milvus/internal/querynode/segment.go
XuanYang-cn b1ec235644
[skip ci]Update license for qn segment (#13193)
Signed-off-by: yangxuan <xuan.yang@zilliz.com>
2021-12-10 20:59:42 +08:00

905 lines
24 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 querynode
/*
#cgo CFLAGS: -I${SRCDIR}/../core/output/include
#cgo LDFLAGS: -L${SRCDIR}/../core/output/lib -lmilvus_segcore -Wl,-rpath=${SRCDIR}/../core/output/lib
#include "segcore/collection_c.h"
#include "segcore/plan_c.h"
#include "segcore/reduce_c.h"
*/
import "C"
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"strconv"
"sync"
"unsafe"
"github.com/bits-and-blooms/bloom/v3"
"github.com/golang/protobuf/proto"
"github.com/stretchr/testify/assert"
"go.uber.org/zap"
"github.com/milvus-io/milvus/internal/common"
"github.com/milvus-io/milvus/internal/log"
"github.com/milvus-io/milvus/internal/proto/commonpb"
"github.com/milvus-io/milvus/internal/proto/datapb"
"github.com/milvus-io/milvus/internal/proto/schemapb"
"github.com/milvus-io/milvus/internal/proto/segcorepb"
"github.com/milvus-io/milvus/internal/storage"
"github.com/milvus-io/milvus/internal/util/typeutil"
)
type segmentType int32
const (
segmentTypeInvalid segmentType = iota
segmentTypeGrowing
segmentTypeSealed
segmentTypeIndexing
)
const (
bloomFilterSize uint = 100000
maxBloomFalsePositive float64 = 0.005
)
// VectorFieldInfo contains binlog info of vector field
type VectorFieldInfo struct {
fieldBinlog *datapb.FieldBinlog
}
func newVectorFieldInfo(fieldBinlog *datapb.FieldBinlog) *VectorFieldInfo {
return &VectorFieldInfo{
fieldBinlog: fieldBinlog,
}
}
// Segment is a wrapper of the underlying C-structure segment.
type Segment struct {
segPtrMu sync.RWMutex // guards segmentPtr
segmentPtr C.CSegmentInterface
segmentID UniqueID
partitionID UniqueID
collectionID UniqueID
onService bool
vChannelID Channel
lastMemSize int64
lastRowCount int64
once sync.Once // guards enableIndex
enableIndex bool
rmMutex sync.Mutex // guards recentlyModified
recentlyModified bool
typeMu sync.Mutex // guards builtIndex
segmentType segmentType
paramMutex sync.RWMutex // guards index
indexInfos map[FieldID]*indexInfo
idBinlogRowSizes []int64
vectorFieldMutex sync.RWMutex // guards vectorFieldInfos
vectorFieldInfos map[UniqueID]*VectorFieldInfo
pkFilter *bloom.BloomFilter // bloom filter of pk inside a segment
}
// ID returns the identity number.
func (s *Segment) ID() UniqueID {
return s.segmentID
}
func (s *Segment) setEnableIndex(enable bool) {
setOnce := func() {
s.enableIndex = enable
}
s.once.Do(setOnce)
}
func (s *Segment) getEnableIndex() bool {
return s.enableIndex
}
func (s *Segment) setIDBinlogRowSizes(sizes []int64) {
s.idBinlogRowSizes = sizes
}
func (s *Segment) getIDBinlogRowSizes() []int64 {
return s.idBinlogRowSizes
}
func (s *Segment) setRecentlyModified(modify bool) {
s.rmMutex.Lock()
defer s.rmMutex.Unlock()
s.recentlyModified = modify
}
func (s *Segment) getRecentlyModified() bool {
s.rmMutex.Lock()
defer s.rmMutex.Unlock()
return s.recentlyModified
}
func (s *Segment) setType(segType segmentType) {
s.typeMu.Lock()
defer s.typeMu.Unlock()
s.segmentType = segType
}
func (s *Segment) getType() segmentType {
s.typeMu.Lock()
defer s.typeMu.Unlock()
return s.segmentType
}
func (s *Segment) getOnService() bool {
return s.onService
}
func (s *Segment) setOnService(onService bool) {
s.onService = onService
}
func (s *Segment) setVectorFieldInfo(fieldID UniqueID, info *VectorFieldInfo) {
s.vectorFieldMutex.Lock()
defer s.vectorFieldMutex.Unlock()
s.vectorFieldInfos[fieldID] = info
}
func (s *Segment) getVectorFieldInfo(fieldID UniqueID) (*VectorFieldInfo, error) {
s.vectorFieldMutex.Lock()
defer s.vectorFieldMutex.Unlock()
if info, ok := s.vectorFieldInfos[fieldID]; ok {
return info, nil
}
return nil, errors.New("Invalid fieldID " + strconv.Itoa(int(fieldID)))
}
func newSegment(collection *Collection, segmentID UniqueID, partitionID UniqueID, collectionID UniqueID, vChannelID Channel, segType segmentType, onService bool) *Segment {
/*
CSegmentInterface
NewSegment(CCollection collection, uint64_t segment_id, SegmentType seg_type);
*/
var segmentPtr C.CSegmentInterface
switch segType {
case segmentTypeInvalid:
log.Warn("illegal segment type when create segment")
return nil
case segmentTypeSealed:
segmentPtr = C.NewSegment(collection.collectionPtr, C.Sealed)
case segmentTypeGrowing:
segmentPtr = C.NewSegment(collection.collectionPtr, C.Growing)
default:
log.Warn("illegal segment type when create segment")
return nil
}
log.Debug("create segment", zap.Int64("segmentID", segmentID), zap.Int32("segmentType", int32(segType)))
var segment = &Segment{
segmentPtr: segmentPtr,
segmentType: segType,
segmentID: segmentID,
partitionID: partitionID,
collectionID: collectionID,
vChannelID: vChannelID,
onService: onService,
indexInfos: make(map[int64]*indexInfo),
vectorFieldInfos: make(map[UniqueID]*VectorFieldInfo),
pkFilter: bloom.NewWithEstimates(bloomFilterSize, maxBloomFalsePositive),
}
return segment
}
func deleteSegment(segment *Segment) {
/*
void
deleteSegment(CSegmentInterface segment);
*/
if segment.segmentPtr == nil {
return
}
segment.segPtrMu.Lock()
defer segment.segPtrMu.Unlock()
cPtr := segment.segmentPtr
C.DeleteSegment(cPtr)
segment.segmentPtr = nil
log.Debug("delete segment from memory", zap.Int64("collectionID", segment.collectionID), zap.Int64("partitionID", segment.partitionID), zap.Int64("segmentID", segment.ID()))
segment = nil
}
func (s *Segment) getRowCount() int64 {
/*
long int
getRowCount(CSegmentInterface c_segment);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock()
if s.segmentPtr == nil {
return -1
}
var rowCount = C.GetRowCount(s.segmentPtr)
return int64(rowCount)
}
func (s *Segment) getDeletedCount() int64 {
/*
long int
getDeletedCount(CSegmentInterface c_segment);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock()
if s.segmentPtr == nil {
return -1
}
var deletedCount = C.GetDeletedCount(s.segmentPtr)
return int64(deletedCount)
}
func (s *Segment) getMemSize() int64 {
/*
long int
GetMemoryUsageInBytes(CSegmentInterface c_segment);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock()
if s.segmentPtr == nil {
return -1
}
var memoryUsageInBytes = C.GetMemoryUsageInBytes(s.segmentPtr)
return int64(memoryUsageInBytes)
}
func (s *Segment) search(plan *SearchPlan,
searchRequests []*searchRequest,
timestamp []Timestamp) (*SearchResult, error) {
/*
CStatus
Search(void* plan,
void* placeholder_groups,
uint64_t* timestamps,
int num_groups,
long int* result_ids,
float* result_distances);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock()
if s.segmentPtr == nil {
return nil, errors.New("null seg core pointer")
}
cPlaceholderGroups := make([]C.CPlaceholderGroup, 0)
for _, pg := range searchRequests {
cPlaceholderGroups = append(cPlaceholderGroups, (*pg).cPlaceholderGroup)
}
var searchResult SearchResult
ts := C.uint64_t(timestamp[0])
cPlaceHolderGroup := cPlaceholderGroups[0]
log.Debug("do search on segment", zap.Int64("segmentID", s.segmentID), zap.Int32("segmentType", int32(s.segmentType)))
status := C.Search(s.segmentPtr, plan.cSearchPlan, cPlaceHolderGroup, ts, &searchResult.cSearchResult)
if err := HandleCStatus(&status, "Search failed"); err != nil {
return nil, err
}
return &searchResult, nil
}
// HandleCProto deal with the result proto returned from CGO
func HandleCProto(cRes *C.CProto, msg proto.Message) error {
// Standalone CProto is protobuf created by C side,
// Passed from c side
// memory is managed manually
blob := C.GoBytes(unsafe.Pointer(cRes.proto_blob), C.int32_t(cRes.proto_size))
defer C.free(cRes.proto_blob)
return proto.Unmarshal(blob, msg)
}
func (s *Segment) retrieve(plan *RetrievePlan) (*segcorepb.RetrieveResults, error) {
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock()
if s.segmentPtr == nil {
return nil, errors.New("null seg core pointer")
}
var retrieveResult RetrieveResult
ts := C.uint64_t(plan.Timestamp)
status := C.Retrieve(s.segmentPtr, plan.cRetrievePlan, ts, &retrieveResult.cRetrieveResult)
if err := HandleCStatus(&status, "Retrieve failed"); err != nil {
return nil, err
}
result := new(segcorepb.RetrieveResults)
if err := HandleCProto(&retrieveResult.cRetrieveResult, result); err != nil {
return nil, err
}
return result, nil
}
func (s *Segment) fillVectorFieldsData(collectionID UniqueID,
vcm storage.ChunkManager, result *segcorepb.RetrieveResults) error {
for _, fieldData := range result.FieldsData {
if !typeutil.IsVectorType(fieldData.Type) {
continue
}
vecFieldInfo, err := s.getVectorFieldInfo(fieldData.FieldId)
if err != nil {
continue
}
// If the vector field doesn't have index. Vector data is in memory for
// brute force search. No need to download data from remote.
if _, ok := s.indexInfos[fieldData.FieldId]; !ok {
continue
}
dim := fieldData.GetVectors().GetDim()
log.Debug("FillVectorFieldData", zap.Int64("fieldId", fieldData.FieldId),
zap.Any("datatype", fieldData.Type), zap.Int64("dim", dim))
for i, offset := range result.Offset {
var vecPath string
for index, idBinlogRowSize := range s.idBinlogRowSizes {
if offset < idBinlogRowSize {
vecPath = vecFieldInfo.fieldBinlog.Binlogs[index]
break
} else {
offset -= idBinlogRowSize
}
}
log.Debug("FillVectorFieldData", zap.String("path", vecPath))
switch fieldData.Type {
case schemapb.DataType_BinaryVector:
rowBytes := dim / 8
x := fieldData.GetVectors().GetData().(*schemapb.VectorField_BinaryVector)
content := make([]byte, rowBytes)
if _, err = vcm.ReadAt(vecPath, content, offset*rowBytes); err != nil {
return err
}
resultLen := dim / 8
copy(x.BinaryVector[i*int(resultLen):(i+1)*int(resultLen)], content)
case schemapb.DataType_FloatVector:
x := fieldData.GetVectors().GetData().(*schemapb.VectorField_FloatVector)
rowBytes := dim * 4
content := make([]byte, rowBytes)
if _, err = vcm.ReadAt(vecPath, content, offset*rowBytes); err != nil {
return err
}
floatResult := make([]float32, dim)
buf := bytes.NewReader(content)
if err = binary.Read(buf, common.Endian, &floatResult); err != nil {
return err
}
resultLen := dim
copy(x.FloatVector.Data[i*int(resultLen):(i+1)*int(resultLen)], floatResult)
}
}
}
return nil
}
//-------------------------------------------------------------------------------------- index info interface
func (s *Segment) setIndexName(fieldID int64, name string) error {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return errors.New("index info hasn't been init")
}
s.indexInfos[fieldID].setIndexName(name)
return nil
}
func (s *Segment) setIndexParam(fieldID int64, indexParams map[string]string) error {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
if indexParams == nil {
return errors.New("empty loadIndexMsg's indexParam")
}
if _, ok := s.indexInfos[fieldID]; !ok {
return errors.New("index info hasn't been init")
}
s.indexInfos[fieldID].setIndexParams(indexParams)
return nil
}
func (s *Segment) setIndexPaths(fieldID int64, indexPaths []string) error {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return errors.New("index info hasn't been init")
}
s.indexInfos[fieldID].setIndexPaths(indexPaths)
return nil
}
func (s *Segment) setIndexID(fieldID int64, id UniqueID) error {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return errors.New("index info hasn't been init")
}
s.indexInfos[fieldID].setIndexID(id)
return nil
}
func (s *Segment) setBuildID(fieldID int64, id UniqueID) error {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return errors.New("index info hasn't been init")
}
s.indexInfos[fieldID].setBuildID(id)
return nil
}
func (s *Segment) getIndexName(fieldID int64) string {
s.paramMutex.RLock()
defer s.paramMutex.RUnlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return ""
}
return s.indexInfos[fieldID].getIndexName()
}
func (s *Segment) getIndexID(fieldID int64) UniqueID {
s.paramMutex.RLock()
defer s.paramMutex.RUnlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return -1
}
return s.indexInfos[fieldID].getIndexID()
}
func (s *Segment) getBuildID(fieldID int64) UniqueID {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return -1
}
return s.indexInfos[fieldID].getBuildID()
}
func (s *Segment) getIndexPaths(fieldID int64) []string {
s.paramMutex.RLock()
defer s.paramMutex.RUnlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return nil
}
return s.indexInfos[fieldID].getIndexPaths()
}
func (s *Segment) getIndexParams(fieldID int64) map[string]string {
s.paramMutex.RLock()
defer s.paramMutex.RUnlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return nil
}
return s.indexInfos[fieldID].getIndexParams()
}
func (s *Segment) matchIndexParam(fieldID int64, indexParams indexParam) bool {
s.paramMutex.RLock()
defer s.paramMutex.RUnlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return false
}
fieldIndexParam := s.indexInfos[fieldID].getIndexParams()
if fieldIndexParam == nil {
return false
}
paramSize := len(s.indexInfos[fieldID].indexParams)
matchCount := 0
for k, v := range indexParams {
value, ok := fieldIndexParam[k]
if !ok {
return false
}
if v != value {
return false
}
matchCount++
}
return paramSize == matchCount
}
func (s *Segment) setIndexInfo(fieldID int64, info *indexInfo) {
s.paramMutex.Lock()
defer s.paramMutex.Unlock()
s.indexInfos[fieldID] = info
}
func (s *Segment) checkIndexReady(fieldID int64) bool {
s.paramMutex.RLock()
defer s.paramMutex.RUnlock()
if _, ok := s.indexInfos[fieldID]; !ok {
return false
}
return s.indexInfos[fieldID].getReadyLoad()
}
func (s *Segment) updateBloomFilter(pks []int64) {
buf := make([]byte, 8)
for _, pk := range pks {
common.Endian.PutUint64(buf, uint64(pk))
s.pkFilter.Add(buf)
}
}
//-------------------------------------------------------------------------------------- interfaces for growing segment
func (s *Segment) segmentPreInsert(numOfRecords int) (int64, error) {
/*
long int
PreInsert(CSegmentInterface c_segment, long int size);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentType != segmentTypeGrowing {
return 0, nil
}
var offset int64
cOffset := (*C.long)(&offset)
status := C.PreInsert(s.segmentPtr, C.long(int64(numOfRecords)), cOffset)
if err := HandleCStatus(&status, "PreInsert failed"); err != nil {
return 0, err
}
return offset, nil
}
func (s *Segment) segmentPreDelete(numOfRecords int) int64 {
/*
long int
PreDelete(CSegmentInterface c_segment, long int size);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
var offset = C.PreDelete(s.segmentPtr, C.long(int64(numOfRecords)))
return int64(offset)
}
// TODO: remove reference of slice
func (s *Segment) segmentInsert(offset int64, entityIDs *[]UniqueID, timestamps *[]Timestamp, records *[]*commonpb.Blob) error {
/*
CStatus
Insert(CSegmentInterface c_segment,
long int reserved_offset,
signed long int size,
const long* primary_keys,
const unsigned long* timestamps,
void* raw_data,
int sizeof_per_row,
signed long int count);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentType != segmentTypeGrowing {
return nil
}
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
// Blobs to one big blob
var numOfRow = len(*entityIDs)
var sizeofPerRow = len((*records)[0].Value)
assert.Equal(nil, numOfRow, len(*records))
if numOfRow != len(*records) {
return errors.New("entityIDs row num not equal to length of records")
}
var rawData = make([]byte, numOfRow*sizeofPerRow)
var copyOffset = 0
for i := 0; i < len(*records); i++ {
copy(rawData[copyOffset:], (*records)[i].Value)
copyOffset += sizeofPerRow
}
var cOffset = C.long(offset)
var cNumOfRows = C.long(numOfRow)
var cEntityIdsPtr = (*C.long)(&(*entityIDs)[0])
var cTimestampsPtr = (*C.ulong)(&(*timestamps)[0])
var cSizeofPerRow = C.int(sizeofPerRow)
var cRawDataVoidPtr = unsafe.Pointer(&rawData[0])
log.Debug("QueryNode::Segment::InsertBegin", zap.Any("cNumOfRows", cNumOfRows))
status := C.Insert(s.segmentPtr,
cOffset,
cNumOfRows,
cEntityIdsPtr,
cTimestampsPtr,
cRawDataVoidPtr,
cSizeofPerRow,
cNumOfRows)
if err := HandleCStatus(&status, "Insert failed"); err != nil {
return err
}
s.setRecentlyModified(true)
return nil
}
func (s *Segment) segmentDelete(offset int64, entityIDs *[]UniqueID, timestamps *[]Timestamp) error {
/*
CStatus
Delete(CSegmentInterface c_segment,
long int reserved_offset,
long size,
const long* primary_keys,
const unsigned long* timestamps);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
if len(*entityIDs) != len(*timestamps) {
return errors.New("length of entityIDs not equal to length of timestamps")
}
var cOffset = C.long(offset)
var cSize = C.long(len(*entityIDs))
var cEntityIdsPtr = (*C.long)(&(*entityIDs)[0])
var cTimestampsPtr = (*C.ulong)(&(*timestamps)[0])
status := C.Delete(s.segmentPtr, cOffset, cSize, cEntityIdsPtr, cTimestampsPtr)
if err := HandleCStatus(&status, "Delete failed"); err != nil {
return err
}
return nil
}
//-------------------------------------------------------------------------------------- interfaces for sealed segment
func (s *Segment) segmentLoadFieldData(fieldID int64, rowCount int, data interface{}) error {
/*
CStatus
LoadFieldData(CSegmentInterface c_segment, CLoadFieldDataInfo load_field_data_info);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
if s.segmentType != segmentTypeSealed {
errMsg := fmt.Sprintln("segmentLoadFieldData failed, illegal segment type ", s.segmentType, "segmentID = ", s.ID())
return errors.New(errMsg)
}
// data interface check
var dataPointer unsafe.Pointer
emptyErr := errors.New("null field data to be loaded")
switch d := data.(type) {
case []bool:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []byte:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []int8:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []int16:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []int32:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []int64:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []float32:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []float64:
if len(d) <= 0 {
return emptyErr
}
dataPointer = unsafe.Pointer(&d[0])
case []string:
// TODO: support string type
return errors.New("we cannot support string type now")
default:
return errors.New("illegal field data type")
}
/*
typedef struct CLoadFieldDataInfo {
int64_t field_id;
void* blob;
int64_t row_count;
} CLoadFieldDataInfo;
*/
loadInfo := C.CLoadFieldDataInfo{
field_id: C.int64_t(fieldID),
blob: dataPointer,
row_count: C.int64_t(rowCount),
}
status := C.LoadFieldData(s.segmentPtr, loadInfo)
if err := HandleCStatus(&status, "LoadFieldData failed"); err != nil {
return err
}
log.Debug("load field done",
zap.Int64("fieldID", fieldID),
zap.Int("row count", rowCount),
zap.Int64("segmentID", s.ID()))
return nil
}
func (s *Segment) segmentLoadDeletedRecord(primaryKeys []IntPrimaryKey, timestamps []Timestamp, rowCount int64) error {
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
if s.segmentType != segmentTypeSealed {
errMsg := fmt.Sprintln("segmentLoadFieldData failed, illegal segment type ", s.segmentType, "segmentID = ", s.ID())
return errors.New(errMsg)
}
loadInfo := C.CLoadDeletedRecordInfo{
timestamps: unsafe.Pointer(&timestamps[0]),
primary_keys: unsafe.Pointer(&primaryKeys[0]),
row_count: C.int64_t(rowCount),
}
/*
CStatus
LoadDeletedRecord(CSegmentInterface c_segment, CLoadDeletedRecordInfo deleted_record_info)
*/
status := C.LoadDeletedRecord(s.segmentPtr, loadInfo)
if err := HandleCStatus(&status, "LoadDeletedRecord failed"); err != nil {
return err
}
log.Debug("load deleted record done",
zap.Int64("row count", rowCount),
zap.Int64("segmentID", s.ID()))
return nil
}
func (s *Segment) dropFieldData(fieldID int64) error {
/*
CStatus
DropFieldData(CSegmentInterface c_segment, int64_t field_id);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
if s.segmentType != segmentTypeIndexing {
errMsg := fmt.Sprintln("dropFieldData failed, illegal segment type ", s.segmentType, "segmentID = ", s.ID())
return errors.New(errMsg)
}
status := C.DropFieldData(s.segmentPtr, C.long(fieldID))
if err := HandleCStatus(&status, "DropFieldData failed"); err != nil {
return err
}
log.Debug("dropFieldData done", zap.Int64("fieldID", fieldID), zap.Int64("segmentID", s.ID()))
return nil
}
func (s *Segment) updateSegmentIndex(bytesIndex [][]byte, fieldID UniqueID) error {
loadIndexInfo, err := newLoadIndexInfo()
defer deleteLoadIndexInfo(loadIndexInfo)
if err != nil {
return err
}
err = loadIndexInfo.appendFieldInfo(fieldID)
if err != nil {
return err
}
indexParams := s.getIndexParams(fieldID)
for k, v := range indexParams {
err = loadIndexInfo.appendIndexParam(k, v)
if err != nil {
return err
}
}
indexPaths := s.getIndexPaths(fieldID)
err = loadIndexInfo.appendIndex(bytesIndex, indexPaths)
if err != nil {
return err
}
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
if s.segmentType != segmentTypeSealed {
errMsg := fmt.Sprintln("updateSegmentIndex failed, illegal segment type ", s.segmentType, "segmentID = ", s.ID())
return errors.New(errMsg)
}
status := C.UpdateSealedSegmentIndex(s.segmentPtr, loadIndexInfo.cLoadIndexInfo)
if err := HandleCStatus(&status, "UpdateSealedSegmentIndex failed"); err != nil {
return err
}
s.setType(segmentTypeIndexing)
log.Debug("updateSegmentIndex done", zap.Int64("segmentID", s.ID()))
return nil
}
func (s *Segment) dropSegmentIndex(fieldID int64) error {
/*
CStatus
DropSealedSegmentIndex(CSegmentInterface c_segment, int64_t field_id);
*/
s.segPtrMu.RLock()
defer s.segPtrMu.RUnlock() // thread safe guaranteed by segCore, use RLock
if s.segmentPtr == nil {
return errors.New("null seg core pointer")
}
if s.segmentType != segmentTypeIndexing {
errMsg := fmt.Sprintln("dropFieldData failed, illegal segment type ", s.segmentType, "segmentID = ", s.ID())
return errors.New(errMsg)
}
status := C.DropSealedSegmentIndex(s.segmentPtr, C.long(fieldID))
if err := HandleCStatus(&status, "DropSealedSegmentIndex failed"); err != nil {
return err
}
log.Debug("dropSegmentIndex done", zap.Int64("fieldID", fieldID), zap.Int64("segmentID", s.ID()))
return nil
}