterSS = len(footerSS.a)
}
rv = &segmentStack{
options: higher.options,
a: make([]Segment, 0, len(higher.a)+lenFooterSS),
incarNum: higher.incarNum,
}
if footerSS != nil {
rv.a = append(rv.a, footerSS.a[splicePoint:]...)
if splicePoint > 0 {
rvBase = &segmentStack{
options: footerSS.options,
a: footerSS.a[0:splicePoint],
}
}
}
rv.a = append(rv.a, higher.a...)
for cName, newStack := range higher.childSegStacks {
if len(rv.childSegStacks) == 0 {
rv.childSegStacks = make(map[string]*segmentStack)
}
if footer == nil {
rv.childSegStacks[cName], _ =
s.mergeSegStacks(nil, splicePoint, newStack)
continue
}
childFooter, exists := footer.ChildFooters[cName]
if exists {
if childFooter.incarNum != higher.incarNum {
// Fast child collection recreation, must not merge
// segments from prior incarnation.
childFooter = nil
}
}
rv.childSegStacks[cName], _ =
s.mergeSegStacks(childFooter, splicePoint, newStack)
}
return rv, rvBase
}
func (right *Footer) spliceFooter(left *Footer, splicePoint int) {
slocs := make([]SegmentLoc, splicePoint, splicePoint+len(right.SegmentLocs))
copy(slocs, left.SegmentLocs[0:splicePoint])
slocs = append(slocs, right.SegmentLocs...)
right.SegmentLocs = slocs
for cName, childFooter := range right.ChildFooters {
storeChildFooter, exists := left.ChildFooters[cName]
if exists {
if storeChildFooter.incarNum != childFooter.incarNum {
// Fast child collection recreation, ok to drop store footer's
// segments from prior incarnation.
continue
}
childFooter.spliceFooter(storeChildFooter, splicePoint)
}
}
}
func (s *Store) writeSegments(newSS, base *segmentStack,
frefCompact *FileRef, fileCompact File,
includeDeletes bool, syncAfterBytes int) (compactFooter *Footer, err error) {
finfo, err := fileCompact.Stat()
if err != nil {
return nil, err
}
pos := finfo.Size()
stats := newSS.Stats()
kvsBegPos := pageAlignCeil(pos)
bufBegPos := pageAlignCeil(kvsBegPos + 1 + (int64(8+8) * int64(stats.CurOps)))
compactionBufferPages := 0
if s.options != nil {
compactionBufferPages = s.options.CompactionBufferPages
}
if compactionBufferPages <= 0 {
compactionBufferPages = DefaultStoreOptions.CompactionBufferPages
}
compactionBufferSize := StorePageSize * compactionBufferPages
compactWriter := &compactWriter{
file: fileCompact,
kvsWriter: newBufferedSectionWriter(fileCompact, kvsBegPos, 0, compactionBufferSize, s),
bufWriter: newBufferedSectionWriter(fileCompact, bufBegPos, 0, compactionBufferSize, s),
syncAfterBytes: syncAfterBytes,
}
onError := func(err error) error {
compactWriter.kvsWriter.Stop()
compactWriter.bufWriter.Stop()
return err
}
s.m.Lock()
s.totCompactionBeforeBytes += stats.CurBytes
s.m.Unlock()
err = newSS.mergeInto(0, len(newSS.a), compactWriter, base,
includeDeletes, false, s.abortCh)
if err != nil {
return nil, onError(err)
}
if err = compactWriter.kvsWriter.Flush(); err != nil {
return nil, onError(err)
}
if err = compactWriter.bufWriter.Flush(); err != nil {
return nil, onError(err)
}
if err = compactWriter.kvsWriter.Stop(); err != nil {
return nil, onError(err)
}
if err = compactWriter.bufWriter.Stop(); err != nil {
return nil, onError(err)
}
compactFooter = &Footer{
refs: 1,
SegmentLocs: []SegmentLoc{
{
Kind: SegmentKindBasic,
KvsOffset: uint64(kvsBegPos),
KvsBytes: uint64(compactWriter.kvsWriter.Offset() - kvsBegPos),
BufOffset: uint64(bufBegPos),
BufBytes: uint64(compactWriter.bufWriter.Offset() - bufBegPos),
TotOpsSet: compactWriter.totOperationSet,
TotOpsDel: compactWriter.totOperationDel,
TotKeyByte: compactWriter.totKeyByte,
TotValByte: compactWriter.totValByte,
},
},
}
for cName, childSegStack := range newSS.childSegStacks {
if compactFooter.ChildFooters == nil {
compactFooter.ChildFooters = make(map[string]*Footer)
}
// TODO: IMPORTANT: See MB-29664 - merge-operators, child
// collections, and partial/leveled compaction does not work
// correctly. You need to use full compaction if you're using
// merge-operators with child collections. The fix will be to
// compute and provide the right childSegStackBase to the
// recursive writeSegments() calls.
//
var childSegStackBase *segmentStack
childFooter, err := s.writeSegments(childSegStack, childSegStackBase,
frefCompact, fileCompact, includeDeletes, syncAfterBytes)
if err != nil {
return nil, err
}
compactFooter.ChildFooters[cName] = childFooter
}
return compactFooter, nil
}
type compactWriter struct {
file File
kvsWriter *bufferedSectionWriter
bufWriter *bufferedSectionWriter
// Bytes after which file's Sync() is to be invoked provided
// sync is enabled. If <= 0, Sync() is not invoked.
syncAfterBytes int
// Bytes written since the last Sync().
bytesSinceSync int
totOperationSet uint64
totOperationDel uint64
totOperationMerge uint64
totKeyByte uint64
totValByte uint64
}
func (cw *compactWriter) Mutate(operation uint64, key, val []byte) error {
if cw.syncAfterBytes > 0 && cw.bytesSinceSync > cw.syncAfterBytes {
err := cw.file.Sync()
if err != nil {
return err
}
cw.bytesSinceSync = 0
}
keyStart := cw.bufWriter.Written()
_, err := cw.bufWriter.Write(key)
if err != nil {
return err
}
_, err = cw.bufWriter.Write(val)
if err != nil {
return err
}
keyLen := len(key)
valLen := len(val)
opKlVl := encodeOpKeyLenValLen(operation, keyLen, valLen)
if keyLen <= 0 && valLen <= 0 {
keyStart = 0
}
pair := []uint64{opKlVl, uint64(keyStart)}
kvsBuf, err := Uint64SliceToByteSlice(pair)
if err != nil {
return err
}
_, err = cw.kvsWriter.Write(kvsBuf)
if err != nil {
return err
}
switch operation {
case OperationSet:
cw.totOperationSet++
case OperationDel:
cw.totOperationDel++
case OperationMerge:
cw.totOperationMerge++
default:
}
cw.totKeyByte += uint64(keyLen)
cw.totValByte += uint64(valLen)
cw.bytesSinceSync += keyLen + valLen + 16 /* len(kvsBuf) */
return nil
}