// Licensed to the LF AI & Data foundation under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package storage import ( "encoding/binary" "encoding/json" "fmt" "math" "sort" "strconv" "strings" "github.com/milvus-io/milvus-proto/go-api/v2/schemapb" "github.com/milvus-io/milvus/internal/proto/etcdpb" "github.com/milvus-io/milvus/pkg/common" "github.com/milvus-io/milvus/pkg/util/typeutil" ) const ( // Ts is blob key "ts" Ts = "ts" // DDL is blob key "ddl" DDL = "ddl" // IndexParamsKey is blob key "indexParams" IndexParamsKey = "indexParams" ) // when the blob of index file is too large, we can split blob into several rows, // fortunately, the blob has no other semantics which differs from other binlog type, // we then assemble these several rows into a whole blob when deserialize index binlog. // num rows = math.Ceil(len(blob) / maxLengthPerRowOfIndexFile) // There is only a string row in the past version index file which is a subset case of splitting into several rows. // So splitting index file won't introduce incompatibility with past version. const maxLengthPerRowOfIndexFile = 4 * 1024 * 1024 type ( // UniqueID is type alias of typeutil.UniqueID UniqueID = typeutil.UniqueID // FieldID represent the identity number of field in collection and its type is UniqueID FieldID = typeutil.UniqueID // Timestamp is type alias of typeutil.Timestamp Timestamp = typeutil.Timestamp ) // InvalidUniqueID is used when the UniqueID is not set (like in return with err) const InvalidUniqueID = UniqueID(-1) // Blob is a pack of key&value type Blob struct { Key string Value []byte Size int64 RowNum int64 } // BlobList implements sort.Interface for a list of Blob type BlobList []*Blob // Len implements Len in sort.Interface func (s BlobList) Len() int { return len(s) } // Less implements Less in sort.Interface func (s BlobList) Less(i, j int) bool { leftValues := strings.Split(s[i].Key, "/") rightValues := strings.Split(s[j].Key, "/") left, _ := strconv.ParseInt(leftValues[len(leftValues)-1], 0, 10) right, _ := strconv.ParseInt(rightValues[len(rightValues)-1], 0, 10) return left < right } // Swap implements Swap in sort.Interface func (s BlobList) Swap(i, j int) { s[i], s[j] = s[j], s[i] } // GetKey returns the key of blob func (b Blob) GetKey() string { return b.Key } // GetValue returns the value of blob func (b Blob) GetValue() []byte { return b.Value } // InsertCodec serializes and deserializes the insert data // Blob key example: // ${tenant}/insert_log/${collection_id}/${partition_id}/${segment_id}/${field_id}/${log_idx} type InsertCodec struct { Schema *etcdpb.CollectionMeta } // NewInsertCodec creates an InsertCodec func NewInsertCodec() *InsertCodec { return &InsertCodec{} } // NewInsertCodecWithSchema creates an InsertCodec with provided collection meta func NewInsertCodecWithSchema(schema *etcdpb.CollectionMeta) *InsertCodec { return &InsertCodec{Schema: schema} } // Serialize Pk stats log func (insertCodec *InsertCodec) SerializePkStats(stats *PrimaryKeyStats, rowNum int64) (*Blob, error) { if stats == nil || stats.BF == nil { return nil, fmt.Errorf("sericalize empty pk stats") } // Serialize by pk stats blobKey := fmt.Sprintf("%d", stats.FieldID) statsWriter := &StatsWriter{} err := statsWriter.Generate(stats) if err != nil { return nil, err } buffer := statsWriter.GetBuffer() return &Blob{ Key: blobKey, Value: buffer, RowNum: rowNum, }, nil } // Serialize Pk stats list to one blob func (insertCodec *InsertCodec) SerializePkStatsList(stats []*PrimaryKeyStats, rowNum int64) (*Blob, error) { if len(stats) == 0 { return nil, nil } blobKey := fmt.Sprintf("%d", stats[0].FieldID) statsWriter := &StatsWriter{} err := statsWriter.GenerateList(stats) if err != nil { return nil, err } buffer := statsWriter.GetBuffer() return &Blob{ Key: blobKey, Value: buffer, RowNum: rowNum, }, nil } // Serialize Pk stats log by insert data func (insertCodec *InsertCodec) SerializePkStatsByData(data *InsertData) (*Blob, error) { timeFieldData, ok := data.Data[common.TimeStampField] if !ok { return nil, fmt.Errorf("data doesn't contains timestamp field") } if timeFieldData.RowNum() <= 0 { return nil, fmt.Errorf("there's no data in InsertData") } rowNum := int64(timeFieldData.RowNum()) for _, field := range insertCodec.Schema.Schema.Fields { // stats fields if !field.GetIsPrimaryKey() { continue } singleData := data.Data[field.FieldID] blobKey := fmt.Sprintf("%d", field.FieldID) statsWriter := &StatsWriter{} err := statsWriter.GenerateByData(field.FieldID, field.DataType, singleData) if err != nil { return nil, err } buffer := statsWriter.GetBuffer() return &Blob{ Key: blobKey, Value: buffer, RowNum: rowNum, }, nil } return nil, fmt.Errorf("there is no pk field") } // Serialize transfer insert data to blob. It will sort insert data by timestamp. // From schema, it gets all fields. // For each field, it will create a binlog writer, and write an event to the binlog. // It returns binlog buffer in the end. func (insertCodec *InsertCodec) Serialize(partitionID UniqueID, segmentID UniqueID, data *InsertData) ([]*Blob, error) { blobs := make([]*Blob, 0) var writer *InsertBinlogWriter timeFieldData, ok := data.Data[common.TimeStampField] if !ok { return nil, fmt.Errorf("data doesn't contains timestamp field") } if timeFieldData.RowNum() <= 0 { return nil, fmt.Errorf("there's no data in InsertData") } rowNum := int64(timeFieldData.RowNum()) ts := timeFieldData.(*Int64FieldData).Data var startTs, endTs Timestamp startTs, endTs = math.MaxUint64, 0 for _, t := range ts { if uint64(t) > endTs { endTs = uint64(t) } if uint64(t) < startTs { startTs = uint64(t) } } // sort insert data by rowID dataSorter := &DataSorter{ InsertCodec: insertCodec, InsertData: data, } sort.Sort(dataSorter) for _, field := range insertCodec.Schema.Schema.Fields { singleData := data.Data[field.FieldID] // encode fields writer = NewInsertBinlogWriter(field.DataType, insertCodec.Schema.ID, partitionID, segmentID, field.FieldID) var eventWriter *insertEventWriter var err error if typeutil.IsVectorType(field.DataType) { switch field.DataType { case schemapb.DataType_FloatVector: eventWriter, err = writer.NextInsertEventWriter(singleData.(*FloatVectorFieldData).Dim) case schemapb.DataType_BinaryVector: eventWriter, err = writer.NextInsertEventWriter(singleData.(*BinaryVectorFieldData).Dim) case schemapb.DataType_Float16Vector: eventWriter, err = writer.NextInsertEventWriter(singleData.(*Float16VectorFieldData).Dim) default: return nil, fmt.Errorf("undefined data type %d", field.DataType) } } else { eventWriter, err = writer.NextInsertEventWriter() } if err != nil { writer.Close() return nil, err } eventWriter.SetEventTimestamp(startTs, endTs) switch field.DataType { case schemapb.DataType_Bool: err = eventWriter.AddBoolToPayload(singleData.(*BoolFieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*BoolFieldData).GetMemorySize())) case schemapb.DataType_Int8: err = eventWriter.AddInt8ToPayload(singleData.(*Int8FieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*Int8FieldData).GetMemorySize())) case schemapb.DataType_Int16: err = eventWriter.AddInt16ToPayload(singleData.(*Int16FieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*Int16FieldData).GetMemorySize())) case schemapb.DataType_Int32: err = eventWriter.AddInt32ToPayload(singleData.(*Int32FieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*Int32FieldData).GetMemorySize())) case schemapb.DataType_Int64: err = eventWriter.AddInt64ToPayload(singleData.(*Int64FieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*Int64FieldData).GetMemorySize())) case schemapb.DataType_Float: err = eventWriter.AddFloatToPayload(singleData.(*FloatFieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*FloatFieldData).GetMemorySize())) case schemapb.DataType_Double: err = eventWriter.AddDoubleToPayload(singleData.(*DoubleFieldData).Data) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*DoubleFieldData).GetMemorySize())) case schemapb.DataType_String, schemapb.DataType_VarChar: for _, singleString := range singleData.(*StringFieldData).Data { err = eventWriter.AddOneStringToPayload(singleString) if err != nil { eventWriter.Close() writer.Close() return nil, err } } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*StringFieldData).GetMemorySize())) case schemapb.DataType_Array: for _, singleArray := range singleData.(*ArrayFieldData).Data { err = eventWriter.AddOneArrayToPayload(singleArray) if err != nil { eventWriter.Close() writer.Close() return nil, err } } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*ArrayFieldData).GetMemorySize())) case schemapb.DataType_JSON: for _, singleJSON := range singleData.(*JSONFieldData).Data { err = eventWriter.AddOneJSONToPayload(singleJSON) if err != nil { eventWriter.Close() writer.Close() return nil, err } } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*JSONFieldData).GetMemorySize())) case schemapb.DataType_BinaryVector: err = eventWriter.AddBinaryVectorToPayload(singleData.(*BinaryVectorFieldData).Data, singleData.(*BinaryVectorFieldData).Dim) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*BinaryVectorFieldData).GetMemorySize())) case schemapb.DataType_FloatVector: err = eventWriter.AddFloatVectorToPayload(singleData.(*FloatVectorFieldData).Data, singleData.(*FloatVectorFieldData).Dim) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*FloatVectorFieldData).GetMemorySize())) case schemapb.DataType_Float16Vector: err = eventWriter.AddFloat16VectorToPayload(singleData.(*Float16VectorFieldData).Data, singleData.(*Float16VectorFieldData).Dim) if err != nil { eventWriter.Close() writer.Close() return nil, err } writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", singleData.(*Float16VectorFieldData).GetMemorySize())) default: return nil, fmt.Errorf("undefined data type %d", field.DataType) } if err != nil { return nil, err } writer.SetEventTimeStamp(startTs, endTs) err = writer.Finish() if err != nil { eventWriter.Close() writer.Close() return nil, err } buffer, err := writer.GetBuffer() if err != nil { eventWriter.Close() writer.Close() return nil, err } blobKey := fmt.Sprintf("%d", field.FieldID) blobs = append(blobs, &Blob{ Key: blobKey, Value: buffer, RowNum: rowNum, }) eventWriter.Close() writer.Close() } return blobs, nil } func (insertCodec *InsertCodec) DeserializeAll(blobs []*Blob) ( collectionID UniqueID, partitionID UniqueID, segmentID UniqueID, data *InsertData, err error, ) { if len(blobs) == 0 { return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, nil, fmt.Errorf("blobs is empty") } var blobList BlobList = blobs sort.Sort(blobList) data = &InsertData{ Data: make(map[FieldID]FieldData), } if collectionID, partitionID, segmentID, err = insertCodec.DeserializeInto(blobs, 0, data); err != nil { return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, nil, err } return } func (insertCodec *InsertCodec) DeserializeInto(fieldBinlogs []*Blob, rowNum int, insertData *InsertData) ( collectionID UniqueID, partitionID UniqueID, segmentID UniqueID, err error, ) { for _, blob := range fieldBinlogs { binlogReader, err := NewBinlogReader(blob.Value) if err != nil { return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } // read partitionID and SegmentID collectionID, partitionID, segmentID = binlogReader.CollectionID, binlogReader.PartitionID, binlogReader.SegmentID dataType := binlogReader.PayloadDataType fieldID := binlogReader.FieldID totalLength := 0 dim := 0 for { eventReader, err := binlogReader.NextEventReader() if err != nil { return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if eventReader == nil { break } switch dataType { case schemapb.DataType_Bool: singleData, err := eventReader.GetBoolFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &BoolFieldData{ Data: make([]bool, 0, rowNum), } } boolFieldData := insertData.Data[fieldID].(*BoolFieldData) boolFieldData.Data = append(boolFieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = boolFieldData case schemapb.DataType_Int8: singleData, err := eventReader.GetInt8FromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &Int8FieldData{ Data: make([]int8, 0, rowNum), } } int8FieldData := insertData.Data[fieldID].(*Int8FieldData) int8FieldData.Data = append(int8FieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = int8FieldData case schemapb.DataType_Int16: singleData, err := eventReader.GetInt16FromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &Int16FieldData{ Data: make([]int16, 0, rowNum), } } int16FieldData := insertData.Data[fieldID].(*Int16FieldData) int16FieldData.Data = append(int16FieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = int16FieldData case schemapb.DataType_Int32: singleData, err := eventReader.GetInt32FromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &Int32FieldData{ Data: make([]int32, 0, rowNum), } } int32FieldData := insertData.Data[fieldID].(*Int32FieldData) int32FieldData.Data = append(int32FieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = int32FieldData case schemapb.DataType_Int64: singleData, err := eventReader.GetInt64FromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &Int64FieldData{ Data: make([]int64, 0, rowNum), } } int64FieldData := insertData.Data[fieldID].(*Int64FieldData) int64FieldData.Data = append(int64FieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = int64FieldData case schemapb.DataType_Float: singleData, err := eventReader.GetFloatFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &FloatFieldData{ Data: make([]float32, 0, rowNum), } } floatFieldData := insertData.Data[fieldID].(*FloatFieldData) floatFieldData.Data = append(floatFieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = floatFieldData case schemapb.DataType_Double: singleData, err := eventReader.GetDoubleFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &DoubleFieldData{ Data: make([]float64, 0, rowNum), } } doubleFieldData := insertData.Data[fieldID].(*DoubleFieldData) doubleFieldData.Data = append(doubleFieldData.Data, singleData...) totalLength += len(singleData) insertData.Data[fieldID] = doubleFieldData case schemapb.DataType_String, schemapb.DataType_VarChar: stringPayload, err := eventReader.GetStringFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &StringFieldData{ Data: make([]string, 0, rowNum), } } stringFieldData := insertData.Data[fieldID].(*StringFieldData) stringFieldData.Data = append(stringFieldData.Data, stringPayload...) totalLength += len(stringPayload) insertData.Data[fieldID] = stringFieldData case schemapb.DataType_Array: arrayPayload, err := eventReader.GetArrayFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &ArrayFieldData{ Data: make([]*schemapb.ScalarField, 0, rowNum), } } arrayFieldData := insertData.Data[fieldID].(*ArrayFieldData) arrayFieldData.Data = append(arrayFieldData.Data, arrayPayload...) totalLength += len(arrayPayload) insertData.Data[fieldID] = arrayFieldData case schemapb.DataType_JSON: jsonPayload, err := eventReader.GetJSONFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &JSONFieldData{ Data: make([][]byte, 0, rowNum), } } jsonFieldData := insertData.Data[fieldID].(*JSONFieldData) jsonFieldData.Data = append(jsonFieldData.Data, jsonPayload...) totalLength += len(jsonPayload) insertData.Data[fieldID] = jsonFieldData case schemapb.DataType_BinaryVector: var singleData []byte singleData, dim, err = eventReader.GetBinaryVectorFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &BinaryVectorFieldData{ Data: make([]byte, 0, rowNum*dim), } } binaryVectorFieldData := insertData.Data[fieldID].(*BinaryVectorFieldData) binaryVectorFieldData.Data = append(binaryVectorFieldData.Data, singleData...) length, err := eventReader.GetPayloadLengthFromReader() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } totalLength += length binaryVectorFieldData.Dim = dim insertData.Data[fieldID] = binaryVectorFieldData case schemapb.DataType_Float16Vector: var singleData []byte singleData, dim, err = eventReader.GetFloat16VectorFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &Float16VectorFieldData{ Data: make([]byte, 0, rowNum*dim), } } float16VectorFieldData := insertData.Data[fieldID].(*Float16VectorFieldData) float16VectorFieldData.Data = append(float16VectorFieldData.Data, singleData...) length, err := eventReader.GetPayloadLengthFromReader() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } totalLength += length float16VectorFieldData.Dim = dim insertData.Data[fieldID] = float16VectorFieldData case schemapb.DataType_FloatVector: var singleData []float32 singleData, dim, err = eventReader.GetFloatVectorFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } if insertData.Data[fieldID] == nil { insertData.Data[fieldID] = &FloatVectorFieldData{ Data: make([]float32, 0, rowNum*dim), } } floatVectorFieldData := insertData.Data[fieldID].(*FloatVectorFieldData) floatVectorFieldData.Data = append(floatVectorFieldData.Data, singleData...) length, err := eventReader.GetPayloadLengthFromReader() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, err } totalLength += length floatVectorFieldData.Dim = dim insertData.Data[fieldID] = floatVectorFieldData default: eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, InvalidUniqueID, fmt.Errorf("undefined data type %d", dataType) } eventReader.Close() } if rowNum <= 0 { rowNum = totalLength } if fieldID == common.TimeStampField { blobInfo := BlobInfo{ Length: totalLength, } insertData.Infos = append(insertData.Infos, blobInfo) } binlogReader.Close() } return collectionID, partitionID, segmentID, nil } // func deserializeEntity[T any, U any]( // eventReader *EventReader, // binlogReader *BinlogReader, // insertData *InsertData, // getPayloadFunc func() (U, error), // fillDataFunc func() FieldData, // ) error { // fieldID := binlogReader.FieldID // stringPayload, err := getPayloadFunc() // if err != nil { // eventReader.Close() // binlogReader.Close() // return err // } // // if insertData.Data[fieldID] == nil { // insertData.Data[fieldID] = fillDataFunc() // } // stringFieldData := insertData.Data[fieldID].(*T) // // stringFieldData.Data = append(stringFieldData.Data, stringPayload...) // totalLength += len(stringPayload) // insertData.Data[fieldID] = stringFieldData // } // Deserialize transfer blob back to insert data. // From schema, it get all fields. // For each field, it will create a binlog reader, and read all event to the buffer. // It returns origin @InsertData in the end. func (insertCodec *InsertCodec) Deserialize(blobs []*Blob) (partitionID UniqueID, segmentID UniqueID, data *InsertData, err error) { _, partitionID, segmentID, data, err = insertCodec.DeserializeAll(blobs) return partitionID, segmentID, data, err } type DeleteLog struct { Pk PrimaryKey `json:"pk"` Ts uint64 `json:"ts"` PkType int64 `json:"pkType"` } func NewDeleteLog(pk PrimaryKey, ts Timestamp) *DeleteLog { pkType := pk.Type() return &DeleteLog{ Pk: pk, Ts: ts, PkType: int64(pkType), } } func (dl *DeleteLog) UnmarshalJSON(data []byte) error { var messageMap map[string]*json.RawMessage err := json.Unmarshal(data, &messageMap) if err != nil { return err } err = json.Unmarshal(*messageMap["pkType"], &dl.PkType) if err != nil { return err } switch schemapb.DataType(dl.PkType) { case schemapb.DataType_Int64: dl.Pk = &Int64PrimaryKey{} case schemapb.DataType_VarChar: dl.Pk = &VarCharPrimaryKey{} } err = json.Unmarshal(*messageMap["pk"], dl.Pk) if err != nil { return err } err = json.Unmarshal(*messageMap["ts"], &dl.Ts) if err != nil { return err } return nil } // DeleteData saves each entity delete message represented as map. // timestamp represents the time when this instance was deleted type DeleteData struct { Pks []PrimaryKey // primary keys Tss []Timestamp // timestamps RowCount int64 } // Append append 1 pk&ts pair to DeleteData func (data *DeleteData) Append(pk PrimaryKey, ts Timestamp) { data.Pks = append(data.Pks, pk) data.Tss = append(data.Tss, ts) data.RowCount++ } // DeleteCodec serializes and deserializes the delete data type DeleteCodec struct{} // NewDeleteCodec returns a DeleteCodec func NewDeleteCodec() *DeleteCodec { return &DeleteCodec{} } // Serialize transfer delete data to blob. . // For each delete message, it will save "pk,ts" string to binlog. func (deleteCodec *DeleteCodec) Serialize(collectionID UniqueID, partitionID UniqueID, segmentID UniqueID, data *DeleteData) (*Blob, error) { binlogWriter := NewDeleteBinlogWriter(schemapb.DataType_String, collectionID, partitionID, segmentID) eventWriter, err := binlogWriter.NextDeleteEventWriter() if err != nil { binlogWriter.Close() return nil, err } defer binlogWriter.Close() defer eventWriter.Close() length := len(data.Pks) if length != len(data.Tss) { return nil, fmt.Errorf("the length of pks, and TimeStamps is not equal") } sizeTotal := 0 var startTs, endTs Timestamp startTs, endTs = math.MaxUint64, 0 for i := 0; i < length; i++ { ts := data.Tss[i] if ts < startTs { startTs = ts } if ts > endTs { endTs = ts } deleteLog := NewDeleteLog(data.Pks[i], ts) serializedPayload, err := json.Marshal(deleteLog) if err != nil { return nil, err } err = eventWriter.AddOneStringToPayload(string(serializedPayload)) if err != nil { return nil, err } sizeTotal += binary.Size(serializedPayload) } eventWriter.SetEventTimestamp(startTs, endTs) binlogWriter.SetEventTimeStamp(startTs, endTs) // https://github.com/milvus-io/milvus/issues/9620 // It's a little complicated to count the memory size of a map. // See: https://stackoverflow.com/questions/31847549/computing-the-memory-footprint-or-byte-length-of-a-map // Since the implementation of golang map may differ from version, so we'd better not to use this magic method. binlogWriter.AddExtra(originalSizeKey, fmt.Sprintf("%v", sizeTotal)) err = binlogWriter.Finish() if err != nil { return nil, err } buffer, err := binlogWriter.GetBuffer() if err != nil { return nil, err } blob := &Blob{ Value: buffer, } return blob, nil } // Deserialize deserializes the deltalog blobs into DeleteData func (deleteCodec *DeleteCodec) Deserialize(blobs []*Blob) (partitionID UniqueID, segmentID UniqueID, data *DeleteData, err error) { if len(blobs) == 0 { return InvalidUniqueID, InvalidUniqueID, nil, fmt.Errorf("blobs is empty") } var pid, sid UniqueID result := &DeleteData{} for _, blob := range blobs { binlogReader, err := NewBinlogReader(blob.Value) if err != nil { return InvalidUniqueID, InvalidUniqueID, nil, err } pid, sid = binlogReader.PartitionID, binlogReader.SegmentID eventReader, err := binlogReader.NextEventReader() if err != nil { binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, nil, err } stringArray, err := eventReader.GetStringFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, nil, err } for i := 0; i < len(stringArray); i++ { deleteLog := &DeleteLog{} if err = json.Unmarshal([]byte(stringArray[i]), deleteLog); err != nil { // compatible with versions that only support int64 type primary keys // compatible with fmt.Sprintf("%d,%d", pk, ts) // compatible error info (unmarshal err invalid character ',' after top-level value) splits := strings.Split(stringArray[i], ",") if len(splits) != 2 { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, nil, fmt.Errorf("the format of delta log is incorrect, %v can not be split", stringArray[i]) } pk, err := strconv.ParseInt(splits[0], 10, 64) if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, nil, err } deleteLog.Pk = &Int64PrimaryKey{ Value: pk, } deleteLog.PkType = int64(schemapb.DataType_Int64) deleteLog.Ts, err = strconv.ParseUint(splits[1], 10, 64) if err != nil { eventReader.Close() binlogReader.Close() return InvalidUniqueID, InvalidUniqueID, nil, err } } result.Pks = append(result.Pks, deleteLog.Pk) result.Tss = append(result.Tss, deleteLog.Ts) } eventReader.Close() binlogReader.Close() } result.RowCount = int64(len(result.Pks)) return pid, sid, result, nil } // DataDefinitionCodec serializes and deserializes the data definition // Blob key example: // ${tenant}/data_definition_log/${collection_id}/ts/${log_idx} // ${tenant}/data_definition_log/${collection_id}/ddl/${log_idx} type DataDefinitionCodec struct { collectionID int64 } // NewDataDefinitionCodec is constructor for DataDefinitionCodec func NewDataDefinitionCodec(collectionID int64) *DataDefinitionCodec { return &DataDefinitionCodec{collectionID: collectionID} } // Serialize transfer @ts and @ddRequsts to blob. // From schema, it get all fields. // For each field, it will create a binlog writer, and write specific event according // to the dataDefinition type. // It returns blobs in the end. func (dataDefinitionCodec *DataDefinitionCodec) Serialize(ts []Timestamp, ddRequests []string, eventTypes []EventTypeCode) ([]*Blob, error) { writer := NewDDLBinlogWriter(schemapb.DataType_Int64, dataDefinitionCodec.collectionID) eventWriter, err := writer.NextCreateCollectionEventWriter() if err != nil { writer.Close() return nil, err } defer writer.Close() defer eventWriter.Close() var blobs []*Blob var int64Ts []int64 for _, singleTs := range ts { int64Ts = append(int64Ts, int64(singleTs)) } err = eventWriter.AddInt64ToPayload(int64Ts) if err != nil { return nil, err } eventWriter.SetEventTimestamp(ts[0], ts[len(ts)-1]) writer.SetEventTimeStamp(ts[0], ts[len(ts)-1]) // https://github.com/milvus-io/milvus/issues/9620 writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", binary.Size(int64Ts))) err = writer.Finish() if err != nil { return nil, err } buffer, err := writer.GetBuffer() if err != nil { return nil, err } blobs = append(blobs, &Blob{ Key: Ts, Value: buffer, }) eventWriter.Close() writer.Close() writer = NewDDLBinlogWriter(schemapb.DataType_String, dataDefinitionCodec.collectionID) sizeTotal := 0 for pos, req := range ddRequests { sizeTotal += len(req) switch eventTypes[pos] { case CreateCollectionEventType: eventWriter, err := writer.NextCreateCollectionEventWriter() if err != nil { return nil, err } err = eventWriter.AddOneStringToPayload(req) if err != nil { return nil, err } eventWriter.SetEventTimestamp(ts[pos], ts[pos]) case DropCollectionEventType: eventWriter, err := writer.NextDropCollectionEventWriter() if err != nil { return nil, err } err = eventWriter.AddOneStringToPayload(req) if err != nil { return nil, err } eventWriter.SetEventTimestamp(ts[pos], ts[pos]) case CreatePartitionEventType: eventWriter, err := writer.NextCreatePartitionEventWriter() if err != nil { return nil, err } err = eventWriter.AddOneStringToPayload(req) if err != nil { return nil, err } eventWriter.SetEventTimestamp(ts[pos], ts[pos]) case DropPartitionEventType: eventWriter, err := writer.NextDropPartitionEventWriter() if err != nil { return nil, err } err = eventWriter.AddOneStringToPayload(req) if err != nil { return nil, err } eventWriter.SetEventTimestamp(ts[pos], ts[pos]) } } writer.SetEventTimeStamp(ts[0], ts[len(ts)-1]) // https://github.com/milvus-io/milvus/issues/9620 writer.AddExtra(originalSizeKey, fmt.Sprintf("%v", sizeTotal)) err = writer.Finish() if err != nil { return nil, err } buffer, err = writer.GetBuffer() if err != nil { return nil, err } blobs = append(blobs, &Blob{ Key: DDL, Value: buffer, }) return blobs, nil } // Deserialize transfer blob back to data definition data. // From schema, it get all fields. // It will sort blob by blob key for blob logid is increasing by time. // For each field, it will create a binlog reader, and read all event to the buffer. // It returns origin @ts and @ddRequests in the end. func (dataDefinitionCodec *DataDefinitionCodec) Deserialize(blobs []*Blob) (ts []Timestamp, ddRequests []string, err error) { if len(blobs) == 0 { return nil, nil, fmt.Errorf("blobs is empty") } var requestsStrings []string var resultTs []Timestamp var blobList BlobList = blobs sort.Sort(blobList) for _, blob := range blobList { binlogReader, err := NewBinlogReader(blob.Value) if err != nil { return nil, nil, err } dataType := binlogReader.PayloadDataType for { eventReader, err := binlogReader.NextEventReader() if err != nil { binlogReader.Close() return nil, nil, err } if eventReader == nil { break } switch dataType { case schemapb.DataType_Int64: int64Ts, err := eventReader.GetInt64FromPayload() if err != nil { eventReader.Close() binlogReader.Close() return nil, nil, err } for _, singleTs := range int64Ts { resultTs = append(resultTs, Timestamp(singleTs)) } case schemapb.DataType_String: stringPayload, err := eventReader.GetStringFromPayload() if err != nil { eventReader.Close() binlogReader.Close() return nil, nil, err } requestsStrings = append(requestsStrings, stringPayload...) } eventReader.Close() } binlogReader.Close() } return resultTs, requestsStrings, nil }