ceremonyclient/pebble/objstorage/objstorageprovider/provider.go

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2024-01-03 07:31:42 +00:00
// Copyright 2023 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 objstorageprovider
import (
"context"
"io"
"os"
"sync"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/errors/oserror"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/internal/invariants"
"github.com/cockroachdb/pebble/objstorage"
"github.com/cockroachdb/pebble/objstorage/objstorageprovider/objiotracing"
"github.com/cockroachdb/pebble/objstorage/objstorageprovider/remoteobjcat"
"github.com/cockroachdb/pebble/objstorage/objstorageprovider/sharedcache"
"github.com/cockroachdb/pebble/objstorage/remote"
"github.com/cockroachdb/pebble/shims/cmp"
"github.com/cockroachdb/pebble/shims/slices"
"github.com/cockroachdb/pebble/vfs"
)
// provider is the implementation of objstorage.Provider.
type provider struct {
st Settings
fsDir vfs.File
tracer *objiotracing.Tracer
remote remoteSubsystem
mu struct {
sync.RWMutex
remote struct {
// catalogBatch accumulates remote object creations and deletions until
// Sync is called.
catalogBatch remoteobjcat.Batch
storageObjects map[remote.Locator]remote.Storage
}
// localObjectsChanged is set if non-remote objects were created or deleted
// but Sync was not yet called.
localObjectsChanged bool
// knownObjects maintains information about objects that are known to the provider.
// It is initialized with the list of files in the manifest when we open a DB.
knownObjects map[base.DiskFileNum]objstorage.ObjectMetadata
// protectedObjects are objects that cannot be unreferenced because they
// have outstanding SharedObjectBackingHandles. The value is a count of outstanding handles
protectedObjects map[base.DiskFileNum]int
}
}
var _ objstorage.Provider = (*provider)(nil)
// Settings that must be specified when creating the provider.
type Settings struct {
Logger base.Logger
// Local filesystem configuration.
FS vfs.FS
FSDirName string
// FSDirInitialListing is a listing of FSDirName at the time of calling Open.
//
// This is an optional optimization to avoid double listing on Open when the
// higher layer already has a listing. When nil, we obtain the listing on
// Open.
FSDirInitialListing []string
// Cleaner cleans obsolete files from the local filesystem.
//
// The default cleaner uses the DeleteCleaner.
FSCleaner base.Cleaner
// NoSyncOnClose decides whether the implementation will enforce a
// close-time synchronization (e.g., fdatasync() or sync_file_range())
// on files it writes to. Setting this to true removes the guarantee for a
// sync on close. Some implementations can still issue a non-blocking sync.
NoSyncOnClose bool
// BytesPerSync enables periodic syncing of files in order to smooth out
// writes to disk. This option does not provide any persistence guarantee, but
// is used to avoid latency spikes if the OS automatically decides to write
// out a large chunk of dirty filesystem buffers.
BytesPerSync int
// Fields here are set only if the provider is to support remote objects
// (experimental).
Remote struct {
StorageFactory remote.StorageFactory
// If CreateOnShared is non-zero, sstables are created on remote storage using
// the CreateOnSharedLocator (when the PreferSharedStorage create option is
// true).
CreateOnShared remote.CreateOnSharedStrategy
CreateOnSharedLocator remote.Locator
// CacheSizeBytes is the size of the on-disk block cache for objects
// on remote storage. If it is 0, no cache is used.
CacheSizeBytes int64
// CacheBlockSize is the block size of the cache; if 0, the default of 32KB is used.
CacheBlockSize int
// ShardingBlockSize is the size of a shard block. The cache is split into contiguous
// ShardingBlockSize units. The units are distributed across multiple independent shards
// of the cache, via a hash(offset) modulo num shards operation. The cache replacement
// policies operate at the level of shard, not whole cache. This is done to reduce lock
// contention.
//
// If ShardingBlockSize is 0, the default of 1 MB is used.
ShardingBlockSize int64
// The number of independent shards the cache leverages. Each shard is the same size,
// and a hash of filenum & offset map a read to a certain shard. If set to 0,
// 2*runtime.GOMAXPROCS is used as the shard count.
CacheShardCount int
// TODO(radu): allow the cache to live on another FS/location (e.g. to use
// instance-local SSD).
}
}
// DefaultSettings initializes default settings (with no remote storage),
// suitable for tests and tools.
func DefaultSettings(fs vfs.FS, dirName string) Settings {
return Settings{
Logger: base.DefaultLogger,
FS: fs,
FSDirName: dirName,
FSCleaner: base.DeleteCleaner{},
NoSyncOnClose: false,
BytesPerSync: 512 * 1024, // 512KB
}
}
// Open creates the provider.
func Open(settings Settings) (objstorage.Provider, error) {
// Note: we can't just `return open(settings)` because in an error case we
// would return (*provider)(nil) which is not objstorage.Provider(nil).
p, err := open(settings)
if err != nil {
return nil, err
}
return p, nil
}
func open(settings Settings) (p *provider, _ error) {
fsDir, err := settings.FS.OpenDir(settings.FSDirName)
if err != nil {
return nil, err
}
defer func() {
if p == nil {
fsDir.Close()
}
}()
p = &provider{
st: settings,
fsDir: fsDir,
}
p.mu.knownObjects = make(map[base.DiskFileNum]objstorage.ObjectMetadata)
p.mu.protectedObjects = make(map[base.DiskFileNum]int)
if objiotracing.Enabled {
p.tracer = objiotracing.Open(settings.FS, settings.FSDirName)
}
// Add local FS objects.
if err := p.vfsInit(); err != nil {
return nil, err
}
// Initialize remote subsystem (if configured) and add remote objects.
if err := p.remoteInit(); err != nil {
return nil, err
}
return p, nil
}
// Close is part of the objstorage.Provider interface.
func (p *provider) Close() error {
err := p.sharedClose()
if p.fsDir != nil {
err = firstError(err, p.fsDir.Close())
p.fsDir = nil
}
if objiotracing.Enabled {
if p.tracer != nil {
p.tracer.Close()
p.tracer = nil
}
}
return err
}
// OpenForReading opens an existing object.
func (p *provider) OpenForReading(
ctx context.Context,
fileType base.FileType,
fileNum base.DiskFileNum,
opts objstorage.OpenOptions,
) (objstorage.Readable, error) {
meta, err := p.Lookup(fileType, fileNum)
if err != nil {
if opts.MustExist {
p.st.Logger.Fatalf("%v", err)
}
return nil, err
}
var r objstorage.Readable
if !meta.IsRemote() {
r, err = p.vfsOpenForReading(ctx, fileType, fileNum, opts)
} else {
r, err = p.remoteOpenForReading(ctx, meta, opts)
if err != nil && p.isNotExistError(meta, err) {
// Wrap the error so that IsNotExistError functions properly.
err = errors.Mark(err, os.ErrNotExist)
}
}
if err != nil {
return nil, err
}
if objiotracing.Enabled {
r = p.tracer.WrapReadable(ctx, r, fileNum)
}
return r, nil
}
// Create creates a new object and opens it for writing.
//
// The object is not guaranteed to be durable (accessible in case of crashes)
// until Sync is called.
func (p *provider) Create(
ctx context.Context,
fileType base.FileType,
fileNum base.DiskFileNum,
opts objstorage.CreateOptions,
) (w objstorage.Writable, meta objstorage.ObjectMetadata, err error) {
if opts.PreferSharedStorage && p.st.Remote.CreateOnShared != remote.CreateOnSharedNone {
w, meta, err = p.sharedCreate(ctx, fileType, fileNum, p.st.Remote.CreateOnSharedLocator, opts)
} else {
w, meta, err = p.vfsCreate(ctx, fileType, fileNum)
}
if err != nil {
err = errors.Wrapf(err, "creating object %s", fileNum)
return nil, objstorage.ObjectMetadata{}, err
}
p.addMetadata(meta)
if objiotracing.Enabled {
w = p.tracer.WrapWritable(ctx, w, fileNum)
}
return w, meta, nil
}
// Remove removes an object.
//
// Note that if the object is remote, the object is only (conceptually) removed
// from this provider. If other providers have references on the remote object,
// it will not be removed.
//
// The object is not guaranteed to be durably removed until Sync is called.
func (p *provider) Remove(fileType base.FileType, fileNum base.DiskFileNum) error {
meta, err := p.Lookup(fileType, fileNum)
if err != nil {
return err
}
if !meta.IsRemote() {
err = p.vfsRemove(fileType, fileNum)
} else {
// TODO(radu): implement remote object removal (i.e. deref).
err = p.sharedUnref(meta)
if err != nil && p.isNotExistError(meta, err) {
// Wrap the error so that IsNotExistError functions properly.
err = errors.Mark(err, os.ErrNotExist)
}
}
if err != nil && !p.IsNotExistError(err) {
// We want to be able to retry a Remove, so we keep the object in our list.
// TODO(radu): we should mark the object as "zombie" and not allow any other
// operations.
return errors.Wrapf(err, "removing object %s", fileNum)
}
p.removeMetadata(fileNum)
return err
}
func (p *provider) isNotExistError(meta objstorage.ObjectMetadata, err error) bool {
if meta.Remote.Storage != nil {
return meta.Remote.Storage.IsNotExistError(err)
}
return oserror.IsNotExist(err)
}
// IsNotExistError is part of the objstorage.Provider interface.
func (p *provider) IsNotExistError(err error) bool {
// We use errors.Mark(err, os.ErrNotExist) for not-exist errors coming from
// remote.Storage.
return oserror.IsNotExist(err)
}
// Sync flushes the metadata from creation or removal of objects since the last Sync.
func (p *provider) Sync() error {
if err := p.vfsSync(); err != nil {
return err
}
if err := p.sharedSync(); err != nil {
return err
}
return nil
}
// LinkOrCopyFromLocal creates a new object that is either a copy of a given
// local file or a hard link (if the new object is created on the same FS, and
// if the FS supports it).
//
// The object is not guaranteed to be durable (accessible in case of crashes)
// until Sync is called.
func (p *provider) LinkOrCopyFromLocal(
ctx context.Context,
srcFS vfs.FS,
srcFilePath string,
dstFileType base.FileType,
dstFileNum base.DiskFileNum,
opts objstorage.CreateOptions,
) (objstorage.ObjectMetadata, error) {
shared := opts.PreferSharedStorage && p.st.Remote.CreateOnShared != remote.CreateOnSharedNone
if !shared && srcFS == p.st.FS {
// Wrap the normal filesystem with one which wraps newly created files with
// vfs.NewSyncingFile.
fs := vfs.NewSyncingFS(p.st.FS, vfs.SyncingFileOptions{
NoSyncOnClose: p.st.NoSyncOnClose,
BytesPerSync: p.st.BytesPerSync,
})
dstPath := p.vfsPath(dstFileType, dstFileNum)
if err := vfs.LinkOrCopy(fs, srcFilePath, dstPath); err != nil {
return objstorage.ObjectMetadata{}, err
}
meta := objstorage.ObjectMetadata{
DiskFileNum: dstFileNum,
FileType: dstFileType,
}
p.addMetadata(meta)
return meta, nil
}
// Create the object and copy the data.
w, meta, err := p.Create(ctx, dstFileType, dstFileNum, opts)
if err != nil {
return objstorage.ObjectMetadata{}, err
}
f, err := srcFS.Open(srcFilePath, vfs.SequentialReadsOption)
if err != nil {
return objstorage.ObjectMetadata{}, err
}
defer f.Close()
buf := make([]byte, 64*1024)
for {
n, readErr := f.Read(buf)
if readErr != nil && readErr != io.EOF {
w.Abort()
return objstorage.ObjectMetadata{}, readErr
}
if n > 0 {
if err := w.Write(buf[:n]); err != nil {
w.Abort()
return objstorage.ObjectMetadata{}, err
}
}
if readErr == io.EOF {
break
}
}
if err := w.Finish(); err != nil {
return objstorage.ObjectMetadata{}, err
}
return meta, nil
}
// Lookup is part of the objstorage.Provider interface.
func (p *provider) Lookup(
fileType base.FileType, fileNum base.DiskFileNum,
) (objstorage.ObjectMetadata, error) {
p.mu.RLock()
defer p.mu.RUnlock()
meta, ok := p.mu.knownObjects[fileNum]
if !ok {
return objstorage.ObjectMetadata{}, errors.Wrapf(
os.ErrNotExist,
"file %s (type %d) unknown to the objstorage provider",
fileNum, errors.Safe(fileType),
)
}
if meta.FileType != fileType {
return objstorage.ObjectMetadata{}, errors.AssertionFailedf(
"file %s type mismatch (known type %d, expected type %d)",
fileNum, errors.Safe(meta.FileType), errors.Safe(fileType),
)
}
return meta, nil
}
// Path is part of the objstorage.Provider interface.
func (p *provider) Path(meta objstorage.ObjectMetadata) string {
if !meta.IsRemote() {
return p.vfsPath(meta.FileType, meta.DiskFileNum)
}
return p.remotePath(meta)
}
// Size returns the size of the object.
func (p *provider) Size(meta objstorage.ObjectMetadata) (int64, error) {
if !meta.IsRemote() {
return p.vfsSize(meta.FileType, meta.DiskFileNum)
}
return p.remoteSize(meta)
}
// List is part of the objstorage.Provider interface.
func (p *provider) List() []objstorage.ObjectMetadata {
p.mu.RLock()
defer p.mu.RUnlock()
res := make([]objstorage.ObjectMetadata, 0, len(p.mu.knownObjects))
for _, meta := range p.mu.knownObjects {
res = append(res, meta)
}
slices.SortFunc(res, func(a, b objstorage.ObjectMetadata) int {
return cmp.Compare(a.DiskFileNum, b.DiskFileNum)
})
return res
}
// Metrics is part of the objstorage.Provider interface.
func (p *provider) Metrics() sharedcache.Metrics {
if p.remote.cache != nil {
return p.remote.cache.Metrics()
}
return sharedcache.Metrics{}
}
func (p *provider) addMetadata(meta objstorage.ObjectMetadata) {
if invariants.Enabled {
meta.AssertValid()
}
p.mu.Lock()
defer p.mu.Unlock()
p.mu.knownObjects[meta.DiskFileNum] = meta
if meta.IsRemote() {
p.mu.remote.catalogBatch.AddObject(remoteobjcat.RemoteObjectMetadata{
FileNum: meta.DiskFileNum,
FileType: meta.FileType,
CreatorID: meta.Remote.CreatorID,
CreatorFileNum: meta.Remote.CreatorFileNum,
Locator: meta.Remote.Locator,
CleanupMethod: meta.Remote.CleanupMethod,
CustomObjectName: meta.Remote.CustomObjectName,
})
} else {
p.mu.localObjectsChanged = true
}
}
func (p *provider) removeMetadata(fileNum base.DiskFileNum) {
p.mu.Lock()
defer p.mu.Unlock()
meta, ok := p.mu.knownObjects[fileNum]
if !ok {
return
}
delete(p.mu.knownObjects, fileNum)
if meta.IsRemote() {
p.mu.remote.catalogBatch.DeleteObject(fileNum)
} else {
p.mu.localObjectsChanged = true
}
}
// protectObject prevents the unreferencing of a remote object until
// unprotectObject is called.
func (p *provider) protectObject(fileNum base.DiskFileNum) {
p.mu.Lock()
defer p.mu.Unlock()
p.mu.protectedObjects[fileNum] = p.mu.protectedObjects[fileNum] + 1
}
func (p *provider) unprotectObject(fileNum base.DiskFileNum) {
p.mu.Lock()
defer p.mu.Unlock()
v := p.mu.protectedObjects[fileNum]
if invariants.Enabled && v == 0 {
panic("invalid protection count")
}
if v > 1 {
p.mu.protectedObjects[fileNum] = v - 1
} else {
delete(p.mu.protectedObjects, fileNum)
// TODO(radu): check if the object is still in knownObject; if not, unref it
// now.
}
}
func (p *provider) isProtected(fileNum base.DiskFileNum) bool {
p.mu.Lock()
defer p.mu.Unlock()
return p.mu.protectedObjects[fileNum] > 0
}