ceremonyclient/pebble/objstorage/objstorageprovider/remote_backing.go

305 lines
9.4 KiB
Go
Raw Permalink Normal View History

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 (
"bytes"
"encoding/binary"
"io"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/objstorage"
"github.com/cockroachdb/pebble/objstorage/objstorageprovider/remoteobjcat"
"github.com/cockroachdb/pebble/objstorage/remote"
)
const (
tagCreatorID = 1
tagCreatorFileNum = 2
tagCleanupMethod = 3
// tagRefCheckID encodes the information for a ref marker that needs to be
// checked when attaching this object to another provider. This is set to the
// creator ID and FileNum for the provider that encodes the backing, and
// allows the "target" provider to check that the "source" provider kept its
// reference on the object alive.
tagRefCheckID = 4
// tagLocator encodes the remote.Locator; if absent the locator is "". It is
// followed by the locator string length and the locator string.
tagLocator = 5
// tagLocator encodes a custom object name (if present). It is followed by the
// custom name string length and the string.
tagCustomObjectName = 6
// Any new tags that don't have the tagNotSafeToIgnoreMask bit set must be
// followed by the length of the data (so they can be skipped).
// Any new tags that have the tagNotSafeToIgnoreMask bit set cause errors if
// they are encountered by earlier code that doesn't know the tag.
tagNotSafeToIgnoreMask = 64
)
func (p *provider) encodeRemoteObjectBacking(
meta *objstorage.ObjectMetadata,
) (objstorage.RemoteObjectBacking, error) {
if !meta.IsRemote() {
return nil, errors.AssertionFailedf("object %s not on remote storage", meta.DiskFileNum)
}
buf := make([]byte, 0, binary.MaxVarintLen64*4)
buf = binary.AppendUvarint(buf, tagCreatorID)
buf = binary.AppendUvarint(buf, uint64(meta.Remote.CreatorID))
// TODO(radu): encode file type as well?
buf = binary.AppendUvarint(buf, tagCreatorFileNum)
buf = binary.AppendUvarint(buf, uint64(meta.Remote.CreatorFileNum.FileNum()))
buf = binary.AppendUvarint(buf, tagCleanupMethod)
buf = binary.AppendUvarint(buf, uint64(meta.Remote.CleanupMethod))
if meta.Remote.CleanupMethod == objstorage.SharedRefTracking {
buf = binary.AppendUvarint(buf, tagRefCheckID)
buf = binary.AppendUvarint(buf, uint64(p.remote.shared.creatorID))
buf = binary.AppendUvarint(buf, uint64(meta.DiskFileNum.FileNum()))
}
if meta.Remote.Locator != "" {
buf = binary.AppendUvarint(buf, tagLocator)
buf = encodeString(buf, string(meta.Remote.Locator))
}
if meta.Remote.CustomObjectName != "" {
buf = binary.AppendUvarint(buf, tagCustomObjectName)
buf = encodeString(buf, meta.Remote.CustomObjectName)
}
return buf, nil
}
type remoteObjectBackingHandle struct {
backing objstorage.RemoteObjectBacking
fileNum base.DiskFileNum
p *provider
}
func (s *remoteObjectBackingHandle) Get() (objstorage.RemoteObjectBacking, error) {
if s.backing == nil {
return nil, errors.Errorf("RemoteObjectBackingHandle.Get() called after Close()")
}
return s.backing, nil
}
func (s *remoteObjectBackingHandle) Close() {
if s.backing != nil {
s.backing = nil
s.p.unprotectObject(s.fileNum)
}
}
var _ objstorage.RemoteObjectBackingHandle = (*remoteObjectBackingHandle)(nil)
// RemoteObjectBacking is part of the objstorage.Provider interface.
func (p *provider) RemoteObjectBacking(
meta *objstorage.ObjectMetadata,
) (objstorage.RemoteObjectBackingHandle, error) {
backing, err := p.encodeRemoteObjectBacking(meta)
if err != nil {
return nil, err
}
p.protectObject(meta.DiskFileNum)
return &remoteObjectBackingHandle{
backing: backing,
fileNum: meta.DiskFileNum,
p: p,
}, nil
}
// CreateExternalObjectBacking is part of the objstorage.Provider interface.
func (p *provider) CreateExternalObjectBacking(
locator remote.Locator, objName string,
) (objstorage.RemoteObjectBacking, error) {
var meta objstorage.ObjectMetadata
meta.Remote.Locator = locator
meta.Remote.CustomObjectName = objName
meta.Remote.CleanupMethod = objstorage.SharedNoCleanup
return p.encodeRemoteObjectBacking(&meta)
}
type decodedBacking struct {
meta objstorage.ObjectMetadata
// refToCheck is set only when meta.Remote.CleanupMethod is RefTracking
refToCheck struct {
creatorID objstorage.CreatorID
fileNum base.DiskFileNum
}
}
// decodeRemoteObjectBacking decodes the remote object metadata.
//
// Note that the meta.Remote.Storage field is not set.
func decodeRemoteObjectBacking(
fileType base.FileType, fileNum base.DiskFileNum, buf objstorage.RemoteObjectBacking,
) (decodedBacking, error) {
var creatorID, creatorFileNum, cleanupMethod, refCheckCreatorID, refCheckFileNum uint64
var locator, customObjName string
br := bytes.NewReader(buf)
for {
tag, err := binary.ReadUvarint(br)
if err == io.EOF {
break
}
if err != nil {
return decodedBacking{}, err
}
switch tag {
case tagCreatorID:
creatorID, err = binary.ReadUvarint(br)
case tagCreatorFileNum:
creatorFileNum, err = binary.ReadUvarint(br)
case tagCleanupMethod:
cleanupMethod, err = binary.ReadUvarint(br)
case tagRefCheckID:
refCheckCreatorID, err = binary.ReadUvarint(br)
if err == nil {
refCheckFileNum, err = binary.ReadUvarint(br)
}
case tagLocator:
locator, err = decodeString(br)
case tagCustomObjectName:
customObjName, err = decodeString(br)
default:
// Ignore unknown tags, unless they're not safe to ignore.
if tag&tagNotSafeToIgnoreMask != 0 {
return decodedBacking{}, errors.Newf("unknown tag %d", tag)
}
var dataLen uint64
dataLen, err = binary.ReadUvarint(br)
if err == nil {
_, err = br.Seek(int64(dataLen), io.SeekCurrent)
}
}
if err != nil {
return decodedBacking{}, err
}
}
if customObjName == "" {
if creatorID == 0 {
return decodedBacking{}, errors.Newf("remote object backing missing creator ID")
}
if creatorFileNum == 0 {
return decodedBacking{}, errors.Newf("remote object backing missing creator file num")
}
}
var res decodedBacking
res.meta.DiskFileNum = fileNum
res.meta.FileType = fileType
res.meta.Remote.CreatorID = objstorage.CreatorID(creatorID)
res.meta.Remote.CreatorFileNum = base.FileNum(creatorFileNum).DiskFileNum()
res.meta.Remote.CleanupMethod = objstorage.SharedCleanupMethod(cleanupMethod)
if res.meta.Remote.CleanupMethod == objstorage.SharedRefTracking {
if refCheckCreatorID == 0 || refCheckFileNum == 0 {
return decodedBacking{}, errors.Newf("remote object backing missing ref to check")
}
res.refToCheck.creatorID = objstorage.CreatorID(refCheckCreatorID)
res.refToCheck.fileNum = base.FileNum(refCheckFileNum).DiskFileNum()
}
res.meta.Remote.Locator = remote.Locator(locator)
res.meta.Remote.CustomObjectName = customObjName
return res, nil
}
func encodeString(buf []byte, s string) []byte {
buf = binary.AppendUvarint(buf, uint64(len(s)))
buf = append(buf, []byte(s)...)
return buf
}
func decodeString(br io.ByteReader) (string, error) {
length, err := binary.ReadUvarint(br)
if err != nil || length == 0 {
return "", err
}
buf := make([]byte, length)
for i := range buf {
buf[i], err = br.ReadByte()
if err != nil {
return "", err
}
}
return string(buf), nil
}
// AttachRemoteObjects is part of the objstorage.Provider interface.
func (p *provider) AttachRemoteObjects(
objs []objstorage.RemoteObjectToAttach,
) ([]objstorage.ObjectMetadata, error) {
decoded := make([]decodedBacking, len(objs))
for i, o := range objs {
var err error
decoded[i], err = decodeRemoteObjectBacking(o.FileType, o.FileNum, o.Backing)
if err != nil {
return nil, err
}
decoded[i].meta.Remote.Storage, err = p.ensureStorage(decoded[i].meta.Remote.Locator)
if err != nil {
return nil, err
}
}
// Create the reference marker objects.
// TODO(radu): parallelize this.
for _, d := range decoded {
if d.meta.Remote.CleanupMethod != objstorage.SharedRefTracking {
continue
}
if err := p.sharedCreateRef(d.meta); err != nil {
// TODO(radu): clean up references previously created in this loop.
return nil, err
}
// Check the "origin"'s reference.
refName := sharedObjectRefName(d.meta, d.refToCheck.creatorID, d.refToCheck.fileNum)
if _, err := d.meta.Remote.Storage.Size(refName); err != nil {
_ = p.sharedUnref(d.meta)
// TODO(radu): clean up references previously created in this loop.
if d.meta.Remote.Storage.IsNotExistError(err) {
return nil, errors.Errorf("origin marker object %q does not exist;"+
" object probably removed from the provider which created the backing", refName)
}
return nil, errors.Wrapf(err, "checking origin's marker object %s", refName)
}
}
func() {
p.mu.Lock()
defer p.mu.Unlock()
for _, d := range decoded {
p.mu.remote.catalogBatch.AddObject(remoteobjcat.RemoteObjectMetadata{
FileNum: d.meta.DiskFileNum,
FileType: d.meta.FileType,
CreatorID: d.meta.Remote.CreatorID,
CreatorFileNum: d.meta.Remote.CreatorFileNum,
CleanupMethod: d.meta.Remote.CleanupMethod,
Locator: d.meta.Remote.Locator,
CustomObjectName: d.meta.Remote.CustomObjectName,
})
}
}()
if err := p.sharedSync(); err != nil {
return nil, err
}
metas := make([]objstorage.ObjectMetadata, len(decoded))
for i, d := range decoded {
metas[i] = d.meta
}
p.mu.Lock()
defer p.mu.Unlock()
for _, meta := range metas {
p.mu.knownObjects[meta.DiskFileNum] = meta
}
return metas, nil
}