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checkpoint.go
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checkpoint.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 (
"bytes"
"io"
"os"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/errors/oserror"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/record"
"github.com/cockroachdb/pebble/vfs"
"github.com/cockroachdb/pebble/vfs/atomicfs"
)
// checkpointOptions hold the optional parameters to construct checkpoint
// snapshots.
type checkpointOptions struct {
// flushWAL set to true will force a flush and sync of the WAL prior to
// checkpointing.
flushWAL bool
// If set, any SSTs that don't overlap with these spans are excluded from a checkpoint.
restrictToSpans []CheckpointSpan
}
// CheckpointOption set optional parameters used by `DB.Checkpoint`.
type CheckpointOption func(*checkpointOptions)
// WithFlushedWAL enables flushing and syncing the WAL prior to constructing a
// checkpoint. This guarantees that any writes committed before calling
// DB.Checkpoint will be part of that checkpoint.
//
// Note that this setting can only be useful in cases when some writes are
// performed with Sync = false. Otherwise, the guarantee will already be met.
//
// Passing this option is functionally equivalent to calling
// DB.LogData(nil, Sync) right before DB.Checkpoint.
func WithFlushedWAL() CheckpointOption {
return func(opt *checkpointOptions) {
opt.flushWAL = true
}
}
// WithRestrictToSpans specifies spans of interest for the checkpoint. Any SSTs
// that don't overlap with any of these spans are excluded from the checkpoint.
//
// Note that the checkpoint can still surface keys outside of these spans (from
// the WAL and from SSTs that partially overlap with these spans). Moreover,
// these surface keys aren't necessarily "valid" in that they could have been
// modified but the SST containing the modification is excluded.
func WithRestrictToSpans(spans []CheckpointSpan) CheckpointOption {
return func(opt *checkpointOptions) {
opt.restrictToSpans = spans
}
}
// CheckpointSpan is a key range [Start, End) (inclusive on Start, exclusive on
// End) of interest for a checkpoint.
type CheckpointSpan struct {
Start []byte
End []byte
}
// excludeFromCheckpoint returns true if an SST file should be excluded from the
// checkpoint because it does not overlap with the spans of interest
// (opt.restrictToSpans).
func excludeFromCheckpoint(f *fileMetadata, opt *checkpointOptions, cmp Compare) bool {
if len(opt.restrictToSpans) == 0 {
// Option not set; don't exclude anything.
return false
}
for _, s := range opt.restrictToSpans {
spanBounds := base.UserKeyBoundsEndExclusive(s.Start, s.End)
if f.Overlaps(cmp, &spanBounds) {
return false
}
}
// None of the restrictToSpans overlapped; we can exclude this file.
return true
}
// mkdirAllAndSyncParents creates destDir and any of its missing parents.
// Those missing parents, as well as the closest existing ancestor, are synced.
// Returns a handle to the directory created at destDir.
func mkdirAllAndSyncParents(fs vfs.FS, destDir string) (vfs.File, error) {
// Collect paths for all directories between destDir (excluded) and its
// closest existing ancestor (included).
var parentPaths []string
for parentPath := fs.PathDir(destDir); ; parentPath = fs.PathDir(parentPath) {
parentPaths = append(parentPaths, parentPath)
if fs.PathDir(parentPath) == parentPath {
break
}
_, err := fs.Stat(parentPath)
if err == nil {
// Exit loop at the closest existing ancestor.
break
}
if !oserror.IsNotExist(err) {
return nil, err
}
}
// Create destDir and any of its missing parents.
if err := fs.MkdirAll(destDir, 0755); err != nil {
return nil, err
}
// Sync all the parent directories up to the closest existing ancestor,
// included.
for _, parentPath := range parentPaths {
parentDir, err := fs.OpenDir(parentPath)
if err != nil {
return nil, err
}
err = parentDir.Sync()
if err != nil {
_ = parentDir.Close()
return nil, err
}
err = parentDir.Close()
if err != nil {
return nil, err
}
}
return fs.OpenDir(destDir)
}
// Checkpoint constructs a snapshot of the DB instance in the specified
// directory. The WAL, MANIFEST, OPTIONS, and sstables will be copied into the
// snapshot. Hard links will be used when possible. Beware of the significant
// space overhead for a checkpoint if hard links are disabled. Also beware that
// even if hard links are used, the space overhead for the checkpoint will
// increase over time as the DB performs compactions.
//
// Note that shared files in a checkpoint could get deleted if the DB is
// restarted after a checkpoint operation, as the reference for the checkpoint
// is only maintained in memory. This is okay as long as users of Checkpoint
// crash shortly afterwards with a "poison file" preventing further restarts.
func (d *DB) Checkpoint(
destDir string, opts ...CheckpointOption,
) (
ckErr error, /* used in deferred cleanup */
) {
opt := &checkpointOptions{}
for _, fn := range opts {
fn(opt)
}
if _, err := d.opts.FS.Stat(destDir); !oserror.IsNotExist(err) {
if err == nil {
return &os.PathError{
Op: "checkpoint",
Path: destDir,
Err: oserror.ErrExist,
}
}
return err
}
if opt.flushWAL && !d.opts.DisableWAL {
// Write an empty log-data record to flush and sync the WAL.
if err := d.LogData(nil /* data */, Sync); err != nil {
return err
}
}
// Disable file deletions.
d.mu.Lock()
d.disableFileDeletions()
defer func() {
d.mu.Lock()
defer d.mu.Unlock()
d.enableFileDeletions()
}()
// TODO(peter): RocksDB provides the option to roll the manifest if the
// MANIFEST size is too large. Should we do this too?
// Lock the manifest before getting the current version. We need the
// length of the manifest that we read to match the current version that
// we read, otherwise we might copy a versionEdit not reflected in the
// sstables we copy/link.
d.mu.versions.logLock()
// Get the the current version and the current manifest file number.
current := d.mu.versions.currentVersion()
formatVers := d.FormatMajorVersion()
manifestFileNum := d.mu.versions.manifestFileNum
manifestSize := d.mu.versions.manifest.Size()
optionsFileNum := d.optionsFileNum
virtualBackingFiles := make(map[base.DiskFileNum]struct{})
d.mu.versions.virtualBackings.ForEach(func(backing *fileBacking) {
virtualBackingFiles[backing.DiskFileNum] = struct{}{}
})
// Acquire the logs while holding mutexes to ensure we don't race with a
// flush that might mark a log that's relevant to `current` as obsolete
// before our call to List.
allLogicalLogs := d.mu.log.manager.List()
// Release the manifest and DB.mu so we don't block other operations on
// the database.
d.mu.versions.logUnlock()
d.mu.Unlock()
// Wrap the normal filesystem with one which wraps newly created files with
// vfs.NewSyncingFile.
fs := vfs.NewSyncingFS(d.opts.FS, vfs.SyncingFileOptions{
NoSyncOnClose: d.opts.NoSyncOnClose,
BytesPerSync: d.opts.BytesPerSync,
})
// Create the dir and its parents (if necessary), and sync them.
var dir vfs.File
defer func() {
if dir != nil {
_ = dir.Close()
}
if ckErr != nil {
// Attempt to cleanup on error.
_ = fs.RemoveAll(destDir)
}
}()
dir, ckErr = mkdirAllAndSyncParents(fs, destDir)
if ckErr != nil {
return ckErr
}
{
// Copy the OPTIONS.
srcPath := base.MakeFilepath(fs, d.dirname, fileTypeOptions, optionsFileNum)
destPath := fs.PathJoin(destDir, fs.PathBase(srcPath))
ckErr = copyCheckpointOptions(fs, srcPath, destPath)
if ckErr != nil {
return ckErr
}
}
{
// Set the format major version in the destination directory.
var versionMarker *atomicfs.Marker
versionMarker, _, ckErr = atomicfs.LocateMarker(fs, destDir, formatVersionMarkerName)
if ckErr != nil {
return ckErr
}
// We use the marker to encode the active format version in the
// marker filename. Unlike other uses of the atomic marker,
// there is no file with the filename `formatVers.String()` on
// the filesystem.
ckErr = versionMarker.Move(formatVers.String())
if ckErr != nil {
return ckErr
}
ckErr = versionMarker.Close()
if ckErr != nil {
return ckErr
}
}
var excludedFiles map[deletedFileEntry]*fileMetadata
var remoteFiles []base.DiskFileNum
// Set of FileBacking.DiskFileNum which will be required by virtual sstables
// in the checkpoint.
requiredVirtualBackingFiles := make(map[base.DiskFileNum]struct{})
// Link or copy the sstables.
for l := range current.Levels {
iter := current.Levels[l].Iter()
for f := iter.First(); f != nil; f = iter.Next() {
if excludeFromCheckpoint(f, opt, d.cmp) {
if excludedFiles == nil {
excludedFiles = make(map[deletedFileEntry]*fileMetadata)
}
excludedFiles[deletedFileEntry{
Level: l,
FileNum: f.FileNum,
}] = f
continue
}
fileBacking := f.FileBacking
if f.Virtual {
if _, ok := requiredVirtualBackingFiles[fileBacking.DiskFileNum]; ok {
continue
}
requiredVirtualBackingFiles[fileBacking.DiskFileNum] = struct{}{}
}
meta, err := d.objProvider.Lookup(fileTypeTable, fileBacking.DiskFileNum)
if err != nil {
ckErr = err
return ckErr
}
if meta.IsRemote() {
// We don't copy remote files. This is desirable as checkpointing is
// supposed to be a fast operation, and references to remote files can
// always be resolved by any checkpoint readers by reading the object
// catalog. We don't add this file to excludedFiles either, as that'd
// cause it to be deleted in the second manifest entry which is also
// inaccurate.
remoteFiles = append(remoteFiles, meta.DiskFileNum)
continue
}
srcPath := base.MakeFilepath(fs, d.dirname, fileTypeTable, fileBacking.DiskFileNum)
destPath := fs.PathJoin(destDir, fs.PathBase(srcPath))
ckErr = vfs.LinkOrCopy(fs, srcPath, destPath)
if ckErr != nil {
return ckErr
}
}
}
var removeBackingTables []base.DiskFileNum
for diskFileNum := range virtualBackingFiles {
if _, ok := requiredVirtualBackingFiles[diskFileNum]; !ok {
// The backing sstable associated with fileNum is no longer
// required.
removeBackingTables = append(removeBackingTables, diskFileNum)
}
}
ckErr = d.writeCheckpointManifest(
fs, formatVers, destDir, dir, manifestFileNum, manifestSize,
excludedFiles, removeBackingTables,
)
if ckErr != nil {
return ckErr
}
if len(remoteFiles) > 0 {
ckErr = d.objProvider.CheckpointState(fs, destDir, fileTypeTable, remoteFiles)
if ckErr != nil {
return ckErr
}
}
// Copy the WAL files. We copy rather than link because WAL file recycling
// will cause the WAL files to be reused which would invalidate the
// checkpoint. It's possible allLogicalLogs includes logs that are not
// relevant (beneath the version's MinUnflushedLogNum). These extra files
// are harmless. The earlier (wal.Manager).List call will not include
// obsolete logs that are sitting in the recycler or have already been
// passed off to the cleanup manager for deletion.
//
// TODO(jackson): It would be desirable to copy all recycling and obsolete
// WALs to aid corruption postmortem debugging should we need them.
for _, log := range allLogicalLogs {
for i := 0; i < log.NumSegments(); i++ {
srcFS, srcPath := log.SegmentLocation(i)
destPath := fs.PathJoin(destDir, srcFS.PathBase(srcPath))
ckErr = vfs.CopyAcrossFS(srcFS, srcPath, fs, destPath)
if ckErr != nil {
return ckErr
}
}
}
// Sync and close the checkpoint directory.
ckErr = dir.Sync()
if ckErr != nil {
return ckErr
}
ckErr = dir.Close()
dir = nil
return ckErr
}
// copyCheckpointOptions copies an OPTIONS file, commenting out some options
// that existed on the original database but no longer apply to the checkpointed
// database. For example, the entire [WAL Failover] stanza is commented out
// because Checkpoint will copy all WAL segment files from both the primary and
// secondary WAL directories into the checkpoint.
func copyCheckpointOptions(fs vfs.FS, srcPath, dstPath string) error {
var buf bytes.Buffer
f, err := fs.Open(srcPath)
if err != nil {
return err
}
defer f.Close()
b, err := io.ReadAll(f)
if err != nil {
return err
}
// Copy the OPTIONS file verbatim, but commenting out the [WAL Failover]
// section.
err = parseOptions(string(b), parseOptionsFuncs{
visitNewSection: func(startOff, endOff int, section string) error {
if section == "WAL Failover" {
buf.WriteString("# ")
}
buf.Write(b[startOff:endOff])
return nil
},
visitKeyValue: func(startOff, endOff int, section, key, value string) error {
if section == "WAL Failover" {
buf.WriteString("# ")
}
buf.Write(b[startOff:endOff])
return nil
},
visitCommentOrWhitespace: func(startOff, endOff int, line string) error {
buf.Write(b[startOff:endOff])
return nil
},
})
if err != nil {
return err
}
nf, err := fs.Create(dstPath, vfs.WriteCategoryUnspecified)
if err != nil {
return err
}
_, err = io.Copy(nf, &buf)
if err != nil {
return err
}
return errors.CombineErrors(nf.Sync(), nf.Close())
}
func (d *DB) writeCheckpointManifest(
fs vfs.FS,
formatVers FormatMajorVersion,
destDirPath string,
destDir vfs.File,
manifestFileNum base.DiskFileNum,
manifestSize int64,
excludedFiles map[deletedFileEntry]*fileMetadata,
removeBackingTables []base.DiskFileNum,
) error {
// Copy the MANIFEST, and create a pointer to it. We copy rather
// than link because additional version edits added to the
// MANIFEST after we took our snapshot of the sstables will
// reference sstables that aren't in our checkpoint. For a
// similar reason, we need to limit how much of the MANIFEST we
// copy.
// If some files are excluded from the checkpoint, also append a block that
// records those files as deleted.
if err := func() error {
srcPath := base.MakeFilepath(fs, d.dirname, fileTypeManifest, manifestFileNum)
destPath := fs.PathJoin(destDirPath, fs.PathBase(srcPath))
src, err := fs.Open(srcPath, vfs.SequentialReadsOption)
if err != nil {
return err
}
defer src.Close()
dst, err := fs.Create(destPath, vfs.WriteCategoryUnspecified)
if err != nil {
return err
}
defer dst.Close()
// Copy all existing records. We need to copy at the record level in case we
// need to append another record with the excluded files (we cannot simply
// append a record after a raw data copy; see
// https://github.com/cockroachdb/cockroach/issues/100935).
r := record.NewReader(&io.LimitedReader{R: src, N: manifestSize}, manifestFileNum)
w := record.NewWriter(dst)
for {
rr, err := r.Next()
if err != nil {
if err == io.EOF {
break
}
return err
}
rw, err := w.Next()
if err != nil {
return err
}
if _, err := io.Copy(rw, rr); err != nil {
return err
}
}
if len(excludedFiles) > 0 {
// Write out an additional VersionEdit that deletes the excluded SST files.
ve := versionEdit{
DeletedFiles: excludedFiles,
RemovedBackingTables: removeBackingTables,
}
rw, err := w.Next()
if err != nil {
return err
}
if err := ve.Encode(rw); err != nil {
return err
}
}
if err := w.Close(); err != nil {
return err
}
return dst.Sync()
}(); err != nil {
return err
}
var manifestMarker *atomicfs.Marker
manifestMarker, _, err := atomicfs.LocateMarker(fs, destDirPath, manifestMarkerName)
if err != nil {
return err
}
if err := manifestMarker.Move(base.MakeFilename(fileTypeManifest, manifestFileNum)); err != nil {
return err
}
return manifestMarker.Close()
}