package meta import ( "github.com/nspcc-dev/neofs-api-go/pkg/object" core "github.com/nspcc-dev/neofs-node/pkg/core/object" "go.etcd.io/bbolt" ) // Cursor is a type for continuous object listing. type Cursor struct { bucket uint8 address *object.Address } // ListPrm contains parameters for ListWithCursor operation. type ListPrm struct { count int cursor *Cursor } // WithCount sets maximum amount of addresses that ListWithCursor can return. func (l *ListPrm) WithCount(count uint32) *ListPrm { l.count = int(count) return l } // WithCursor sets cursor for ListWithCursor operation. For initial request // ignore this param or use nil value. For continues requests, use value // from ListRes. func (l *ListPrm) WithCursor(cursor *Cursor) *ListPrm { l.cursor = cursor return l } // ListRes contains values returned from ListWithCursor operation. type ListRes struct { addrList []*object.Address cursor *Cursor } // AddressList returns addresses selected by ListWithCursor operation. func (l ListRes) AddressList() []*object.Address { return l.addrList } // Cursor returns cursor for consecutive listing requests. func (l ListRes) Cursor() *Cursor { return l.cursor } const ( cursorBucketPrimary = iota cursorBucketTombstone cursorBucketSG ) // ListWithCursor lists physical objects available in metabase. Includes regular, // tombstone and storage group objects. Does not include inhumed objects. Use // cursor value from response for consecutive requests. func ListWithCursor(db *DB, count uint32, cursor *Cursor) ([]*object.Address, *Cursor, error) { r, err := db.ListWithCursor(new(ListPrm).WithCount(count).WithCursor(cursor)) if err != nil { return nil, nil, err } return r.AddressList(), r.Cursor(), nil } // ListWithCursor lists physical objects available in metabase. Includes regular, // tombstone and storage group objects. Does not include inhumed objects. Use // cursor value from response for consecutive requests. func (db *DB) ListWithCursor(prm *ListPrm) (res *ListRes, err error) { err = db.boltDB.View(func(tx *bbolt.Tx) error { res = new(ListRes) res.addrList, res.cursor, err = db.listWithCursor(tx, prm.count, prm.cursor) return err }) return res, err } func (db *DB) listWithCursor(tx *bbolt.Tx, count int, cursor *Cursor) ([]*object.Address, *Cursor, error) { threshold := cursor == nil // threshold is a flag to ignore cursor result := make([]*object.Address, 0, count) unique := make(map[string]struct{}) // do not parse the same containerID twice c := tx.Cursor() name, _ := c.First() if !threshold { name, _ = c.Seek([]byte(cursor.address.ContainerID().String())) } loop: for ; name != nil; name, _ = c.Next() { containerID := parseContainerID(name, unique) if containerID == nil { continue } unique[containerID.String()] = struct{}{} prefix := containerID.String() + "/" lookupBuckets := [...]struct { name []byte bucket uint8 }{ {primaryBucketName(containerID), cursorBucketPrimary}, {tombstoneBucketName(containerID), cursorBucketTombstone}, {storageGroupBucketName(containerID), cursorBucketSG}, } for _, lb := range lookupBuckets { if !threshold && cursor.bucket != lb.bucket { continue // start from the bucket, specified in the cursor bucket } result, cursor = selectNFromBucket(tx, lb.name, prefix, result, count, cursor, threshold) cursor.bucket = lb.bucket if len(result) >= count { break loop } // set threshold flag after first `selectNFromBucket` invocation // first invocation must look for cursor object threshold = true } } if len(result) == 0 { return nil, nil, core.ErrEndOfListing } return result, cursor, nil } // selectNFromBucket similar to selectAllFromBucket but uses cursor to find // object to start selecting from. Ignores inhumed objects. func selectNFromBucket(tx *bbolt.Tx, name []byte, // bucket name prefix string, // string of CID, optimization to []*object.Address, // listing result limit int, // stop listing at `limit` items in result cursor *Cursor, // start from cursor object threshold bool, // ignore cursor and start immediately ) ([]*object.Address, *Cursor) { bkt := tx.Bucket(name) if bkt == nil { return to, cursor } if cursor == nil { cursor = new(Cursor) } count := len(to) c := bkt.Cursor() k, _ := c.First() if !threshold { c.Seek([]byte(cursor.address.ObjectID().String())) k, _ = c.Next() // we are looking for objects _after_ the cursor } for ; k != nil; k, _ = c.Next() { if count >= limit { break } a := object.NewAddress() if err := a.Parse(prefix + string(k)); err != nil { break } cursor.address = a if inGraveyard(tx, a) > 0 { continue } to = append(to, a) count++ } return to, cursor }