milvus/internal/datanode/segment_replica_test.go

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// 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 datanode
import (
"context"
"encoding/binary"
"encoding/json"
"fmt"
"math"
"math/rand"
"testing"
"github.com/bits-and-blooms/bloom/v3"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/milvus-io/milvus/internal/common"
"github.com/milvus-io/milvus/internal/kv"
"github.com/milvus-io/milvus/internal/proto/internalpb"
"github.com/milvus-io/milvus/internal/storage"
)
func TestNewReplica(t *testing.T) {
rc := &RootCoordFactory{}
replica, err := newReplica(context.Background(), rc, 0)
assert.Nil(t, err)
assert.NotNil(t, replica)
}
type mockMinioKV struct {
kv.BaseKV
}
func (kv *mockMinioKV) LoadWithPrefix(prefix string) ([]string, []string, error) {
stats := &storage.Int64Stats{
FieldID: common.RowIDField,
Min: 0,
Max: 10,
BF: bloom.NewWithEstimates(bloomFilterSize, maxBloomFalsePositive),
}
buffer, _ := json.Marshal(stats)
return []string{"0"}, []string{string(buffer)}, nil
}
type mockPkfilterMergeError struct {
kv.BaseKV
}
func (kv *mockPkfilterMergeError) LoadWithPrefix(prefix string) ([]string, []string, error) {
stats := &storage.Int64Stats{
FieldID: common.RowIDField,
Min: 0,
Max: 10,
BF: bloom.NewWithEstimates(1, 0.0001),
}
buffer, _ := json.Marshal(stats)
return []string{"0"}, []string{string(buffer)}, nil
}
type mockMinioKVError struct {
kv.BaseKV
}
func (kv *mockMinioKVError) LoadWithPrefix(prefix string) ([]string, []string, error) {
return nil, nil, fmt.Errorf("mock error")
}
type mockMinioKVStatsError struct {
kv.BaseKV
}
func (kv *mockMinioKVStatsError) LoadWithPrefix(prefix string) ([]string, []string, error) {
return []string{"0"}, []string{"3123123,error,test"}, nil
}
func TestSegmentReplica_getCollectionAndPartitionID(te *testing.T) {
tests := []struct {
segInNew UniqueID
segInNormal UniqueID
segInFlushed UniqueID
inCollID UniqueID
inParID UniqueID
description string
}{
{100, 0, 0, 1, 10, "Segment 100 in NewSegments"},
{0, 200, 0, 2, 20, "Segment 200 in NormalSegments"},
{0, 0, 300, 3, 30, "Segment 300 in FlushedSegments"},
{0, 0, 0, 4, 40, "No Segment in replica"},
}
for _, test := range tests {
te.Run(test.description, func(t *testing.T) {
if test.segInNew != 0 {
sr := &SegmentReplica{
newSegments: map[UniqueID]*Segment{
test.segInNew: {
collectionID: test.inCollID,
partitionID: test.inParID,
segmentID: test.segInNew,
}},
}
collID, parID, err := sr.getCollectionAndPartitionID(test.segInNew)
assert.NoError(t, err)
assert.Equal(t, test.inCollID, collID)
assert.Equal(t, test.inParID, parID)
} else if test.segInNormal != 0 {
sr := &SegmentReplica{
normalSegments: map[UniqueID]*Segment{
test.segInNormal: {
collectionID: test.inCollID,
partitionID: test.inParID,
segmentID: test.segInNormal,
}},
}
collID, parID, err := sr.getCollectionAndPartitionID(test.segInNormal)
assert.NoError(t, err)
assert.Equal(t, test.inCollID, collID)
assert.Equal(t, test.inParID, parID)
} else if test.segInFlushed != 0 {
sr := &SegmentReplica{
flushedSegments: map[UniqueID]*Segment{
test.segInFlushed: {
collectionID: test.inCollID,
partitionID: test.inParID,
segmentID: test.segInFlushed,
}},
}
collID, parID, err := sr.getCollectionAndPartitionID(test.segInFlushed)
assert.NoError(t, err)
assert.Equal(t, test.inCollID, collID)
assert.Equal(t, test.inParID, parID)
} else {
sr := &SegmentReplica{}
collID, parID, err := sr.getCollectionAndPartitionID(1000)
assert.Error(t, err)
assert.Zero(t, collID)
assert.Zero(t, parID)
}
})
}
}
func TestSegmentReplica(t *testing.T) {
2021-06-21 17:28:03 +08:00
rc := &RootCoordFactory{}
collID := UniqueID(1)
t.Run("Test coll mot match", func(t *testing.T) {
replica, err := newReplica(context.Background(), rc, collID)
assert.Nil(t, err)
err = replica.addNewSegment(1, collID+1, 0, "", nil, nil)
assert.NotNil(t, err)
})
t.Run("Test segmentFlushed", func(t *testing.T) {
testReplica := &SegmentReplica{
newSegments: make(map[UniqueID]*Segment),
normalSegments: make(map[UniqueID]*Segment),
flushedSegments: make(map[UniqueID]*Segment),
}
type Test struct {
inisNew bool
inisFlushed bool
inSegID UniqueID
expectedisNew bool
expectedisFlushed bool
expectedSegID UniqueID
}
tests := []Test{
// new segment
{true, false, 1, false, true, 1},
{true, false, 2, false, true, 2},
{true, false, 3, false, true, 3},
// normal segment
{false, false, 10, false, true, 10},
{false, false, 20, false, true, 20},
{false, false, 30, false, true, 30},
// flushed segment
{false, true, 100, false, true, 100},
{false, true, 200, false, true, 200},
{false, true, 300, false, true, 300},
}
newSeg := func(sr *SegmentReplica, isNew, isFlushed bool, id UniqueID) {
ns := &Segment{segmentID: id}
ns.isNew.Store(isNew)
ns.isFlushed.Store(isFlushed)
if isNew && !isFlushed {
sr.newSegments[id] = ns
return
}
if !isNew && !isFlushed {
sr.normalSegments[id] = ns
return
}
if !isNew && isFlushed {
sr.flushedSegments[id] = ns
return
}
}
for _, te := range tests {
// prepare case
newSeg(testReplica, te.inisNew, te.inisFlushed, te.inSegID)
testReplica.segmentFlushed(te.inSegID)
flushedSeg := testReplica.flushedSegments[te.inSegID]
assert.Equal(t, te.expectedSegID, flushedSeg.segmentID)
assert.Equal(t, te.expectedisNew, flushedSeg.isNew.Load().(bool))
assert.Equal(t, te.expectedisFlushed, flushedSeg.isFlushed.Load().(bool))
}
})
}
func TestSegmentReplica_InterfaceMethod(te *testing.T) {
rc := &RootCoordFactory{}
te.Run("Test_addNewSegment", func(to *testing.T) {
tests := []struct {
isValidCase bool
replicaCollID UniqueID
inCollID UniqueID
inSegID UniqueID
instartPos *internalpb.MsgPosition
expectdIsNew bool
expectedIsFlushed bool
description string
}{
{isValidCase: false, replicaCollID: 1, inCollID: 2, inSegID: 300, description: "input CollID 2 mismatch with Replica collID"},
{true, 1, 1, 200, new(internalpb.MsgPosition), true, false, "nill address for startPos"},
{true, 1, 1, 200, &internalpb.MsgPosition{}, true, false, "empty struct for startPos"},
}
for _, test := range tests {
to.Run(test.description, func(t *testing.T) {
sr, err := newReplica(context.Background(), rc, test.replicaCollID)
assert.Nil(t, err)
require.False(t, sr.hasSegment(test.inSegID, true))
err = sr.addNewSegment(test.inSegID,
test.inCollID, 1, "", test.instartPos, &internalpb.MsgPosition{})
if test.isValidCase {
assert.NoError(t, err)
assert.True(t, sr.hasSegment(test.inSegID, true))
assert.Equal(t, test.expectdIsNew, sr.newSegments[test.inSegID].isNew.Load().(bool))
assert.Equal(t, test.expectedIsFlushed, sr.newSegments[test.inSegID].isFlushed.Load().(bool))
} else {
assert.Error(t, err)
assert.False(t, sr.hasSegment(test.inSegID, true))
}
})
}
})
te.Run("Test_addNormalSegment", func(to *testing.T) {
tests := []struct {
isValidCase bool
replicaCollID UniqueID
inCollID UniqueID
inSegID UniqueID
expectdIsNew bool
expectedIsFlushed bool
description string
}{
{isValidCase: false, replicaCollID: 1, inCollID: 2, inSegID: 300, description: "input CollID 2 mismatch with Replica collID"},
{true, 1, 1, 200, false, false, "normal case"},
}
for _, test := range tests {
to.Run(test.description, func(t *testing.T) {
sr, err := newReplica(context.Background(), rc, test.replicaCollID)
sr.minIOKV = &mockMinioKV{}
assert.Nil(t, err)
require.False(t, sr.hasSegment(test.inSegID, true))
err = sr.addNormalSegment(test.inSegID, test.inCollID, 1, "", 0, &segmentCheckPoint{})
if test.isValidCase {
assert.NoError(t, err)
assert.True(t, sr.hasSegment(test.inSegID, true))
assert.Equal(t, test.expectdIsNew, sr.normalSegments[test.inSegID].isNew.Load().(bool))
assert.Equal(t, test.expectedIsFlushed, sr.normalSegments[test.inSegID].isFlushed.Load().(bool))
} else {
assert.Error(t, err)
assert.False(t, sr.hasSegment(test.inSegID, true))
}
})
}
})
te.Run("Test_listSegmentsCheckPoints", func(to *testing.T) {
tests := []struct {
newSegID UniqueID
newSegCP *segmentCheckPoint
normalSegID UniqueID
normalSegCP *segmentCheckPoint
flushedSegID UniqueID
flushedSegCP *segmentCheckPoint
description string
}{
{newSegID: 100, newSegCP: new(segmentCheckPoint),
description: "Only contain new Seg 100"},
{normalSegID: 200, normalSegCP: new(segmentCheckPoint),
description: "Only contain normal Seg 200"},
{flushedSegID: 300, flushedSegCP: new(segmentCheckPoint),
description: "Only contain flushed Seg 300"},
{100, new(segmentCheckPoint), 200, new(segmentCheckPoint), 0, new(segmentCheckPoint),
"New seg 100 and normal seg 200"},
{100, new(segmentCheckPoint), 0, new(segmentCheckPoint), 300, new(segmentCheckPoint),
"New seg 100 and flushed seg 300"},
{0, new(segmentCheckPoint), 200, new(segmentCheckPoint), 300, new(segmentCheckPoint),
"Normal seg 200 and flushed seg 300"},
{100, new(segmentCheckPoint), 200, new(segmentCheckPoint), 300, new(segmentCheckPoint),
"New seg 100, normal seg 200 and flushed seg 300"},
}
for _, test := range tests {
to.Run(test.description, func(t *testing.T) {
sr := SegmentReplica{
newSegments: make(map[UniqueID]*Segment),
normalSegments: make(map[UniqueID]*Segment),
flushedSegments: make(map[UniqueID]*Segment),
}
expectdCount := 0
if test.newSegID != 0 {
sr.newSegments[test.newSegID] = &Segment{checkPoint: *test.newSegCP}
expectdCount++
}
if test.normalSegID != 0 {
sr.normalSegments[test.normalSegID] = &Segment{checkPoint: *test.normalSegCP}
expectdCount++
}
if test.flushedSegID != 0 {
sr.flushedSegments[test.flushedSegID] = &Segment{checkPoint: *test.flushedSegCP}
}
scp := sr.listSegmentsCheckPoints()
assert.Equal(t, expectdCount, len(scp))
})
}
})
te.Run("Test_updateSegmentEndPosition", func(to *testing.T) {
tests := []struct {
newSegID UniqueID
normalSegID UniqueID
flushedSegID UniqueID
inSegID UniqueID
description string
}{
{newSegID: 100, inSegID: 100,
description: "input seg 100 in newSegments"},
{newSegID: 100, inSegID: 101,
description: "input seg 101 not in newSegments"},
{normalSegID: 200, inSegID: 200,
description: "input seg 200 in normalSegments"},
{normalSegID: 200, inSegID: 201,
description: "input seg 201 not in normalSegments"},
{flushedSegID: 300, inSegID: 300,
description: "input seg 300 in flushedSegments"},
{flushedSegID: 300, inSegID: 301,
description: "input seg 301 not in flushedSegments"},
}
for _, test := range tests {
to.Run(test.description, func(t *testing.T) {
sr := SegmentReplica{
newSegments: make(map[UniqueID]*Segment),
normalSegments: make(map[UniqueID]*Segment),
flushedSegments: make(map[UniqueID]*Segment),
}
if test.newSegID != 0 {
sr.newSegments[test.newSegID] = &Segment{}
}
if test.normalSegID != 0 {
sr.normalSegments[test.normalSegID] = &Segment{}
}
if test.flushedSegID != 0 {
sr.flushedSegments[test.flushedSegID] = &Segment{}
}
sr.updateSegmentEndPosition(test.inSegID, new(internalpb.MsgPosition))
err := sr.removeSegment(0)
assert.Nil(t, err)
})
}
})
te.Run("Test_updateStatistics", func(to *testing.T) {
tests := []struct {
isvalidCase bool
newSegID UniqueID
normalSegID UniqueID
flushedSegID UniqueID
inSegID UniqueID
inNumRows int64
description string
}{
{isvalidCase: true, newSegID: 100, inSegID: 100, inNumRows: 100,
description: "input seg 100 in newSegments with numRows 100"},
{isvalidCase: false, newSegID: 100, inSegID: 101, inNumRows: 100,
description: "input seg 101 not in newSegments with numRows 100"},
{isvalidCase: true, normalSegID: 200, inSegID: 200, inNumRows: 200,
description: "input seg 200 in normalSegments with numRows 200"},
{isvalidCase: false, normalSegID: 200, inSegID: 201, inNumRows: 200,
description: "input seg 201 not in normalSegments with numRows 200"},
{isvalidCase: true, flushedSegID: 300, inSegID: 300, inNumRows: 300,
description: "input seg 300 in flushedSegments"},
{isvalidCase: false, flushedSegID: 300, inSegID: 301, inNumRows: 300,
description: "input seg 301 not in flushedSegments"},
}
for _, test := range tests {
to.Run(test.description, func(t *testing.T) {
sr := SegmentReplica{
newSegments: make(map[UniqueID]*Segment),
normalSegments: make(map[UniqueID]*Segment),
flushedSegments: make(map[UniqueID]*Segment),
}
if test.newSegID != 0 {
sr.newSegments[test.newSegID] = &Segment{}
}
if test.normalSegID != 0 {
sr.normalSegments[test.normalSegID] = &Segment{}
}
if test.flushedSegID != 0 { // not update flushed num rows
sr.flushedSegments[test.flushedSegID] = &Segment{
numRows: test.inNumRows,
}
}
sr.updateStatistics(test.inSegID, test.inNumRows)
if test.isvalidCase {
updates, err := sr.getSegmentStatisticsUpdates(test.inSegID)
assert.NoError(t, err)
assert.Equal(t, test.inNumRows, updates.GetNumRows())
assert.Equal(t, test.inSegID, updates.GetSegmentID())
sr.updateSegmentCheckPoint(10000)
} else {
updates, err := sr.getSegmentStatisticsUpdates(test.inSegID)
assert.Error(t, err)
assert.Nil(t, updates)
}
})
}
})
te.Run("Test_getCollectionSchema", func(to *testing.T) {
tests := []struct {
isValid bool
replicaCollID UniqueID
inputCollID UniqueID
metaServiceErr bool
description string
}{
{true, 1, 1, false, "Normal case"},
{false, 1, 2, false, "Input collID 2 mismatch with replicaCollID 1"},
{false, 1, 1, true, "RPC call fails"},
}
for _, test := range tests {
to.Run(test.description, func(t *testing.T) {
sr, err := newReplica(context.Background(), rc, test.replicaCollID)
assert.Nil(t, err)
if test.metaServiceErr {
rc.setCollectionID(-1)
} else {
rc.setCollectionID(1)
}
s, err := sr.getCollectionSchema(test.inputCollID, Timestamp(0))
if test.isValid {
assert.NoError(t, err)
assert.NotNil(t, s)
} else {
assert.Error(t, err)
assert.Nil(t, s)
}
})
}
})
te.Run("Test_addSegmentMinIOLoadError", func(to *testing.T) {
sr, err := newReplica(context.Background(), rc, 1)
assert.Nil(to, err)
sr.minIOKV = &mockMinioKVError{}
cpPos := &internalpb.MsgPosition{ChannelName: "insert-01", Timestamp: Timestamp(10)}
cp := &segmentCheckPoint{int64(10), *cpPos}
err = sr.addNormalSegment(1, 1, 2, "insert-01", int64(10), cp)
assert.NotNil(to, err)
err = sr.addFlushedSegment(1, 1, 2, "insert-01", int64(0))
assert.NotNil(to, err)
})
te.Run("Test_addSegmentStatsError", func(to *testing.T) {
sr, err := newReplica(context.Background(), rc, 1)
assert.Nil(to, err)
sr.minIOKV = &mockMinioKVStatsError{}
cpPos := &internalpb.MsgPosition{ChannelName: "insert-01", Timestamp: Timestamp(10)}
cp := &segmentCheckPoint{int64(10), *cpPos}
err = sr.addNormalSegment(1, 1, 2, "insert-01", int64(10), cp)
assert.NotNil(to, err)
err = sr.addFlushedSegment(1, 1, 2, "insert-01", int64(0))
assert.NotNil(to, err)
})
te.Run("Test_addSegmentPkfilterError", func(to *testing.T) {
sr, err := newReplica(context.Background(), rc, 1)
assert.Nil(to, err)
sr.minIOKV = &mockPkfilterMergeError{}
cpPos := &internalpb.MsgPosition{ChannelName: "insert-01", Timestamp: Timestamp(10)}
cp := &segmentCheckPoint{int64(10), *cpPos}
err = sr.addNormalSegment(1, 1, 2, "insert-01", int64(10), cp)
assert.NotNil(to, err)
err = sr.addFlushedSegment(1, 1, 2, "insert-01", int64(0))
assert.NotNil(to, err)
})
}
func TestInnerFunctionSegment(t *testing.T) {
rc := &RootCoordFactory{}
collID := UniqueID(1)
replica, err := newReplica(context.Background(), rc, collID)
assert.Nil(t, err)
replica.minIOKV = &mockMinioKV{}
assert.False(t, replica.hasSegment(0, true))
assert.False(t, replica.hasSegment(0, false))
startPos := &internalpb.MsgPosition{ChannelName: "insert-01", Timestamp: Timestamp(100)}
endPos := &internalpb.MsgPosition{ChannelName: "insert-01", Timestamp: Timestamp(200)}
err = replica.addNewSegment(0, 1, 2, "insert-01", startPos, endPos)
assert.NoError(t, err)
assert.True(t, replica.hasSegment(0, true))
assert.Equal(t, 1, len(replica.newSegments))
seg, ok := replica.newSegments[UniqueID(0)]
assert.True(t, ok)
require.NotNil(t, seg)
assert.Equal(t, UniqueID(0), seg.segmentID)
assert.Equal(t, UniqueID(1), seg.collectionID)
assert.Equal(t, UniqueID(2), seg.partitionID)
assert.Equal(t, "insert-01", seg.channelName)
assert.Equal(t, Timestamp(100), seg.startPos.Timestamp)
assert.Equal(t, Timestamp(200), seg.endPos.Timestamp)
assert.Equal(t, startPos.ChannelName, seg.checkPoint.pos.ChannelName)
assert.Equal(t, startPos.Timestamp, seg.checkPoint.pos.Timestamp)
assert.Equal(t, int64(0), seg.numRows)
assert.True(t, seg.isNew.Load().(bool))
assert.False(t, seg.isFlushed.Load().(bool))
replica.updateStatistics(0, 10)
assert.Equal(t, int64(10), seg.numRows)
cpPos := &internalpb.MsgPosition{ChannelName: "insert-01", Timestamp: Timestamp(10)}
cp := &segmentCheckPoint{int64(10), *cpPos}
err = replica.addNormalSegment(1, 1, 2, "insert-01", int64(10), cp)
assert.NoError(t, err)
assert.True(t, replica.hasSegment(1, true))
assert.Equal(t, 1, len(replica.normalSegments))
seg, ok = replica.normalSegments[UniqueID(1)]
assert.True(t, ok)
require.NotNil(t, seg)
assert.Equal(t, UniqueID(1), seg.segmentID)
assert.Equal(t, UniqueID(1), seg.collectionID)
assert.Equal(t, UniqueID(2), seg.partitionID)
assert.Equal(t, "insert-01", seg.channelName)
assert.Equal(t, cpPos.ChannelName, seg.checkPoint.pos.ChannelName)
assert.Equal(t, cpPos.Timestamp, seg.checkPoint.pos.Timestamp)
assert.Equal(t, int64(10), seg.numRows)
assert.False(t, seg.isNew.Load().(bool))
assert.False(t, seg.isFlushed.Load().(bool))
err = replica.addNormalSegment(1, 100000, 2, "invalid", int64(0), &segmentCheckPoint{})
assert.Error(t, err)
replica.updateStatistics(1, 10)
assert.Equal(t, int64(20), seg.numRows)
segPos := replica.listNewSegmentsStartPositions()
assert.Equal(t, 1, len(segPos))
assert.Equal(t, UniqueID(0), segPos[0].SegmentID)
assert.Equal(t, "insert-01", segPos[0].StartPosition.ChannelName)
assert.Equal(t, Timestamp(100), segPos[0].StartPosition.Timestamp)
assert.Equal(t, 0, len(replica.newSegments))
assert.Equal(t, 2, len(replica.normalSegments))
cps := replica.listSegmentsCheckPoints()
assert.Equal(t, 2, len(cps))
assert.Equal(t, startPos.Timestamp, cps[UniqueID(0)].pos.Timestamp)
assert.Equal(t, int64(0), cps[UniqueID(0)].numRows)
assert.Equal(t, cp.pos.Timestamp, cps[UniqueID(1)].pos.Timestamp)
assert.Equal(t, int64(10), cps[UniqueID(1)].numRows)
updates, err := replica.getSegmentStatisticsUpdates(0)
assert.NoError(t, err)
assert.Equal(t, int64(10), updates.NumRows)
updates, err = replica.getSegmentStatisticsUpdates(1)
assert.NoError(t, err)
assert.Equal(t, int64(20), updates.NumRows)
replica.updateSegmentCheckPoint(0)
assert.Equal(t, int64(10), replica.normalSegments[UniqueID(0)].checkPoint.numRows)
replica.updateSegmentCheckPoint(1)
assert.Equal(t, int64(20), replica.normalSegments[UniqueID(1)].checkPoint.numRows)
err = replica.addFlushedSegment(1, 1, 2, "insert-01", int64(0))
assert.Nil(t, err)
totalSegments := replica.filterSegments("insert-01", 0)
assert.Equal(t, len(totalSegments), 3)
}
func TestSegmentReplica_UpdatePKRange(t *testing.T) {
seg := &Segment{
pkFilter: bloom.NewWithEstimates(100000, 0.005),
maxPK: math.MinInt64,
minPK: math.MaxInt64,
}
cases := make([]int64, 0, 100)
for i := 0; i < 100; i++ {
cases = append(cases, rand.Int63())
}
buf := make([]byte, 8)
for _, c := range cases {
seg.updatePKRange([]int64{c})
assert.LessOrEqual(t, seg.minPK, c)
assert.GreaterOrEqual(t, seg.maxPK, c)
binary.BigEndian.PutUint64(buf, uint64(c))
assert.True(t, seg.pkFilter.Test(buf))
}
}
func TestReplica_UpdatePKRange(t *testing.T) {
rc := &RootCoordFactory{}
collID := UniqueID(1)
partID := UniqueID(2)
chanName := "insert-02"
startPos := &internalpb.MsgPosition{ChannelName: chanName, Timestamp: Timestamp(100)}
endPos := &internalpb.MsgPosition{ChannelName: chanName, Timestamp: Timestamp(200)}
cpPos := &internalpb.MsgPosition{ChannelName: chanName, Timestamp: Timestamp(10)}
cp := &segmentCheckPoint{int64(10), *cpPos}
replica, err := newReplica(context.Background(), rc, collID)
assert.Nil(t, err)
replica.minIOKV = &mockMinioKV{}
err = replica.addNewSegment(1, collID, partID, chanName, startPos, endPos)
assert.Nil(t, err)
err = replica.addNormalSegment(2, collID, partID, chanName, 100, cp)
assert.Nil(t, err)
segNew := replica.newSegments[1]
segNormal := replica.normalSegments[2]
cases := make([]int64, 0, 100)
for i := 0; i < 100; i++ {
cases = append(cases, rand.Int63())
}
buf := make([]byte, 8)
for _, c := range cases {
replica.updateSegmentPKRange(1, []int64{c}) // new segment
replica.updateSegmentPKRange(2, []int64{c}) // normal segment
replica.updateSegmentPKRange(3, []int64{c}) // non-exist segment
assert.LessOrEqual(t, segNew.minPK, c)
assert.GreaterOrEqual(t, segNew.maxPK, c)
assert.LessOrEqual(t, segNormal.minPK, c)
assert.GreaterOrEqual(t, segNormal.maxPK, c)
binary.BigEndian.PutUint64(buf, uint64(c))
assert.True(t, segNew.pkFilter.Test(buf))
assert.True(t, segNormal.pkFilter.Test(buf))
}
}