// 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 import ( "context" "errors" "fmt" "math/rand" "runtime/debug" "time" "go.uber.org/zap" "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/internalpb" queryPb "github.com/milvus-io/milvus/internal/proto/querypb" "github.com/milvus-io/milvus/internal/util/funcutil" ) type task interface { ID() UniqueID // return ReqID SetID(uid UniqueID) // set ReqID Timestamp() Timestamp PreExecute(ctx context.Context) error Execute(ctx context.Context) error PostExecute(ctx context.Context) error WaitToFinish() error Notify(err error) OnEnqueue() error } type baseTask struct { done chan error ctx context.Context id UniqueID } type addQueryChannelTask struct { baseTask req *queryPb.AddQueryChannelRequest node *QueryNode } type watchDmChannelsTask struct { baseTask req *queryPb.WatchDmChannelsRequest node *QueryNode } type watchDeltaChannelsTask struct { baseTask req *queryPb.WatchDeltaChannelsRequest node *QueryNode } type loadSegmentsTask struct { baseTask req *queryPb.LoadSegmentsRequest node *QueryNode } type releaseCollectionTask struct { baseTask req *queryPb.ReleaseCollectionRequest node *QueryNode } type releasePartitionsTask struct { baseTask req *queryPb.ReleasePartitionsRequest node *QueryNode } func (b *baseTask) ID() UniqueID { return b.id } func (b *baseTask) SetID(uid UniqueID) { b.id = uid } func (b *baseTask) WaitToFinish() error { err := <-b.done return err } func (b *baseTask) Notify(err error) { b.done <- err } // addQueryChannel func (r *addQueryChannelTask) Timestamp() Timestamp { if r.req.Base == nil { log.Warn("nil base req in addQueryChannelTask", zap.Any("collectionID", r.req.CollectionID)) return 0 } return r.req.Base.Timestamp } func (r *addQueryChannelTask) OnEnqueue() error { if r.req == nil || r.req.Base == nil { r.SetID(rand.Int63n(100000000000)) } else { r.SetID(r.req.Base.MsgID) } return nil } func (r *addQueryChannelTask) PreExecute(ctx context.Context) error { return nil } func (r *addQueryChannelTask) Execute(ctx context.Context) error { log.Debug("Execute addQueryChannelTask", zap.Any("collectionID", r.req.CollectionID)) collectionID := r.req.CollectionID if r.node.queryShardService == nil { return fmt.Errorf("null query shard service, collectionID %d", collectionID) } qc := r.node.queryShardService.getQueryChannel(collectionID) log.Debug("add query channel for collection", zap.Int64("collectionID", collectionID)) consumeSubName := funcutil.GenChannelSubName(Params.CommonCfg.QueryNodeSubName, collectionID, Params.QueryNodeCfg.GetNodeID()) err := qc.AsConsumer(r.req.QueryChannel, consumeSubName, r.req.SeekPosition) if err != nil { log.Warn("query channel as consumer failed", zap.Int64("collectionID", collectionID), zap.String("channel", r.req.QueryChannel), zap.Error(err)) return err } // init global sealed segments /* for _, segment := range r.req.GlobalSealedSegments { sc.globalSegmentManager.addGlobalSegmentInfo(segment) }*/ qc.Start() log.Debug("start query channel", zap.Int64("collectionID", collectionID)) log.Debug("addQueryChannelTask done", zap.Any("collectionID", r.req.CollectionID), ) return nil } func (r *addQueryChannelTask) PostExecute(ctx context.Context) error { return nil } // watchDmChannelsTask func (w *watchDmChannelsTask) Timestamp() Timestamp { if w.req.Base == nil { log.Warn("nil base req in watchDmChannelsTask", zap.Any("collectionID", w.req.CollectionID)) return 0 } return w.req.Base.Timestamp } func (w *watchDmChannelsTask) OnEnqueue() error { if w.req == nil || w.req.Base == nil { w.SetID(rand.Int63n(100000000000)) } else { w.SetID(w.req.Base.MsgID) } return nil } func (w *watchDmChannelsTask) PreExecute(ctx context.Context) error { return nil } func (w *watchDmChannelsTask) Execute(ctx context.Context) error { collectionID := w.req.CollectionID partitionIDs := w.req.GetPartitionIDs() lType := w.req.GetLoadMeta().GetLoadType() if lType == queryPb.LoadType_UnKnownType { // if no partitionID is specified, load type is load collection if len(partitionIDs) != 0 { lType = queryPb.LoadType_LoadPartition } else { lType = queryPb.LoadType_LoadCollection } } // get all vChannels vChannels := make([]Channel, 0) pChannels := make([]Channel, 0) VPChannels := make(map[string]string) // map[vChannel]pChannel for _, info := range w.req.Infos { v := info.ChannelName p := funcutil.ToPhysicalChannel(info.ChannelName) vChannels = append(vChannels, v) pChannels = append(pChannels, p) VPChannels[v] = p } if len(VPChannels) != len(vChannels) { return errors.New("get physical channels failed, illegal channel length, collectionID = " + fmt.Sprintln(collectionID)) } log.Debug("Starting WatchDmChannels ...", zap.String("collectionName", w.req.Schema.Name), zap.Int64("collectionID", collectionID), zap.Int64("replicaID", w.req.GetReplicaID()), zap.Any("load type", lType), zap.Strings("vChannels", vChannels), zap.Strings("pChannels", pChannels), ) // init collection meta sCol := w.node.streaming.replica.addCollection(collectionID, w.req.Schema) hCol := w.node.historical.replica.addCollection(collectionID, w.req.Schema) //add shard cluster for _, vchannel := range vChannels { w.node.ShardClusterService.addShardCluster(w.req.GetCollectionID(), w.req.GetReplicaID(), vchannel) } // load growing segments unFlushedSegments := make([]*queryPb.SegmentLoadInfo, 0) unFlushedSegmentIDs := make([]UniqueID, 0) for _, info := range w.req.Infos { for _, ufInfo := range info.UnflushedSegments { // unFlushed segment may not have binLogs, skip loading if len(ufInfo.Binlogs) > 0 { unFlushedSegments = append(unFlushedSegments, &queryPb.SegmentLoadInfo{ SegmentID: ufInfo.ID, PartitionID: ufInfo.PartitionID, CollectionID: ufInfo.CollectionID, BinlogPaths: ufInfo.Binlogs, NumOfRows: ufInfo.NumOfRows, Statslogs: ufInfo.Statslogs, Deltalogs: ufInfo.Deltalogs, }) unFlushedSegmentIDs = append(unFlushedSegmentIDs, ufInfo.ID) } } } req := &queryPb.LoadSegmentsRequest{ Base: &commonpb.MsgBase{ MsgType: commonpb.MsgType_LoadSegments, MsgID: w.req.Base.MsgID, // use parent task's msgID }, Infos: unFlushedSegments, CollectionID: collectionID, Schema: w.req.GetSchema(), LoadMeta: w.req.GetLoadMeta(), } // update partition info from unFlushedSegments and loadMeta for _, info := range req.Infos { w.node.streaming.replica.addPartition(collectionID, info.PartitionID) w.node.historical.replica.addPartition(collectionID, info.PartitionID) } for _, partitionID := range req.GetLoadMeta().GetPartitionIDs() { w.node.historical.replica.addPartition(collectionID, partitionID) w.node.streaming.replica.addPartition(collectionID, partitionID) } log.Debug("loading growing segments in WatchDmChannels...", zap.Int64("collectionID", collectionID), zap.Int64s("unFlushedSegmentIDs", unFlushedSegmentIDs), ) err := w.node.loader.loadSegment(req, segmentTypeGrowing) if err != nil { return err } log.Debug("successfully load growing segments done in WatchDmChannels", zap.Int64("collectionID", collectionID), zap.Int64s("unFlushedSegmentIDs", unFlushedSegmentIDs), ) // remove growing segment if watch dmChannels failed defer func() { if err != nil { for _, segmentID := range unFlushedSegmentIDs { w.node.streaming.replica.removeSegment(segmentID) } } }() consumeSubName := funcutil.GenChannelSubName(Params.CommonCfg.QueryNodeSubName, collectionID, Params.QueryNodeCfg.GetNodeID()) // group channels by to seeking or consuming channel2SeekPosition := make(map[string]*internalpb.MsgPosition) channel2AsConsumerPosition := make(map[string]*internalpb.MsgPosition) for _, info := range w.req.Infos { if info.SeekPosition == nil || len(info.SeekPosition.MsgID) == 0 { channel2AsConsumerPosition[info.ChannelName] = info.SeekPosition continue } info.SeekPosition.MsgGroup = consumeSubName channel2SeekPosition[info.ChannelName] = info.SeekPosition } log.Debug("watchDMChannel, group channels done", zap.Int64("collectionID", collectionID)) // add excluded segments for unFlushed segments, // unFlushed segments before check point should be filtered out. unFlushedCheckPointInfos := make([]*datapb.SegmentInfo, 0) for _, info := range w.req.Infos { unFlushedCheckPointInfos = append(unFlushedCheckPointInfos, info.UnflushedSegments...) } w.node.streaming.replica.addExcludedSegments(collectionID, unFlushedCheckPointInfos) unflushedSegmentIDs := make([]UniqueID, 0) for i := 0; i < len(unFlushedCheckPointInfos); i++ { unflushedSegmentIDs = append(unflushedSegmentIDs, unFlushedCheckPointInfos[i].GetID()) } log.Debug("watchDMChannel, add check points info for unFlushed segments done", zap.Int64("collectionID", collectionID), zap.Any("unflushedSegmentIDs", unflushedSegmentIDs), ) // add excluded segments for flushed segments, // flushed segments with later check point than seekPosition should be filtered out. flushedCheckPointInfos := make([]*datapb.SegmentInfo, 0) for _, info := range w.req.Infos { for _, flushedSegment := range info.FlushedSegments { for _, position := range channel2SeekPosition { if flushedSegment.DmlPosition != nil && flushedSegment.DmlPosition.ChannelName == position.ChannelName && flushedSegment.DmlPosition.Timestamp > position.Timestamp { flushedCheckPointInfos = append(flushedCheckPointInfos, flushedSegment) } } } } w.node.streaming.replica.addExcludedSegments(collectionID, flushedCheckPointInfos) log.Debug("watchDMChannel, add check points info for flushed segments done", zap.Int64("collectionID", collectionID), zap.Any("flushedCheckPointInfos", flushedCheckPointInfos), ) // add excluded segments for dropped segments, // dropped segments with later check point than seekPosition should be filtered out. droppedCheckPointInfos := make([]*datapb.SegmentInfo, 0) for _, info := range w.req.Infos { for _, droppedSegment := range info.DroppedSegments { for _, position := range channel2SeekPosition { if droppedSegment != nil && droppedSegment.DmlPosition.ChannelName == position.ChannelName && droppedSegment.DmlPosition.Timestamp > position.Timestamp { droppedCheckPointInfos = append(droppedCheckPointInfos, droppedSegment) } } } } w.node.streaming.replica.addExcludedSegments(collectionID, droppedCheckPointInfos) log.Debug("watchDMChannel, add check points info for dropped segments done", zap.Int64("collectionID", collectionID), zap.Any("droppedCheckPointInfos", droppedCheckPointInfos), ) // add flow graph channel2FlowGraph, err := w.node.dataSyncService.addFlowGraphsForDMLChannels(collectionID, vChannels) if err != nil { log.Warn("watchDMChannel, add flowGraph for dmChannels failed", zap.Int64("collectionID", collectionID), zap.Strings("vChannels", vChannels), zap.Error(err)) return err } log.Debug("Query node add DML flow graphs", zap.Int64("collectionID", collectionID), zap.Any("channels", vChannels)) // channels as consumer for channel, fg := range channel2FlowGraph { if _, ok := channel2AsConsumerPosition[channel]; ok { // use pChannel to consume err = fg.consumeFlowGraph(VPChannels[channel], consumeSubName) if err != nil { log.Error("msgStream as consumer failed for dmChannels", zap.Int64("collectionID", collectionID), zap.String("vChannel", channel)) break } } if pos, ok := channel2SeekPosition[channel]; ok { pos.MsgGroup = consumeSubName // use pChannel to seek pos.ChannelName = VPChannels[channel] err = fg.seekQueryNodeFlowGraph(pos) if err != nil { log.Error("msgStream seek failed for dmChannels", zap.Int64("collectionID", collectionID), zap.String("vChannel", channel)) break } } } if err != nil { log.Warn("watchDMChannel, add flowGraph for dmChannels failed", zap.Int64("collectionID", collectionID), zap.Strings("vChannels", vChannels), zap.Error(err)) for _, fg := range channel2FlowGraph { fg.flowGraph.Close() } gcChannels := make([]Channel, 0) for channel := range channel2FlowGraph { gcChannels = append(gcChannels, channel) } w.node.dataSyncService.removeFlowGraphsByDMLChannels(gcChannels) return err } log.Debug("watchDMChannel, add flowGraph for dmChannels success", zap.Int64("collectionID", collectionID), zap.Strings("vChannels", vChannels)) sCol.addVChannels(vChannels) sCol.addPChannels(pChannels) sCol.setLoadType(lType) hCol.addVChannels(vChannels) hCol.addPChannels(pChannels) hCol.setLoadType(lType) log.Debug("watchDMChannel, init replica done", zap.Int64("collectionID", collectionID), zap.Strings("vChannels", vChannels)) // create tSafe for _, channel := range vChannels { w.node.tSafeReplica.addTSafe(channel) } // add tsafe watch in query shard if exists for _, dmlChannel := range vChannels { if !w.node.queryShardService.hasQueryShard(dmlChannel) { w.node.queryShardService.addQueryShard(collectionID, dmlChannel, w.req.GetReplicaID()) } qs, err := w.node.queryShardService.getQueryShard(dmlChannel) if err != nil { log.Warn("failed to get query shard", zap.String("dmlChannel", dmlChannel), zap.Error(err)) continue } err = qs.watchDMLTSafe() if err != nil { log.Warn("failed to start query shard watch dml tsafe", zap.Error(err)) } } // start flow graphs for _, fg := range channel2FlowGraph { fg.flowGraph.Start() } log.Debug("WatchDmChannels done", zap.Int64("collectionID", collectionID), zap.Strings("vChannels", vChannels)) return nil } func (w *watchDmChannelsTask) PostExecute(ctx context.Context) error { return nil } // watchDeltaChannelsTask func (w *watchDeltaChannelsTask) Timestamp() Timestamp { if w.req.Base == nil { log.Warn("nil base req in watchDeltaChannelsTask", zap.Any("collectionID", w.req.CollectionID)) return 0 } return w.req.Base.Timestamp } func (w *watchDeltaChannelsTask) OnEnqueue() error { if w.req == nil || w.req.Base == nil { w.SetID(rand.Int63n(100000000000)) } else { w.SetID(w.req.Base.MsgID) } return nil } func (w *watchDeltaChannelsTask) PreExecute(ctx context.Context) error { return nil } func (w *watchDeltaChannelsTask) Execute(ctx context.Context) error { collectionID := w.req.CollectionID // get all vChannels vDeltaChannels := make([]Channel, 0) pDeltaChannels := make([]Channel, 0) VPDeltaChannels := make(map[string]string) // map[vChannel]pChannel vChannel2SeekPosition := make(map[string]*internalpb.MsgPosition) for _, info := range w.req.Infos { v := info.ChannelName p := funcutil.ToPhysicalChannel(info.ChannelName) vDeltaChannels = append(vDeltaChannels, v) pDeltaChannels = append(pDeltaChannels, p) VPDeltaChannels[v] = p vChannel2SeekPosition[v] = info.SeekPosition } log.Debug("Starting WatchDeltaChannels ...", zap.Any("collectionID", collectionID), zap.Any("vDeltaChannels", vDeltaChannels), zap.Any("pChannels", pDeltaChannels), ) if len(VPDeltaChannels) != len(vDeltaChannels) { return errors.New("get physical channels failed, illegal channel length, collectionID = " + fmt.Sprintln(collectionID)) } log.Debug("Get physical channels done", zap.Any("collectionID", collectionID), ) if hasCollectionInHistorical := w.node.historical.replica.hasCollection(collectionID); !hasCollectionInHistorical { return fmt.Errorf("cannot find collection with collectionID, %d", collectionID) } hCol, err := w.node.historical.replica.getCollectionByID(collectionID) if err != nil { return err } if hasCollectionInStreaming := w.node.streaming.replica.hasCollection(collectionID); !hasCollectionInStreaming { return fmt.Errorf("cannot find collection with collectionID, %d", collectionID) } sCol, err := w.node.streaming.replica.getCollectionByID(collectionID) if err != nil { return err } channel2FlowGraph, err := w.node.dataSyncService.addFlowGraphsForDeltaChannels(collectionID, vDeltaChannels) if err != nil { log.Warn("watchDeltaChannel, add flowGraph for deltaChannel failed", zap.Int64("collectionID", collectionID), zap.Strings("vDeltaChannels", vDeltaChannels), zap.Error(err)) return err } consumeSubName := funcutil.GenChannelSubName(Params.CommonCfg.QueryNodeSubName, collectionID, Params.QueryNodeCfg.GetNodeID()) // channels as consumer for channel, fg := range channel2FlowGraph { // use pChannel to consume err = fg.consumeFlowGraphFromLatest(VPDeltaChannels[channel], consumeSubName) if err != nil { log.Error("msgStream as consumer failed for deltaChannels", zap.Int64("collectionID", collectionID), zap.Strings("vDeltaChannels", vDeltaChannels)) break } err = w.node.loader.FromDmlCPLoadDelete(w.ctx, collectionID, vChannel2SeekPosition[channel]) if err != nil { log.Error("watchDeltaChannelsTask from dml cp load delete failed", zap.Int64("collectionID", collectionID), zap.Strings("vDeltaChannels", vDeltaChannels)) break } } if err != nil { log.Warn("watchDeltaChannel, add flowGraph for deltaChannel failed", zap.Int64("collectionID", collectionID), zap.Strings("vDeltaChannels", vDeltaChannels), zap.Error(err)) for _, fg := range channel2FlowGraph { fg.flowGraph.Close() } gcChannels := make([]Channel, 0) for channel := range channel2FlowGraph { gcChannels = append(gcChannels, channel) } w.node.dataSyncService.removeFlowGraphsByDeltaChannels(gcChannels) return err } log.Debug("watchDeltaChannel, add flowGraph for deltaChannel success", zap.Int64("collectionID", collectionID), zap.Strings("vDeltaChannels", vDeltaChannels)) //set collection replica hCol.addVDeltaChannels(vDeltaChannels) hCol.addPDeltaChannels(pDeltaChannels) sCol.addVDeltaChannels(vDeltaChannels) sCol.addPDeltaChannels(pDeltaChannels) // create tSafe for _, channel := range vDeltaChannels { w.node.tSafeReplica.addTSafe(channel) } // add tsafe watch in query shard if exists for _, channel := range vDeltaChannels { dmlChannel, err := funcutil.ConvertChannelName(channel, Params.CommonCfg.RootCoordDelta, Params.CommonCfg.RootCoordDml) if err != nil { log.Warn("failed to convert delta channel to dml", zap.String("channel", channel), zap.Error(err)) continue } if !w.node.queryShardService.hasQueryShard(dmlChannel) { w.node.queryShardService.addQueryShard(collectionID, dmlChannel, w.req.GetReplicaId()) } qs, err := w.node.queryShardService.getQueryShard(dmlChannel) if err != nil { log.Warn("failed to get query shard", zap.String("dmlChannel", dmlChannel), zap.Error(err)) continue } err = qs.watchDeltaTSafe() if err != nil { log.Warn("failed to start query shard watch delta tsafe", zap.Error(err)) } } // start flow graphs for _, fg := range channel2FlowGraph { fg.flowGraph.Start() } log.Debug("WatchDeltaChannels done", zap.Int64("collectionID", collectionID), zap.String("ChannelIDs", fmt.Sprintln(vDeltaChannels))) return nil } func (w *watchDeltaChannelsTask) PostExecute(ctx context.Context) error { return nil } // loadSegmentsTask func (l *loadSegmentsTask) Timestamp() Timestamp { if l.req.Base == nil { log.Warn("nil base req in loadSegmentsTask") return 0 } return l.req.Base.Timestamp } func (l *loadSegmentsTask) OnEnqueue() error { if l.req == nil || l.req.Base == nil { l.SetID(rand.Int63n(100000000000)) } else { l.SetID(l.req.Base.MsgID) } return nil } func (l *loadSegmentsTask) PreExecute(ctx context.Context) error { return nil } func (l *loadSegmentsTask) Execute(ctx context.Context) error { // TODO: support db log.Debug("LoadSegment start", zap.Int64("msgID", l.req.Base.MsgID)) var err error // init meta collectionID := l.req.GetCollectionID() l.node.historical.replica.addCollection(collectionID, l.req.GetSchema()) l.node.streaming.replica.addCollection(collectionID, l.req.GetSchema()) for _, partitionID := range l.req.GetLoadMeta().GetPartitionIDs() { err = l.node.historical.replica.addPartition(collectionID, partitionID) if err != nil { return err } err = l.node.streaming.replica.addPartition(collectionID, partitionID) if err != nil { return err } } err = l.node.loader.loadSegment(l.req, segmentTypeSealed) if err != nil { log.Warn(err.Error()) return err } log.Debug("LoadSegments done", zap.Int64("msgID", l.req.Base.MsgID)) return nil } func (l *loadSegmentsTask) PostExecute(ctx context.Context) error { return nil } // releaseCollectionTask func (r *releaseCollectionTask) Timestamp() Timestamp { if r.req.Base == nil { log.Warn("nil base req in releaseCollectionTask", zap.Any("collectionID", r.req.CollectionID)) return 0 } return r.req.Base.Timestamp } func (r *releaseCollectionTask) OnEnqueue() error { if r.req == nil || r.req.Base == nil { r.SetID(rand.Int63n(100000000000)) } else { r.SetID(r.req.Base.MsgID) } return nil } func (r *releaseCollectionTask) PreExecute(ctx context.Context) error { return nil } type ReplicaType int const ( replicaNone ReplicaType = iota replicaStreaming replicaHistorical ) func (r *releaseCollectionTask) Execute(ctx context.Context) error { log.Debug("Execute release collection task", zap.Any("collectionID", r.req.CollectionID)) log.Debug("release streaming", zap.Any("collectionID", r.req.CollectionID)) // sleep to wait for query tasks done const gracefulReleaseTime = 1 time.Sleep(gracefulReleaseTime * time.Second) log.Debug("Starting release collection...", zap.Any("collectionID", r.req.CollectionID), ) r.node.queryShardService.releaseCollection(r.req.CollectionID) err := r.releaseReplica(r.node.streaming.replica, replicaStreaming) if err != nil { return fmt.Errorf("release collection failed, collectionID = %d, err = %s", r.req.CollectionID, err) } // remove collection metas in streaming and historical log.Debug("release historical", zap.Any("collectionID", r.req.CollectionID)) err = r.releaseReplica(r.node.historical.replica, replicaHistorical) if err != nil { return fmt.Errorf("release collection failed, collectionID = %d, err = %s", r.req.CollectionID, err) } debug.FreeOSMemory() log.Debug("ReleaseCollection done", zap.Int64("collectionID", r.req.CollectionID)) return nil } func (r *releaseCollectionTask) releaseReplica(replica ReplicaInterface, replicaType ReplicaType) error { collection, err := replica.getCollectionByID(r.req.CollectionID) if err != nil { return err } // set release time log.Debug("set release time", zap.Any("collectionID", r.req.CollectionID)) collection.setReleaseTime(r.req.Base.Timestamp) // remove all flow graphs of the target collection var channels []Channel if replicaType == replicaStreaming { channels = collection.getVChannels() r.node.dataSyncService.removeFlowGraphsByDMLChannels(channels) } else { // remove all tSafes and flow graphs of the target collection channels = collection.getVDeltaChannels() r.node.dataSyncService.removeFlowGraphsByDeltaChannels(channels) } // remove all tSafes of the target collection for _, channel := range channels { log.Debug("Releasing tSafe in releaseCollectionTask...", zap.Any("collectionID", r.req.CollectionID), zap.Any("vDeltaChannel", channel), ) r.node.tSafeReplica.removeTSafe(channel) } // remove excludedSegments record replica.removeExcludedSegments(r.req.CollectionID) err = replica.removeCollection(r.req.CollectionID) if err != nil { return err } return nil } func (r *releaseCollectionTask) PostExecute(ctx context.Context) error { return nil } // releasePartitionsTask func (r *releasePartitionsTask) Timestamp() Timestamp { if r.req.Base == nil { log.Warn("nil base req in releasePartitionsTask", zap.Any("collectionID", r.req.CollectionID)) return 0 } return r.req.Base.Timestamp } func (r *releasePartitionsTask) OnEnqueue() error { if r.req == nil || r.req.Base == nil { r.SetID(rand.Int63n(100000000000)) } else { r.SetID(r.req.Base.MsgID) } return nil } func (r *releasePartitionsTask) PreExecute(ctx context.Context) error { return nil } func (r *releasePartitionsTask) Execute(ctx context.Context) error { log.Debug("Execute release partition task", zap.Any("collectionID", r.req.CollectionID), zap.Any("partitionIDs", r.req.PartitionIDs)) // sleep to wait for query tasks done const gracefulReleaseTime = 1 time.Sleep(gracefulReleaseTime * time.Second) // get collection from streaming and historical _, err := r.node.historical.replica.getCollectionByID(r.req.CollectionID) if err != nil { return fmt.Errorf("release partitions failed, collectionID = %d, err = %s", r.req.CollectionID, err) } _, err = r.node.streaming.replica.getCollectionByID(r.req.CollectionID) if err != nil { return fmt.Errorf("release partitions failed, collectionID = %d, err = %s", r.req.CollectionID, err) } log.Debug("start release partition", zap.Any("collectionID", r.req.CollectionID)) for _, id := range r.req.PartitionIDs { // remove partition from streaming and historical hasPartitionInHistorical := r.node.historical.replica.hasPartition(id) if hasPartitionInHistorical { err := r.node.historical.replica.removePartition(id) if err != nil { // not return, try to release all partitions log.Warn(err.Error()) } } hasPartitionInStreaming := r.node.streaming.replica.hasPartition(id) if hasPartitionInStreaming { err := r.node.streaming.replica.removePartition(id) if err != nil { // not return, try to release all partitions log.Warn(err.Error()) } } } log.Debug("Release partition task done", zap.Any("collectionID", r.req.CollectionID), zap.Any("partitionIDs", r.req.PartitionIDs)) return nil } func (r *releasePartitionsTask) PostExecute(ctx context.Context) error { return nil }