// 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 import ( "context" "fmt" "strconv" "sync/atomic" "time" "github.com/milvus-io/milvus/internal/common" "github.com/milvus-io/milvus/internal/util/trace" "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" "github.com/milvus-io/milvus/internal/proto/milvuspb" "github.com/milvus-io/milvus/internal/util/metricsinfo" "go.uber.org/zap" ) // checks whether server in Healthy State func (s *Server) isClosed() bool { return atomic.LoadInt64(&s.isServing) != ServerStateHealthy } // GetTimeTickChannel legacy API, returns time tick channel name func (s *Server) GetTimeTickChannel(ctx context.Context) (*milvuspb.StringResponse, error) { return &milvuspb.StringResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, }, Value: Params.TimeTickChannelName, }, nil } // GetStatisticsChannel legacy API, returns statistics channel name func (s *Server) GetStatisticsChannel(ctx context.Context) (*milvuspb.StringResponse, error) { return &milvuspb.StringResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: "no statistics channel", }, }, nil } // Flush notify segment to flush // this api only guarantees all the segments requested is sealed // these segments will be flushed only after the Flush policy is fulfilled func (s *Server) Flush(ctx context.Context, req *datapb.FlushRequest) (*datapb.FlushResponse, error) { log.Debug("receive flush request", zap.Int64("dbID", req.GetDbID()), zap.Int64("collectionID", req.GetCollectionID())) sp, ctx := trace.StartSpanFromContextWithOperationName(ctx, "DataCoord-Flush") defer sp.Finish() resp := &datapb.FlushResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: "", }, DbID: 0, CollectionID: 0, SegmentIDs: []int64{}, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } sealedSegments, err := s.segmentManager.SealAllSegments(ctx, req.CollectionID) if err != nil { resp.Status.Reason = fmt.Sprintf("failed to flush %d, %s", req.CollectionID, err) return resp, nil } log.Debug("flush response with segments", zap.Int64("collectionID", req.GetCollectionID()), zap.Any("segments", sealedSegments)) resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.DbID = req.GetDbID() resp.CollectionID = req.GetCollectionID() resp.SegmentIDs = sealedSegments return resp, nil } // AssignSegmentID applies for segment ids and make allocation for records func (s *Server) AssignSegmentID(ctx context.Context, req *datapb.AssignSegmentIDRequest) (*datapb.AssignSegmentIDResponse, error) { if s.isClosed() { return &datapb.AssignSegmentIDResponse{ Status: &commonpb.Status{ Reason: serverNotServingErrMsg, ErrorCode: commonpb.ErrorCode_UnexpectedError, }, }, nil } assigns := make([]*datapb.SegmentIDAssignment, 0, len(req.SegmentIDRequests)) for _, r := range req.SegmentIDRequests { log.Debug("handle assign segment request", zap.Int64("collectionID", r.GetCollectionID()), zap.Int64("partitionID", r.GetPartitionID()), zap.String("channelName", r.GetChannelName()), zap.Uint32("count", r.GetCount())) if s.meta.GetCollection(r.GetCollectionID()) == nil { err := s.loadCollectionFromRootCoord(ctx, r.GetCollectionID()) if err != nil { log.Warn("failed to load collection in alloc segment", zap.Any("request", r), zap.Error(err)) continue } } s.cluster.Watch(r.ChannelName, r.CollectionID) allocations, err := s.segmentManager.AllocSegment(ctx, r.CollectionID, r.PartitionID, r.ChannelName, int64(r.Count)) if err != nil { log.Warn("failed to alloc segment", zap.Any("request", r), zap.Error(err)) continue } log.Debug("success to assign segments", zap.Any("assignments", allocations)) for _, allocation := range allocations { result := &datapb.SegmentIDAssignment{ SegID: allocation.SegmentID, ChannelName: r.ChannelName, Count: uint32(allocation.NumOfRows), CollectionID: r.CollectionID, PartitionID: r.PartitionID, ExpireTime: allocation.ExpireTime, Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, Reason: "", }, } assigns = append(assigns, result) } } return &datapb.AssignSegmentIDResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, }, SegIDAssignments: assigns, }, nil } // GetSegmentStates returns segments state func (s *Server) GetSegmentStates(ctx context.Context, req *datapb.GetSegmentStatesRequest) (*datapb.GetSegmentStatesResponse, error) { resp := &datapb.GetSegmentStatesResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } for _, segmentID := range req.SegmentIDs { state := &datapb.SegmentStateInfo{ Status: &commonpb.Status{}, SegmentID: segmentID, } segmentInfo := s.meta.GetSegment(segmentID) if segmentInfo == nil { state.Status.ErrorCode = commonpb.ErrorCode_UnexpectedError state.Status.Reason = fmt.Sprintf("failed to get segment %d", segmentID) } else { state.Status.ErrorCode = commonpb.ErrorCode_Success state.State = segmentInfo.GetState() state.StartPosition = segmentInfo.GetStartPosition() } resp.States = append(resp.States, state) } resp.Status.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // GetInsertBinlogPaths returns binlog paths info for requested segments func (s *Server) GetInsertBinlogPaths(ctx context.Context, req *datapb.GetInsertBinlogPathsRequest) (*datapb.GetInsertBinlogPathsResponse, error) { resp := &datapb.GetInsertBinlogPathsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } segment := s.meta.GetSegment(req.GetSegmentID()) if segment == nil { resp.Status.Reason = "segment not found" return resp, nil } binlogs := segment.GetBinlogs() fids := make([]UniqueID, 0, len(binlogs)) paths := make([]*internalpb.StringList, 0, len(binlogs)) for _, field := range binlogs { fids = append(fids, field.GetFieldID()) paths = append(paths, &internalpb.StringList{Values: field.GetBinlogs()}) } resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.FieldIDs = fids resp.Paths = paths return resp, nil } // GetCollectionStatistics returns statistics for collection // for now only row count is returned func (s *Server) GetCollectionStatistics(ctx context.Context, req *datapb.GetCollectionStatisticsRequest) (*datapb.GetCollectionStatisticsResponse, error) { resp := &datapb.GetCollectionStatisticsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } nums := s.meta.GetNumRowsOfCollection(req.CollectionID) resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.Stats = append(resp.Stats, &commonpb.KeyValuePair{Key: "row_count", Value: strconv.FormatInt(nums, 10)}) return resp, nil } // GetPartitionStatistics return statistics for parition // for now only row count is returned func (s *Server) GetPartitionStatistics(ctx context.Context, req *datapb.GetPartitionStatisticsRequest) (*datapb.GetPartitionStatisticsResponse, error) { resp := &datapb.GetPartitionStatisticsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } nums := s.meta.GetNumRowsOfPartition(req.CollectionID, req.PartitionID) resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.Stats = append(resp.Stats, &commonpb.KeyValuePair{Key: "row_count", Value: strconv.FormatInt(nums, 10)}) return resp, nil } // GetSegmentInfoChannel legacy API, returns segment info statistics channel func (s *Server) GetSegmentInfoChannel(ctx context.Context) (*milvuspb.StringResponse, error) { return &milvuspb.StringResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, }, Value: Params.SegmentInfoChannelName, }, nil } // GetSegmentInfo returns segment info requested, status, row count, etc included func (s *Server) GetSegmentInfo(ctx context.Context, req *datapb.GetSegmentInfoRequest) (*datapb.GetSegmentInfoResponse, error) { resp := &datapb.GetSegmentInfoResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } infos := make([]*datapb.SegmentInfo, 0, len(req.SegmentIDs)) for _, id := range req.SegmentIDs { info := s.meta.GetSegment(id) if info == nil { resp.Status.Reason = fmt.Sprintf("failed to get segment %d", id) return resp, nil } infos = append(infos, info.SegmentInfo) } resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.Infos = infos return resp, nil } // SaveBinlogPaths update segment related binlog path // works for Checkpoints and Flush func (s *Server) SaveBinlogPaths(ctx context.Context, req *datapb.SaveBinlogPathsRequest) (*commonpb.Status, error) { resp := &commonpb.Status{ErrorCode: commonpb.ErrorCode_UnexpectedError} if s.isClosed() { resp.Reason = serverNotServingErrMsg return resp, nil } log.Debug("receive SaveBinlogPaths request", zap.Int64("collectionID", req.GetCollectionID()), zap.Int64("segmentID", req.GetSegmentID()), zap.Bool("isFlush", req.GetFlushed()), zap.Bool("isDropped", req.GetDropped()), zap.Any("startPositions", req.GetStartPositions()), zap.Any("checkpoints", req.GetCheckPoints())) // validate nodeID := req.GetBase().GetSourceID() segmentID := req.GetSegmentID() segment := s.meta.GetSegment(segmentID) if segment == nil { FailResponse(resp, fmt.Sprintf("failed to get segment %d", segmentID)) log.Error("failed to get segment", zap.Int64("segmentID", segmentID)) return resp, nil } channel := segment.GetInsertChannel() if !s.channelManager.Match(nodeID, channel) { FailResponse(resp, fmt.Sprintf("channel %s is not watched on node %d", channel, nodeID)) log.Warn("node is not matched with channel", zap.String("channel", channel), zap.Int64("nodeID", nodeID)) return resp, nil } if req.GetDropped() { s.segmentManager.DropSegment(ctx, segment.GetID()) } // set segment to SegmentState_Flushing and save binlogs and checkpoints err := s.meta.UpdateFlushSegmentsInfo( req.GetSegmentID(), req.GetFlushed(), req.GetDropped(), req.GetField2BinlogPaths(), req.GetField2StatslogPaths(), req.GetDeltalogs(), req.GetCheckPoints(), req.GetStartPositions()) if err != nil { log.Error("save binlog and checkpoints failed", zap.Int64("segmentID", req.GetSegmentID()), zap.Error(err)) resp.Reason = err.Error() return resp, nil } log.Debug("flush segment with meta", zap.Int64("id", req.SegmentID), zap.Any("meta", req.GetField2BinlogPaths())) // Drop logic handler in DropVirtualChannel /* if req.GetDropped() && s.handler.CheckShouldDropChannel(channel) { log.Debug("remove channel", zap.String("channel", channel)) err = s.channelManager.RemoveChannel(channel) if err != nil { log.Warn("failed to remove channel", zap.String("channel", channel), zap.Error(err)) } s.segmentManager.DropSegmentsOfChannel(ctx, channel) }*/ if req.GetFlushed() { s.segmentManager.DropSegment(ctx, req.SegmentID) s.flushCh <- req.SegmentID if Params.EnableCompaction { cctx, cancel := context.WithTimeout(s.ctx, 5*time.Second) defer cancel() tt, err := getTimetravelReverseTime(cctx, s.allocator) if err == nil { err = s.compactionTrigger.triggerSingleCompaction(segment.GetCollectionID(), segment.GetPartitionID(), segmentID, segment.GetInsertChannel(), tt) if err != nil { log.Warn("failed to trigger single compaction", zap.Int64("segmentID", segmentID)) } } } } resp.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // DropVirtualChannel notifies vchannel dropped // And contains the remaining data log & checkpoint to update func (s *Server) DropVirtualChannel(ctx context.Context, req *datapb.DropVirtualChannelRequest) (*datapb.DropVirtualChannelResponse, error) { resp := &datapb.DropVirtualChannelResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } channel := req.GetChannelName() log.Debug("receive DropVirtualChannel request", zap.String("channel name", channel)) // validate nodeID := req.GetBase().GetSourceID() if !s.channelManager.Match(nodeID, channel) { FailResponse(resp.Status, fmt.Sprintf("channel %s is not watched on node %d", channel, nodeID)) log.Warn("node is not matched with channel", zap.String("channel", channel), zap.Int64("nodeID", nodeID)) return resp, nil } segments := make([]*SegmentInfo, 0, len(req.GetSegments())) for _, seg2Drop := range req.GetSegments() { info := &datapb.SegmentInfo{ ID: seg2Drop.GetSegmentID(), CollectionID: seg2Drop.GetCollectionID(), InsertChannel: channel, Binlogs: seg2Drop.GetField2BinlogPaths(), Statslogs: seg2Drop.GetField2StatslogPaths(), Deltalogs: seg2Drop.GetDeltalogs(), StartPosition: seg2Drop.GetStartPosition(), DmlPosition: seg2Drop.GetCheckPoint(), NumOfRows: seg2Drop.GetNumOfRows(), } segment := NewSegmentInfo(info) segments = append(segments, segment) } err := s.meta.UpdateDropChannelSegmentInfo(channel, segments) if err != nil { log.Error("Update Drop Channel segment info failed", zap.String("channel", channel), zap.Error(err)) resp.Status.Reason = err.Error() return resp, nil } log.Debug("DropVChannel plan to remove", zap.String("channel", channel)) err = s.channelManager.RemoveChannel(channel) if err != nil { log.Warn("DropVChannel failed to RemoveChannel", zap.String("channel", channel), zap.Error(err)) } s.segmentManager.DropSegmentsOfChannel(ctx, channel) // clean up removal flag s.meta.FinishRemoveChannel(channel) // no compaction triggerred in Drop procedure resp.Status.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // GetComponentStates returns DataCoord's current state func (s *Server) GetComponentStates(ctx context.Context) (*internalpb.ComponentStates, error) { nodeID := common.NotRegisteredID if s.session != nil && s.session.Registered() { nodeID = s.session.ServerID // or Params.NodeID } resp := &internalpb.ComponentStates{ State: &internalpb.ComponentInfo{ // NodeID: Params.NodeID, // will race with Server.Register() NodeID: nodeID, Role: "datacoord", StateCode: 0, }, Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, Reason: "", }, } state := atomic.LoadInt64(&s.isServing) switch state { case ServerStateInitializing: resp.State.StateCode = internalpb.StateCode_Initializing case ServerStateHealthy: resp.State.StateCode = internalpb.StateCode_Healthy default: resp.State.StateCode = internalpb.StateCode_Abnormal } return resp, nil } // GetRecoveryInfo get recovery info for segment func (s *Server) GetRecoveryInfo(ctx context.Context, req *datapb.GetRecoveryInfoRequest) (*datapb.GetRecoveryInfoResponse, error) { collectionID := req.GetCollectionID() partitionID := req.GetPartitionID() log.Info("receive get recovery info request", zap.Int64("collectionID", collectionID), zap.Int64("partitionID", partitionID)) resp := &datapb.GetRecoveryInfoResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } segmentIDs := s.meta.GetSegmentsIDOfPartition(collectionID, partitionID) segment2Binlogs := make(map[UniqueID][]*datapb.FieldBinlog) segment2StatsBinlogs := make(map[UniqueID][]*datapb.FieldBinlog) segment2DeltaBinlogs := make(map[UniqueID][]*datapb.DeltaLogInfo) segmentsNumOfRows := make(map[UniqueID]int64) flushedIDs := make(map[int64]struct{}) for _, id := range segmentIDs { segment := s.meta.GetSegment(id) if segment == nil { errMsg := fmt.Sprintf("failed to get segment %d", id) log.Error(errMsg) resp.Status.Reason = errMsg return resp, nil } if segment.State != commonpb.SegmentState_Flushed && segment.State != commonpb.SegmentState_Flushing { continue } binlogs := segment.GetBinlogs() if len(binlogs) == 0 { continue } _, ok := flushedIDs[id] if !ok { flushedIDs[id] = struct{}{} } field2Binlog := make(map[UniqueID][]string) for _, field := range binlogs { field2Binlog[field.GetFieldID()] = append(field2Binlog[field.GetFieldID()], field.GetBinlogs()...) } for f, paths := range field2Binlog { fieldBinlogs := &datapb.FieldBinlog{ FieldID: f, Binlogs: paths, } segment2Binlogs[id] = append(segment2Binlogs[id], fieldBinlogs) } segmentsNumOfRows[id] = segment.NumOfRows statsBinlogs := segment.GetStatslogs() field2StatsBinlog := make(map[UniqueID][]string) for _, field := range statsBinlogs { field2StatsBinlog[field.GetFieldID()] = append(field2StatsBinlog[field.GetFieldID()], field.GetBinlogs()...) } for f, paths := range field2StatsBinlog { fieldBinlogs := &datapb.FieldBinlog{ FieldID: f, Binlogs: paths, } segment2StatsBinlogs[id] = append(segment2StatsBinlogs[id], fieldBinlogs) } segment2DeltaBinlogs[id] = append(segment2DeltaBinlogs[id], segment.GetDeltalogs()...) } binlogs := make([]*datapb.SegmentBinlogs, 0, len(segment2Binlogs)) for segmentID := range flushedIDs { sbl := &datapb.SegmentBinlogs{ SegmentID: segmentID, NumOfRows: segmentsNumOfRows[segmentID], FieldBinlogs: segment2Binlogs[segmentID], Statslogs: segment2StatsBinlogs[segmentID], Deltalogs: segment2DeltaBinlogs[segmentID], } binlogs = append(binlogs, sbl) } dresp, err := s.rootCoordClient.DescribeCollection(s.ctx, &milvuspb.DescribeCollectionRequest{ Base: &commonpb.MsgBase{ MsgType: commonpb.MsgType_DescribeCollection, SourceID: Params.NodeID, }, CollectionID: collectionID, }) if err = VerifyResponse(dresp, err); err != nil { log.Error("get collection info from master failed", zap.Int64("collectionID", collectionID), zap.Error(err)) resp.Status.Reason = err.Error() return resp, nil } channels := dresp.GetVirtualChannelNames() channelInfos := make([]*datapb.VchannelInfo, 0, len(channels)) for _, c := range channels { channelInfo := s.handler.GetVChanPositions(c, collectionID, partitionID) channelInfos = append(channelInfos, channelInfo) log.Debug("datacoord append channelInfo in GetRecoveryInfo", zap.Any("collectionID", collectionID), zap.Any("channelInfo", channelInfo), ) } resp.Binlogs = binlogs resp.Channels = channelInfos resp.Status.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // GetFlushedSegments returns all segment matches provided criterion and in State Flushed // If requested partition id < 0, ignores the partition id filter func (s *Server) GetFlushedSegments(ctx context.Context, req *datapb.GetFlushedSegmentsRequest) (*datapb.GetFlushedSegmentsResponse, error) { resp := &datapb.GetFlushedSegmentsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } collectionID := req.GetCollectionID() partitionID := req.GetPartitionID() log.Debug("received get flushed segments request", zap.Int64("collectionID", collectionID), zap.Int64("partitionID", partitionID)) if s.isClosed() { resp.Status.Reason = serverNotServingErrMsg return resp, nil } var segmentIDs []UniqueID if partitionID < 0 { segmentIDs = s.meta.GetSegmentsIDOfCollection(collectionID) } else { segmentIDs = s.meta.GetSegmentsIDOfPartition(collectionID, partitionID) } ret := make([]UniqueID, 0, len(segmentIDs)) for _, id := range segmentIDs { s := s.meta.GetSegment(id) if s != nil && s.GetState() != commonpb.SegmentState_Flushed { continue } // if this segment == nil, we assume this segment has been compacted and flushed ret = append(ret, id) } resp.Segments = ret resp.Status.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // GetMetrics returns DataCoord metrics info // it may include SystemMetrics, Topology metrics, etc. func (s *Server) GetMetrics(ctx context.Context, req *milvuspb.GetMetricsRequest) (*milvuspb.GetMetricsResponse, error) { log.Debug("received get metrics request", zap.Int64("nodeID", Params.NodeID), zap.String("request", req.Request)) if s.isClosed() { log.Warn("DataCoord.GetMetrics failed", zap.Int64("node_id", Params.NodeID), zap.String("req", req.Request), zap.Error(errDataCoordIsUnhealthy(Params.NodeID))) return &milvuspb.GetMetricsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: msgDataCoordIsUnhealthy(Params.NodeID), }, Response: "", }, nil } metricType, err := metricsinfo.ParseMetricType(req.Request) if err != nil { log.Warn("DataCoord.GetMetrics failed to parse metric type", zap.Int64("node_id", Params.NodeID), zap.String("req", req.Request), zap.Error(err)) return &milvuspb.GetMetricsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: err.Error(), }, Response: "", }, nil } log.Debug("DataCoord.GetMetrics", zap.String("metric_type", metricType)) if metricType == metricsinfo.SystemInfoMetrics { ret, err := s.metricsCacheManager.GetSystemInfoMetrics() if err == nil && ret != nil { return ret, nil } log.Debug("failed to get system info metrics from cache, recompute instead", zap.Error(err)) metrics, err := s.getSystemInfoMetrics(ctx, req) log.Debug("DataCoord.GetMetrics", zap.Int64("node_id", Params.NodeID), zap.String("req", req.Request), zap.String("metric_type", metricType), zap.Any("metrics", metrics), // TODO(dragondriver): necessary? may be very large zap.Error(err)) s.metricsCacheManager.UpdateSystemInfoMetrics(metrics) return metrics, nil } log.Debug("DataCoord.GetMetrics failed, request metric type is not implemented yet", zap.Int64("node_id", Params.NodeID), zap.String("req", req.Request), zap.String("metric_type", metricType)) return &milvuspb.GetMetricsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: metricsinfo.MsgUnimplementedMetric, }, Response: "", }, nil } // CompleteCompaction completes a compaction with the result func (s *Server) CompleteCompaction(ctx context.Context, req *datapb.CompactionResult) (*commonpb.Status, error) { log.Debug("receive complete compaction request", zap.Int64("planID", req.PlanID), zap.Int64("segmentID", req.GetSegmentID())) resp := &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, } if s.isClosed() { log.Warn("failed to complete compaction", zap.Int64("planID", req.PlanID), zap.Error(errDataCoordIsUnhealthy(Params.NodeID))) resp.Reason = msgDataCoordIsUnhealthy(Params.NodeID) return resp, nil } if !Params.EnableCompaction { resp.Reason = "compaction disabled" return resp, nil } if err := s.compactionHandler.completeCompaction(req); err != nil { log.Error("failed to complete compaction", zap.Int64("planID", req.PlanID), zap.Error(err)) resp.Reason = err.Error() return resp, nil } log.Debug("success to complete compaction", zap.Int64("planID", req.PlanID)) resp.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // ManualCompaction triggers a compaction for a collection func (s *Server) ManualCompaction(ctx context.Context, req *milvuspb.ManualCompactionRequest) (*milvuspb.ManualCompactionResponse, error) { log.Debug("received manual compaction", zap.Int64("collectionID", req.GetCollectionID())) resp := &milvuspb.ManualCompactionResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { log.Warn("failed to execute manual compaction", zap.Int64("collectionID", req.GetCollectionID()), zap.Error(errDataCoordIsUnhealthy(Params.NodeID))) resp.Status.Reason = msgDataCoordIsUnhealthy(Params.NodeID) return resp, nil } if !Params.EnableCompaction { resp.Status.Reason = "compaction disabled" return resp, nil } tt, err := getTimetravelReverseTime(ctx, s.allocator) if err != nil { log.Warn("failed to get timetravel reverse time", zap.Int64("collectionID", req.GetCollectionID()), zap.Error(err)) resp.Status.Reason = err.Error() return resp, nil } id, err := s.compactionTrigger.forceTriggerCompaction(req.CollectionID, tt) if err != nil { log.Error("failed to trigger manual compaction", zap.Int64("collectionID", req.GetCollectionID()), zap.Error(err)) resp.Status.Reason = err.Error() return resp, nil } log.Debug("success to trigger manual compaction", zap.Int64("collectionID", req.GetCollectionID()), zap.Int64("compactionID", id)) resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.CompactionID = id return resp, nil } // GetCompactionState gets the state of a compaction func (s *Server) GetCompactionState(ctx context.Context, req *milvuspb.GetCompactionStateRequest) (*milvuspb.GetCompactionStateResponse, error) { log.Debug("received get compaction state request", zap.Int64("compactionID", req.GetCompactionID())) resp := &milvuspb.GetCompactionStateResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { log.Warn("failed to get compaction state", zap.Int64("compactionID", req.GetCompactionID()), zap.Error(errDataCoordIsUnhealthy(Params.NodeID))) resp.Status.Reason = msgDataCoordIsUnhealthy(Params.NodeID) return resp, nil } if !Params.EnableCompaction { resp.Status.Reason = "compaction disabled" return resp, nil } tasks := s.compactionHandler.getCompactionTasksBySignalID(req.GetCompactionID()) state, executingCnt, completedCnt, timeoutCnt := getCompactionState(tasks) resp.State = state resp.ExecutingPlanNo = int64(executingCnt) resp.CompletedPlanNo = int64(completedCnt) resp.TimeoutPlanNo = int64(timeoutCnt) resp.Status.ErrorCode = commonpb.ErrorCode_Success log.Debug("success to get compaction state", zap.Any("state", state), zap.Int("executing", executingCnt), zap.Int("completed", completedCnt), zap.Int("timeout", timeoutCnt)) return resp, nil } // GetCompactionStateWithPlans returns the compaction state of given plan func (s *Server) GetCompactionStateWithPlans(ctx context.Context, req *milvuspb.GetCompactionPlansRequest) (*milvuspb.GetCompactionPlansResponse, error) { log.Debug("received the request to get compaction state with plans", zap.Int64("compactionID", req.GetCompactionID())) resp := &milvuspb.GetCompactionPlansResponse{ Status: &commonpb.Status{ErrorCode: commonpb.ErrorCode_UnexpectedError}, } if s.isClosed() { log.Warn("failed to get compaction state with plans", zap.Int64("compactionID", req.GetCompactionID()), zap.Error(errDataCoordIsUnhealthy(Params.NodeID))) resp.Status.Reason = msgDataCoordIsUnhealthy(Params.NodeID) return resp, nil } if !Params.EnableCompaction { resp.Status.Reason = "compaction disabled" return resp, nil } tasks := s.compactionHandler.getCompactionTasksBySignalID(req.GetCompactionID()) for _, task := range tasks { resp.MergeInfos = append(resp.MergeInfos, getCompactionMergeInfo(task)) } state, _, _, _ := getCompactionState(tasks) resp.Status.ErrorCode = commonpb.ErrorCode_Success resp.State = state log.Debug("success to get state with plans", zap.Any("state", state), zap.Any("merge infos", resp.MergeInfos)) return resp, nil } func getCompactionMergeInfo(task *compactionTask) *milvuspb.CompactionMergeInfo { segments := task.plan.GetSegmentBinlogs() var sources []int64 for _, s := range segments { sources = append(sources, s.GetSegmentID()) } var target int64 = -1 if task.result != nil { target = task.result.GetSegmentID() } return &milvuspb.CompactionMergeInfo{ Sources: sources, Target: target, } } func getCompactionState(tasks []*compactionTask) (state commonpb.CompactionState, executingCnt, completedCnt, timeoutCnt int) { for _, t := range tasks { switch t.state { case executing: executingCnt++ case completed: completedCnt++ case timeout: timeoutCnt++ } } if executingCnt != 0 { state = commonpb.CompactionState_Executing } else { state = commonpb.CompactionState_Completed } return } // WatchChannels notifies DataCoord to watch vchannels of a collection func (s *Server) WatchChannels(ctx context.Context, req *datapb.WatchChannelsRequest) (*datapb.WatchChannelsResponse, error) { log.Debug("receive watch channels request", zap.Any("channels", req.GetChannelNames())) resp := &datapb.WatchChannelsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, }, } if s.isClosed() { log.Warn("failed to watch channels request", zap.Any("channels", req.GetChannelNames()), zap.Error(errDataCoordIsUnhealthy(Params.NodeID))) resp.Status.Reason = msgDataCoordIsUnhealthy(Params.NodeID) return resp, nil } for _, channelName := range req.GetChannelNames() { ch := &channel{ Name: channelName, CollectionID: req.GetCollectionID(), } err := s.channelManager.Watch(ch) if err != nil { log.Warn("fail to watch channelName", zap.String("channelName", channelName), zap.Error(err)) resp.Status.Reason = err.Error() return resp, nil } } resp.Status.ErrorCode = commonpb.ErrorCode_Success return resp, nil } // GetFlushState gets the flush state of multiple segments func (s *Server) GetFlushState(ctx context.Context, req *milvuspb.GetFlushStateRequest) (*milvuspb.GetFlushStateResponse, error) { log.Debug("received get flush state request", zap.Int64s("segment ids", req.GetSegmentIDs()), zap.Int("len", len(req.GetSegmentIDs()))) resp := &milvuspb.GetFlushStateResponse{Status: &commonpb.Status{ErrorCode: commonpb.ErrorCode_UnexpectedError}} if s.isClosed() { log.Warn("failed to get flush state because of closed server", zap.Int64s("segment ids", req.GetSegmentIDs()), zap.Int("len", len(req.GetSegmentIDs()))) resp.Status.Reason = msgDataCoordIsUnhealthy(Params.NodeID) return resp, nil } var unflushed []UniqueID for _, sid := range req.GetSegmentIDs() { segment := s.meta.GetSegment(sid) // segment is nil if it was compacted if segment == nil || segment.GetState() == commonpb.SegmentState_Flushed || segment.GetState() == commonpb.SegmentState_Flushed { continue } unflushed = append(unflushed, sid) } if len(unflushed) != 0 { log.Debug("[flush state] unflushed segment ids", zap.Int64s("segment ids", unflushed), zap.Int("len", len(unflushed))) resp.Flushed = false } else { log.Debug("[flush state] all segment is flushed", zap.Int64s("segment ids", req.GetSegmentIDs())) resp.Flushed = true } resp.Status.ErrorCode = commonpb.ErrorCode_Success return resp, nil }