func (qs *QuadStore) UpdateValueKeyBy(name quad.Value, amount int64, batch *leveldb.Batch) error { value := proto.NodeData{ Value: proto.MakeValue(name), Size: amount, } key := createValueKeyFor(name) b, err := qs.db.Get(key, qs.readopts) // Error getting the node from the database. if err != nil && err != leveldb.ErrNotFound { glog.Errorf("Error reading Value %s from the DB.", name) return err } // Node exists in the database -- unmarshal and update. if b != nil && err != leveldb.ErrNotFound { var oldvalue proto.NodeData err = oldvalue.Unmarshal(b) if err != nil { glog.Errorf("Error: could not reconstruct value: %v", err) return err } oldvalue.Size += amount value = oldvalue } // Are we deleting something? if value.Size <= 0 { value.Size = 0 } // Repackage and rewrite. bytes, err := value.Marshal() if err != nil { glog.Errorf("could not write to buffer for value %s: %s", name, err) return err } if batch == nil { qs.db.Put(key, bytes, qs.writeopts) } else { batch.Put(key, bytes) } return nil }
func toMongoValue(v quad.Value) value { if v == nil { return nil } switch d := v.(type) { case quad.Raw: return string(d) // compatibility case quad.String: return mongoString{Value: string(d)} case quad.IRI: return mongoString{Value: string(d), IsIRI: true} case quad.BNode: return mongoString{Value: string(d), IsBNode: true} case quad.TypedString: return mongoString{Value: string(d.Value), Type: string(d.Type)} case quad.LangString: return mongoString{Value: string(d.Value), Lang: string(d.Lang)} case quad.Int: return int64(d) case quad.Float: return float64(d) case quad.Bool: return bool(d) case quad.Time: // TODO(dennwc): mongo supports only ms precision // we can alternatively switch to protobuf serialization instead // (maybe add an option for this) return time.Time(d) default: qv := proto.MakeValue(v) data, err := qv.Marshal() if err != nil { panic(err) } return data } }
func (qs *QuadStore) UpdateValueKeyBy(name quad.Value, amount int64, tx *bolt.Tx) error { value := proto.NodeData{ Value: proto.MakeValue(name), Size: amount, } b := tx.Bucket(nodeBucket) b.FillPercent = localFillPercent key := qs.createValueKeyFor(name) data := b.Get(key) if data != nil { // Node exists in the database -- unmarshal and update. var oldvalue proto.NodeData err := oldvalue.Unmarshal(data) if err != nil { glog.Errorf("Error: couldn't reconstruct value: %v", err) return err } oldvalue.Size += amount value = oldvalue } // Are we deleting something? if value.Size <= 0 { value.Size = 0 } // Repackage and rewrite. bytes, err := value.Marshal() if err != nil { glog.Errorf("Couldn't write to buffer for value %s: %s", name, err) return err } err = b.Put(key, bytes) return err }
func upgrade1To2(db *leveldb.DB) error { fmt.Println("Upgrading v1 to v2...") type v1IndexEntry struct { Subject string `json:"subject"` Predicate string `json:"predicate"` Object string `json:"object"` Label string `json:"label,omitempty"` History []int64 `json:"History"` } type v1ValueData struct { Name string `json:"Name"` Size int64 `json:"Size"` } var ( spoPref = []byte{spo[0].Prefix(), spo[1].Prefix()} ospPref = []byte{osp[0].Prefix(), osp[1].Prefix()} posPref = []byte{pos[0].Prefix(), pos[1].Prefix()} cpsPref = []byte{cps[0].Prefix(), cps[1].Prefix()} ) { fmt.Println("Upgrading bucket z") it := db.NewIterator(&util.Range{Start: []byte{'z'}, Limit: []byte{'z' + 1}}, nil) for it.Next() { k, v := it.Key(), it.Value() var val v1ValueData if err := json.Unmarshal(v, &val); err != nil { return err } node := proto.NodeData{ Size: val.Size, Value: proto.MakeValue(quad.Raw(val.Name)), } nv, err := node.Marshal() if err != nil { return err } if err = db.Put(k, nv, nil); err != nil { return err } } it.Release() } for _, pref := range [4][]byte{spoPref, ospPref, posPref, cpsPref} { fmt.Println("Upgrading bucket", string(pref)) end := []byte{pref[0], pref[1] + 1} it := db.NewIterator(&util.Range{Start: pref, Limit: end}, nil) for it.Next() { k, v := it.Key(), it.Value() var entry v1IndexEntry if err := json.Unmarshal(v, &entry); err != nil { return err } var h proto.HistoryEntry h.History = make([]uint64, len(entry.History)) for i, id := range entry.History { h.History[i] = uint64(id) } nv, err := h.Marshal() if err != nil { return err } if err = db.Put(k, nv, nil); err != nil { return err } } it.Release() } { fmt.Println("Upgrading bucket d") it := db.NewIterator(&util.Range{Start: []byte{'d'}, Limit: []byte{'d' + 1}}, nil) for it.Next() { k, v := it.Key(), it.Value() id, err := strconv.ParseInt(string(k[1:]), 16, 64) if err != nil { return err } nk := createDeltaKeyFor(id) var val graph.Delta if err := json.Unmarshal(v, &val); err != nil { return err } p := deltaToProto(val) nv, err := p.Marshal() if err != nil { return err } b := &leveldb.Batch{} b.Put(nk, nv) b.Delete(k) if err = db.Write(b, nil); err != nil { return err } } it.Release() } return nil }