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obsolete_files.go
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obsolete_files.go
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// Copyright 2019 The LevelDB-Go and Pebble Authors. All rights reserved. Use
// of this source code is governed by a BSD-style license that can be found in
// the LICENSE file.
package pebble
import (
"cmp"
"context"
"runtime/pprof"
"slices"
"sync"
"time"
"github.com/cockroachdb/errors/oserror"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/objstorage"
"github.com/cockroachdb/pebble/vfs"
"github.com/cockroachdb/pebble/wal"
"github.com/cockroachdb/tokenbucket"
)
// Cleaner exports the base.Cleaner type.
type Cleaner = base.Cleaner
// DeleteCleaner exports the base.DeleteCleaner type.
type DeleteCleaner = base.DeleteCleaner
// ArchiveCleaner exports the base.ArchiveCleaner type.
type ArchiveCleaner = base.ArchiveCleaner
type cleanupManager struct {
opts *Options
objProvider objstorage.Provider
onTableDeleteFn func(fileSize uint64, isLocal bool)
deletePacer *deletionPacer
// jobsCh is used as the cleanup job queue.
jobsCh chan *cleanupJob
// waitGroup is used to wait for the background goroutine to exit.
waitGroup sync.WaitGroup
mu struct {
sync.Mutex
// totalJobs is the total number of enqueued jobs (completed or in progress).
totalJobs int
completedJobs int
completedJobsCond sync.Cond
jobsQueueWarningIssued bool
}
}
// We can queue this many jobs before we have to block EnqueueJob.
const jobsQueueDepth = 1000
// deletableFile is used for non log files.
type deletableFile struct {
dir string
fileNum base.DiskFileNum
fileSize uint64
isLocal bool
}
// obsoleteFile holds information about a file that needs to be deleted soon.
type obsoleteFile struct {
fileType fileType
// nonLogFile is populated when fileType != fileTypeLog.
nonLogFile deletableFile
// logFile is populated when fileType == fileTypeLog.
logFile wal.DeletableLog
}
type cleanupJob struct {
jobID JobID
obsoleteFiles []obsoleteFile
}
// openCleanupManager creates a cleanupManager and starts its background goroutine.
// The cleanupManager must be Close()d.
func openCleanupManager(
opts *Options,
objProvider objstorage.Provider,
onTableDeleteFn func(fileSize uint64, isLocal bool),
getDeletePacerInfo func() deletionPacerInfo,
) *cleanupManager {
cm := &cleanupManager{
opts: opts,
objProvider: objProvider,
onTableDeleteFn: onTableDeleteFn,
deletePacer: newDeletionPacer(time.Now(), int64(opts.TargetByteDeletionRate), getDeletePacerInfo),
jobsCh: make(chan *cleanupJob, jobsQueueDepth),
}
cm.mu.completedJobsCond.L = &cm.mu.Mutex
cm.waitGroup.Add(1)
go func() {
pprof.Do(context.Background(), gcLabels, func(context.Context) {
cm.mainLoop()
})
}()
return cm
}
// Close stops the background goroutine, waiting until all queued jobs are completed.
// Delete pacing is disabled for the remaining jobs.
func (cm *cleanupManager) Close() {
close(cm.jobsCh)
cm.waitGroup.Wait()
}
// EnqueueJob adds a cleanup job to the manager's queue.
func (cm *cleanupManager) EnqueueJob(jobID JobID, obsoleteFiles []obsoleteFile) {
job := &cleanupJob{
jobID: jobID,
obsoleteFiles: obsoleteFiles,
}
// Report deleted bytes to the pacer, which can use this data to potentially
// increase the deletion rate to keep up. We want to do this at enqueue time
// rather than when we get to the job, otherwise the reported bytes will be
// subject to the throttling rate which defeats the purpose.
var pacingBytes uint64
for _, of := range obsoleteFiles {
if cm.needsPacing(of.fileType, of.nonLogFile.fileNum) {
pacingBytes += of.nonLogFile.fileSize
}
}
if pacingBytes > 0 {
cm.deletePacer.ReportDeletion(time.Now(), pacingBytes)
}
cm.mu.Lock()
cm.mu.totalJobs++
cm.maybeLogLocked()
cm.mu.Unlock()
cm.jobsCh <- job
}
// Wait until the completion of all jobs that were already queued.
//
// Does not wait for jobs that are enqueued during the call.
//
// Note that DB.mu should not be held while calling this method; the background
// goroutine needs to acquire DB.mu to update deleted table metrics.
func (cm *cleanupManager) Wait() {
cm.mu.Lock()
defer cm.mu.Unlock()
n := cm.mu.totalJobs
for cm.mu.completedJobs < n {
cm.mu.completedJobsCond.Wait()
}
}
// mainLoop runs the manager's background goroutine.
func (cm *cleanupManager) mainLoop() {
defer cm.waitGroup.Done()
var tb tokenbucket.TokenBucket
// Use a token bucket with 1 token / second refill rate and 1 token burst.
tb.Init(1.0, 1.0)
for job := range cm.jobsCh {
for _, of := range job.obsoleteFiles {
switch of.fileType {
case fileTypeTable:
cm.maybePace(&tb, of.fileType, of.nonLogFile.fileNum, of.nonLogFile.fileSize)
cm.onTableDeleteFn(of.nonLogFile.fileSize, of.nonLogFile.isLocal)
cm.deleteObsoleteObject(fileTypeTable, job.jobID, of.nonLogFile.fileNum)
case fileTypeLog:
cm.deleteObsoleteFile(of.logFile.FS, fileTypeLog, job.jobID, of.logFile.Path,
base.DiskFileNum(of.logFile.NumWAL), of.logFile.ApproxFileSize)
default:
path := base.MakeFilepath(cm.opts.FS, of.nonLogFile.dir, of.fileType, of.nonLogFile.fileNum)
cm.deleteObsoleteFile(
cm.opts.FS, of.fileType, job.jobID, path, of.nonLogFile.fileNum, of.nonLogFile.fileSize)
}
}
cm.mu.Lock()
cm.mu.completedJobs++
cm.mu.completedJobsCond.Broadcast()
cm.maybeLogLocked()
cm.mu.Unlock()
}
}
// fileNumIfSST is read iff fileType is fileTypeTable.
func (cm *cleanupManager) needsPacing(fileType base.FileType, fileNumIfSST base.DiskFileNum) bool {
if fileType != fileTypeTable {
return false
}
meta, err := cm.objProvider.Lookup(fileType, fileNumIfSST)
if err != nil {
// The object was already removed from the provider; we won't actually
// delete anything, so we don't need to pace.
return false
}
// Don't throttle deletion of remote objects.
return !meta.IsRemote()
}
// maybePace sleeps before deleting an object if appropriate. It is always
// called from the background goroutine.
func (cm *cleanupManager) maybePace(
tb *tokenbucket.TokenBucket, fileType base.FileType, fileNum base.DiskFileNum, fileSize uint64,
) {
if !cm.needsPacing(fileType, fileNum) {
return
}
tokens := cm.deletePacer.PacingDelay(time.Now(), fileSize)
if tokens == 0.0 {
// The token bucket might be in debt; it could make us wait even for 0
// tokens. We don't want that if the pacer decided throttling should be
// disabled.
return
}
// Wait for tokens. We use a token bucket instead of sleeping outright because
// the token bucket accumulates up to one second of unused tokens.
for {
ok, d := tb.TryToFulfill(tokenbucket.Tokens(tokens))
if ok {
break
}
time.Sleep(d)
}
}
// deleteObsoleteFile deletes a (non-object) file that is no longer needed.
func (cm *cleanupManager) deleteObsoleteFile(
fs vfs.FS, fileType fileType, jobID JobID, path string, fileNum base.DiskFileNum, fileSize uint64,
) {
// TODO(peter): need to handle this error, probably by re-adding the
// file that couldn't be deleted to one of the obsolete slices map.
err := cm.opts.Cleaner.Clean(fs, fileType, path)
if oserror.IsNotExist(err) {
return
}
switch fileType {
case fileTypeLog:
cm.opts.EventListener.WALDeleted(WALDeleteInfo{
JobID: int(jobID),
Path: path,
FileNum: fileNum,
Err: err,
})
case fileTypeManifest:
cm.opts.EventListener.ManifestDeleted(ManifestDeleteInfo{
JobID: int(jobID),
Path: path,
FileNum: fileNum,
Err: err,
})
case fileTypeTable:
panic("invalid deletion of object file")
}
}
func (cm *cleanupManager) deleteObsoleteObject(
fileType fileType, jobID JobID, fileNum base.DiskFileNum,
) {
if fileType != fileTypeTable {
panic("not an object")
}
var path string
meta, err := cm.objProvider.Lookup(fileType, fileNum)
if err != nil {
path = "<nil>"
} else {
path = cm.objProvider.Path(meta)
err = cm.objProvider.Remove(fileType, fileNum)
}
if cm.objProvider.IsNotExistError(err) {
return
}
switch fileType {
case fileTypeTable:
cm.opts.EventListener.TableDeleted(TableDeleteInfo{
JobID: int(jobID),
Path: path,
FileNum: fileNum,
Err: err,
})
}
}
// maybeLogLocked issues a log if the job queue gets 75% full and issues a log
// when the job queue gets back to less than 10% full.
//
// Must be called with cm.mu locked.
func (cm *cleanupManager) maybeLogLocked() {
const highThreshold = jobsQueueDepth * 3 / 4
const lowThreshold = jobsQueueDepth / 10
jobsInQueue := cm.mu.totalJobs - cm.mu.completedJobs
if !cm.mu.jobsQueueWarningIssued && jobsInQueue > highThreshold {
cm.mu.jobsQueueWarningIssued = true
cm.opts.Logger.Infof("cleanup falling behind; job queue has over %d jobs", highThreshold)
}
if cm.mu.jobsQueueWarningIssued && jobsInQueue < lowThreshold {
cm.mu.jobsQueueWarningIssued = false
cm.opts.Logger.Infof("cleanup back to normal; job queue has under %d jobs", lowThreshold)
}
}
func (d *DB) getDeletionPacerInfo() deletionPacerInfo {
var pacerInfo deletionPacerInfo
// Call GetDiskUsage after every file deletion. This may seem inefficient,
// but in practice this was observed to take constant time, regardless of
// volume size used, at least on linux with ext4 and zfs. All invocations
// take 10 microseconds or less.
pacerInfo.freeBytes = d.calculateDiskAvailableBytes()
d.mu.Lock()
pacerInfo.obsoleteBytes = d.mu.versions.metrics.Table.ObsoleteSize
pacerInfo.liveBytes = uint64(d.mu.versions.metrics.Total().Size)
d.mu.Unlock()
return pacerInfo
}
// onObsoleteTableDelete is called to update metrics when an sstable is deleted.
func (d *DB) onObsoleteTableDelete(fileSize uint64, isLocal bool) {
d.mu.Lock()
d.mu.versions.metrics.Table.ObsoleteCount--
d.mu.versions.metrics.Table.ObsoleteSize -= fileSize
if isLocal {
d.mu.versions.metrics.Table.Local.ObsoleteSize -= fileSize
}
d.mu.Unlock()
}
// scanObsoleteFiles scans the filesystem for files that are no longer needed
// and adds those to the internal lists of obsolete files. Note that the files
// are not actually deleted by this method. A subsequent call to
// deleteObsoleteFiles must be performed. Must be not be called concurrently
// with compactions and flushes. db.mu must be held when calling this function.
func (d *DB) scanObsoleteFiles(list []string, flushableIngests []*ingestedFlushable) {
// Disable automatic compactions temporarily to avoid concurrent compactions /
// flushes from interfering. The original value is restored on completion.
disabledPrev := d.opts.DisableAutomaticCompactions
defer func() {
d.opts.DisableAutomaticCompactions = disabledPrev
}()
d.opts.DisableAutomaticCompactions = true
// Wait for any ongoing compaction to complete before continuing.
for d.mu.compact.compactingCount > 0 || d.mu.compact.downloadingCount > 0 || d.mu.compact.flushing {
d.mu.compact.cond.Wait()
}
liveFileNums := make(map[base.DiskFileNum]struct{})
d.mu.versions.addLiveFileNums(liveFileNums)
// Protect against files which are only referred to by the ingestedFlushable
// from being deleted. These are added to the flushable queue on WAL replay
// and handle their own obsoletion/deletion. We exclude them from this obsolete
// file scan to avoid double-deleting these files.
for _, f := range flushableIngests {
for _, file := range f.files {
liveFileNums[file.FileBacking.DiskFileNum] = struct{}{}
}
}
manifestFileNum := d.mu.versions.manifestFileNum
var obsoleteTables []tableInfo
var obsoleteManifests []fileInfo
var obsoleteOptions []fileInfo
for _, filename := range list {
fileType, diskFileNum, ok := base.ParseFilename(d.opts.FS, filename)
if !ok {
continue
}
switch fileType {
case fileTypeManifest:
if diskFileNum >= manifestFileNum {
continue
}
fi := fileInfo{FileNum: diskFileNum}
if stat, err := d.opts.FS.Stat(filename); err == nil {
fi.FileSize = uint64(stat.Size())
}
obsoleteManifests = append(obsoleteManifests, fi)
case fileTypeOptions:
if diskFileNum >= d.optionsFileNum {
continue
}
fi := fileInfo{FileNum: diskFileNum}
if stat, err := d.opts.FS.Stat(filename); err == nil {
fi.FileSize = uint64(stat.Size())
}
obsoleteOptions = append(obsoleteOptions, fi)
case fileTypeTable:
// Objects are handled through the objstorage provider below.
default:
// Don't delete files we don't know about.
}
}
objects := d.objProvider.List()
for _, obj := range objects {
switch obj.FileType {
case fileTypeTable:
if _, ok := liveFileNums[obj.DiskFileNum]; ok {
continue
}
fileInfo := fileInfo{
FileNum: obj.DiskFileNum,
}
if size, err := d.objProvider.Size(obj); err == nil {
fileInfo.FileSize = uint64(size)
}
obsoleteTables = append(obsoleteTables, tableInfo{
fileInfo: fileInfo,
isLocal: !obj.IsRemote(),
})
default:
// Ignore object types we don't know about.
}
}
d.mu.versions.obsoleteTables = mergeTableInfos(d.mu.versions.obsoleteTables, obsoleteTables)
d.mu.versions.updateObsoleteTableMetricsLocked()
d.mu.versions.obsoleteManifests = merge(d.mu.versions.obsoleteManifests, obsoleteManifests)
d.mu.versions.obsoleteOptions = merge(d.mu.versions.obsoleteOptions, obsoleteOptions)
}
// disableFileDeletions disables file deletions and then waits for any
// in-progress deletion to finish. The caller is required to call
// enableFileDeletions in order to enable file deletions again. It is ok for
// multiple callers to disable file deletions simultaneously, though they must
// all invoke enableFileDeletions in order for file deletions to be re-enabled
// (there is an internal reference count on file deletion disablement).
//
// d.mu must be held when calling this method.
func (d *DB) disableFileDeletions() {
d.mu.disableFileDeletions++
d.mu.Unlock()
defer d.mu.Lock()
d.cleanupManager.Wait()
}
// enableFileDeletions enables previously disabled file deletions. A cleanup job
// is queued if necessary.
//
// d.mu must be held when calling this method.
func (d *DB) enableFileDeletions() {
if d.mu.disableFileDeletions <= 0 {
panic("pebble: file deletion disablement invariant violated")
}
d.mu.disableFileDeletions--
if d.mu.disableFileDeletions > 0 {
return
}
d.deleteObsoleteFiles(d.newJobIDLocked())
}
type fileInfo = base.FileInfo
// deleteObsoleteFiles enqueues a cleanup job to the cleanup manager, if necessary.
//
// d.mu must be held when calling this. The function will release and re-aquire the mutex.
//
// Does nothing if file deletions are disabled (see disableFileDeletions). A
// cleanup job will be scheduled when file deletions are re-enabled.
func (d *DB) deleteObsoleteFiles(jobID JobID) {
if d.mu.disableFileDeletions > 0 {
return
}
_, noRecycle := d.opts.Cleaner.(base.NeedsFileContents)
// NB: d.mu.versions.minUnflushedLogNum is the log number of the earliest
// log that has not had its contents flushed to an sstable.
obsoleteLogs, err := d.mu.log.manager.Obsolete(wal.NumWAL(d.mu.versions.minUnflushedLogNum), noRecycle)
if err != nil {
panic(err)
}
obsoleteTables := append([]tableInfo(nil), d.mu.versions.obsoleteTables...)
d.mu.versions.obsoleteTables = nil
for _, tbl := range obsoleteTables {
delete(d.mu.versions.zombieTables, tbl.FileNum)
}
// Sort the manifests cause we want to delete some contiguous prefix
// of the older manifests.
slices.SortFunc(d.mu.versions.obsoleteManifests, func(a, b fileInfo) int {
return cmp.Compare(a.FileNum, b.FileNum)
})
var obsoleteManifests []fileInfo
manifestsToDelete := len(d.mu.versions.obsoleteManifests) - d.opts.NumPrevManifest
if manifestsToDelete > 0 {
obsoleteManifests = d.mu.versions.obsoleteManifests[:manifestsToDelete]
d.mu.versions.obsoleteManifests = d.mu.versions.obsoleteManifests[manifestsToDelete:]
if len(d.mu.versions.obsoleteManifests) == 0 {
d.mu.versions.obsoleteManifests = nil
}
}
obsoleteOptions := d.mu.versions.obsoleteOptions
d.mu.versions.obsoleteOptions = nil
// Release d.mu while preparing the cleanup job and possibly waiting.
// Note the unusual order: Unlock and then Lock.
d.mu.Unlock()
defer d.mu.Lock()
filesToDelete := make([]obsoleteFile, 0, len(obsoleteLogs)+len(obsoleteTables)+len(obsoleteManifests)+len(obsoleteOptions))
for _, f := range obsoleteLogs {
filesToDelete = append(filesToDelete, obsoleteFile{fileType: fileTypeLog, logFile: f})
}
// We sort to make the order of deletions deterministic, which is nice for
// tests.
slices.SortFunc(obsoleteTables, func(a, b tableInfo) int {
return cmp.Compare(a.FileNum, b.FileNum)
})
for _, f := range obsoleteTables {
d.tableCache.evict(f.FileNum)
filesToDelete = append(filesToDelete, obsoleteFile{
fileType: fileTypeTable,
nonLogFile: deletableFile{
dir: d.dirname,
fileNum: f.FileNum,
fileSize: f.FileSize,
isLocal: f.isLocal,
},
})
}
files := [2]struct {
fileType fileType
obsolete []fileInfo
}{
{fileTypeManifest, obsoleteManifests},
{fileTypeOptions, obsoleteOptions},
}
for _, f := range files {
// We sort to make the order of deletions deterministic, which is nice for
// tests.
slices.SortFunc(f.obsolete, func(a, b fileInfo) int {
return cmp.Compare(a.FileNum, b.FileNum)
})
for _, fi := range f.obsolete {
dir := d.dirname
filesToDelete = append(filesToDelete, obsoleteFile{
fileType: f.fileType,
nonLogFile: deletableFile{
dir: dir,
fileNum: fi.FileNum,
fileSize: fi.FileSize,
isLocal: true,
},
})
}
}
if len(filesToDelete) > 0 {
d.cleanupManager.EnqueueJob(jobID, filesToDelete)
}
if d.opts.private.testingAlwaysWaitForCleanup {
d.cleanupManager.Wait()
}
}
func (d *DB) maybeScheduleObsoleteTableDeletion() {
d.mu.Lock()
defer d.mu.Unlock()
d.maybeScheduleObsoleteTableDeletionLocked()
}
func (d *DB) maybeScheduleObsoleteTableDeletionLocked() {
if len(d.mu.versions.obsoleteTables) > 0 {
d.deleteObsoleteFiles(d.newJobIDLocked())
}
}
func merge(a, b []fileInfo) []fileInfo {
if len(b) == 0 {
return a
}
a = append(a, b...)
slices.SortFunc(a, func(a, b fileInfo) int {
return cmp.Compare(a.FileNum, b.FileNum)
})
return slices.CompactFunc(a, func(a, b fileInfo) bool {
return a.FileNum == b.FileNum
})
}
func mergeTableInfos(a, b []tableInfo) []tableInfo {
if len(b) == 0 {
return a
}
a = append(a, b...)
slices.SortFunc(a, func(a, b tableInfo) int {
return cmp.Compare(a.FileNum, b.FileNum)
})
return slices.CompactFunc(a, func(a, b tableInfo) bool {
return a.FileNum == b.FileNum
})
}