milvus/internal/proxy/task_query.go

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package proxy
import (
"context"
"fmt"
"strconv"
"strings"
"github.com/cockroachdb/errors"
"github.com/golang/protobuf/proto"
"github.com/samber/lo"
"go.uber.org/zap"
"github.com/milvus-io/milvus-proto/go-api/v2/commonpb"
"github.com/milvus-io/milvus-proto/go-api/v2/milvuspb"
"github.com/milvus-io/milvus-proto/go-api/v2/schemapb"
"github.com/milvus-io/milvus/internal/parser/planparserv2"
"github.com/milvus-io/milvus/internal/proto/internalpb"
"github.com/milvus-io/milvus/internal/proto/planpb"
"github.com/milvus-io/milvus/internal/proto/querypb"
"github.com/milvus-io/milvus/internal/types"
"github.com/milvus-io/milvus/internal/util/exprutil"
typeutil2 "github.com/milvus-io/milvus/internal/util/typeutil"
"github.com/milvus-io/milvus/pkg/common"
"github.com/milvus-io/milvus/pkg/log"
"github.com/milvus-io/milvus/pkg/metrics"
"github.com/milvus-io/milvus/pkg/util/funcutil"
"github.com/milvus-io/milvus/pkg/util/merr"
"github.com/milvus-io/milvus/pkg/util/paramtable"
"github.com/milvus-io/milvus/pkg/util/timerecord"
"github.com/milvus-io/milvus/pkg/util/tsoutil"
"github.com/milvus-io/milvus/pkg/util/typeutil"
)
const (
WithCache = true
WithoutCache = false
)
const (
RetrieveTaskName = "RetrieveTask"
QueryTaskName = "QueryTask"
)
type queryTask struct {
Condition
*internalpb.RetrieveRequest
ctx context.Context
result *milvuspb.QueryResults
request *milvuspb.QueryRequest
qc types.QueryCoordClient
ids *schemapb.IDs
collectionName string
queryParams *queryParams
schema *schemaInfo
userOutputFields []string
resultBuf *typeutil.ConcurrentSet[*internalpb.RetrieveResults]
plan *planpb.PlanNode
partitionKeyMode bool
lb LBPolicy
channelsMvcc map[string]Timestamp
fastSkip bool
reQuery bool
allQueryCnt int64
totalRelatedDataSize int64
mustUsePartitionKey bool
}
type queryParams struct {
limit int64
offset int64
reduceStopForBest bool
}
// translateToOutputFieldIDs translates output fields name to output fields id.
func translateToOutputFieldIDs(outputFields []string, schema *schemapb.CollectionSchema) ([]UniqueID, error) {
outputFieldIDs := make([]UniqueID, 0, len(outputFields)+1)
if len(outputFields) == 0 {
for _, field := range schema.Fields {
if field.FieldID >= common.StartOfUserFieldID && !typeutil.IsVectorType(field.DataType) {
outputFieldIDs = append(outputFieldIDs, field.FieldID)
}
}
} else {
var pkFieldID UniqueID
for _, field := range schema.Fields {
if field.IsPrimaryKey {
pkFieldID = field.FieldID
}
}
for _, reqField := range outputFields {
var fieldFound bool
for _, field := range schema.Fields {
if reqField == field.Name {
outputFieldIDs = append(outputFieldIDs, field.FieldID)
fieldFound = true
break
}
}
if !fieldFound {
return nil, fmt.Errorf("field %s not exist", reqField)
}
}
// pk field needs to be in output field list
var pkFound bool
for _, outputField := range outputFieldIDs {
if outputField == pkFieldID {
pkFound = true
break
}
}
if !pkFound {
outputFieldIDs = append(outputFieldIDs, pkFieldID)
}
}
return outputFieldIDs, nil
}
func filterSystemFields(outputFieldIDs []UniqueID) []UniqueID {
filtered := make([]UniqueID, 0, len(outputFieldIDs))
for _, outputFieldID := range outputFieldIDs {
if !common.IsSystemField(outputFieldID) {
filtered = append(filtered, outputFieldID)
}
}
return filtered
}
// parseQueryParams get limit and offset from queryParamsPair, both are optional.
func parseQueryParams(queryParamsPair []*commonpb.KeyValuePair) (*queryParams, error) {
var (
limit int64
offset int64
reduceStopForBest bool
err error
)
reduceStopForBestStr, err := funcutil.GetAttrByKeyFromRepeatedKV(ReduceStopForBestKey, queryParamsPair)
// if reduce_stop_for_best is provided
if err == nil {
reduceStopForBest, err = strconv.ParseBool(reduceStopForBestStr)
if err != nil {
return nil, merr.WrapErrParameterInvalid("true or false", reduceStopForBestStr,
"value for reduce_stop_for_best is invalid")
}
}
limitStr, err := funcutil.GetAttrByKeyFromRepeatedKV(LimitKey, queryParamsPair)
// if limit is not provided
if err != nil {
return &queryParams{limit: typeutil.Unlimited, reduceStopForBest: reduceStopForBest}, nil
}
limit, err = strconv.ParseInt(limitStr, 0, 64)
if err != nil {
return nil, fmt.Errorf("%s [%s] is invalid", LimitKey, limitStr)
}
offsetStr, err := funcutil.GetAttrByKeyFromRepeatedKV(OffsetKey, queryParamsPair)
// if offset is provided
if err == nil {
offset, err = strconv.ParseInt(offsetStr, 0, 64)
if err != nil {
return nil, fmt.Errorf("%s [%s] is invalid", OffsetKey, offsetStr)
}
}
// validate max result window.
if err = validateMaxQueryResultWindow(offset, limit); err != nil {
return nil, fmt.Errorf("invalid max query result window, %w", err)
}
return &queryParams{
limit: limit,
offset: offset,
reduceStopForBest: reduceStopForBest,
}, nil
}
func matchCountRule(outputs []string) bool {
return len(outputs) == 1 && strings.ToLower(strings.TrimSpace(outputs[0])) == "count(*)"
}
func createCntPlan(expr string, schemaHelper *typeutil.SchemaHelper) (*planpb.PlanNode, error) {
if expr == "" {
return &planpb.PlanNode{
Node: &planpb.PlanNode_Query{
Query: &planpb.QueryPlanNode{
Predicates: nil,
IsCount: true,
},
},
}, nil
}
plan, err := planparserv2.CreateRetrievePlan(schemaHelper, expr)
if err != nil {
return nil, merr.WrapErrAsInputError(merr.WrapErrParameterInvalidMsg("failed to create query plan: %v", err))
}
plan.Node.(*planpb.PlanNode_Query).Query.IsCount = true
return plan, nil
}
func (t *queryTask) createPlan(ctx context.Context) error {
schema := t.schema
cntMatch := matchCountRule(t.request.GetOutputFields())
if cntMatch {
var err error
t.plan, err = createCntPlan(t.request.GetExpr(), schema.schemaHelper)
t.userOutputFields = []string{"count(*)"}
return err
}
var err error
if t.plan == nil {
t.plan, err = planparserv2.CreateRetrievePlan(schema.schemaHelper, t.request.Expr)
if err != nil {
return merr.WrapErrAsInputError(merr.WrapErrParameterInvalidMsg("failed to create query plan: %v", err))
}
}
t.request.OutputFields, t.userOutputFields, err = translateOutputFields(t.request.OutputFields, t.schema, true)
if err != nil {
return err
}
outputFieldIDs, err := translateToOutputFieldIDs(t.request.GetOutputFields(), schema.CollectionSchema)
if err != nil {
return err
}
outputFieldIDs = append(outputFieldIDs, common.TimeStampField)
t.RetrieveRequest.OutputFieldsId = outputFieldIDs
t.plan.OutputFieldIds = outputFieldIDs
log.Ctx(ctx).Debug("translate output fields to field ids",
zap.Int64s("OutputFieldsID", t.OutputFieldsId),
zap.String("requestType", "query"))
return nil
}
func (t *queryTask) CanSkipAllocTimestamp() bool {
var consistencyLevel commonpb.ConsistencyLevel
useDefaultConsistency := t.request.GetUseDefaultConsistency()
if !useDefaultConsistency {
consistencyLevel = t.request.GetConsistencyLevel()
} else {
collID, err := globalMetaCache.GetCollectionID(context.Background(), t.request.GetDbName(), t.request.GetCollectionName())
if err != nil { // err is not nil if collection not exists
log.Warn("query task get collectionID failed, can't skip alloc timestamp",
zap.String("collectionName", t.request.GetCollectionName()), zap.Error(err))
return false
}
collectionInfo, err2 := globalMetaCache.GetCollectionInfo(context.Background(), t.request.GetDbName(), t.request.GetCollectionName(), collID)
if err2 != nil {
log.Warn("query task get collection info failed, can't skip alloc timestamp",
zap.String("collectionName", t.request.GetCollectionName()), zap.Error(err))
return false
}
consistencyLevel = collectionInfo.consistencyLevel
}
return consistencyLevel != commonpb.ConsistencyLevel_Strong
}
func (t *queryTask) PreExecute(ctx context.Context) error {
t.Base.MsgType = commonpb.MsgType_Retrieve
t.Base.SourceID = paramtable.GetNodeID()
collectionName := t.request.CollectionName
t.collectionName = collectionName
log := log.Ctx(ctx).With(zap.String("collectionName", collectionName),
zap.Strings("partitionNames", t.request.GetPartitionNames()),
zap.String("requestType", "query"))
if err := validateCollectionName(collectionName); err != nil {
log.Warn("Invalid collectionName.")
return err
}
log.Debug("Validate collectionName.")
collID, err := globalMetaCache.GetCollectionID(ctx, t.request.GetDbName(), collectionName)
if err != nil {
log.Warn("Failed to get collection id.", zap.String("collectionName", collectionName), zap.Error(err))
return merr.WrapErrAsInputErrorWhen(err, merr.ErrCollectionNotFound, merr.ErrDatabaseNotFound)
}
t.CollectionID = collID
log.Debug("Get collection ID by name", zap.Int64("collectionID", t.CollectionID))
t.partitionKeyMode, err = isPartitionKeyMode(ctx, t.request.GetDbName(), collectionName)
if err != nil {
log.Warn("check partition key mode failed", zap.Int64("collectionID", t.CollectionID), zap.Error(err))
return err
}
if t.partitionKeyMode && len(t.request.GetPartitionNames()) != 0 {
return merr.WrapErrAsInputError(merr.WrapErrParameterInvalidMsg("not support manually specifying the partition names if partition key mode is used"))
}
if t.mustUsePartitionKey && !t.partitionKeyMode {
return merr.WrapErrAsInputError(merr.WrapErrParameterInvalidMsg("must use partition key in the query request " +
"because the mustUsePartitionKey config is true"))
}
for _, tag := range t.request.PartitionNames {
if err := validatePartitionTag(tag, false); err != nil {
log.Warn("invalid partition name", zap.String("partition name", tag))
return err
}
}
log.Debug("Validate partition names.")
// fetch search_growing from query param
var ignoreGrowing bool
for i, kv := range t.request.GetQueryParams() {
if kv.GetKey() == IgnoreGrowingKey {
ignoreGrowing, err = strconv.ParseBool(kv.Value)
if err != nil {
return errors.New("parse search growing failed")
}
t.request.QueryParams = append(t.request.GetQueryParams()[:i], t.request.GetQueryParams()[i+1:]...)
break
}
}
t.RetrieveRequest.IgnoreGrowing = ignoreGrowing
queryParams, err := parseQueryParams(t.request.GetQueryParams())
if err != nil {
return err
}
t.RetrieveRequest.ReduceStopForBest = queryParams.reduceStopForBest
t.queryParams = queryParams
t.RetrieveRequest.Limit = queryParams.limit + queryParams.offset
schema, err := globalMetaCache.GetCollectionSchema(ctx, t.request.GetDbName(), t.collectionName)
if err != nil {
log.Warn("get collection schema failed", zap.Error(err))
return err
}
t.schema = schema
if t.ids != nil {
pkField := ""
for _, field := range schema.Fields {
if field.IsPrimaryKey {
pkField = field.Name
}
}
t.request.Expr = IDs2Expr(pkField, t.ids)
}
if err := t.createPlan(ctx); err != nil {
return err
}
t.plan.Node.(*planpb.PlanNode_Query).Query.Limit = t.RetrieveRequest.Limit
if planparserv2.IsAlwaysTruePlan(t.plan) && t.RetrieveRequest.Limit == typeutil.Unlimited {
return merr.WrapErrAsInputError(merr.WrapErrParameterInvalidMsg("empty expression should be used with limit"))
}
// convert partition names only when requery is false
if !t.reQuery {
partitionNames := t.request.GetPartitionNames()
if t.partitionKeyMode {
expr, err := exprutil.ParseExprFromPlan(t.plan)
if err != nil {
return err
}
partitionKeys := exprutil.ParseKeys(expr, exprutil.PartitionKey)
hashedPartitionNames, err := assignPartitionKeys(ctx, t.request.GetDbName(), t.request.CollectionName, partitionKeys)
if err != nil {
return err
}
partitionNames = append(partitionNames, hashedPartitionNames...)
}
t.RetrieveRequest.PartitionIDs, err = getPartitionIDs(ctx, t.request.GetDbName(), t.request.CollectionName, partitionNames)
if err != nil {
return err
}
}
// count with pagination
if t.plan.GetQuery().GetIsCount() && t.queryParams.limit != typeutil.Unlimited {
return merr.WrapErrAsInputError(merr.WrapErrParameterInvalidMsg("count entities with pagination is not allowed"))
}
t.RetrieveRequest.IsCount = t.plan.GetQuery().GetIsCount()
t.RetrieveRequest.SerializedExprPlan, err = proto.Marshal(t.plan)
if err != nil {
return err
}
// Set username for this query request,
if username, _ := GetCurUserFromContext(ctx); username != "" {
t.RetrieveRequest.Username = username
}
collectionInfo, err2 := globalMetaCache.GetCollectionInfo(ctx, t.request.GetDbName(), collectionName, t.CollectionID)
if err2 != nil {
log.Warn("Proxy::queryTask::PreExecute failed to GetCollectionInfo from cache",
zap.String("collectionName", collectionName), zap.Int64("collectionID", t.CollectionID),
zap.Error(err2))
return err2
}
guaranteeTs := t.request.GetGuaranteeTimestamp()
var consistencyLevel commonpb.ConsistencyLevel
useDefaultConsistency := t.request.GetUseDefaultConsistency()
if useDefaultConsistency {
consistencyLevel = collectionInfo.consistencyLevel
guaranteeTs = parseGuaranteeTsFromConsistency(guaranteeTs, t.BeginTs(), consistencyLevel)
} else {
consistencyLevel = t.request.GetConsistencyLevel()
// Compatibility logic, parse guarantee timestamp
if consistencyLevel == 0 && guaranteeTs > 0 {
guaranteeTs = parseGuaranteeTs(guaranteeTs, t.BeginTs())
} else {
// parse from guarantee timestamp and user input consistency level
guaranteeTs = parseGuaranteeTsFromConsistency(guaranteeTs, t.BeginTs(), consistencyLevel)
}
}
t.GuaranteeTimestamp = guaranteeTs
deadline, ok := t.TraceCtx().Deadline()
if ok {
t.TimeoutTimestamp = tsoutil.ComposeTSByTime(deadline, 0)
}
t.DbID = 0 // TODO
log.Debug("Query PreExecute done.",
zap.Uint64("guarantee_ts", guaranteeTs),
zap.Uint64("mvcc_ts", t.GetMvccTimestamp()),
zap.Uint64("timeout_ts", t.GetTimeoutTimestamp()))
return nil
}
func (t *queryTask) Execute(ctx context.Context) error {
tr := timerecord.NewTimeRecorder(fmt.Sprintf("proxy execute query %d", t.ID()))
defer tr.CtxElapse(ctx, "done")
log := log.Ctx(ctx).With(zap.Int64("collection", t.GetCollectionID()),
zap.Int64s("partitionIDs", t.GetPartitionIDs()),
zap.String("requestType", "query"))
t.resultBuf = typeutil.NewConcurrentSet[*internalpb.RetrieveResults]()
err := t.lb.Execute(ctx, CollectionWorkLoad{
db: t.request.GetDbName(),
collectionID: t.CollectionID,
collectionName: t.collectionName,
nq: 1,
exec: t.queryShard,
})
if err != nil {
log.Warn("fail to execute query", zap.Error(err))
return errors.Wrap(err, "failed to query")
}
log.Debug("Query Execute done.")
return nil
}
func (t *queryTask) PostExecute(ctx context.Context) error {
tr := timerecord.NewTimeRecorder("queryTask PostExecute")
defer func() {
tr.CtxElapse(ctx, "done")
}()
log := log.Ctx(ctx).With(zap.Int64("collection", t.GetCollectionID()),
zap.Int64s("partitionIDs", t.GetPartitionIDs()),
zap.String("requestType", "query"))
var err error
toReduceResults := make([]*internalpb.RetrieveResults, 0)
t.allQueryCnt = 0
t.totalRelatedDataSize = 0
select {
case <-t.TraceCtx().Done():
log.Warn("proxy", zap.Int64("Query: wait to finish failed, timeout!, msgID:", t.ID()))
return nil
default:
log.Debug("all queries are finished or canceled")
t.resultBuf.Range(func(res *internalpb.RetrieveResults) bool {
toReduceResults = append(toReduceResults, res)
t.allQueryCnt += res.GetAllRetrieveCount()
t.totalRelatedDataSize += res.GetCostAggregation().GetTotalRelatedDataSize()
log.Debug("proxy receives one query result", zap.Int64("sourceID", res.GetBase().GetSourceID()))
return true
})
}
metrics.ProxyDecodeResultLatency.WithLabelValues(strconv.FormatInt(paramtable.GetNodeID(), 10), metrics.QueryLabel).Observe(0.0)
tr.CtxRecord(ctx, "reduceResultStart")
reducer := createMilvusReducer(ctx, t.queryParams, t.RetrieveRequest, t.schema.CollectionSchema, t.plan, t.collectionName)
t.result, err = reducer.Reduce(toReduceResults)
if err != nil {
log.Warn("fail to reduce query result", zap.Error(err))
return err
}
t.result.OutputFields = t.userOutputFields
metrics.ProxyReduceResultLatency.WithLabelValues(strconv.FormatInt(paramtable.GetNodeID(), 10), metrics.QueryLabel).Observe(float64(tr.RecordSpan().Milliseconds()))
log.Debug("Query PostExecute done")
return nil
}
func (t *queryTask) queryShard(ctx context.Context, nodeID int64, qn types.QueryNodeClient, channel string) error {
needOverrideMvcc := false
mvccTs := t.MvccTimestamp
if len(t.channelsMvcc) > 0 {
mvccTs, needOverrideMvcc = t.channelsMvcc[channel]
// In fast mode, if there is no corresponding channel in channelsMvcc, quickly skip this query.
if !needOverrideMvcc && t.fastSkip {
return nil
}
}
retrieveReq := typeutil.Clone(t.RetrieveRequest)
retrieveReq.GetBase().TargetID = nodeID
if needOverrideMvcc && mvccTs > 0 {
retrieveReq.MvccTimestamp = mvccTs
}
req := &querypb.QueryRequest{
Req: retrieveReq,
DmlChannels: []string{channel},
Scope: querypb.DataScope_All,
}
log := log.Ctx(ctx).With(zap.Int64("collection", t.GetCollectionID()),
zap.Int64s("partitionIDs", t.GetPartitionIDs()),
zap.Int64("nodeID", nodeID),
zap.String("channel", channel))
result, err := qn.Query(ctx, req)
if err != nil {
log.Warn("QueryNode query return error", zap.Error(err))
globalMetaCache.DeprecateShardCache(t.request.GetDbName(), t.collectionName)
return err
}
if result.GetStatus().GetErrorCode() == commonpb.ErrorCode_NotShardLeader {
log.Warn("QueryNode is not shardLeader")
globalMetaCache.DeprecateShardCache(t.request.GetDbName(), t.collectionName)
return errInvalidShardLeaders
}
if result.GetStatus().GetErrorCode() != commonpb.ErrorCode_Success {
log.Warn("QueryNode query result error", zap.Any("errorCode", result.GetStatus().GetErrorCode()), zap.String("reason", result.GetStatus().GetReason()))
return errors.Wrapf(merr.Error(result.GetStatus()), "fail to Query on QueryNode %d", nodeID)
}
log.Debug("get query result")
t.resultBuf.Insert(result)
t.lb.UpdateCostMetrics(nodeID, result.CostAggregation)
return nil
}
// IDs2Expr converts ids slices to bool expresion with specified field name
func IDs2Expr(fieldName string, ids *schemapb.IDs) string {
var idsStr string
switch ids.GetIdField().(type) {
case *schemapb.IDs_IntId:
idsStr = strings.Trim(strings.Join(strings.Fields(fmt.Sprint(ids.GetIntId().GetData())), ", "), "[]")
case *schemapb.IDs_StrId:
strs := lo.Map(ids.GetStrId().GetData(), func(str string, _ int) string {
return fmt.Sprintf("\"%s\"", str)
})
idsStr = strings.Trim(strings.Join(strs, ", "), "[]")
}
return fieldName + " in [ " + idsStr + " ]"
}
func reduceRetrieveResults(ctx context.Context, retrieveResults []*internalpb.RetrieveResults, queryParams *queryParams) (*milvuspb.QueryResults, error) {
log.Ctx(ctx).Debug("reduceInternalRetrieveResults", zap.Int("len(retrieveResults)", len(retrieveResults)))
var (
ret = &milvuspb.QueryResults{}
skipDupCnt int64
loopEnd int
)
validRetrieveResults := []*internalpb.RetrieveResults{}
for _, r := range retrieveResults {
size := typeutil.GetSizeOfIDs(r.GetIds())
if r == nil || len(r.GetFieldsData()) == 0 || size == 0 {
continue
}
validRetrieveResults = append(validRetrieveResults, r)
loopEnd += size
}
if len(validRetrieveResults) == 0 {
return ret, nil
}
idSet := make(map[interface{}]struct{})
cursors := make([]int64, len(validRetrieveResults))
if queryParams != nil && queryParams.limit != typeutil.Unlimited {
// reduceStopForBest will try to get as many results as possible
// so loopEnd in this case will be set to the sum of all results' size
if !queryParams.reduceStopForBest {
loopEnd = int(queryParams.limit)
}
}
// handle offset
if queryParams != nil && queryParams.offset > 0 {
for i := int64(0); i < queryParams.offset; i++ {
sel, drainOneResult := typeutil.SelectMinPK(validRetrieveResults, cursors)
if sel == -1 || (queryParams.reduceStopForBest && drainOneResult) {
return ret, nil
}
cursors[sel]++
}
}
ret.FieldsData = typeutil.PrepareResultFieldData(validRetrieveResults[0].GetFieldsData(), int64(loopEnd))
var retSize int64
maxOutputSize := paramtable.Get().QuotaConfig.MaxOutputSize.GetAsInt64()
for j := 0; j < loopEnd; {
sel, drainOneResult := typeutil.SelectMinPK(validRetrieveResults, cursors)
if sel == -1 || (queryParams.reduceStopForBest && drainOneResult) {
break
}
pk := typeutil.GetPK(validRetrieveResults[sel].GetIds(), cursors[sel])
if _, ok := idSet[pk]; !ok {
retSize += typeutil.AppendFieldData(ret.FieldsData, validRetrieveResults[sel].GetFieldsData(), cursors[sel])
idSet[pk] = struct{}{}
j++
} else {
// primary keys duplicate
skipDupCnt++
}
// limit retrieve result to avoid oom
if retSize > maxOutputSize {
return nil, fmt.Errorf("query results exceed the maxOutputSize Limit %d", maxOutputSize)
}
cursors[sel]++
}
if skipDupCnt > 0 {
log.Ctx(ctx).Debug("skip duplicated query result while reducing QueryResults", zap.Int64("count", skipDupCnt))
}
return ret, nil
}
func reduceRetrieveResultsAndFillIfEmpty(ctx context.Context, retrieveResults []*internalpb.RetrieveResults, queryParams *queryParams, outputFieldsID []int64, schema *schemapb.CollectionSchema) (*milvuspb.QueryResults, error) {
result, err := reduceRetrieveResults(ctx, retrieveResults, queryParams)
if err != nil {
return nil, err
}
// filter system fields.
filtered := filterSystemFields(outputFieldsID)
if err := typeutil2.FillRetrieveResultIfEmpty(typeutil2.NewMilvusResult(result), filtered, schema); err != nil {
return nil, fmt.Errorf("failed to fill retrieve results: %s", err.Error())
}
return result, nil
}
func (t *queryTask) TraceCtx() context.Context {
return t.ctx
}
func (t *queryTask) ID() UniqueID {
return t.Base.MsgID
}
func (t *queryTask) SetID(uid UniqueID) {
t.Base.MsgID = uid
}
func (t *queryTask) Name() string {
return RetrieveTaskName
}
func (t *queryTask) Type() commonpb.MsgType {
return t.Base.MsgType
}
func (t *queryTask) BeginTs() Timestamp {
return t.Base.Timestamp
}
func (t *queryTask) EndTs() Timestamp {
return t.Base.Timestamp
}
func (t *queryTask) SetTs(ts Timestamp) {
if t.reQuery && t.Base.Timestamp != 0 {
return
}
t.Base.Timestamp = ts
}
func (t *queryTask) OnEnqueue() error {
t.Base.MsgType = commonpb.MsgType_Retrieve
return nil
}