frostfs-node/pkg/local_object_storage/metabase/put.go

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package meta
import (
"bytes"
"encoding/gob"
"errors"
"fmt"
objectSDK "github.com/nspcc-dev/neofs-api-go/pkg/object"
"github.com/nspcc-dev/neofs-node/pkg/core/object"
"github.com/nspcc-dev/neofs-node/pkg/local_object_storage/blobovnicza"
"go.etcd.io/bbolt"
)
type (
namedBucketItem struct {
name, key, val []byte
}
)
var (
ErrUnknownObjectType = errors.New("unknown object type")
ErrIncorrectBlobovniczaUpdate = errors.New("updating blobovnicza id on object without it")
ErrIncorrectSplitInfoUpdate = errors.New("updating split info on object without it")
ErrIncorrectRootObject = errors.New("invalid root object")
)
// Put saves object header in metabase. Object payload expected to be cut.
// Big objects have nil blobovniczaID.
func (db *DB) Put(obj *object.Object, id *blobovnicza.ID) error {
return db.boltDB.Update(func(tx *bbolt.Tx) error {
return db.put(tx, obj, id, nil)
})
}
func (db *DB) put(tx *bbolt.Tx, obj *object.Object, id *blobovnicza.ID, si *objectSDK.SplitInfo) error {
isParent := si != nil
exists, err := db.exists(tx, obj.Address())
if errors.As(err, &splitInfoError) {
exists = true // object exists, however it is virtual
} else if err != nil {
return err // return any error besides SplitInfoError
}
// most right child and split header overlap parent so we have to
// check if object exists to not overwrite it twice
if exists {
// when storage engine moves small objects from one blobovniczaID
// to another, then it calls metabase.Put method with new blobovniczaID
// and this code should be triggered
if !isParent && id != nil {
return updateBlobovniczaID(tx, obj.Address(), id)
}
// when storage already has last object in split hierarchy and there is
// a linking object to put (or vice versa), we should update split info
// with object ids of these objects
if isParent {
return updateSplitInfo(tx, obj.Address(), si)
}
return nil
}
if obj.GetParent() != nil && !isParent { // limit depth by two
parentSI, err := splitInfoFromObject(obj)
if err != nil {
return err
}
err = db.put(tx, obj.GetParent(), id, parentSI)
if err != nil {
return err
}
}
// build unique indexes
uniqueIndexes, err := uniqueIndexes(obj, si, id)
if err != nil {
return fmt.Errorf("can' build unique indexes: %w", err)
}
// put unique indexes
for i := range uniqueIndexes {
err := putUniqueIndexItem(tx, uniqueIndexes[i])
if err != nil {
return err
}
}
// build list indexes
listIndexes, err := listIndexes(obj)
if err != nil {
return fmt.Errorf("can' build list indexes: %w", err)
}
// put list indexes
for i := range listIndexes {
err := putListIndexItem(tx, listIndexes[i])
if err != nil {
return err
}
}
// build fake bucket tree indexes
fkbtIndexes, err := fkbtIndexes(obj)
if err != nil {
return fmt.Errorf("can' build fake bucket tree indexes: %w", err)
}
// put fake bucket tree indexes
for i := range fkbtIndexes {
err := putFKBTIndexItem(tx, fkbtIndexes[i])
if err != nil {
return err
}
}
return nil
}
// builds list of <unique> indexes from the object.
func uniqueIndexes(obj *object.Object, si *objectSDK.SplitInfo, id *blobovnicza.ID) ([]namedBucketItem, error) {
isParent := si != nil
addr := obj.Address()
objKey := objectKey(addr.ObjectID())
result := make([]namedBucketItem, 0, 3)
// add value to primary unique bucket
if !isParent {
var bucketName []byte
switch obj.Type() {
case objectSDK.TypeRegular:
bucketName = primaryBucketName(addr.ContainerID())
case objectSDK.TypeTombstone:
bucketName = tombstoneBucketName(addr.ContainerID())
case objectSDK.TypeStorageGroup:
bucketName = storageGroupBucketName(addr.ContainerID())
default:
return nil, ErrUnknownObjectType
}
rawObject, err := obj.Marshal()
if err != nil {
return nil, fmt.Errorf("can't marshal object header: %w", err)
}
result = append(result, namedBucketItem{
name: bucketName,
key: objKey,
val: rawObject,
})
// index blobovniczaID if it is present
if id != nil {
result = append(result, namedBucketItem{
name: smallBucketName(addr.ContainerID()),
key: objKey,
val: *id,
})
}
}
// index root object
if obj.Type() == objectSDK.TypeRegular && !obj.HasParent() {
var (
err error
splitInfo []byte
)
if isParent {
splitInfo, err = si.Marshal()
if err != nil {
return nil, fmt.Errorf("can't marshal split info: %w", err)
}
}
result = append(result, namedBucketItem{
name: rootBucketName(addr.ContainerID()),
key: objKey,
val: splitInfo,
})
}
return result, nil
}
// builds list of <list> indexes from the object.
func listIndexes(obj *object.Object) ([]namedBucketItem, error) {
result := make([]namedBucketItem, 0, 3)
addr := obj.Address()
objKey := objectKey(addr.ObjectID())
// index payload hashes
result = append(result, namedBucketItem{
name: payloadHashBucketName(addr.ContainerID()),
key: obj.PayloadChecksum().Sum(),
val: objKey,
})
// index parent ids
if obj.ParentID() != nil {
result = append(result, namedBucketItem{
name: parentBucketName(addr.ContainerID()),
key: objectKey(obj.ParentID()),
val: objKey,
})
}
// index split ids
if obj.SplitID() != nil {
result = append(result, namedBucketItem{
name: splitBucketName(addr.ContainerID()),
key: obj.SplitID().ToV2(),
val: objKey,
})
}
return result, nil
}
// builds list of <fake bucket tree> indexes from the object.
func fkbtIndexes(obj *object.Object) ([]namedBucketItem, error) {
addr := obj.Address()
objKey := []byte(addr.ObjectID().String())
attrs := obj.Attributes()
result := make([]namedBucketItem, 0, 1+len(attrs))
// owner
result = append(result, namedBucketItem{
name: ownerBucketName(addr.ContainerID()),
key: []byte(obj.OwnerID().String()),
val: objKey,
})
// user specified attributes
for i := range attrs {
result = append(result, namedBucketItem{
name: attributeBucketName(addr.ContainerID(), attrs[i].Key()),
key: []byte(attrs[i].Value()),
val: objKey,
})
}
return result, nil
}
func putUniqueIndexItem(tx *bbolt.Tx, item namedBucketItem) error {
bkt, err := tx.CreateBucketIfNotExists(item.name)
if err != nil {
return fmt.Errorf("can't create index %v: %w", item.name, err)
}
return bkt.Put(item.key, item.val)
}
func putFKBTIndexItem(tx *bbolt.Tx, item namedBucketItem) error {
bkt, err := tx.CreateBucketIfNotExists(item.name)
if err != nil {
return fmt.Errorf("can't create index %v: %w", item.name, err)
}
fkbtRoot, err := bkt.CreateBucketIfNotExists(item.key)
if err != nil {
return fmt.Errorf("can't create fake bucket tree index %v: %w", item.key, err)
}
return fkbtRoot.Put(item.val, zeroValue)
}
func putListIndexItem(tx *bbolt.Tx, item namedBucketItem) error {
bkt, err := tx.CreateBucketIfNotExists(item.name)
if err != nil {
return fmt.Errorf("can't create index %v: %w", item.name, err)
}
lst, err := decodeList(bkt.Get(item.key))
if err != nil {
return fmt.Errorf("can't decode leaf list %v: %w", item.key, err)
}
lst = append(lst, item.val)
encodedLst, err := encodeList(lst)
if err != nil {
return fmt.Errorf("can't encode leaf list %v: %w", item.key, err)
}
return bkt.Put(item.key, encodedLst)
}
// encodeList decodes list of bytes into a single blog for list bucket indexes.
func encodeList(lst [][]byte) ([]byte, error) {
buf := bytes.NewBuffer(nil)
encoder := gob.NewEncoder(buf)
// consider using protobuf encoding instead of glob
if err := encoder.Encode(lst); err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// decodeList decodes blob into the list of bytes from list bucket index.
func decodeList(data []byte) (lst [][]byte, err error) {
if len(data) == 0 {
return nil, nil
}
decoder := gob.NewDecoder(bytes.NewReader(data))
if err := decoder.Decode(&lst); err != nil {
return nil, err
}
return lst, nil
}
// updateBlobovniczaID for existing objects if they were moved from from
// one blobovnicza to another.
func updateBlobovniczaID(tx *bbolt.Tx, addr *objectSDK.Address, id *blobovnicza.ID) error {
bkt := tx.Bucket(smallBucketName(addr.ContainerID()))
if bkt == nil {
// if object exists, don't have blobovniczaID and we want to update it
// then ignore, this should never happen
return ErrIncorrectBlobovniczaUpdate
}
objectKey := objectKey(addr.ObjectID())
if len(bkt.Get(objectKey)) == 0 {
return ErrIncorrectBlobovniczaUpdate
}
return bkt.Put(objectKey, *id)
}
// updateSpliInfo for existing objects if storage filled with extra information
// about last object in split hierarchy or linking object.
func updateSplitInfo(tx *bbolt.Tx, addr *objectSDK.Address, from *objectSDK.SplitInfo) error {
bkt := tx.Bucket(rootBucketName(addr.ContainerID()))
if bkt == nil {
// if object doesn't exists and we want to update split info on it
// then ignore, this should never happen
return ErrIncorrectSplitInfoUpdate
}
objectKey := objectKey(addr.ObjectID())
rawSplitInfo := bkt.Get(objectKey)
if len(rawSplitInfo) == 0 {
return ErrIncorrectSplitInfoUpdate
}
to := objectSDK.NewSplitInfo()
err := to.Unmarshal(rawSplitInfo)
if err != nil {
return fmt.Errorf("can't unmarshal split info from root index: %w", err)
}
result := mergeSplitInfo(from, to)
rawSplitInfo, err = result.Marshal()
if err != nil {
return fmt.Errorf("can't marhsal merged split info: %w", err)
}
return bkt.Put(objectKey, rawSplitInfo)
}
// splitInfoFromObject returns split info based on last or linkin object.
// Otherwise returns nil, nil.
func splitInfoFromObject(obj *object.Object) (*objectSDK.SplitInfo, error) {
if obj.Parent() == nil {
return nil, nil
}
info := objectSDK.NewSplitInfo()
info.SetSplitID(obj.SplitID())
switch {
case isLinkObject(obj):
info.SetLink(obj.ID())
case isLastObject(obj):
info.SetLastPart(obj.ID())
default:
return nil, ErrIncorrectRootObject // should never happen
}
return info, nil
}
// mergeSplitInfo ignores conflicts and rewrites `to` with non empty values
// from `from`.
func mergeSplitInfo(from, to *objectSDK.SplitInfo) *objectSDK.SplitInfo {
to.SetSplitID(from.SplitID()) // overwrite SplitID and ignore conflicts
if lp := from.LastPart(); lp != nil {
to.SetLastPart(lp)
}
if link := from.Link(); link != nil {
to.SetLink(link)
}
return to
}
// isLinkObject returns true if object contains parent header and list
// of children.
func isLinkObject(obj *object.Object) bool {
return len(obj.Children()) > 0 && obj.Parent() != nil
}
// isLastObject returns true if object contains only parent header without list
// of children.
func isLastObject(obj *object.Object) bool {
return len(obj.Children()) == 0 && obj.Parent() != nil
}