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https://gitee.com/milvus-io/milvus.git
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5d752498e7
issue: #31480 #31481 release duplicate l0 segment task, which execute on old delegator may cause segment lack, and execute on new delegator may break new delegator's leader view. This PR skip release duplicate l0 segment by segment_checker, cause l0 segment will be released with unsub channel --------- Signed-off-by: Wei Liu <wei.liu@zilliz.com>
449 lines
16 KiB
Go
449 lines
16 KiB
Go
// Licensed to the LF AI & Data foundation under one
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// or more contributor license agreements. See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership. The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License. You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package checkers
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import (
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"context"
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"sort"
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"time"
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"github.com/samber/lo"
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"go.opentelemetry.io/otel/trace"
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"go.uber.org/zap"
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"github.com/milvus-io/milvus/internal/proto/datapb"
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"github.com/milvus-io/milvus/internal/proto/querypb"
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"github.com/milvus-io/milvus/internal/querycoordv2/balance"
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"github.com/milvus-io/milvus/internal/querycoordv2/meta"
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. "github.com/milvus-io/milvus/internal/querycoordv2/params"
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"github.com/milvus-io/milvus/internal/querycoordv2/session"
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"github.com/milvus-io/milvus/internal/querycoordv2/task"
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"github.com/milvus-io/milvus/internal/querycoordv2/utils"
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"github.com/milvus-io/milvus/pkg/log"
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)
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const initialTargetVersion = int64(0)
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type SegmentChecker struct {
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*checkerActivation
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meta *meta.Meta
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dist *meta.DistributionManager
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targetMgr *meta.TargetManager
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balancer balance.Balance
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nodeMgr *session.NodeManager
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}
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func NewSegmentChecker(
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meta *meta.Meta,
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dist *meta.DistributionManager,
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targetMgr *meta.TargetManager,
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balancer balance.Balance,
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nodeMgr *session.NodeManager,
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) *SegmentChecker {
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return &SegmentChecker{
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checkerActivation: newCheckerActivation(),
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meta: meta,
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dist: dist,
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targetMgr: targetMgr,
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balancer: balancer,
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nodeMgr: nodeMgr,
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}
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}
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func (c *SegmentChecker) ID() utils.CheckerType {
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return utils.SegmentChecker
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}
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func (c *SegmentChecker) Description() string {
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return "SegmentChecker checks the lack of segments, or some segments are redundant"
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}
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func (c *SegmentChecker) readyToCheck(collectionID int64) bool {
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metaExist := (c.meta.GetCollection(collectionID) != nil)
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targetExist := c.targetMgr.IsNextTargetExist(collectionID) || c.targetMgr.IsCurrentTargetExist(collectionID)
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return metaExist && targetExist
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}
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func (c *SegmentChecker) Check(ctx context.Context) []task.Task {
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if !c.IsActive() {
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return nil
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}
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collectionIDs := c.meta.CollectionManager.GetAll()
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results := make([]task.Task, 0)
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for _, cid := range collectionIDs {
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if c.readyToCheck(cid) {
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replicas := c.meta.ReplicaManager.GetByCollection(cid)
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for _, r := range replicas {
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results = append(results, c.checkReplica(ctx, r)...)
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}
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}
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}
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// find already released segments which are not contained in target
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segments := c.dist.SegmentDistManager.GetByFilter(nil)
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released := utils.FilterReleased(segments, collectionIDs)
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reduceTasks := c.createSegmentReduceTasks(ctx, released, meta.NilReplica, querypb.DataScope_Historical)
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task.SetReason("collection released", reduceTasks...)
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results = append(results, reduceTasks...)
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task.SetPriority(task.TaskPriorityNormal, results...)
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return results
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}
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func (c *SegmentChecker) checkReplica(ctx context.Context, replica *meta.Replica) []task.Task {
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ret := make([]task.Task, 0)
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// compare with targets to find the lack and redundancy of segments
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lacks, redundancies := c.getSealedSegmentDiff(replica.GetCollectionID(), replica.GetID())
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// loadCtx := trace.ContextWithSpan(context.Background(), c.meta.GetCollection(replica.CollectionID).LoadSpan)
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tasks := c.createSegmentLoadTasks(c.getTraceCtx(ctx, replica.CollectionID), lacks, replica)
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task.SetReason("lacks of segment", tasks...)
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ret = append(ret, tasks...)
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redundancies = c.filterSegmentInUse(replica, redundancies)
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tasks = c.createSegmentReduceTasks(c.getTraceCtx(ctx, replica.CollectionID), redundancies, replica, querypb.DataScope_Historical)
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task.SetReason("segment not exists in target", tasks...)
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ret = append(ret, tasks...)
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// compare inner dists to find repeated loaded segments
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redundancies = c.findRepeatedSealedSegments(replica.GetID())
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redundancies = c.filterExistedOnLeader(replica, redundancies)
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tasks = c.createSegmentReduceTasks(c.getTraceCtx(ctx, replica.CollectionID), redundancies, replica, querypb.DataScope_Historical)
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task.SetReason("redundancies of segment", tasks...)
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ret = append(ret, tasks...)
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// compare with target to find the lack and redundancy of segments
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_, redundancies = c.getGrowingSegmentDiff(replica.GetCollectionID(), replica.GetID())
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tasks = c.createSegmentReduceTasks(c.getTraceCtx(ctx, replica.CollectionID), redundancies, replica, querypb.DataScope_Streaming)
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task.SetReason("streaming segment not exists in target", tasks...)
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ret = append(ret, tasks...)
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return ret
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}
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// GetGrowingSegmentDiff get streaming segment diff between leader view and target
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func (c *SegmentChecker) getGrowingSegmentDiff(collectionID int64,
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replicaID int64,
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) (toLoad []*datapb.SegmentInfo, toRelease []*meta.Segment) {
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replica := c.meta.Get(replicaID)
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if replica == nil {
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log.Info("replica does not exist, skip it")
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return
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}
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log := log.Ctx(context.TODO()).WithRateGroup("qcv2.SegmentChecker", 1, 60).With(
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zap.Int64("collectionID", collectionID),
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zap.Int64("replicaID", replica.ID))
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leaders := c.dist.ChannelDistManager.GetShardLeadersByReplica(replica)
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// distMgr.LeaderViewManager.
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for channelName, node := range leaders {
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view := c.dist.LeaderViewManager.GetLeaderShardView(node, channelName)
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if view == nil {
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log.Info("leaderView is not ready, skip", zap.String("channelName", channelName), zap.Int64("node", node))
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continue
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}
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targetVersion := c.targetMgr.GetCollectionTargetVersion(collectionID, meta.CurrentTarget)
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if view.TargetVersion != targetVersion {
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// before shard delegator update it's readable version, skip release segment
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log.RatedInfo(20, "before shard delegator update it's readable version, skip release segment",
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zap.String("channelName", channelName),
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zap.Int64("nodeID", node),
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zap.Int64("leaderVersion", view.TargetVersion),
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zap.Int64("currentVersion", targetVersion),
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)
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continue
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}
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nextTargetSegmentIDs := c.targetMgr.GetGrowingSegmentsByCollection(collectionID, meta.NextTarget)
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currentTargetSegmentIDs := c.targetMgr.GetGrowingSegmentsByCollection(collectionID, meta.CurrentTarget)
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currentTargetChannelMap := c.targetMgr.GetDmChannelsByCollection(collectionID, meta.CurrentTarget)
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// get segment which exist on leader view, but not on current target and next target
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for _, segment := range view.GrowingSegments {
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if !currentTargetSegmentIDs.Contain(segment.GetID()) && !nextTargetSegmentIDs.Contain(segment.GetID()) {
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if channel, ok := currentTargetChannelMap[segment.InsertChannel]; ok {
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timestampInSegment := segment.GetStartPosition().GetTimestamp()
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timestampInTarget := channel.GetSeekPosition().GetTimestamp()
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// filter toRelease which seekPosition is newer than next target dmChannel
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if timestampInSegment < timestampInTarget {
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log.Info("growing segment not exist in target, so release it",
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zap.Int64("segmentID", segment.GetID()),
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)
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toRelease = append(toRelease, segment)
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}
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}
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}
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}
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}
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return
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}
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// GetSealedSegmentDiff get historical segment diff between target and dist
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func (c *SegmentChecker) getSealedSegmentDiff(
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collectionID int64,
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replicaID int64,
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) (toLoad []*datapb.SegmentInfo, toRelease []*meta.Segment) {
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replica := c.meta.Get(replicaID)
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if replica == nil {
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log.Info("replica does not exist, skip it")
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return
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}
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dist := c.getSealedSegmentsDist(replica)
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sort.Slice(dist, func(i, j int) bool {
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return dist[i].Version < dist[j].Version
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})
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distMap := make(map[int64]int64)
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for _, s := range dist {
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distMap[s.GetID()] = s.Node
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}
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nextTargetMap := c.targetMgr.GetSealedSegmentsByCollection(collectionID, meta.NextTarget)
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currentTargetMap := c.targetMgr.GetSealedSegmentsByCollection(collectionID, meta.CurrentTarget)
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// Segment which exist on next target, but not on dist
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for segmentID, segment := range nextTargetMap {
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node, existInDist := distMap[segmentID]
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l0WithWrongLocation := false
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if existInDist && segment.GetLevel() == datapb.SegmentLevel_L0 {
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// the L0 segments have to been in the same node as the channel watched
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leader := c.dist.LeaderViewManager.GetLatestLeadersByReplicaShard(replica, segment.GetInsertChannel())
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l0WithWrongLocation = leader != nil && node != leader.ID
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}
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if !existInDist || l0WithWrongLocation {
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toLoad = append(toLoad, segment)
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}
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}
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// l0 Segment which exist on current target, but not on dist
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for segmentID, segment := range currentTargetMap {
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// to avoid generate duplicate segment task
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if nextTargetMap[segmentID] != nil {
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continue
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}
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node, existInDist := distMap[segmentID]
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l0WithWrongLocation := false
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if existInDist && segment.GetLevel() == datapb.SegmentLevel_L0 {
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// the L0 segments have to been in the same node as the channel watched
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leader := c.dist.LeaderViewManager.GetLatestLeadersByReplicaShard(replica, segment.GetInsertChannel())
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l0WithWrongLocation = leader != nil && node != leader.ID
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}
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if !existInDist || l0WithWrongLocation {
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toLoad = append(toLoad, segment)
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}
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}
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// get segment which exist on dist, but not on current target and next target
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for _, segment := range dist {
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_, existOnCurrent := currentTargetMap[segment.GetID()]
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_, existOnNext := nextTargetMap[segment.GetID()]
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// l0 segment should be release with channel together
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if !existOnNext && !existOnCurrent {
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toRelease = append(toRelease, segment)
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}
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}
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level0Segments := lo.Filter(toLoad, func(segment *datapb.SegmentInfo, _ int) bool {
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return segment.GetLevel() == datapb.SegmentLevel_L0
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})
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// L0 segment found,
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// QueryCoord loads the L0 segments first,
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// to make sure all L0 delta logs will be delivered to the other segments.
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if len(level0Segments) > 0 {
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toLoad = level0Segments
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}
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return
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}
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func (c *SegmentChecker) getSealedSegmentsDist(replica *meta.Replica) []*meta.Segment {
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ret := make([]*meta.Segment, 0)
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for _, node := range replica.GetNodes() {
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ret = append(ret, c.dist.SegmentDistManager.GetByFilter(meta.WithCollectionID(replica.GetCollectionID()), meta.WithNodeID(node))...)
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}
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return ret
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}
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func (c *SegmentChecker) findRepeatedSealedSegments(replicaID int64) []*meta.Segment {
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segments := make([]*meta.Segment, 0)
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replica := c.meta.Get(replicaID)
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if replica == nil {
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log.Info("replica does not exist, skip it")
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return segments
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}
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dist := c.getSealedSegmentsDist(replica)
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versions := make(map[int64]*meta.Segment)
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for _, s := range dist {
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// l0 segment should be release with channel together
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segment := c.targetMgr.GetSealedSegment(s.GetCollectionID(), s.GetID(), meta.CurrentTargetFirst)
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existInTarget := segment != nil
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isL0Segment := existInTarget && segment.GetLevel() == datapb.SegmentLevel_L0
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if isL0Segment {
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continue
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}
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maxVer, ok := versions[s.GetID()]
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if !ok {
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versions[s.GetID()] = s
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continue
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}
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if maxVer.Version <= s.Version {
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segments = append(segments, maxVer)
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versions[s.GetID()] = s
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} else {
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segments = append(segments, s)
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}
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}
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return segments
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}
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func (c *SegmentChecker) filterExistedOnLeader(replica *meta.Replica, segments []*meta.Segment) []*meta.Segment {
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filtered := make([]*meta.Segment, 0, len(segments))
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for _, s := range segments {
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leaderID, ok := c.dist.ChannelDistManager.GetShardLeader(replica, s.GetInsertChannel())
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if !ok {
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continue
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}
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view := c.dist.LeaderViewManager.GetLeaderShardView(leaderID, s.GetInsertChannel())
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seg, ok := view.Segments[s.GetID()]
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if ok && seg.NodeID == s.Node {
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// if this segment is serving on leader, do not remove it for search available
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continue
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}
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filtered = append(filtered, s)
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}
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return filtered
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}
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func (c *SegmentChecker) filterSegmentInUse(replica *meta.Replica, segments []*meta.Segment) []*meta.Segment {
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filtered := make([]*meta.Segment, 0, len(segments))
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for _, s := range segments {
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leaderID, ok := c.dist.ChannelDistManager.GetShardLeader(replica, s.GetInsertChannel())
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if !ok {
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continue
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}
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view := c.dist.LeaderViewManager.GetLeaderShardView(leaderID, s.GetInsertChannel())
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currentTargetVersion := c.targetMgr.GetCollectionTargetVersion(s.CollectionID, meta.CurrentTarget)
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partition := c.meta.CollectionManager.GetPartition(s.PartitionID)
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// if delegator has valid target version, and before it update to latest readable version, skip release it's sealed segment
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// Notice: if syncTargetVersion stuck, segment on delegator won't be released
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readableVersionNotUpdate := view.TargetVersion != initialTargetVersion && view.TargetVersion < currentTargetVersion
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if partition != nil && readableVersionNotUpdate {
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// leader view version hasn't been updated, segment maybe still in use
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continue
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}
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filtered = append(filtered, s)
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}
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return filtered
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}
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func (c *SegmentChecker) createSegmentLoadTasks(ctx context.Context, segments []*datapb.SegmentInfo, replica *meta.Replica) []task.Task {
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if len(segments) == 0 {
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return nil
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}
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// filter out stopping nodes and outbound nodes
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outboundNodes := c.meta.ResourceManager.CheckOutboundNodes(replica)
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availableNodes := lo.Filter(replica.Replica.GetNodes(), func(node int64, _ int) bool {
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stop, err := c.nodeMgr.IsStoppingNode(node)
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if err != nil {
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return false
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}
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return !outboundNodes.Contain(node) && !stop
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})
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if len(availableNodes) == 0 {
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return nil
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}
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isLevel0 := segments[0].GetLevel() == datapb.SegmentLevel_L0
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shardSegments := lo.GroupBy(segments, func(s *datapb.SegmentInfo) string {
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return s.GetInsertChannel()
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})
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plans := make([]balance.SegmentAssignPlan, 0)
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for shard, segments := range shardSegments {
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// if channel is not subscribed yet, skip load segments
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leader := c.dist.LeaderViewManager.GetLatestLeadersByReplicaShard(replica, shard)
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if leader == nil {
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continue
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}
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// L0 segment can only be assign to shard leader's node
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if isLevel0 {
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availableNodes = []int64{leader.ID}
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}
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segmentInfos := lo.Map(segments, func(s *datapb.SegmentInfo, _ int) *meta.Segment {
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return &meta.Segment{
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SegmentInfo: s,
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}
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})
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shardPlans := c.balancer.AssignSegment(replica.CollectionID, segmentInfos, availableNodes)
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for i := range shardPlans {
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shardPlans[i].Replica = replica
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}
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plans = append(plans, shardPlans...)
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}
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return balance.CreateSegmentTasksFromPlans(ctx, c.ID(), Params.QueryCoordCfg.SegmentTaskTimeout.GetAsDuration(time.Millisecond), plans)
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}
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func (c *SegmentChecker) createSegmentReduceTasks(ctx context.Context, segments []*meta.Segment, replica *meta.Replica, scope querypb.DataScope) []task.Task {
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ret := make([]task.Task, 0, len(segments))
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for _, s := range segments {
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action := task.NewSegmentActionWithScope(s.Node, task.ActionTypeReduce, s.GetInsertChannel(), s.GetID(), scope)
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task, err := task.NewSegmentTask(
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ctx,
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Params.QueryCoordCfg.SegmentTaskTimeout.GetAsDuration(time.Millisecond),
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c.ID(),
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s.GetCollectionID(),
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replica,
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action,
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)
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if err != nil {
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log.Warn("create segment reduce task failed",
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zap.Int64("collection", s.GetCollectionID()),
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zap.Int64("replica", replica.GetID()),
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zap.String("channel", s.GetInsertChannel()),
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zap.Int64("from", s.Node),
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zap.Error(err),
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)
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continue
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}
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ret = append(ret, task)
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}
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return ret
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}
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func (c *SegmentChecker) getTraceCtx(ctx context.Context, collectionID int64) context.Context {
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coll := c.meta.GetCollection(collectionID)
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if coll == nil || coll.LoadSpan == nil {
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return ctx
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}
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return trace.ContextWithSpan(ctx, coll.LoadSpan)
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}
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