// 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 rootcoord import ( "context" "errors" "fmt" "sort" "strconv" "strings" "sync" "time" "github.com/golang/protobuf/proto" "github.com/milvus-io/milvus-proto/go-api/commonpb" "github.com/milvus-io/milvus-proto/go-api/milvuspb" "github.com/milvus-io/milvus/internal/kv" "github.com/milvus-io/milvus/internal/log" "github.com/milvus-io/milvus/internal/proto/datapb" "github.com/milvus-io/milvus/internal/proto/rootcoordpb" "github.com/milvus-io/milvus/internal/util/importutil" "github.com/milvus-io/milvus/internal/util/typeutil" "github.com/samber/lo" "go.uber.org/zap" ) const ( delimiter = "/" ) // checkPendingTasksInterval is the default interval to check and send out pending tasks, // default 60*1000 milliseconds (1 minute). var checkPendingTasksInterval = 60 * 1000 // cleanUpLoopInterval is the default interval to (1) loop through all in memory tasks and expire old ones and (2) loop // through all failed import tasks, and mark segments created by these tasks as `dropped`. // default 5*60*1000 milliseconds (5 minutes) var cleanUpLoopInterval = 5 * 60 * 1000 // flipPersistedTaskInterval is the default interval to loop through tasks and check if their states needs to be // flipped/updated from `ImportPersisted` to `ImportCompleted`. // default 2 * 1000 milliseconds (2 seconds) // TODO: Make this configurable. var flipPersistedTaskInterval = 2 * 1000 // importManager manager for import tasks type importManager struct { ctx context.Context // reserved taskStore kv.TxnKV // Persistent task info storage. busyNodes map[int64]int64 // Set of all current working DataNode IDs and related task create timestamp. // TODO: Make pendingTask a map to improve look up performance. pendingTasks []*datapb.ImportTaskInfo // pending tasks workingTasks map[int64]*datapb.ImportTaskInfo // in-progress tasks pendingLock sync.RWMutex // lock pending task list workingLock sync.RWMutex // lock working task map busyNodesLock sync.RWMutex // lock for working nodes. lastReqID int64 // for generating a unique ID for import request startOnce sync.Once idAllocator func(count uint32) (typeutil.UniqueID, typeutil.UniqueID, error) callImportService func(ctx context.Context, req *datapb.ImportTaskRequest) (*datapb.ImportTaskResponse, error) getCollectionName func(collID, partitionID typeutil.UniqueID) (string, string, error) callGetSegmentStates func(ctx context.Context, req *datapb.GetSegmentStatesRequest) (*datapb.GetSegmentStatesResponse, error) callUnsetIsImportingState func(context.Context, *datapb.UnsetIsImportingStateRequest) (*commonpb.Status, error) } // newImportManager helper function to create a importManager func newImportManager(ctx context.Context, client kv.TxnKV, idAlloc func(count uint32) (typeutil.UniqueID, typeutil.UniqueID, error), importService func(ctx context.Context, req *datapb.ImportTaskRequest) (*datapb.ImportTaskResponse, error), getSegmentStates func(ctx context.Context, req *datapb.GetSegmentStatesRequest) (*datapb.GetSegmentStatesResponse, error), getCollectionName func(collID, partitionID typeutil.UniqueID) (string, string, error), unsetIsImportingState func(context.Context, *datapb.UnsetIsImportingStateRequest) (*commonpb.Status, error)) *importManager { mgr := &importManager{ ctx: ctx, taskStore: client, pendingTasks: make([]*datapb.ImportTaskInfo, 0, Params.RootCoordCfg.ImportMaxPendingTaskCount.GetAsInt()), // currently task queue max size is 32 workingTasks: make(map[int64]*datapb.ImportTaskInfo), busyNodes: make(map[int64]int64), pendingLock: sync.RWMutex{}, workingLock: sync.RWMutex{}, busyNodesLock: sync.RWMutex{}, lastReqID: 0, idAllocator: idAlloc, callImportService: importService, callGetSegmentStates: getSegmentStates, getCollectionName: getCollectionName, callUnsetIsImportingState: unsetIsImportingState, } return mgr } func (m *importManager) init(ctx context.Context) { m.startOnce.Do(func() { // Read tasks from Etcd and save them as pending tasks and mark them as failed. if _, err := m.loadFromTaskStore(true); err != nil { log.Error("importManager init failed, read tasks from Etcd failed, about to panic") panic(err) } // Send out tasks to dataCoord. if err := m.sendOutTasks(ctx); err != nil { log.Error("importManager init failed, send out tasks to dataCoord failed") } }) } // sendOutTasksLoop periodically calls `sendOutTasks` to process left over pending tasks. func (m *importManager) sendOutTasksLoop(wg *sync.WaitGroup) { defer wg.Done() ticker := time.NewTicker(time.Duration(checkPendingTasksInterval) * time.Millisecond) defer ticker.Stop() for { select { case <-m.ctx.Done(): log.Debug("import manager context done, exit check sendOutTasksLoop") return case <-ticker.C: if err := m.sendOutTasks(m.ctx); err != nil { log.Error("importManager sendOutTasksLoop fail to send out tasks") } } } } // flipTaskStateLoop periodically calls `flipTaskState` to check if states of the tasks need to be updated. func (m *importManager) flipTaskStateLoop(wg *sync.WaitGroup) { defer wg.Done() flipPersistedTicker := time.NewTicker(time.Duration(flipPersistedTaskInterval) * time.Millisecond) defer flipPersistedTicker.Stop() for { select { case <-m.ctx.Done(): log.Debug("import manager context done, exit check flipTaskStateLoop") return case <-flipPersistedTicker.C: // log.Debug("start trying to flip ImportPersisted task") if err := m.loadAndFlipPersistedTasks(m.ctx); err != nil { log.Error("failed to flip ImportPersisted task", zap.Error(err)) } } } } // cleanupLoop starts a loop that checks and expires old tasks every `cleanUpLoopInterval` seconds. // There are two types of tasks to clean up: // (1) pending tasks or working tasks that existed for over `ImportTaskExpiration` seconds, these tasks will be // removed from memory. // (2) any import tasks that has been created over `ImportTaskRetention` seconds ago, these tasks will be removed from Etcd. // cleanupLoop also periodically calls removeBadImportSegments to remove bad import segments. func (m *importManager) cleanupLoop(wg *sync.WaitGroup) { defer wg.Done() ticker := time.NewTicker(time.Duration(cleanUpLoopInterval) * time.Millisecond) defer ticker.Stop() for { select { case <-m.ctx.Done(): log.Debug("(in cleanupLoop) import manager context done, exit cleanupLoop") return case <-ticker.C: log.Debug("(in cleanupLoop) trying to expire old tasks from memory and Etcd") m.expireOldTasksFromMem() m.expireOldTasksFromEtcd() log.Debug("(in cleanupLoop) start removing bad import segments") m.removeBadImportSegments(m.ctx) log.Debug("(in cleanupLoop) start cleaning hanging busy DataNode") m.releaseHangingBusyDataNode() } } } // sendOutTasks pushes all pending tasks to DataCoord, gets DataCoord response and re-add these tasks as working tasks. func (m *importManager) sendOutTasks(ctx context.Context) error { m.pendingLock.Lock() m.busyNodesLock.Lock() defer m.pendingLock.Unlock() defer m.busyNodesLock.Unlock() // Trigger Import() action to DataCoord. for len(m.pendingTasks) > 0 { log.Debug("try to send out pending tasks", zap.Int("task_number", len(m.pendingTasks))) task := m.pendingTasks[0] // TODO: Use ImportTaskInfo directly. it := &datapb.ImportTask{ CollectionId: task.GetCollectionId(), PartitionId: task.GetPartitionId(), ChannelNames: task.GetChannelNames(), TaskId: task.GetId(), Files: task.GetFiles(), Infos: task.GetInfos(), } // Get all busy dataNodes for reference. var busyNodeList []int64 for k := range m.busyNodes { busyNodeList = append(busyNodeList, k) } // Send import task to dataCoord, which will then distribute the import task to dataNode. resp, err := m.callImportService(ctx, &datapb.ImportTaskRequest{ ImportTask: it, WorkingNodes: busyNodeList, }) if resp.GetStatus().GetErrorCode() != commonpb.ErrorCode_Success { log.Warn("import task is rejected", zap.Int64("task ID", it.GetTaskId()), zap.Any("error code", resp.GetStatus().GetErrorCode()), zap.String("cause", resp.GetStatus().GetReason())) break } if err != nil { log.Warn("import task get error", zap.Error(err)) break } // Successfully assigned dataNode for the import task. Add task to working task list and update task store. task.DatanodeId = resp.GetDatanodeId() log.Debug("import task successfully assigned to dataNode", zap.Int64("task ID", it.GetTaskId()), zap.Int64("dataNode ID", task.GetDatanodeId())) // Add new working dataNode to busyNodes. m.busyNodes[resp.GetDatanodeId()] = task.GetCreateTs() err = func() error { m.workingLock.Lock() defer m.workingLock.Unlock() log.Debug("import task added as working task", zap.Int64("task ID", it.TaskId)) task.State.StateCode = commonpb.ImportState_ImportStarted task.StartTs = time.Now().Unix() // first update the import task into meta store and then put it into working tasks if err := m.persistTaskInfo(task); err != nil { log.Error("failed to update import task", zap.Int64("task ID", task.GetId()), zap.Error(err)) return err } m.workingTasks[task.GetId()] = task return nil }() if err != nil { return err } // Remove this task from head of pending list. m.pendingTasks = append(m.pendingTasks[:0], m.pendingTasks[1:]...) } return nil } // loadAndFlipPersistedTasks checks every import task in `ImportPersisted` state and flips their import state to // `ImportCompleted` if eligible. func (m *importManager) loadAndFlipPersistedTasks(ctx context.Context) error { var importTasks []*datapb.ImportTaskInfo var err error if importTasks, err = m.loadFromTaskStore(false); err != nil { log.Error("failed to load from task store", zap.Error(err)) return err } for _, task := range importTasks { // Checking if ImportPersisted --> ImportCompleted ready. if task.GetState().GetStateCode() == commonpb.ImportState_ImportPersisted { log.Info(" task found, checking if it is eligible to become ", zap.Int64("task ID", task.GetId())) importTask := m.getTaskState(task.GetId()) // if this method failed, skip this task, try again in next round if err = m.flipTaskFlushedState(ctx, importTask, task.GetDatanodeId()); err != nil { log.Error("failed to flip task flushed state", zap.Int64("task ID", task.GetId()), zap.Error(err)) } } } return nil } func (m *importManager) flipTaskFlushedState(ctx context.Context, importTask *milvuspb.GetImportStateResponse, dataNodeID int64) error { ok, err := m.checkFlushDone(ctx, importTask.GetSegmentIds()) if err != nil { log.Error("an error occurred while checking flush state of segments", zap.Int64("task ID", importTask.GetId()), zap.Error(err)) return err } if ok { // All segments are flushed. DataNode becomes available. func() { m.busyNodesLock.Lock() defer m.busyNodesLock.Unlock() delete(m.busyNodes, dataNodeID) log.Info("a DataNode is no longer busy after processing task", zap.Int64("dataNode ID", dataNodeID), zap.Int64("task ID", importTask.GetId())) }() // Unset isImporting flag. if m.callUnsetIsImportingState == nil { log.Error("callUnsetIsImportingState function of importManager is nil") return fmt.Errorf("failed to describe index: segment state method of import manager is nil") } _, err := m.callUnsetIsImportingState(ctx, &datapb.UnsetIsImportingStateRequest{ SegmentIds: importTask.GetSegmentIds(), }) if err := m.setImportTaskState(importTask.GetId(), commonpb.ImportState_ImportCompleted); err != nil { log.Error("failed to set import task state", zap.Int64("task ID", importTask.GetId()), zap.Any("target state", commonpb.ImportState_ImportCompleted), zap.Error(err)) return err } if err != nil { log.Error("failed to unset importing state of all segments (could be partial failure)", zap.Error(err)) return err } // Start working on new bulk insert tasks. if err = m.sendOutTasks(m.ctx); err != nil { log.Error("fail to send out import task to DataNodes", zap.Int64("task ID", importTask.GetId())) } } return nil } // checkFlushDone checks if flush is done on given segments. func (m *importManager) checkFlushDone(ctx context.Context, segIDs []UniqueID) (bool, error) { resp, err := m.callGetSegmentStates(ctx, &datapb.GetSegmentStatesRequest{ SegmentIDs: segIDs, }) if err != nil { log.Error("failed to get import task segment states", zap.Int64s("segment IDs", segIDs)) return false, err } getSegmentStates := func(segment *datapb.SegmentStateInfo, _ int) string { return segment.GetState().String() } log.Debug("checking import segment states", zap.Strings("segment states", lo.Map(resp.GetStates(), getSegmentStates))) for _, states := range resp.GetStates() { // Flushed segment could get compacted, so only returns false if there are still importing segments. if states.GetState() == commonpb.SegmentState_Importing || states.GetState() == commonpb.SegmentState_Sealed { return false, nil } } return true, nil } func (m *importManager) isRowbased(files []string) (bool, error) { isRowBased := false for _, filePath := range files { _, fileType := importutil.GetFileNameAndExt(filePath) if fileType == importutil.JSONFileExt { isRowBased = true } else if isRowBased { log.Error("row-based data file type must be JSON, mixed file types is not allowed", zap.Strings("files", files)) return isRowBased, fmt.Errorf("row-based data file type must be JSON, file type '%s' is not allowed", fileType) } } // for row_based, we only allow one file so that each invocation only generate a task if isRowBased && len(files) > 1 { log.Error("row-based import, only allow one JSON file each time", zap.Strings("files", files)) return isRowBased, fmt.Errorf("row-based import, only allow one JSON file each time") } return isRowBased, nil } // importJob processes the import request, generates import tasks, sends these tasks to DataCoord, and returns // immediately. func (m *importManager) importJob(ctx context.Context, req *milvuspb.ImportRequest, cID int64, pID int64) *milvuspb.ImportResponse { returnErrorFunc := func(reason string) *milvuspb.ImportResponse { return &milvuspb.ImportResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: reason, }, } } if req == nil || len(req.Files) == 0 { return returnErrorFunc("import request is empty") } if m.callImportService == nil { return returnErrorFunc("import service is not available") } resp := &milvuspb.ImportResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, }, Tasks: make([]int64, 0), } log.Debug("receive import job", zap.String("collection name", req.GetCollectionName()), zap.Int64("collection ID", cID), zap.Int64("partition ID", pID)) err := func() error { m.pendingLock.Lock() defer m.pendingLock.Unlock() capacity := cap(m.pendingTasks) length := len(m.pendingTasks) isRowBased, err := m.isRowbased(req.GetFiles()) if err != nil { return err } taskCount := 1 if isRowBased { taskCount = len(req.Files) } // task queue size has a limit, return error if import request contains too many data files, and skip entire job if capacity-length < taskCount { err := fmt.Errorf("import task queue max size is %v, currently there are %v tasks is pending. Not able to execute this request with %v tasks", capacity, length, taskCount) log.Error(err.Error()) return err } // convert import request to import tasks if isRowBased { // For row-based importing, each file makes a task. taskList := make([]int64, len(req.Files)) for i := 0; i < len(req.Files); i++ { tID, _, err := m.idAllocator(1) if err != nil { log.Error("failed to allocate ID for import task", zap.Error(err)) return err } newTask := &datapb.ImportTaskInfo{ Id: tID, CollectionId: cID, PartitionId: pID, ChannelNames: req.ChannelNames, Files: []string{req.GetFiles()[i]}, CreateTs: time.Now().Unix(), State: &datapb.ImportTaskState{ StateCode: commonpb.ImportState_ImportPending, }, Infos: req.Options, } // Here no need to check error returned by setCollectionPartitionName(), // since here we always return task list to client no matter something missed. // We make the method setCollectionPartitionName() returns error // because we need to make sure coverage all the code branch in unittest case. _ = m.setCollectionPartitionName(cID, pID, newTask) resp.Tasks = append(resp.Tasks, newTask.GetId()) taskList[i] = newTask.GetId() log.Info("new task created as pending task", zap.Int64("task ID", newTask.GetId())) if err := m.persistTaskInfo(newTask); err != nil { log.Error("failed to update import task", zap.Int64("task ID", newTask.GetId()), zap.Error(err)) return err } m.pendingTasks = append(m.pendingTasks, newTask) } log.Info("row-based import request processed", zap.Any("task IDs", taskList)) } else { // TODO: Merge duplicated code :( // for column-based, all files is a task tID, _, err := m.idAllocator(1) if err != nil { return err } newTask := &datapb.ImportTaskInfo{ Id: tID, CollectionId: cID, PartitionId: pID, ChannelNames: req.ChannelNames, Files: req.GetFiles(), CreateTs: time.Now().Unix(), State: &datapb.ImportTaskState{ StateCode: commonpb.ImportState_ImportPending, }, Infos: req.Options, } // Here no need to check error returned by setCollectionPartitionName(), // since here we always return task list to client no matter something missed. // We make the method setCollectionPartitionName() returns error // because we need to make sure coverage all the code branch in unittest case. _ = m.setCollectionPartitionName(cID, pID, newTask) resp.Tasks = append(resp.Tasks, newTask.GetId()) log.Info("new task created as pending task", zap.Int64("task ID", newTask.GetId())) if err := m.persistTaskInfo(newTask); err != nil { log.Error("failed to update import task", zap.Int64("task ID", newTask.GetId()), zap.Error(err)) return err } m.pendingTasks = append(m.pendingTasks, newTask) log.Info("column-based import request processed", zap.Int64("task ID", newTask.GetId())) } return nil }() if err != nil { return returnErrorFunc(err.Error()) } if sendOutTasksErr := m.sendOutTasks(ctx); sendOutTasksErr != nil { log.Error("fail to send out tasks", zap.Error(sendOutTasksErr)) } return resp } // updateTaskInfo updates the task's state in in-memory working tasks list and in task store, given ImportResult // result. It returns the ImportTaskInfo of the given task. func (m *importManager) updateTaskInfo(ir *rootcoordpb.ImportResult) (*datapb.ImportTaskInfo, error) { if ir == nil { return nil, errors.New("import result is nil") } log.Debug("import manager update task import result", zap.Int64("taskID", ir.GetTaskId())) updatedInfo, err := func() (*datapb.ImportTaskInfo, error) { found := false var v *datapb.ImportTaskInfo m.workingLock.Lock() defer m.workingLock.Unlock() ok := false var toPersistImportTaskInfo *datapb.ImportTaskInfo if v, ok = m.workingTasks[ir.GetTaskId()]; ok { // If the task has already been marked failed. Prevent further state updating and return an error. if v.GetState().GetStateCode() == commonpb.ImportState_ImportFailed || v.GetState().GetStateCode() == commonpb.ImportState_ImportFailedAndCleaned { log.Warn("trying to update an already failed task which will end up being a no-op") return nil, errors.New("trying to update an already failed task " + strconv.FormatInt(ir.GetTaskId(), 10)) } found = true // Meta persist should be done before memory objs change. toPersistImportTaskInfo = cloneImportTaskInfo(v) toPersistImportTaskInfo.State.StateCode = ir.GetState() // if is started state, append the new created segment id if v.GetState().GetStateCode() == commonpb.ImportState_ImportStarted { toPersistImportTaskInfo.State.Segments = append(toPersistImportTaskInfo.State.Segments, ir.GetSegments()...) } else { toPersistImportTaskInfo.State.Segments = ir.GetSegments() } toPersistImportTaskInfo.State.RowCount = ir.GetRowCount() toPersistImportTaskInfo.State.RowIds = ir.GetAutoIds() for _, kv := range ir.GetInfos() { if kv.GetKey() == importutil.FailedReason { toPersistImportTaskInfo.State.ErrorMessage = kv.GetValue() break } else if kv.GetKey() == importutil.PersistTimeCost || kv.GetKey() == importutil.ProgressPercent { importutil.UpdateKVInfo(&toPersistImportTaskInfo.Infos, kv.GetKey(), kv.GetValue()) } } log.Info("importManager update task info", zap.Any("toPersistImportTaskInfo", toPersistImportTaskInfo)) // Update task in task store. if err := m.persistTaskInfo(toPersistImportTaskInfo); err != nil { log.Error("failed to update import task", zap.Int64("task ID", v.GetId()), zap.Error(err)) return nil, err } m.workingTasks[ir.GetTaskId()] = toPersistImportTaskInfo } if !found { log.Debug("import manager update task import result failed", zap.Int64("task ID", ir.GetTaskId())) return nil, errors.New("failed to update import task, ID not found: " + strconv.FormatInt(ir.TaskId, 10)) } return toPersistImportTaskInfo, nil }() if err != nil { return nil, err } return updatedInfo, nil } // setImportTaskState sets the task state of an import task. Changes to the import task state will be persisted. func (m *importManager) setImportTaskState(taskID int64, targetState commonpb.ImportState) error { return m.setImportTaskStateAndReason(taskID, targetState, "") } // setImportTaskStateAndReason sets the task state and error message of an import task. Changes to the import task state // will be persisted. func (m *importManager) setImportTaskStateAndReason(taskID int64, targetState commonpb.ImportState, errReason string) error { log.Info("trying to set the import state of an import task", zap.Int64("task ID", taskID), zap.Any("target state", targetState)) found := false m.pendingLock.Lock() for taskIndex, t := range m.pendingTasks { if taskID == t.Id { found = true // Meta persist should be done before memory objs change. toPersistImportTaskInfo := cloneImportTaskInfo(t) toPersistImportTaskInfo.State.StateCode = targetState if targetState == commonpb.ImportState_ImportCompleted { importutil.UpdateKVInfo(&toPersistImportTaskInfo.Infos, importutil.ProgressPercent, "100") } tryUpdateErrMsg(errReason, toPersistImportTaskInfo) // Update task in task store. if err := m.persistTaskInfo(toPersistImportTaskInfo); err != nil { return err } m.pendingTasks[taskIndex] = toPersistImportTaskInfo break } } m.pendingLock.Unlock() m.workingLock.Lock() if v, ok := m.workingTasks[taskID]; ok { found = true // Meta persist should be done before memory objs change. toPersistImportTaskInfo := cloneImportTaskInfo(v) toPersistImportTaskInfo.State.StateCode = targetState if targetState == commonpb.ImportState_ImportCompleted { importutil.UpdateKVInfo(&toPersistImportTaskInfo.Infos, importutil.ProgressPercent, "100") } tryUpdateErrMsg(errReason, toPersistImportTaskInfo) // Update task in task store. if err := m.persistTaskInfo(toPersistImportTaskInfo); err != nil { return err } m.workingTasks[taskID] = toPersistImportTaskInfo } m.workingLock.Unlock() // If task is not found in memory, try updating in Etcd. var v string var err error if !found { if v, err = m.taskStore.Load(BuildImportTaskKey(taskID)); err == nil && v != "" { ti := &datapb.ImportTaskInfo{} if err := proto.Unmarshal([]byte(v), ti); err != nil { log.Error("failed to unmarshal proto", zap.String("taskInfo", v), zap.Error(err)) } else { toPersistImportTaskInfo := cloneImportTaskInfo(ti) toPersistImportTaskInfo.State.StateCode = targetState if targetState == commonpb.ImportState_ImportCompleted { importutil.UpdateKVInfo(&toPersistImportTaskInfo.Infos, importutil.ProgressPercent, "100") } tryUpdateErrMsg(errReason, toPersistImportTaskInfo) // Update task in task store. if err := m.persistTaskInfo(toPersistImportTaskInfo); err != nil { return err } found = true } } else { log.Warn("failed to load task info from Etcd", zap.String("value", v), zap.Error(err)) } } if !found { return errors.New("failed to update import task state, ID not found: " + strconv.FormatInt(taskID, 10)) } return nil } func (m *importManager) setCollectionPartitionName(colID, partID int64, task *datapb.ImportTaskInfo) error { if m.getCollectionName != nil { colName, partName, err := m.getCollectionName(colID, partID) if err == nil { task.CollectionName = colName task.PartitionName = partName return nil } log.Error("failed to setCollectionPartitionName", zap.Int64("collection ID", colID), zap.Int64("partition ID", partID), zap.Error(err)) } return errors.New("failed to setCollectionPartitionName for import task") } func (m *importManager) copyTaskInfo(input *datapb.ImportTaskInfo, output *milvuspb.GetImportStateResponse) { output.Status = &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, } output.Id = input.GetId() output.CollectionId = input.GetCollectionId() output.State = input.GetState().GetStateCode() output.RowCount = input.GetState().GetRowCount() output.IdList = input.GetState().GetRowIds() output.SegmentIds = input.GetState().GetSegments() output.CreateTs = input.GetCreateTs() output.Infos = append(output.Infos, &commonpb.KeyValuePair{Key: importutil.Files, Value: strings.Join(input.GetFiles(), ",")}) output.Infos = append(output.Infos, &commonpb.KeyValuePair{Key: importutil.CollectionName, Value: input.GetCollectionName()}) output.Infos = append(output.Infos, &commonpb.KeyValuePair{Key: importutil.PartitionName, Value: input.GetPartitionName()}) output.Infos = append(output.Infos, &commonpb.KeyValuePair{ Key: importutil.FailedReason, Value: input.GetState().GetErrorMessage(), }) output.Infos = append(output.Infos, input.Infos...) } // getTaskState looks for task with the given ID and returns its import state. func (m *importManager) getTaskState(tID int64) *milvuspb.GetImportStateResponse { resp := &milvuspb.GetImportStateResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: "import task id doesn't exist", }, Infos: make([]*commonpb.KeyValuePair, 0), } // (1) Search in pending tasks list. found := false m.pendingLock.Lock() for _, t := range m.pendingTasks { if tID == t.Id { m.copyTaskInfo(t, resp) found = true break } } m.pendingLock.Unlock() if found { return resp } // (2) Search in working tasks map. m.workingLock.Lock() if v, ok := m.workingTasks[tID]; ok { found = true m.copyTaskInfo(v, resp) } m.workingLock.Unlock() if found { return resp } // (3) Search in Etcd. if v, err := m.taskStore.Load(BuildImportTaskKey(tID)); err == nil && v != "" { ti := &datapb.ImportTaskInfo{} if err := proto.Unmarshal([]byte(v), ti); err != nil { log.Error("failed to unmarshal proto", zap.String("taskInfo", v), zap.Error(err)) } else { m.copyTaskInfo(ti, resp) found = true } } else { log.Warn("failed to load task info from Etcd", zap.String("value", v), zap.Error(err)) } if found { log.Info("getting import task state", zap.Int64("task ID", tID), zap.Any("state", resp.State), zap.Int64s("segment", resp.SegmentIds)) return resp } log.Debug("get import task state failed", zap.Int64("taskID", tID)) return resp } // loadFromTaskStore loads task info from task store (Etcd). // loadFromTaskStore also adds these tasks as pending import tasks, and mark // other in-progress tasks as failed, when `load2Mem` is set to `true`. // loadFromTaskStore instead returns a list of all import tasks if `load2Mem` is set to `false`. func (m *importManager) loadFromTaskStore(load2Mem bool) ([]*datapb.ImportTaskInfo, error) { // log.Debug("import manager starts loading from Etcd") _, v, err := m.taskStore.LoadWithPrefix(Params.RootCoordCfg.ImportTaskSubPath.GetValue()) if err != nil { log.Error("import manager failed to load from Etcd", zap.Error(err)) return nil, err } var taskList []*datapb.ImportTaskInfo for i := range v { ti := &datapb.ImportTaskInfo{} if err := proto.Unmarshal([]byte(v[i]), ti); err != nil { log.Error("failed to unmarshal proto", zap.String("taskInfo", v[i]), zap.Error(err)) // Ignore bad protos. continue } if load2Mem { // Put pending tasks back to pending task list. if ti.GetState().GetStateCode() == commonpb.ImportState_ImportPending { log.Info("task has been reloaded as a pending task", zap.Int64("task ID", ti.GetId())) m.pendingLock.Lock() m.pendingTasks = append(m.pendingTasks, ti) m.pendingLock.Unlock() } else { // other non-failed and non-completed tasks should be marked failed, so the bad s egments // can be cleaned up in `removeBadImportSegmentsLoop`. if ti.GetState().GetStateCode() != commonpb.ImportState_ImportFailed && ti.GetState().GetStateCode() != commonpb.ImportState_ImportFailedAndCleaned && ti.GetState().GetStateCode() != commonpb.ImportState_ImportCompleted { ti.State.StateCode = commonpb.ImportState_ImportFailed if ti.GetState().GetErrorMessage() == "" { ti.State.ErrorMessage = "task marked failed as service restarted" } else { ti.State.ErrorMessage = fmt.Sprintf("%s; task marked failed as service restarted", ti.GetState().GetErrorMessage()) } if err := m.persistTaskInfo(ti); err != nil { log.Error("failed to mark an old task as expired", zap.Int64("task ID", ti.GetId()), zap.Error(err)) } log.Info("task has been marked failed while reloading", zap.Int64("task ID", ti.GetId())) } } } else { taskList = append(taskList, ti) } } return taskList, nil } // persistTaskInfo stores or updates the import task info in Etcd. func (m *importManager) persistTaskInfo(ti *datapb.ImportTaskInfo) error { log.Info("updating import task info in Etcd", zap.Int64("task ID", ti.GetId())) var taskInfo []byte var err error if taskInfo, err = proto.Marshal(ti); err != nil { log.Error("failed to marshall task info proto", zap.Int64("task ID", ti.GetId()), zap.Error(err)) return err } if err = m.taskStore.Save(BuildImportTaskKey(ti.GetId()), string(taskInfo)); err != nil { log.Error("failed to update import task info in Etcd", zap.Int64("task ID", ti.GetId()), zap.Error(err)) return err } return nil } // yieldTaskInfo removes the task info from Etcd. func (m *importManager) yieldTaskInfo(tID int64) error { log.Info("removing import task info from Etcd", zap.Int64("task ID", tID)) if err := m.taskStore.Remove(BuildImportTaskKey(tID)); err != nil { log.Error("failed to update import task info in Etcd", zap.Int64("task ID", tID), zap.Error(err)) return err } return nil } // expireOldTasks removes expired tasks from memory. func (m *importManager) expireOldTasksFromMem() { // no need to expire pending tasks. With old working tasks finish or turn into expired, datanodes back to idle, // let the sendOutTasksLoop() push pending tasks into datanodes. // expire old working tasks. func() { m.workingLock.Lock() defer m.workingLock.Unlock() for _, v := range m.workingTasks { taskExpiredAndStateUpdated := false if v.GetState().GetStateCode() != commonpb.ImportState_ImportCompleted && taskExpired(v) { log.Info("a working task has expired and will be marked as failed", zap.Int64("task ID", v.GetId()), zap.Int64("startTs", v.GetStartTs()), zap.Float64("ImportTaskExpiration", Params.RootCoordCfg.ImportTaskExpiration.GetAsFloat())) taskID := v.GetId() m.workingLock.Unlock() // Remove DataNode from busy node list, so it can serve other tasks again. m.busyNodesLock.Lock() delete(m.busyNodes, v.GetDatanodeId()) m.busyNodesLock.Unlock() if err := m.setImportTaskStateAndReason(taskID, commonpb.ImportState_ImportFailed, "the import task has timed out"); err != nil { log.Error("failed to set import task state", zap.Int64("task ID", taskID), zap.Any("target state", commonpb.ImportState_ImportFailed)) } else { taskExpiredAndStateUpdated = true } m.workingLock.Lock() if taskExpiredAndStateUpdated { // Remove this task from memory. delete(m.workingTasks, v.GetId()) } } } }() } // expireOldTasksFromEtcd removes tasks from Etcd that are over `ImportTaskRetention` seconds old. func (m *importManager) expireOldTasksFromEtcd() { var vs []string var err error // Collect all import task records. if _, vs, err = m.taskStore.LoadWithPrefix(Params.RootCoordCfg.ImportTaskSubPath.GetValue()); err != nil { log.Error("failed to load import tasks from Etcd during task cleanup") return } // Loop through all import tasks in Etcd and look for the ones that have passed retention period. for _, val := range vs { ti := &datapb.ImportTaskInfo{} if err := proto.Unmarshal([]byte(val), ti); err != nil { log.Error("failed to unmarshal proto", zap.String("taskInfo", val), zap.Error(err)) // Ignore bad protos. This is just a cleanup task, so we are not panicking. continue } if taskPastRetention(ti) { log.Info("an import task has passed retention period and will be removed from Etcd", zap.Int64("task ID", ti.GetId()), zap.Int64("createTs", ti.GetCreateTs()), zap.Float64("ImportTaskRetention", Params.RootCoordCfg.ImportTaskRetention.GetAsFloat())) if err = m.yieldTaskInfo(ti.GetId()); err != nil { log.Error("failed to remove import task from Etcd", zap.Int64("task ID", ti.GetId()), zap.Error(err)) } } } } // releaseHangingBusyDataNode checks if a busy DataNode has been 'busy' for an unexpected long time. // We will then remove these DataNodes from `busy list`. func (m *importManager) releaseHangingBusyDataNode() { m.busyNodesLock.Lock() for nodeID, ts := range m.busyNodes { log.Info("busy DataNode found", zap.Int64("node ID", nodeID), zap.Int64("busy duration (seconds)", time.Now().Unix()-ts), ) if Params.RootCoordCfg.ImportTaskExpiration.GetAsFloat() <= float64(time.Now().Unix()-ts) { log.Warn("release a hanging busy DataNode", zap.Int64("node ID", nodeID)) delete(m.busyNodes, nodeID) } } m.busyNodesLock.Unlock() } func rearrangeTasks(tasks []*milvuspb.GetImportStateResponse) { sort.Slice(tasks, func(i, j int) bool { return tasks[i].GetId() < tasks[j].GetId() }) } func (m *importManager) listAllTasks(colID int64, limit int64) ([]*milvuspb.GetImportStateResponse, error) { var importTasks []*datapb.ImportTaskInfo var err error if importTasks, err = m.loadFromTaskStore(false); err != nil { log.Error("failed to load from task store", zap.Error(err)) return nil, fmt.Errorf("failed to load task list from etcd, error: %w", err) } tasks := make([]*milvuspb.GetImportStateResponse, 0) // filter tasks by collection id // if colID is negative, we will return all tasks for _, task := range importTasks { if colID < 0 || colID == task.GetCollectionId() { currTask := &milvuspb.GetImportStateResponse{} m.copyTaskInfo(task, currTask) tasks = append(tasks, currTask) } } // arrange tasks by id in ascending order, actually, id is the create time of a task rearrangeTasks(tasks) // if limit is 0 or larger than length of tasks, return all tasks if limit <= 0 || limit >= int64(len(tasks)) { return tasks, nil } // return the newly tasks from the tail return tasks[len(tasks)-int(limit):], nil } // removeBadImportSegments marks segments of a failed import task as `dropped`. func (m *importManager) removeBadImportSegments(ctx context.Context) { var taskList []*datapb.ImportTaskInfo var err error if taskList, err = m.loadFromTaskStore(false); err != nil { log.Error("failed to load from task store", zap.Error(err)) return } for _, t := range taskList { // Only check newly failed tasks. if t.GetState().GetStateCode() != commonpb.ImportState_ImportFailed { continue } log.Info("trying to mark segments as dropped", zap.Int64("task ID", t.GetId()), zap.Int64s("segment IDs", t.GetState().GetSegments())) if err = m.setImportTaskState(t.GetId(), commonpb.ImportState_ImportFailedAndCleaned); err != nil { log.Warn("failed to set ", zap.Int64("task ID", t.GetId()), zap.Error(err)) } } } // BuildImportTaskKey constructs and returns an Etcd key with given task ID. func BuildImportTaskKey(taskID int64) string { return fmt.Sprintf("%s%s%d", Params.RootCoordCfg.ImportTaskSubPath.GetValue(), delimiter, taskID) } // taskExpired returns true if the in-mem task is considered expired. func taskExpired(ti *datapb.ImportTaskInfo) bool { return Params.RootCoordCfg.ImportTaskExpiration.GetAsFloat() <= float64(time.Now().Unix()-ti.GetStartTs()) } // taskPastRetention returns true if the task is considered expired in Etcd. func taskPastRetention(ti *datapb.ImportTaskInfo) bool { return Params.RootCoordCfg.ImportTaskRetention.GetAsFloat() <= float64(time.Now().Unix()-ti.GetCreateTs()) } func tryUpdateErrMsg(errReason string, toPersistImportTaskInfo *datapb.ImportTaskInfo) { if errReason != "" { if toPersistImportTaskInfo.GetState().GetErrorMessage() == "" { toPersistImportTaskInfo.State.ErrorMessage = errReason } else { toPersistImportTaskInfo.State.ErrorMessage = fmt.Sprintf("%s; %s", toPersistImportTaskInfo.GetState().GetErrorMessage(), errReason) } } } func cloneImportTaskInfo(taskInfo *datapb.ImportTaskInfo) *datapb.ImportTaskInfo { cloned := &datapb.ImportTaskInfo{ Id: taskInfo.GetId(), DatanodeId: taskInfo.GetDatanodeId(), CollectionId: taskInfo.GetCollectionId(), PartitionId: taskInfo.GetPartitionId(), ChannelNames: taskInfo.GetChannelNames(), Files: taskInfo.GetFiles(), CreateTs: taskInfo.GetCreateTs(), State: taskInfo.GetState(), CollectionName: taskInfo.GetCollectionName(), PartitionName: taskInfo.GetPartitionName(), Infos: taskInfo.GetInfos(), StartTs: taskInfo.GetStartTs(), } return cloned }