// 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 datacoord contains core functions in datacoord package datacoord import ( "context" "fmt" "strconv" "sync" "github.com/golang/protobuf/proto" "github.com/prometheus/client_golang/prometheus" "github.com/samber/lo" "go.uber.org/zap" "github.com/milvus-io/milvus-proto/go-api/v2/commonpb" "github.com/milvus-io/milvus/internal/metastore" "github.com/milvus-io/milvus/internal/metastore/model" "github.com/milvus-io/milvus/internal/proto/indexpb" "github.com/milvus-io/milvus/pkg/common" "github.com/milvus-io/milvus/pkg/log" "github.com/milvus-io/milvus/pkg/metrics" "github.com/milvus-io/milvus/pkg/util/timerecord" "github.com/milvus-io/milvus/pkg/util/typeutil" ) type indexMeta struct { sync.RWMutex ctx context.Context catalog metastore.DataCoordCatalog // collectionIndexes records which indexes are on the collection // collID -> indexID -> index indexes map[UniqueID]map[UniqueID]*model.Index // buildID2Meta records the meta information of the segment // buildID -> segmentIndex buildID2SegmentIndex map[UniqueID]*model.SegmentIndex // segmentID -> indexID -> segmentIndex segmentIndexes map[UniqueID]map[UniqueID]*model.SegmentIndex } // NewMeta creates meta from provided `kv.TxnKV` func newIndexMeta(ctx context.Context, catalog metastore.DataCoordCatalog) (*indexMeta, error) { mt := &indexMeta{ ctx: ctx, catalog: catalog, indexes: make(map[UniqueID]map[UniqueID]*model.Index), buildID2SegmentIndex: make(map[UniqueID]*model.SegmentIndex), segmentIndexes: make(map[UniqueID]map[UniqueID]*model.SegmentIndex), } err := mt.reloadFromKV() if err != nil { return nil, err } return mt, nil } // reloadFromKV loads meta from KV storage func (m *indexMeta) reloadFromKV() error { record := timerecord.NewTimeRecorder("indexMeta-reloadFromKV") // load field indexes fieldIndexes, err := m.catalog.ListIndexes(m.ctx) if err != nil { log.Error("indexMeta reloadFromKV load field indexes fail", zap.Error(err)) return err } for _, fieldIndex := range fieldIndexes { m.updateCollectionIndex(fieldIndex) } segmentIndexes, err := m.catalog.ListSegmentIndexes(m.ctx) if err != nil { log.Error("indexMeta reloadFromKV load segment indexes fail", zap.Error(err)) return err } for _, segIdx := range segmentIndexes { m.updateSegmentIndex(segIdx) metrics.FlushedSegmentFileNum.WithLabelValues(metrics.IndexFileLabel).Observe(float64(len(segIdx.IndexFileKeys))) } log.Info("indexMeta reloadFromKV done", zap.Duration("duration", record.ElapseSpan())) return nil } func (m *indexMeta) updateCollectionIndex(index *model.Index) { if _, ok := m.indexes[index.CollectionID]; !ok { m.indexes[index.CollectionID] = make(map[UniqueID]*model.Index) } m.indexes[index.CollectionID][index.IndexID] = index } func (m *indexMeta) updateSegmentIndex(segIdx *model.SegmentIndex) { indexes, ok := m.segmentIndexes[segIdx.SegmentID] if ok { indexes[segIdx.IndexID] = segIdx } else { m.segmentIndexes[segIdx.SegmentID] = make(map[UniqueID]*model.SegmentIndex) m.segmentIndexes[segIdx.SegmentID][segIdx.IndexID] = segIdx } m.buildID2SegmentIndex[segIdx.BuildID] = segIdx } func (m *indexMeta) alterSegmentIndexes(segIdxes []*model.SegmentIndex) error { err := m.catalog.AlterSegmentIndexes(m.ctx, segIdxes) if err != nil { log.Error("failed to alter segments index in meta store", zap.Int("segment indexes num", len(segIdxes)), zap.Error(err)) return err } for _, segIdx := range segIdxes { m.updateSegmentIndex(segIdx) } return nil } func (m *indexMeta) updateIndexMeta(index *model.Index, updateFunc func(clonedIndex *model.Index) error) error { return updateFunc(model.CloneIndex(index)) } func (m *indexMeta) updateSegIndexMeta(segIdx *model.SegmentIndex, updateFunc func(clonedSegIdx *model.SegmentIndex) error) error { return updateFunc(model.CloneSegmentIndex(segIdx)) } func (m *indexMeta) updateIndexTasksMetrics() { taskMetrics := make(map[UniqueID]map[commonpb.IndexState]int) for _, segIdx := range m.buildID2SegmentIndex { if segIdx.IsDeleted { continue } if _, ok := taskMetrics[segIdx.CollectionID]; !ok { taskMetrics[segIdx.CollectionID] = make(map[commonpb.IndexState]int) taskMetrics[segIdx.CollectionID][commonpb.IndexState_Unissued] = 0 taskMetrics[segIdx.CollectionID][commonpb.IndexState_InProgress] = 0 taskMetrics[segIdx.CollectionID][commonpb.IndexState_Finished] = 0 taskMetrics[segIdx.CollectionID][commonpb.IndexState_Failed] = 0 } taskMetrics[segIdx.CollectionID][segIdx.IndexState]++ } for collID, m := range taskMetrics { for k, v := range m { switch k { case commonpb.IndexState_Unissued: metrics.IndexTaskNum.WithLabelValues(strconv.FormatInt(collID, 10), metrics.UnissuedIndexTaskLabel).Set(float64(v)) case commonpb.IndexState_InProgress: metrics.IndexTaskNum.WithLabelValues(strconv.FormatInt(collID, 10), metrics.InProgressIndexTaskLabel).Set(float64(v)) case commonpb.IndexState_Finished: metrics.IndexTaskNum.WithLabelValues(strconv.FormatInt(collID, 10), metrics.FinishedIndexTaskLabel).Set(float64(v)) case commonpb.IndexState_Failed: metrics.IndexTaskNum.WithLabelValues(strconv.FormatInt(collID, 10), metrics.FailedIndexTaskLabel).Set(float64(v)) } } } } func checkParams(fieldIndex *model.Index, req *indexpb.CreateIndexRequest) bool { if len(fieldIndex.TypeParams) != len(req.TypeParams) { return false } notEq := false for _, param1 := range fieldIndex.TypeParams { exist := false for _, param2 := range req.TypeParams { if param2.Key == param1.Key && param2.Value == param1.Value { exist = true } } if !exist { notEq = true break } } if notEq { return false } userIndexParamsWithoutMmapKey := make([]*commonpb.KeyValuePair, 0) for _, param := range fieldIndex.UserIndexParams { if param.Key == common.MmapEnabledKey { continue } userIndexParamsWithoutMmapKey = append(userIndexParamsWithoutMmapKey, param) } if len(userIndexParamsWithoutMmapKey) != len(req.GetUserIndexParams()) { return false } for _, param1 := range userIndexParamsWithoutMmapKey { exist := false for _, param2 := range req.GetUserIndexParams() { if param2.Key == param1.Key && param2.Value == param1.Value { exist = true } } if !exist { notEq = true break } } return !notEq } func (m *indexMeta) CanCreateIndex(req *indexpb.CreateIndexRequest) (UniqueID, error) { m.RLock() defer m.RUnlock() indexes, ok := m.indexes[req.CollectionID] if !ok { return 0, nil } for _, index := range indexes { if index.IsDeleted { continue } if req.IndexName == index.IndexName { if req.FieldID == index.FieldID && checkParams(index, req) { return index.IndexID, nil } errMsg := "at most one distinct index is allowed per field" log.Warn(errMsg, zap.String("source index", fmt.Sprintf("{index_name: %s, field_id: %d, index_params: %v, type_params: %v}", index.IndexName, index.FieldID, index.IndexParams, index.TypeParams)), zap.String("current index", fmt.Sprintf("{index_name: %s, field_id: %d, index_params: %v, type_params: %v}", req.GetIndexName(), req.GetFieldID(), req.GetIndexParams(), req.GetTypeParams()))) return 0, fmt.Errorf("CreateIndex failed: %s", errMsg) } if req.FieldID == index.FieldID { // creating multiple indexes on same field is not supported errMsg := "CreateIndex failed: creating multiple indexes on same field is not supported" log.Warn(errMsg) return 0, fmt.Errorf(errMsg) } } return 0, nil } // HasSameReq determine whether there are same indexing tasks. func (m *indexMeta) HasSameReq(req *indexpb.CreateIndexRequest) (bool, UniqueID) { m.RLock() defer m.RUnlock() for _, fieldIndex := range m.indexes[req.CollectionID] { if fieldIndex.IsDeleted { continue } if fieldIndex.FieldID != req.FieldID || fieldIndex.IndexName != req.IndexName { continue } if !checkParams(fieldIndex, req) { continue } log.Debug("has same index", zap.Int64("collectionID", req.CollectionID), zap.Int64("fieldID", req.FieldID), zap.String("indexName", req.IndexName), zap.Int64("indexID", fieldIndex.IndexID)) return true, fieldIndex.IndexID } return false, 0 } func (m *indexMeta) CreateIndex(index *model.Index) error { log.Info("meta update: CreateIndex", zap.Int64("collectionID", index.CollectionID), zap.Int64("fieldID", index.FieldID), zap.Int64("indexID", index.IndexID), zap.String("indexName", index.IndexName)) m.Lock() defer m.Unlock() if err := m.catalog.CreateIndex(m.ctx, index); err != nil { log.Error("meta update: CreateIndex save meta fail", zap.Int64("collectionID", index.CollectionID), zap.Int64("fieldID", index.FieldID), zap.Int64("indexID", index.IndexID), zap.String("indexName", index.IndexName), zap.Error(err)) return err } m.updateCollectionIndex(index) log.Info("meta update: CreateIndex success", zap.Int64("collectionID", index.CollectionID), zap.Int64("fieldID", index.FieldID), zap.Int64("indexID", index.IndexID), zap.String("indexName", index.IndexName)) return nil } func (m *indexMeta) AlterIndex(ctx context.Context, indexes ...*model.Index) error { m.Lock() defer m.Unlock() err := m.catalog.AlterIndexes(ctx, indexes) if err != nil { return err } for _, index := range indexes { m.updateCollectionIndex(index) } return nil } // AddSegmentIndex adds the index meta corresponding the indexBuildID to meta table. func (m *indexMeta) AddSegmentIndex(segIndex *model.SegmentIndex) error { m.Lock() defer m.Unlock() buildID := segIndex.BuildID log.Info("meta update: adding segment index", zap.Int64("collectionID", segIndex.CollectionID), zap.Int64("segmentID", segIndex.SegmentID), zap.Int64("indexID", segIndex.IndexID), zap.Int64("buildID", buildID)) segIndex.IndexState = commonpb.IndexState_Unissued if err := m.catalog.CreateSegmentIndex(m.ctx, segIndex); err != nil { log.Warn("meta update: adding segment index failed", zap.Int64("segmentID", segIndex.SegmentID), zap.Int64("indexID", segIndex.IndexID), zap.Int64("buildID", segIndex.BuildID), zap.Error(err)) return err } m.updateSegmentIndex(segIndex) log.Info("meta update: adding segment index success", zap.Int64("collectionID", segIndex.CollectionID), zap.Int64("segmentID", segIndex.SegmentID), zap.Int64("indexID", segIndex.IndexID), zap.Int64("buildID", buildID)) m.updateIndexTasksMetrics() return nil } func (m *indexMeta) GetIndexIDByName(collID int64, indexName string) map[int64]uint64 { m.RLock() defer m.RUnlock() indexID2CreateTs := make(map[int64]uint64) fieldIndexes, ok := m.indexes[collID] if !ok { return indexID2CreateTs } for _, index := range fieldIndexes { if !index.IsDeleted && (indexName == "" || index.IndexName == indexName) { indexID2CreateTs[index.IndexID] = index.CreateTime } } return indexID2CreateTs } func (m *indexMeta) GetSegmentIndexState(collID, segmentID UniqueID, indexID UniqueID) *indexpb.SegmentIndexState { m.RLock() defer m.RUnlock() state := &indexpb.SegmentIndexState{ SegmentID: segmentID, State: commonpb.IndexState_IndexStateNone, FailReason: "", } fieldIndexes, ok := m.indexes[collID] if !ok { state.FailReason = fmt.Sprintf("collection not exist with ID: %d", collID) return state } indexes, ok := m.segmentIndexes[segmentID] if !ok { state.State = commonpb.IndexState_Unissued state.FailReason = fmt.Sprintf("segment index not exist with ID: %d", segmentID) return state } if index, ok := fieldIndexes[indexID]; ok && !index.IsDeleted { if segIdx, ok := indexes[indexID]; ok { state.IndexName = index.IndexName state.State = segIdx.IndexState state.FailReason = segIdx.FailReason return state } state.State = commonpb.IndexState_Unissued return state } state.FailReason = fmt.Sprintf("there is no index on indexID: %d", indexID) return state } func (m *indexMeta) GetIndexedSegments(collectionID int64, segmentIDs, fieldIDs []UniqueID) []int64 { m.RLock() defer m.RUnlock() fieldIndexes, ok := m.indexes[collectionID] if !ok { return nil } fieldIDSet := typeutil.NewUniqueSet(fieldIDs...) checkSegmentState := func(indexes map[int64]*model.SegmentIndex) bool { indexedFields := 0 for indexID, index := range fieldIndexes { if !fieldIDSet.Contain(index.FieldID) || index.IsDeleted { continue } if segIdx, ok := indexes[indexID]; ok && segIdx.IndexState == commonpb.IndexState_Finished { indexedFields += 1 } } return indexedFields == fieldIDSet.Len() } ret := make([]int64, 0) for _, sid := range segmentIDs { if indexes, ok := m.segmentIndexes[sid]; ok { if checkSegmentState(indexes) { ret = append(ret, sid) } } } return ret } // GetIndexesForCollection gets all indexes info with the specified collection. func (m *indexMeta) GetIndexesForCollection(collID UniqueID, indexName string) []*model.Index { m.RLock() defer m.RUnlock() indexInfos := make([]*model.Index, 0) for _, index := range m.indexes[collID] { if index.IsDeleted { continue } if indexName == "" || indexName == index.IndexName { indexInfos = append(indexInfos, model.CloneIndex(index)) } } return indexInfos } func (m *indexMeta) GetFieldIndexes(collID, fieldID UniqueID, indexName string) []*model.Index { m.RLock() defer m.RUnlock() indexInfos := make([]*model.Index, 0) for _, index := range m.indexes[collID] { if index.IsDeleted || index.FieldID != fieldID { continue } if indexName == "" || indexName == index.IndexName { indexInfos = append(indexInfos, model.CloneIndex(index)) } } return indexInfos } // MarkIndexAsDeleted will mark the corresponding index as deleted, and recycleUnusedIndexFiles will recycle these tasks. func (m *indexMeta) MarkIndexAsDeleted(collID UniqueID, indexIDs []UniqueID) error { log.Info("IndexCoord metaTable MarkIndexAsDeleted", zap.Int64("collectionID", collID), zap.Int64s("indexIDs", indexIDs)) m.Lock() defer m.Unlock() fieldIndexes, ok := m.indexes[collID] if !ok { return nil } indexes := make([]*model.Index, 0) for _, indexID := range indexIDs { index, ok := fieldIndexes[indexID] if !ok || index.IsDeleted { continue } clonedIndex := model.CloneIndex(index) clonedIndex.IsDeleted = true indexes = append(indexes, clonedIndex) } if len(indexes) == 0 { return nil } err := m.catalog.AlterIndexes(m.ctx, indexes) if err != nil { log.Error("failed to alter index meta in meta store", zap.Int("indexes num", len(indexes)), zap.Error(err)) return err } for _, index := range indexes { m.indexes[index.CollectionID][index.IndexID] = index } log.Info("IndexCoord metaTable MarkIndexAsDeleted success", zap.Int64("collectionID", collID), zap.Int64s("indexIDs", indexIDs)) return nil } func (m *indexMeta) IsUnIndexedSegment(collectionID UniqueID, segID UniqueID) bool { m.RLock() defer m.RUnlock() fieldIndexes, ok := m.indexes[collectionID] if !ok { return false } // the segment should be unindexed status if the fieldIndexes is not nil segIndexInfos, ok := m.segmentIndexes[segID] if !ok || len(segIndexInfos) == 0 { return true } for _, index := range fieldIndexes { if _, ok := segIndexInfos[index.IndexID]; !index.IsDeleted { if !ok { // the segment should be unindexed status if the segment index is not found within field indexes return true } } } return false } func (m *indexMeta) getSegmentIndexes(segID UniqueID) map[UniqueID]*model.SegmentIndex { m.RLock() defer m.RUnlock() ret := make(map[UniqueID]*model.SegmentIndex, 0) segIndexInfos, ok := m.segmentIndexes[segID] if !ok || len(segIndexInfos) == 0 { return ret } for _, segIdx := range segIndexInfos { ret[segIdx.IndexID] = model.CloneSegmentIndex(segIdx) } return ret } func (m *indexMeta) GetSegmentIndexes(collectionID UniqueID, segID UniqueID) map[UniqueID]*model.SegmentIndex { m.RLock() defer m.RUnlock() ret := make(map[UniqueID]*model.SegmentIndex, 0) segIndexInfos, ok := m.segmentIndexes[segID] if !ok || len(segIndexInfos) == 0 { return ret } fieldIndexes, ok := m.indexes[collectionID] if !ok { return ret } for _, segIdx := range segIndexInfos { if index, ok := fieldIndexes[segIdx.IndexID]; ok && !index.IsDeleted { ret[segIdx.IndexID] = model.CloneSegmentIndex(segIdx) } } return ret } func (m *indexMeta) GetFieldIDByIndexID(collID, indexID UniqueID) UniqueID { m.RLock() defer m.RUnlock() if fieldIndexes, ok := m.indexes[collID]; ok { if index, ok := fieldIndexes[indexID]; ok { return index.FieldID } } return 0 } func (m *indexMeta) GetIndexNameByID(collID, indexID UniqueID) string { m.RLock() defer m.RUnlock() if fieldIndexes, ok := m.indexes[collID]; ok { if index, ok := fieldIndexes[indexID]; ok { return index.IndexName } } return "" } func (m *indexMeta) GetIndexParams(collID, indexID UniqueID) []*commonpb.KeyValuePair { m.RLock() defer m.RUnlock() fieldIndexes, ok := m.indexes[collID] if !ok { return nil } index, ok := fieldIndexes[indexID] if !ok { return nil } indexParams := make([]*commonpb.KeyValuePair, 0, len(index.IndexParams)) for _, param := range index.IndexParams { indexParams = append(indexParams, proto.Clone(param).(*commonpb.KeyValuePair)) } return indexParams } func (m *indexMeta) GetTypeParams(collID, indexID UniqueID) []*commonpb.KeyValuePair { m.RLock() defer m.RUnlock() fieldIndexes, ok := m.indexes[collID] if !ok { return nil } index, ok := fieldIndexes[indexID] if !ok { return nil } typeParams := make([]*commonpb.KeyValuePair, 0, len(index.TypeParams)) for _, param := range index.TypeParams { typeParams = append(typeParams, proto.Clone(param).(*commonpb.KeyValuePair)) } return typeParams } func (m *indexMeta) GetIndexJob(buildID UniqueID) (*model.SegmentIndex, bool) { m.RLock() defer m.RUnlock() segIdx, ok := m.buildID2SegmentIndex[buildID] if ok { return model.CloneSegmentIndex(segIdx), true } return nil, false } func (m *indexMeta) IsIndexExist(collID, indexID UniqueID) bool { m.RLock() defer m.RUnlock() fieldIndexes, ok := m.indexes[collID] if !ok { return false } if index, ok := fieldIndexes[indexID]; !ok || index.IsDeleted { return false } return true } // UpdateVersion updates the version and nodeID of the index meta, whenever the task is built once, the version will be updated once. func (m *indexMeta) UpdateVersion(buildID UniqueID) error { m.Lock() defer m.Unlock() log.Debug("IndexCoord metaTable UpdateVersion receive", zap.Int64("buildID", buildID)) segIdx, ok := m.buildID2SegmentIndex[buildID] if !ok { return fmt.Errorf("there is no index with buildID: %d", buildID) } updateFunc := func(segIdx *model.SegmentIndex) error { segIdx.IndexVersion++ return m.alterSegmentIndexes([]*model.SegmentIndex{segIdx}) } return m.updateSegIndexMeta(segIdx, updateFunc) } func (m *indexMeta) FinishTask(taskInfo *indexpb.IndexTaskInfo) error { m.Lock() defer m.Unlock() segIdx, ok := m.buildID2SegmentIndex[taskInfo.GetBuildID()] if !ok { log.Warn("there is no index with buildID", zap.Int64("buildID", taskInfo.GetBuildID())) return nil } updateFunc := func(segIdx *model.SegmentIndex) error { segIdx.IndexState = taskInfo.GetState() segIdx.IndexFileKeys = common.CloneStringList(taskInfo.GetIndexFileKeys()) segIdx.FailReason = taskInfo.GetFailReason() segIdx.IndexSize = taskInfo.GetSerializedSize() segIdx.CurrentIndexVersion = taskInfo.GetCurrentIndexVersion() return m.alterSegmentIndexes([]*model.SegmentIndex{segIdx}) } if err := m.updateSegIndexMeta(segIdx, updateFunc); err != nil { return err } log.Info("finish index task success", zap.Int64("buildID", taskInfo.GetBuildID()), zap.String("state", taskInfo.GetState().String()), zap.String("fail reason", taskInfo.GetFailReason()), zap.Int32("current_index_version", taskInfo.GetCurrentIndexVersion()), ) m.updateIndexTasksMetrics() metrics.FlushedSegmentFileNum.WithLabelValues(metrics.IndexFileLabel).Observe(float64(len(taskInfo.GetIndexFileKeys()))) return nil } func (m *indexMeta) DeleteTask(buildID int64) error { m.Lock() defer m.Unlock() segIdx, ok := m.buildID2SegmentIndex[buildID] if !ok { log.Warn("there is no index with buildID", zap.Int64("buildID", buildID)) return nil } updateFunc := func(segIdx *model.SegmentIndex) error { segIdx.IsDeleted = true return m.alterSegmentIndexes([]*model.SegmentIndex{segIdx}) } if err := m.updateSegIndexMeta(segIdx, updateFunc); err != nil { return err } log.Info("delete index task success", zap.Int64("buildID", buildID)) m.updateIndexTasksMetrics() return nil } // BuildIndex set the index state to be InProgress. It means IndexNode is building the index. func (m *indexMeta) BuildIndex(buildID, nodeID UniqueID) error { m.Lock() defer m.Unlock() segIdx, ok := m.buildID2SegmentIndex[buildID] if !ok { return fmt.Errorf("there is no index with buildID: %d", buildID) } updateFunc := func(segIdx *model.SegmentIndex) error { segIdx.NodeID = nodeID segIdx.IndexState = commonpb.IndexState_InProgress err := m.alterSegmentIndexes([]*model.SegmentIndex{segIdx}) if err != nil { log.Error("meta Update: segment index in progress fail", zap.Int64("buildID", segIdx.BuildID), zap.Error(err)) return err } return nil } if err := m.updateSegIndexMeta(segIdx, updateFunc); err != nil { return err } log.Info("meta update: segment index in progress success", zap.Int64("buildID", segIdx.BuildID), zap.Int64("segmentID", segIdx.SegmentID)) m.updateIndexTasksMetrics() return nil } func (m *indexMeta) GetAllSegIndexes() map[int64]*model.SegmentIndex { m.RLock() defer m.RUnlock() segIndexes := make(map[int64]*model.SegmentIndex, len(m.buildID2SegmentIndex)) for buildID, segIndex := range m.buildID2SegmentIndex { segIndexes[buildID] = model.CloneSegmentIndex(segIndex) } return segIndexes } func (m *indexMeta) RemoveSegmentIndex(collID, partID, segID, indexID, buildID UniqueID) error { m.Lock() defer m.Unlock() err := m.catalog.DropSegmentIndex(m.ctx, collID, partID, segID, buildID) if err != nil { return err } if _, ok := m.segmentIndexes[segID]; ok { delete(m.segmentIndexes[segID], indexID) } if len(m.segmentIndexes[segID]) == 0 { delete(m.segmentIndexes, segID) } delete(m.buildID2SegmentIndex, buildID) m.updateIndexTasksMetrics() return nil } func (m *indexMeta) GetDeletedIndexes() []*model.Index { m.RLock() defer m.RUnlock() deletedIndexes := make([]*model.Index, 0) for _, fieldIndexes := range m.indexes { for _, index := range fieldIndexes { if index.IsDeleted { deletedIndexes = append(deletedIndexes, index) } } } return deletedIndexes } func (m *indexMeta) RemoveIndex(collID, indexID UniqueID) error { m.Lock() defer m.Unlock() log.Info("IndexCoord meta table remove index", zap.Int64("collectionID", collID), zap.Int64("indexID", indexID)) err := m.catalog.DropIndex(m.ctx, collID, indexID) if err != nil { log.Info("IndexCoord meta table remove index fail", zap.Int64("collectionID", collID), zap.Int64("indexID", indexID), zap.Error(err)) return err } delete(m.indexes[collID], indexID) if len(m.indexes[collID]) == 0 { delete(m.indexes, collID) metrics.IndexTaskNum.Delete(prometheus.Labels{"collection_id": strconv.FormatInt(collID, 10), "index_task_status": metrics.UnissuedIndexTaskLabel}) metrics.IndexTaskNum.Delete(prometheus.Labels{"collection_id": strconv.FormatInt(collID, 10), "index_task_status": metrics.InProgressIndexTaskLabel}) metrics.IndexTaskNum.Delete(prometheus.Labels{"collection_id": strconv.FormatInt(collID, 10), "index_task_status": metrics.FinishedIndexTaskLabel}) metrics.IndexTaskNum.Delete(prometheus.Labels{"collection_id": strconv.FormatInt(collID, 10), "index_task_status": metrics.FailedIndexTaskLabel}) } log.Info("IndexCoord meta table remove index success", zap.Int64("collectionID", collID), zap.Int64("indexID", indexID)) return nil } func (m *indexMeta) CheckCleanSegmentIndex(buildID UniqueID) (bool, *model.SegmentIndex) { m.RLock() defer m.RUnlock() if segIndex, ok := m.buildID2SegmentIndex[buildID]; ok { if segIndex.IndexState == commonpb.IndexState_Finished { return true, model.CloneSegmentIndex(segIndex) } return false, model.CloneSegmentIndex(segIndex) } return true, nil } func (m *indexMeta) GetMetasByNodeID(nodeID UniqueID) []*model.SegmentIndex { m.RLock() defer m.RUnlock() metas := make([]*model.SegmentIndex, 0) for _, segIndex := range m.buildID2SegmentIndex { if segIndex.IsDeleted { continue } if nodeID == segIndex.NodeID { metas = append(metas, model.CloneSegmentIndex(segIndex)) } } return metas } func (m *indexMeta) getSegmentsIndexStates(collectionID UniqueID, segmentIDs []UniqueID) map[int64]map[int64]*indexpb.SegmentIndexState { m.RLock() defer m.RUnlock() ret := make(map[int64]map[int64]*indexpb.SegmentIndexState, 0) fieldIndexes, ok := m.indexes[collectionID] if !ok { return ret } for _, segID := range segmentIDs { ret[segID] = make(map[int64]*indexpb.SegmentIndexState) segIndexInfos, ok := m.segmentIndexes[segID] if !ok || len(segIndexInfos) == 0 { continue } for _, segIdx := range segIndexInfos { if index, ok := fieldIndexes[segIdx.IndexID]; ok && !index.IsDeleted { ret[segID][segIdx.IndexID] = &indexpb.SegmentIndexState{ SegmentID: segID, State: segIdx.IndexState, FailReason: segIdx.FailReason, IndexName: index.IndexName, } } } } return ret } func (m *indexMeta) GetUnindexedSegments(collectionID int64, segmentIDs []int64) []int64 { indexes := m.GetIndexesForCollection(collectionID, "") if len(indexes) == 0 { // doesn't have index return nil } indexed := make([]int64, 0, len(segmentIDs)) segIndexStates := m.getSegmentsIndexStates(collectionID, segmentIDs) for segmentID, states := range segIndexStates { indexStates := lo.Filter(lo.Values(states), func(state *indexpb.SegmentIndexState, _ int) bool { return state.GetState() == commonpb.IndexState_Finished }) if len(indexStates) == len(indexes) { indexed = append(indexed, segmentID) } } return lo.Without(segmentIDs, indexed...) }