milvus/internal/storage/utils.go
congqixia 68a6587374
Set insert&stats binlog timestamp range (#19005)
Signed-off-by: Congqi Xia <congqi.xia@zilliz.com>

Signed-off-by: Congqi Xia <congqi.xia@zilliz.com>
2022-09-04 09:05:09 +08:00

1036 lines
28 KiB
Go

// 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 (
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"sort"
"strconv"
"github.com/golang/protobuf/proto"
"go.uber.org/zap"
"github.com/milvus-io/milvus/internal/common"
"github.com/milvus-io/milvus/internal/log"
"github.com/milvus-io/milvus/internal/mq/msgstream"
"github.com/milvus-io/milvus/internal/proto/commonpb"
"github.com/milvus-io/milvus/internal/proto/schemapb"
"github.com/milvus-io/milvus/internal/proto/segcorepb"
"github.com/milvus-io/milvus/internal/util/typeutil"
)
//////////////////////////////////////////////////////////////////////////////////////////////////
func checkTsField(data *InsertData) bool {
tsData, ok := data.Data[common.TimeStampField]
if !ok {
return false
}
_, ok = tsData.(*Int64FieldData)
return ok
}
func checkRowIDField(data *InsertData) bool {
rowIDData, ok := data.Data[common.RowIDField]
if !ok {
return false
}
_, ok = rowIDData.(*Int64FieldData)
return ok
}
func checkNumRows(fieldDatas ...FieldData) bool {
if len(fieldDatas) <= 0 {
return true
}
numRows := fieldDatas[0].RowNum()
for i := 1; i < len(fieldDatas); i++ {
if numRows != fieldDatas[i].RowNum() {
return false
}
}
return true
}
type fieldDataList struct {
IDs []FieldID
datas []FieldData
}
func (ls fieldDataList) Len() int {
return len(ls.IDs)
}
func (ls fieldDataList) Less(i, j int) bool {
return ls.IDs[i] < ls.IDs[j]
}
func (ls fieldDataList) Swap(i, j int) {
ls.IDs[i], ls.IDs[j] = ls.IDs[j], ls.IDs[i]
ls.datas[i], ls.datas[j] = ls.datas[j], ls.datas[i]
}
func sortFieldDataList(ls fieldDataList) {
sort.Sort(ls)
}
// TransferColumnBasedInsertDataToRowBased transfer column-based insert data to row-based rows.
// Note:
// - ts column must exist in insert data;
// - row id column must exist in insert data;
// - the row num of all column must be equal;
// - num_rows = len(RowData), a row will be assembled into the value of blob with field id order;
func TransferColumnBasedInsertDataToRowBased(data *InsertData) (
Timestamps []uint64,
RowIDs []int64,
RowData []*commonpb.Blob,
err error,
) {
if !checkTsField(data) {
return nil, nil, nil,
errors.New("cannot get timestamps from insert data")
}
if !checkRowIDField(data) {
return nil, nil, nil,
errors.New("cannot get row ids from insert data")
}
tss := data.Data[common.TimeStampField].(*Int64FieldData)
rowIds := data.Data[common.RowIDField].(*Int64FieldData)
ls := fieldDataList{}
for fieldID := range data.Data {
if fieldID == common.TimeStampField || fieldID == common.RowIDField {
continue
}
ls.IDs = append(ls.IDs, fieldID)
ls.datas = append(ls.datas, data.Data[fieldID])
}
// checkNumRows(tss, rowIds, ls.datas...) // don't work
all := []FieldData{tss, rowIds}
all = append(all, ls.datas...)
if !checkNumRows(all...) {
return nil, nil, nil,
errors.New("columns of insert data have different length")
}
sortFieldDataList(ls)
numRows := tss.RowNum()
rows := make([]*commonpb.Blob, numRows)
for i := 0; i < numRows; i++ {
blob := &commonpb.Blob{}
var buffer bytes.Buffer
for j := 0; j < ls.Len(); j++ {
d := ls.datas[j].GetRow(i)
err := binary.Write(&buffer, common.Endian, d)
if err != nil {
return nil, nil, nil,
fmt.Errorf("failed to get binary row, err: %v", err)
}
}
blob.Value = buffer.Bytes()
rows[i] = blob
}
utss := make([]uint64, tss.RowNum())
for i := 0; i < tss.RowNum(); i++ {
utss[i] = uint64(tss.Data[i])
}
return utss, rowIds.Data, rows, nil
}
///////////////////////////////////////////////////////////////////////////////////////////
// TODO: remove these functions to proper file.
// GetDimFromParams get dim from params.
func GetDimFromParams(params []*commonpb.KeyValuePair) (int, error) {
var dim int
var err error
for _, t := range params {
if t.Key == "dim" {
dim, err = strconv.Atoi(t.Value)
if err != nil {
return -1, err
}
return dim, nil
}
}
return -1, errors.New("dim not found in params")
}
// ReadBinary read data in bytes and write it into receiver.
// The receiver can be any type in int8, int16, int32, int64, float32, float64 and bool
// ReadBinary uses LittleEndian ByteOrder.
func ReadBinary(reader io.Reader, receiver interface{}, dataType schemapb.DataType) {
err := binary.Read(reader, common.Endian, receiver)
if err != nil {
log.Error("binary.Read failed", zap.Any("data type", dataType), zap.Error(err))
}
}
// It will save my life if golang support generic programming.
// TODO: string type.
func readFloatVectors(blobReaders []io.Reader, dim int) []float32 {
ret := make([]float32, 0)
for _, r := range blobReaders {
var v = make([]float32, dim)
ReadBinary(r, &v, schemapb.DataType_FloatVector)
ret = append(ret, v...)
}
return ret
}
func readBinaryVectors(blobReaders []io.Reader, dim int) []byte {
ret := make([]byte, 0)
for _, r := range blobReaders {
var v = make([]byte, dim/8)
ReadBinary(r, &v, schemapb.DataType_BinaryVector)
ret = append(ret, v...)
}
return ret
}
func readBoolArray(blobReaders []io.Reader) []bool {
ret := make([]bool, 0)
for _, r := range blobReaders {
var v bool
ReadBinary(r, &v, schemapb.DataType_Bool)
ret = append(ret, v)
}
return ret
}
func readInt8Array(blobReaders []io.Reader) []int8 {
ret := make([]int8, 0)
for _, r := range blobReaders {
var v int8
ReadBinary(r, &v, schemapb.DataType_Int8)
ret = append(ret, v)
}
return ret
}
func readInt16Array(blobReaders []io.Reader) []int16 {
ret := make([]int16, 0)
for _, r := range blobReaders {
var v int16
ReadBinary(r, &v, schemapb.DataType_Int16)
ret = append(ret, v)
}
return ret
}
func readInt32Array(blobReaders []io.Reader) []int32 {
ret := make([]int32, 0)
for _, r := range blobReaders {
var v int32
ReadBinary(r, &v, schemapb.DataType_Int32)
ret = append(ret, v)
}
return ret
}
func readInt64Array(blobReaders []io.Reader) []int64 {
ret := make([]int64, 0)
for _, r := range blobReaders {
var v int64
ReadBinary(r, &v, schemapb.DataType_Int64)
ret = append(ret, v)
}
return ret
}
func readFloatArray(blobReaders []io.Reader) []float32 {
ret := make([]float32, 0)
for _, r := range blobReaders {
var v float32
ReadBinary(r, &v, schemapb.DataType_Float)
ret = append(ret, v)
}
return ret
}
func readDoubleArray(blobReaders []io.Reader) []float64 {
ret := make([]float64, 0)
for _, r := range blobReaders {
var v float64
ReadBinary(r, &v, schemapb.DataType_Double)
ret = append(ret, v)
}
return ret
}
func RowBasedInsertMsgToInsertData(msg *msgstream.InsertMsg, collSchema *schemapb.CollectionSchema) (idata *InsertData, err error) {
blobReaders := make([]io.Reader, 0)
for _, blob := range msg.RowData {
blobReaders = append(blobReaders, bytes.NewReader(blob.GetValue()))
}
idata = &InsertData{
Data: make(map[FieldID]FieldData),
// TODO: handle Infos.
Infos: nil,
}
for _, field := range collSchema.Fields {
switch field.DataType {
case schemapb.DataType_FloatVector:
dim, err := GetDimFromParams(field.TypeParams)
if err != nil {
log.Error("failed to get dim", zap.Error(err))
return nil, err
}
vecs := readFloatVectors(blobReaders, dim)
idata.Data[field.FieldID] = &FloatVectorFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: vecs,
Dim: dim,
}
case schemapb.DataType_BinaryVector:
var dim int
dim, err := GetDimFromParams(field.TypeParams)
if err != nil {
log.Error("failed to get dim", zap.Error(err))
return nil, err
}
vecs := readBinaryVectors(blobReaders, dim)
idata.Data[field.FieldID] = &BinaryVectorFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: vecs,
Dim: dim,
}
case schemapb.DataType_Bool:
idata.Data[field.FieldID] = &BoolFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: readBoolArray(blobReaders),
}
case schemapb.DataType_Int8:
idata.Data[field.FieldID] = &Int8FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: readInt8Array(blobReaders),
}
case schemapb.DataType_Int16:
idata.Data[field.FieldID] = &Int16FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: readInt16Array(blobReaders),
}
case schemapb.DataType_Int32:
idata.Data[field.FieldID] = &Int32FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: readInt32Array(blobReaders),
}
case schemapb.DataType_Int64:
idata.Data[field.FieldID] = &Int64FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: nil,
}
fieldData := idata.Data[field.FieldID].(*Int64FieldData)
switch field.FieldID {
case 0: // rowIDs
fieldData.Data = append(fieldData.Data, msg.RowIDs...)
case 1: // Timestamps
for _, ts := range msg.Timestamps {
fieldData.Data = append(fieldData.Data, int64(ts))
}
default:
fieldData.Data = readInt64Array(blobReaders)
}
case schemapb.DataType_Float:
idata.Data[field.FieldID] = &FloatFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: readFloatArray(blobReaders),
}
case schemapb.DataType_Double:
idata.Data[field.FieldID] = &DoubleFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: readDoubleArray(blobReaders),
}
}
}
return idata, nil
}
func ColumnBasedInsertMsgToInsertData(msg *msgstream.InsertMsg, collSchema *schemapb.CollectionSchema) (idata *InsertData, err error) {
srcFields := make(map[FieldID]*schemapb.FieldData)
for _, field := range msg.FieldsData {
srcFields[field.FieldId] = field
}
idata = &InsertData{
Data: make(map[FieldID]FieldData),
// TODO: handle Infos.
Infos: nil,
}
for _, field := range collSchema.Fields {
switch field.DataType {
case schemapb.DataType_FloatVector:
dim, err := GetDimFromParams(field.TypeParams)
if err != nil {
log.Error("failed to get dim", zap.Error(err))
return nil, err
}
srcData := srcFields[field.FieldID].GetVectors().GetFloatVector().GetData()
fieldData := &FloatVectorFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]float32, 0, len(srcData)),
Dim: dim,
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_BinaryVector:
dim, err := GetDimFromParams(field.TypeParams)
if err != nil {
log.Error("failed to get dim", zap.Error(err))
return nil, err
}
srcData := srcFields[field.FieldID].GetVectors().GetBinaryVector()
fieldData := &BinaryVectorFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]byte, 0, len(srcData)),
Dim: dim,
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Bool:
srcData := srcFields[field.FieldID].GetScalars().GetBoolData().GetData()
fieldData := &BoolFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]bool, 0, len(srcData)),
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Int8:
srcData := srcFields[field.FieldID].GetScalars().GetIntData().GetData()
fieldData := &Int8FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]int8, 0, len(srcData)),
}
int8SrcData := make([]int8, len(srcData))
for i := 0; i < len(srcData); i++ {
int8SrcData[i] = int8(srcData[i])
}
fieldData.Data = append(fieldData.Data, int8SrcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Int16:
srcData := srcFields[field.FieldID].GetScalars().GetIntData().GetData()
fieldData := &Int16FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]int16, 0, len(srcData)),
}
int16SrcData := make([]int16, len(srcData))
for i := 0; i < len(srcData); i++ {
int16SrcData[i] = int16(srcData[i])
}
fieldData.Data = append(fieldData.Data, int16SrcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Int32:
srcData := srcFields[field.FieldID].GetScalars().GetIntData().GetData()
fieldData := &Int32FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]int32, 0, len(srcData)),
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Int64:
fieldData := &Int64FieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]int64, 0),
}
switch field.FieldID {
case 0: // rowIDs
fieldData.Data = make([]int64, 0, len(msg.RowIDs))
fieldData.Data = append(fieldData.Data, msg.RowIDs...)
case 1: // Timestamps
fieldData.Data = make([]int64, 0, len(msg.Timestamps))
for _, ts := range msg.Timestamps {
fieldData.Data = append(fieldData.Data, int64(ts))
}
default:
srcData := srcFields[field.FieldID].GetScalars().GetLongData().GetData()
fieldData.Data = make([]int64, 0, len(srcData))
fieldData.Data = append(fieldData.Data, srcData...)
}
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Float:
srcData := srcFields[field.FieldID].GetScalars().GetFloatData().GetData()
fieldData := &FloatFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]float32, 0, len(srcData)),
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_Double:
srcData := srcFields[field.FieldID].GetScalars().GetDoubleData().GetData()
fieldData := &DoubleFieldData{
NumRows: []int64{int64(msg.NRows())},
Data: make([]float64, 0, len(srcData)),
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
case schemapb.DataType_String, schemapb.DataType_VarChar:
srcData := srcFields[field.FieldID].GetScalars().GetStringData().GetData()
fieldData := &StringFieldData{
NumRows: []int64{int64(msg.NumRows)},
Data: make([]string, 0, len(srcData)),
}
fieldData.Data = append(fieldData.Data, srcData...)
idata.Data[field.FieldID] = fieldData
}
}
return idata, nil
}
func InsertMsgToInsertData(msg *msgstream.InsertMsg, schema *schemapb.CollectionSchema) (idata *InsertData, err error) {
if msg.IsRowBased() {
return RowBasedInsertMsgToInsertData(msg, schema)
}
return ColumnBasedInsertMsgToInsertData(msg, schema)
}
func mergeBoolField(data *InsertData, fid FieldID, field *BoolFieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &BoolFieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*BoolFieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeInt8Field(data *InsertData, fid FieldID, field *Int8FieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &Int8FieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*Int8FieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeInt16Field(data *InsertData, fid FieldID, field *Int16FieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &Int16FieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*Int16FieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeInt32Field(data *InsertData, fid FieldID, field *Int32FieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &Int32FieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*Int32FieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeInt64Field(data *InsertData, fid FieldID, field *Int64FieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &Int64FieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*Int64FieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeFloatField(data *InsertData, fid FieldID, field *FloatFieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &FloatFieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*FloatFieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeDoubleField(data *InsertData, fid FieldID, field *DoubleFieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &DoubleFieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*DoubleFieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeStringField(data *InsertData, fid FieldID, field *StringFieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &StringFieldData{
NumRows: []int64{0},
Data: nil,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*StringFieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeBinaryVectorField(data *InsertData, fid FieldID, field *BinaryVectorFieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &BinaryVectorFieldData{
NumRows: []int64{0},
Data: nil,
Dim: field.Dim,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*BinaryVectorFieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
func mergeFloatVectorField(data *InsertData, fid FieldID, field *FloatVectorFieldData) {
if _, ok := data.Data[fid]; !ok {
fieldData := &FloatVectorFieldData{
NumRows: []int64{0},
Data: nil,
Dim: field.Dim,
}
data.Data[fid] = fieldData
}
fieldData := data.Data[fid].(*FloatVectorFieldData)
fieldData.Data = append(fieldData.Data, field.Data...)
fieldData.NumRows[0] += int64(field.RowNum())
}
// MergeFieldData merge field into data.
func MergeFieldData(data *InsertData, fid FieldID, field FieldData) {
if field == nil {
return
}
switch field := field.(type) {
case *BoolFieldData:
mergeBoolField(data, fid, field)
case *Int8FieldData:
mergeInt8Field(data, fid, field)
case *Int16FieldData:
mergeInt16Field(data, fid, field)
case *Int32FieldData:
mergeInt32Field(data, fid, field)
case *Int64FieldData:
mergeInt64Field(data, fid, field)
case *FloatFieldData:
mergeFloatField(data, fid, field)
case *DoubleFieldData:
mergeDoubleField(data, fid, field)
case *StringFieldData:
mergeStringField(data, fid, field)
case *BinaryVectorFieldData:
mergeBinaryVectorField(data, fid, field)
case *FloatVectorFieldData:
mergeFloatVectorField(data, fid, field)
}
}
// MergeInsertData merge insert datas. Maybe there are large write zoom if frequent inserts are met.
func MergeInsertData(datas ...*InsertData) *InsertData {
ret := &InsertData{
Data: make(map[FieldID]FieldData),
Infos: nil,
}
for _, data := range datas {
if data != nil {
for fid, field := range data.Data {
MergeFieldData(ret, fid, field)
}
// TODO: handle storage.InsertData.Infos
ret.Infos = append(ret.Infos, data.Infos...)
}
}
return ret
}
// TODO: string type.
func GetPkFromInsertData(collSchema *schemapb.CollectionSchema, data *InsertData) (FieldData, error) {
helper, err := typeutil.CreateSchemaHelper(collSchema)
if err != nil {
log.Error("failed to create schema helper", zap.Error(err))
return nil, err
}
pf, err := helper.GetPrimaryKeyField()
if err != nil {
log.Warn("no primary field found", zap.Error(err))
return nil, err
}
pfData, ok := data.Data[pf.FieldID]
if !ok {
log.Warn("no primary field found in insert msg", zap.Int64("fieldID", pf.FieldID))
return nil, errors.New("no primary field found in insert msg")
}
var realPfData FieldData
switch pf.DataType {
case schemapb.DataType_Int64:
realPfData, ok = pfData.(*Int64FieldData)
case schemapb.DataType_VarChar:
realPfData, ok = pfData.(*StringFieldData)
default:
//TODO
}
if !ok {
log.Warn("primary field not in Int64 or VarChar format", zap.Int64("fieldID", pf.FieldID))
return nil, errors.New("primary field not in Int64 or VarChar format")
}
return realPfData, nil
}
// GetTimestampFromInsertData returns the Int64FieldData for timestamp field.
func GetTimestampFromInsertData(data *InsertData) (*Int64FieldData, error) {
if data == nil {
return nil, errors.New("try to get timestamp from nil insert data")
}
fieldData, ok := data.Data[common.TimeStampField]
if !ok {
return nil, errors.New("no timestamp field in insert data")
}
ifd, ok := fieldData.(*Int64FieldData)
if !ok {
return nil, errors.New("timestamp field is not Int64")
}
return ifd, nil
}
func boolFieldDataToPbBytes(field *BoolFieldData) ([]byte, error) {
arr := &schemapb.BoolArray{Data: field.Data}
return proto.Marshal(arr)
}
func stringFieldDataToPbBytes(field *StringFieldData) ([]byte, error) {
arr := &schemapb.StringArray{Data: field.Data}
return proto.Marshal(arr)
}
func binaryWrite(endian binary.ByteOrder, data interface{}) ([]byte, error) {
buf := new(bytes.Buffer)
err := binary.Write(buf, endian, data)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// FieldDataToBytes encode field data to byte slice.
// For some fixed-length data, such as int32, int64, float vector, use binary.Write directly.
// For binary vector, return it directly.
// For bool data, first transfer to schemapb.BoolArray and then marshal it. (TODO: handle bool like other scalar data.)
// For variable-length data, such as string, first transfer to schemapb.StringArray and then marshal it.
// TODO: find a proper way to store variable-length data. Or we should unify to use protobuf?
func FieldDataToBytes(endian binary.ByteOrder, fieldData FieldData) ([]byte, error) {
switch field := fieldData.(type) {
case *BoolFieldData:
// return binaryWrite(endian, field.Data)
return boolFieldDataToPbBytes(field)
case *StringFieldData:
return stringFieldDataToPbBytes(field)
case *BinaryVectorFieldData:
return field.Data, nil
case *FloatVectorFieldData:
return binaryWrite(endian, field.Data)
case *Int8FieldData:
return binaryWrite(endian, field.Data)
case *Int16FieldData:
return binaryWrite(endian, field.Data)
case *Int32FieldData:
return binaryWrite(endian, field.Data)
case *Int64FieldData:
return binaryWrite(endian, field.Data)
case *FloatFieldData:
return binaryWrite(endian, field.Data)
case *DoubleFieldData:
return binaryWrite(endian, field.Data)
default:
return nil, fmt.Errorf("unsupported field data: %s", field)
}
}
func TransferInsertDataToInsertRecord(insertData *InsertData) (*segcorepb.InsertRecord, error) {
insertRecord := &segcorepb.InsertRecord{}
for fieldID, rawData := range insertData.Data {
var fieldData *schemapb.FieldData
switch rawData := rawData.(type) {
case *BoolFieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Bool,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_BoolData{
BoolData: &schemapb.BoolArray{
Data: rawData.Data,
},
},
},
},
}
case *Int8FieldData:
int32Data := make([]int32, len(rawData.Data))
for index, v := range rawData.Data {
int32Data[index] = int32(v)
}
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Int8,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: int32Data,
},
},
},
},
}
case *Int16FieldData:
int32Data := make([]int32, len(rawData.Data))
for index, v := range rawData.Data {
int32Data[index] = int32(v)
}
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Int16,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: int32Data,
},
},
},
},
}
case *Int32FieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Int32,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_IntData{
IntData: &schemapb.IntArray{
Data: rawData.Data,
},
},
},
},
}
case *Int64FieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Int64,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_LongData{
LongData: &schemapb.LongArray{
Data: rawData.Data,
},
},
},
},
}
case *FloatFieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Float,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_FloatData{
FloatData: &schemapb.FloatArray{
Data: rawData.Data,
},
},
},
},
}
case *DoubleFieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_Double,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_DoubleData{
DoubleData: &schemapb.DoubleArray{
Data: rawData.Data,
},
},
},
},
}
case *StringFieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_VarChar,
FieldId: fieldID,
Field: &schemapb.FieldData_Scalars{
Scalars: &schemapb.ScalarField{
Data: &schemapb.ScalarField_StringData{
StringData: &schemapb.StringArray{
Data: rawData.Data,
},
},
},
},
}
case *FloatVectorFieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_FloatVector,
FieldId: fieldID,
Field: &schemapb.FieldData_Vectors{
Vectors: &schemapb.VectorField{
Data: &schemapb.VectorField_FloatVector{
FloatVector: &schemapb.FloatArray{
Data: rawData.Data,
},
},
Dim: int64(rawData.Dim),
},
},
}
case *BinaryVectorFieldData:
fieldData = &schemapb.FieldData{
Type: schemapb.DataType_BinaryVector,
FieldId: fieldID,
Field: &schemapb.FieldData_Vectors{
Vectors: &schemapb.VectorField{
Data: &schemapb.VectorField_BinaryVector{
BinaryVector: rawData.Data,
},
Dim: int64(rawData.Dim),
},
},
}
default:
return insertRecord, fmt.Errorf("unsupported data type when transter storage.InsertData to internalpb.InsertRecord")
}
insertRecord.FieldsData = append(insertRecord.FieldsData, fieldData)
insertRecord.NumRows = int64(rawData.RowNum())
}
return insertRecord, nil
}
func TransferInsertMsgToInsertRecord(schema *schemapb.CollectionSchema, msg *msgstream.InsertMsg) (*segcorepb.InsertRecord, error) {
if msg.IsRowBased() {
insertData, err := RowBasedInsertMsgToInsertData(msg, schema)
if err != nil {
return nil, err
}
return TransferInsertDataToInsertRecord(insertData)
}
// column base insert msg
insertRecord := &segcorepb.InsertRecord{
NumRows: int64(msg.NumRows),
}
insertRecord.FieldsData = append(insertRecord.FieldsData, msg.FieldsData...)
return insertRecord, nil
}