milvus/internal/datacoord/compaction_trigger_test.go
congqixia 5aa9db0d38
Add collection level auto compaction enabled config (#24013)
Signed-off-by: Congqi Xia <congqi.xia@zilliz.com>
2023-05-10 17:45:20 +08:00

1999 lines
53 KiB
Go

// Licensed to the LF AI & Data foundation under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package datacoord
import (
"sort"
"testing"
"time"
"github.com/cockroachdb/errors"
"github.com/milvus-io/milvus/pkg/util/tsoutil"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/mock"
"github.com/stretchr/testify/suite"
"github.com/milvus-io/milvus-proto/go-api/commonpb"
"github.com/milvus-io/milvus-proto/go-api/schemapb"
"github.com/milvus-io/milvus/internal/metastore/model"
"github.com/milvus-io/milvus/internal/proto/datapb"
"github.com/milvus-io/milvus/pkg/common"
"github.com/milvus-io/milvus/pkg/util/paramtable"
)
type spyCompactionHandler struct {
spyChan chan *datapb.CompactionPlan
}
// execCompactionPlan start to execute plan and return immediately
func (h *spyCompactionHandler) execCompactionPlan(signal *compactionSignal, plan *datapb.CompactionPlan) error {
h.spyChan <- plan
return nil
}
// completeCompaction record the result of a compaction
func (h *spyCompactionHandler) completeCompaction(result *datapb.CompactionResult) error {
return nil
}
// getCompaction return compaction task. If planId does not exist, return nil.
func (h *spyCompactionHandler) getCompaction(planID int64) *compactionTask {
panic("not implemented") // TODO: Implement
}
// expireCompaction set the compaction state to expired
func (h *spyCompactionHandler) updateCompaction(ts Timestamp) error {
panic("not implemented") // TODO: Implement
}
// isFull return true if the task pool is full
func (h *spyCompactionHandler) isFull() bool {
return false
}
// get compaction tasks by signal id
func (h *spyCompactionHandler) getCompactionTasksBySignalID(signalID int64) []*compactionTask {
panic("not implemented") // TODO: Implement
}
func (h *spyCompactionHandler) start() {}
func (h *spyCompactionHandler) stop() {}
var _ compactionPlanContext = (*spyCompactionHandler)(nil)
func Test_compactionTrigger_force(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
paramtable.Init()
paramtable.Get().Save(Params.CommonCfg.RetentionDuration.Key, "200")
defer paramtable.Get().Reset(Params.CommonCfg.RetentionDuration.Key)
pts, _ := tsoutil.ParseTS(0)
ttRetention := pts.Add(-1 * Params.CommonCfg.RetentionDuration.GetAsDuration(time.Second))
timeTravel := tsoutil.ComposeTS(ttRetention.UnixNano()/int64(time.Millisecond), 0)
vecFieldID := int64(201)
indexID := int64(1001)
tests := []struct {
name string
fields fields
collectionID UniqueID
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test force compaction",
fields{
&meta{
segments: &SegmentsInfo{
map[int64]*SegmentInfo{
1: {
SegmentInfo: &datapb.SegmentInfo{
ID: 1,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 100,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1"},
},
},
},
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog1"},
},
},
},
},
segmentIndexes: map[UniqueID]*model.SegmentIndex{
indexID: {
SegmentID: 1,
CollectionID: 2,
PartitionID: 1,
NumRows: 100,
IndexID: indexID,
BuildID: 1,
NodeID: 0,
IndexVersion: 1,
IndexState: commonpb.IndexState_Finished,
FailReason: "",
IsDeleted: false,
CreateTime: 0,
IndexFileKeys: nil,
IndexSize: 0,
WriteHandoff: false,
},
},
},
2: {
SegmentInfo: &datapb.SegmentInfo{
ID: 2,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 100,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log2"},
},
},
},
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog2"},
},
},
},
},
segmentIndexes: map[UniqueID]*model.SegmentIndex{
indexID: {
SegmentID: 2,
CollectionID: 2,
PartitionID: 1,
NumRows: 100,
IndexID: indexID,
BuildID: 2,
NodeID: 0,
IndexVersion: 1,
IndexState: commonpb.IndexState_Finished,
FailReason: "",
IsDeleted: false,
CreateTime: 0,
IndexFileKeys: nil,
IndexSize: 0,
WriteHandoff: false,
},
},
},
3: {
SegmentInfo: &datapb.SegmentInfo{
ID: 3,
CollectionID: 1111,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 100,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
},
segmentIndexes: map[UniqueID]*model.SegmentIndex{
indexID: {
SegmentID: 3,
CollectionID: 1111,
PartitionID: 1,
NumRows: 100,
IndexID: indexID,
BuildID: 3,
NodeID: 0,
IndexVersion: 1,
IndexState: commonpb.IndexState_InProgress,
FailReason: "",
IsDeleted: false,
CreateTime: 0,
IndexFileKeys: nil,
IndexSize: 0,
WriteHandoff: false,
},
},
},
},
},
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
Properties: map[string]string{
common.CollectionTTLConfigKey: "0",
},
},
1111: {
ID: 1111,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
Properties: map[string]string{
common.CollectionTTLConfigKey: "error",
},
},
1000: {
ID: 1000,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
},
// error (has no vector field)
2000: {
ID: 2000,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_Int16,
},
},
},
},
// error (has no dim)
3000: {
ID: 3000,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{},
},
},
},
},
},
// error (dim parse fail)
4000: {
ID: 4000,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128error",
},
},
},
},
},
},
10000: {
ID: 10000,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
},
},
indexes: map[UniqueID]map[UniqueID]*model.Index{
2: {
indexID: {
TenantID: "",
CollectionID: 2,
FieldID: vecFieldID,
IndexID: indexID,
IndexName: "_default_idx",
IsDeleted: false,
CreateTime: 0,
TypeParams: nil,
IndexParams: []*commonpb.KeyValuePair{
{
Key: "index_type",
Value: "HNSW",
},
},
IsAutoIndex: false,
UserIndexParams: nil,
},
},
1000: {
indexID: {
TenantID: "",
CollectionID: 1000,
FieldID: vecFieldID,
IndexID: indexID,
IndexName: "_default_idx",
IsDeleted: false,
CreateTime: 0,
TypeParams: nil,
IndexParams: []*commonpb.KeyValuePair{
{
Key: "index_type",
Value: "DISKANN",
},
},
IsAutoIndex: false,
UserIndexParams: nil,
},
},
},
},
&MockAllocator0{},
nil,
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 1)},
nil,
},
2,
false,
[]*datapb.CompactionPlan{
{
PlanID: 0,
SegmentBinlogs: []*datapb.CompactionSegmentBinlogs{
{
SegmentID: 1,
FieldBinlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1"},
},
},
},
Field2StatslogPaths: nil,
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog1"},
},
},
},
},
{
SegmentID: 2,
FieldBinlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log2"},
},
},
},
Field2StatslogPaths: nil,
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog2"},
},
},
},
},
},
StartTime: 0,
TimeoutInSeconds: Params.DataCoordCfg.CompactionTimeoutInSeconds.GetAsInt32(),
Type: datapb.CompactionType_MixCompaction,
Timetravel: timeTravel,
Channel: "ch1",
TotalRows: 200,
},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
_, err := tr.forceTriggerCompaction(tt.collectionID)
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
plan := <-spy.spyChan
sortPlanCompactionBinlogs(plan)
assert.EqualValues(t, tt.wantPlans[0], plan)
})
t.Run(tt.name+" with DiskANN index", func(t *testing.T) {
segmentIDs := make([]int64, 0)
for _, segment := range tt.fields.meta.segments.GetSegments() {
segmentIDs = append(segmentIDs, segment.GetID())
// Collection 1000 means it has DiskANN index
segment.CollectionID = 1000
}
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
tt.collectionID = 1000
_, err := tr.forceTriggerCompaction(tt.collectionID)
assert.Equal(t, tt.wantErr, err != nil)
// expect max row num = 2048*1024*1024/(128*4) = 4194304
assert.EqualValues(t, 4194304, tt.fields.meta.segments.GetSegments()[0].MaxRowNum)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
<-spy.spyChan
})
t.Run(tt.name+" with allocate ts error", func(t *testing.T) {
//indexCood := newMockIndexCoord()
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: &FailsAllocator{allocIDSucceed: true},
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
{
// test alloc ts fail for handle global signal
signal := &compactionSignal{
id: 0,
isForce: true,
isGlobal: true,
collectionID: tt.collectionID,
}
tr.handleGlobalSignal(signal)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
hasPlan := true
select {
case <-spy.spyChan:
hasPlan = true
case <-time.After(2 * time.Second):
hasPlan = false
}
assert.Equal(t, false, hasPlan)
}
{
// test alloc ts fail for handle signal
signal := &compactionSignal{
id: 0,
isForce: true,
collectionID: tt.collectionID,
segmentID: 3,
}
tr.handleSignal(signal)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
hasPlan := true
select {
case <-spy.spyChan:
hasPlan = true
case <-time.After(2 * time.Second):
hasPlan = false
}
assert.Equal(t, false, hasPlan)
}
})
t.Run(tt.name+" with getCompact error", func(t *testing.T) {
for _, segment := range tt.fields.meta.segments.GetSegments() {
segment.CollectionID = 1111
}
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
{
// test getCompactTime fail for handle global signal
signal := &compactionSignal{
id: 0,
isForce: true,
isGlobal: true,
collectionID: 1111,
}
tr.handleGlobalSignal(signal)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
hasPlan := true
select {
case <-spy.spyChan:
hasPlan = true
case <-time.After(2 * time.Second):
hasPlan = false
}
assert.Equal(t, false, hasPlan)
}
{
// test getCompactTime fail for handle signal
signal := &compactionSignal{
id: 0,
isForce: true,
collectionID: 1111,
segmentID: 3,
}
tr.handleSignal(signal)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
hasPlan := true
select {
case <-spy.spyChan:
hasPlan = true
case <-time.After(2 * time.Second):
hasPlan = false
}
assert.Equal(t, false, hasPlan)
}
})
}
}
// test force compaction with too many Segment
func Test_compactionTrigger_force_maxSegmentLimit(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
type args struct {
collectionID int64
compactTime *compactTime
}
Params.Init()
vecFieldID := int64(201)
segmentInfos := &SegmentsInfo{
segments: make(map[UniqueID]*SegmentInfo),
}
for i := UniqueID(0); i < 50; i++ {
info := &SegmentInfo{
SegmentInfo: &datapb.SegmentInfo{
ID: i,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 100,
MaxRowNum: 300000,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1"},
},
},
},
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog1"},
},
},
},
},
}
segmentInfos.segments[i] = info
}
tests := []struct {
name string
fields fields
args args
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test many segments",
fields{
&meta{
segments: segmentInfos,
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
},
},
},
newMockAllocator(),
nil,
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 2)},
nil,
},
args{
2,
&compactTime{travelTime: 200, expireTime: 0},
},
false,
[]*datapb.CompactionPlan{
{
PlanID: 2,
SegmentBinlogs: []*datapb.CompactionSegmentBinlogs{
{
SegmentID: 1,
FieldBinlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1"},
},
},
},
Field2StatslogPaths: nil,
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog1"},
},
},
},
},
{
SegmentID: 2,
FieldBinlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log2"},
},
},
},
Field2StatslogPaths: nil,
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog2"},
},
},
},
},
},
StartTime: 3,
TimeoutInSeconds: Params.DataCoordCfg.CompactionTimeoutInSeconds.GetAsInt32(),
Type: datapb.CompactionType_MixCompaction,
Timetravel: 200,
Channel: "ch1",
},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
_, err := tr.forceTriggerCompaction(tt.args.collectionID)
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
// should be split into two plans
plan := <-spy.spyChan
assert.Equal(t, len(plan.SegmentBinlogs), 30)
plan = <-spy.spyChan
assert.Equal(t, len(plan.SegmentBinlogs), 20)
})
}
}
func sortPlanCompactionBinlogs(plan *datapb.CompactionPlan) {
sort.Slice(plan.SegmentBinlogs, func(i, j int) bool {
return plan.SegmentBinlogs[i].SegmentID < plan.SegmentBinlogs[j].SegmentID
})
}
// Test no compaction selection
func Test_compactionTrigger_noplan(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
type args struct {
collectionID int64
compactTime *compactTime
}
Params.Init()
Params.DataCoordCfg.MinSegmentToMerge.DefaultValue = "4"
vecFieldID := int64(201)
tests := []struct {
name string
fields fields
args args
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test no plan",
fields{
&meta{
// 4 segment
segments: &SegmentsInfo{
map[int64]*SegmentInfo{
1: {
SegmentInfo: &datapb.SegmentInfo{
ID: 1,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 200,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100},
},
},
},
},
lastFlushTime: time.Now(),
},
2: {
SegmentInfo: &datapb.SegmentInfo{
ID: 2,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 200,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log2", LogSize: Params.DataCoordCfg.SegmentMaxSize.GetAsInt64()*1024*1024 - 1},
},
},
},
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog2"},
},
},
},
},
lastFlushTime: time.Now(),
},
},
},
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
},
},
},
newMockAllocator(),
make(chan *compactionSignal, 1),
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 1)},
nil,
},
args{
2,
&compactTime{travelTime: 200, expireTime: 0},
},
false,
nil,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
tr.start()
defer tr.stop()
err := tr.triggerCompaction()
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
select {
case val := <-spy.spyChan:
assert.Fail(t, "we expect no compaction generated", val)
return
case <-time.After(3 * time.Second):
return
}
})
}
}
// Test compaction with prioritized candi
func Test_compactionTrigger_PrioritizedCandi(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
type args struct {
collectionID int64
compactTime *compactTime
}
Params.Init()
vecFieldID := int64(201)
genSeg := func(segID, numRows int64) *datapb.SegmentInfo {
return &datapb.SegmentInfo{
ID: segID,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: numRows,
MaxRowNum: 110,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100},
},
},
},
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "deltalog1"},
},
},
},
}
}
tests := []struct {
name string
fields fields
args args
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test small segment",
fields{
&meta{
// 4 small segments
segments: &SegmentsInfo{
map[int64]*SegmentInfo{
1: {
SegmentInfo: genSeg(1, 20),
lastFlushTime: time.Now().Add(-100 * time.Minute),
},
2: {
SegmentInfo: genSeg(2, 20),
lastFlushTime: time.Now(),
},
3: {
SegmentInfo: genSeg(3, 20),
lastFlushTime: time.Now(),
},
4: {
SegmentInfo: genSeg(4, 20),
lastFlushTime: time.Now(),
},
5: {
SegmentInfo: genSeg(5, 20),
lastFlushTime: time.Now(),
},
6: {
SegmentInfo: genSeg(6, 20),
lastFlushTime: time.Now(),
},
7: {
SegmentInfo: genSeg(7, 20),
lastFlushTime: time.Now(),
},
8: {
SegmentInfo: genSeg(8, 20),
lastFlushTime: time.Now(),
},
},
},
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
},
},
},
newMockAllocator(),
make(chan *compactionSignal, 1),
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 1)},
nil,
},
args{
2,
&compactTime{travelTime: 200, expireTime: 0},
},
false,
nil,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
testingOnly: true,
}
tr.start()
defer tr.stop()
err := tr.triggerCompaction()
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
select {
case val := <-spy.spyChan:
// 5 segments in the final pick list
assert.Equal(t, len(val.SegmentBinlogs), 5)
return
case <-time.After(3 * time.Second):
assert.Fail(t, "failed to get plan")
return
}
})
}
}
// Test compaction with small candi
func Test_compactionTrigger_SmallCandi(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
type args struct {
collectionID int64
compactTime *compactTime
}
Params.Init()
vecFieldID := int64(201)
genSeg := func(segID, numRows int64) *datapb.SegmentInfo {
return &datapb.SegmentInfo{
ID: segID,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: numRows,
MaxRowNum: 110,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100},
},
},
},
}
}
tests := []struct {
name string
fields fields
args args
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test small segment",
fields{
&meta{
// 4 small segments
segments: &SegmentsInfo{
map[int64]*SegmentInfo{
1: {
SegmentInfo: genSeg(1, 20),
lastFlushTime: time.Now().Add(-100 * time.Minute),
},
2: {
SegmentInfo: genSeg(2, 20),
lastFlushTime: time.Now(),
},
3: {
SegmentInfo: genSeg(3, 20),
lastFlushTime: time.Now(),
},
4: {
SegmentInfo: genSeg(4, 20),
lastFlushTime: time.Now(),
},
5: {
SegmentInfo: genSeg(5, 20),
lastFlushTime: time.Now(),
},
6: {
SegmentInfo: genSeg(6, 20),
lastFlushTime: time.Now(),
},
7: {
SegmentInfo: genSeg(7, 20),
lastFlushTime: time.Now(),
},
},
},
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
},
},
},
},
},
},
newMockAllocator(),
make(chan *compactionSignal, 1),
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 1)},
nil,
},
args{
2,
&compactTime{travelTime: 200, expireTime: 0},
},
false,
nil,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
tr.start()
defer tr.stop()
err := tr.triggerCompaction()
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
select {
case val := <-spy.spyChan:
// 6 segments in the final pick list.
// 5 generated by the origin plan, 1 was added as additional segment.
assert.Equal(t, len(val.SegmentBinlogs), 6)
return
case <-time.After(3 * time.Second):
assert.Fail(t, "failed to get plan")
return
}
})
}
}
// Test compaction with small candi
func Test_compactionTrigger_SqueezeNonPlannedSegs(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
type args struct {
collectionID int64
compactTime *compactTime
}
Params.Init()
vecFieldID := int64(201)
genSeg := func(segID, numRows int64) *datapb.SegmentInfo {
return &datapb.SegmentInfo{
ID: segID,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: numRows,
MaxRowNum: 110,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100},
},
},
},
}
}
tests := []struct {
name string
fields fields
args args
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test small segment",
fields{
&meta{
// 4 small segments
segments: &SegmentsInfo{
map[int64]*SegmentInfo{
1: {
SegmentInfo: genSeg(1, 60),
lastFlushTime: time.Now().Add(-100 * time.Minute),
},
2: {
SegmentInfo: genSeg(2, 60),
lastFlushTime: time.Now(),
},
3: {
SegmentInfo: genSeg(3, 60),
lastFlushTime: time.Now(),
},
4: {
SegmentInfo: genSeg(4, 60),
lastFlushTime: time.Now(),
},
5: {
SegmentInfo: genSeg(5, 26),
lastFlushTime: time.Now(),
},
6: {
SegmentInfo: genSeg(6, 26),
lastFlushTime: time.Now(),
},
},
},
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
},
},
},
},
},
},
newMockAllocator(),
make(chan *compactionSignal, 1),
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 1)},
nil,
},
args{
2,
&compactTime{travelTime: 200, expireTime: 0},
},
false,
nil,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
estimateDiskSegmentPolicy: calBySchemaPolicyWithDiskIndex,
estimateNonDiskSegmentPolicy: calBySchemaPolicy,
testingOnly: true,
}
tr.start()
defer tr.stop()
err := tr.triggerCompaction()
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
select {
case val := <-spy.spyChan:
// max # of rows == 110, expansion rate == 1.25.
// segment 5 and 6 are squeezed into a non-planned segment. Total # of rows: 60 + 26 + 26 == 112,
// which is greater than 110 but smaller than 110 * 1.25
assert.Equal(t, len(val.SegmentBinlogs), 3)
return
case <-time.After(3 * time.Second):
assert.Fail(t, "failed to get plan")
return
}
})
}
}
// Test segment compaction target size
func Test_compactionTrigger_noplan_random_size(t *testing.T) {
type fields struct {
meta *meta
allocator allocator
signals chan *compactionSignal
compactionHandler compactionPlanContext
globalTrigger *time.Ticker
}
type args struct {
collectionID int64
compactTime *compactTime
}
Params.Init()
segmentInfos := &SegmentsInfo{
segments: make(map[UniqueID]*SegmentInfo),
}
size := []int64{
510, 500, 480, 300, 250, 200, 128, 128, 128, 127,
40, 40, 40, 40, 40, 40, 40, 40, 40, 40,
20, 20, 20, 20, 20, 20, 20, 20, 20, 20,
10, 10, 10, 10, 10, 10, 10, 10, 10, 10,
10, 10, 10, 10, 10, 10, 10, 10, 10, 10,
}
vecFieldID := int64(201)
for i := UniqueID(0); i < 50; i++ {
info := &SegmentInfo{
SegmentInfo: &datapb.SegmentInfo{
ID: i,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: size[i],
MaxRowNum: 512,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: size[i] * 1024 * 1024},
},
},
},
},
lastFlushTime: time.Now(),
}
segmentInfos.segments[i] = info
}
tests := []struct {
name string
fields fields
args args
wantErr bool
wantPlans []*datapb.CompactionPlan
}{
{
"test rand size segment",
fields{
&meta{
segments: segmentInfos,
collections: map[int64]*collectionInfo{
2: {
ID: 2,
Schema: &schemapb.CollectionSchema{
Fields: []*schemapb.FieldSchema{
{
FieldID: vecFieldID,
DataType: schemapb.DataType_FloatVector,
TypeParams: []*commonpb.KeyValuePair{
{
Key: "dim",
Value: "128",
},
},
},
},
},
},
},
},
newMockAllocator(),
make(chan *compactionSignal, 1),
&spyCompactionHandler{spyChan: make(chan *datapb.CompactionPlan, 10)},
nil,
},
args{
2,
&compactTime{travelTime: 200, expireTime: 0},
},
false,
nil,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
tr := &compactionTrigger{
meta: tt.fields.meta,
handler: newMockHandlerWithMeta(tt.fields.meta),
allocator: tt.fields.allocator,
signals: tt.fields.signals,
compactionHandler: tt.fields.compactionHandler,
globalTrigger: tt.fields.globalTrigger,
testingOnly: true,
}
tr.start()
defer tr.stop()
err := tr.triggerCompaction()
assert.Equal(t, tt.wantErr, err != nil)
spy := (tt.fields.compactionHandler).(*spyCompactionHandler)
// should be split into two plans
var plans []*datapb.CompactionPlan
ticker := time.NewTicker(3 * time.Second)
defer ticker.Stop()
WAIT:
for {
select {
case val := <-spy.spyChan:
plans = append(plans, val)
case <-ticker.C:
break WAIT
}
}
for _, plan := range plans {
size := int64(0)
for _, log := range plan.SegmentBinlogs {
size += log.FieldBinlogs[0].GetBinlogs()[0].LogSize
}
}
assert.Equal(t, 4, len(plans))
// plan 1: 250 + 20 * 10 + 3 * 20
// plan 2: 200 + 7 * 20 + 4 * 40
// plan 3: 128 + 6 * 40 + 127
// plan 4: 300 + 128 + 128 ( < 512 * 1.25)
assert.Equal(t, 24, len(plans[0].SegmentBinlogs))
assert.Equal(t, 12, len(plans[1].SegmentBinlogs))
assert.Equal(t, 8, len(plans[2].SegmentBinlogs))
assert.Equal(t, 3, len(plans[3].SegmentBinlogs))
})
}
}
// Test shouldDoSingleCompaction
func Test_compactionTrigger_shouldDoSingleCompaction(t *testing.T) {
Params.Init()
trigger := newCompactionTrigger(&meta{}, &compactionPlanHandler{}, newMockAllocator(), newMockHandler())
// Test too many deltalogs.
var binlogs []*datapb.FieldBinlog
for i := UniqueID(0); i < 1000; i++ {
binlogs = append(binlogs, &datapb.FieldBinlog{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100},
},
})
}
info := &SegmentInfo{
SegmentInfo: &datapb.SegmentInfo{
ID: 1,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 100,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Deltalogs: binlogs,
},
}
couldDo := trigger.ShouldDoSingleCompaction(info, false, &compactTime{travelTime: 200, expireTime: 0})
assert.True(t, couldDo)
//Test too many stats log
info = &SegmentInfo{
SegmentInfo: &datapb.SegmentInfo{
ID: 1,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 100,
NumOfRows: 100,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Statslogs: binlogs,
},
}
couldDo = trigger.ShouldDoSingleCompaction(info, false, &compactTime{travelTime: 200, expireTime: 0})
assert.True(t, couldDo)
couldDo = trigger.ShouldDoSingleCompaction(info, true, &compactTime{travelTime: 200, expireTime: 0})
assert.True(t, couldDo)
// if only 10 bin logs, then disk index won't trigger compaction
info.Statslogs = binlogs[0:20]
couldDo = trigger.ShouldDoSingleCompaction(info, false, &compactTime{travelTime: 200, expireTime: 0})
assert.True(t, couldDo)
couldDo = trigger.ShouldDoSingleCompaction(info, true, &compactTime{travelTime: 200, expireTime: 0})
assert.False(t, couldDo)
//Test too many stats log but compacted
info.CompactionFrom = []int64{0, 1}
couldDo = trigger.ShouldDoSingleCompaction(info, false, &compactTime{travelTime: 200, expireTime: 0})
assert.False(t, couldDo)
//Test expire triggered compaction
var binlogs2 []*datapb.FieldBinlog
for i := UniqueID(0); i < 100; i++ {
binlogs2 = append(binlogs2, &datapb.FieldBinlog{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100000, TimestampFrom: 300, TimestampTo: 500},
},
})
}
for i := UniqueID(0); i < 100; i++ {
binlogs2 = append(binlogs2, &datapb.FieldBinlog{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 1000000, TimestampFrom: 300, TimestampTo: 1000},
},
})
}
info2 := &SegmentInfo{
SegmentInfo: &datapb.SegmentInfo{
ID: 1,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 600,
NumOfRows: 10000,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: binlogs2,
},
}
// expire time < Timestamp To
couldDo = trigger.ShouldDoSingleCompaction(info2, false, &compactTime{travelTime: 200, expireTime: 300})
assert.False(t, couldDo)
// didn't reach single compaction size 10 * 1024 * 1024
couldDo = trigger.ShouldDoSingleCompaction(info2, false, &compactTime{travelTime: 200, expireTime: 600})
assert.False(t, couldDo)
// expire time < Timestamp False
couldDo = trigger.ShouldDoSingleCompaction(info2, false, &compactTime{travelTime: 200, expireTime: 1200})
assert.True(t, couldDo)
// Test Delete triggered compaction
var binlogs3 []*datapb.FieldBinlog
for i := UniqueID(0); i < 100; i++ {
binlogs3 = append(binlogs2, &datapb.FieldBinlog{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100000, TimestampFrom: 300, TimestampTo: 500},
},
})
}
info3 := &SegmentInfo{
SegmentInfo: &datapb.SegmentInfo{
ID: 1,
CollectionID: 2,
PartitionID: 1,
LastExpireTime: 700,
NumOfRows: 100,
MaxRowNum: 300,
InsertChannel: "ch1",
State: commonpb.SegmentState_Flushed,
Binlogs: binlogs3,
Deltalogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 200, LogPath: "deltalog1"},
},
},
},
},
}
// expire time < Timestamp To
couldDo = trigger.ShouldDoSingleCompaction(info3, false, &compactTime{travelTime: 600, expireTime: 0})
assert.False(t, couldDo)
// deltalog is large enough, should do compaction
couldDo = trigger.ShouldDoSingleCompaction(info3, false, &compactTime{travelTime: 800, expireTime: 0})
assert.True(t, couldDo)
}
func Test_newCompactionTrigger(t *testing.T) {
type args struct {
meta *meta
compactionHandler compactionPlanContext
allocator allocator
}
tests := []struct {
name string
args args
}{
{
"test new trigger",
args{
&meta{},
&compactionPlanHandler{},
newMockAllocator(),
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got := newCompactionTrigger(tt.args.meta, tt.args.compactionHandler, tt.args.allocator, newMockHandler())
assert.Equal(t, tt.args.meta, got.meta)
assert.Equal(t, tt.args.compactionHandler, got.compactionHandler)
assert.Equal(t, tt.args.allocator, got.allocator)
})
}
}
func Test_handleSignal(t *testing.T) {
got := newCompactionTrigger(&meta{segments: NewSegmentsInfo()}, &compactionPlanHandler{}, newMockAllocator(), newMockHandler())
signal := &compactionSignal{
segmentID: 1,
}
assert.NotPanics(t, func() {
got.handleSignal(signal)
})
}
func Test_allocTs(t *testing.T) {
got := newCompactionTrigger(&meta{segments: NewSegmentsInfo()}, &compactionPlanHandler{}, newMockAllocator(), newMockHandler())
ts, err := got.allocTs()
assert.NoError(t, err)
assert.True(t, ts > 0)
got = newCompactionTrigger(&meta{segments: NewSegmentsInfo()}, &compactionPlanHandler{}, &FailsAllocator{}, newMockHandler())
ts, err = got.allocTs()
assert.Error(t, err)
assert.Equal(t, uint64(0), ts)
}
func Test_getCompactTime(t *testing.T) {
collections := map[UniqueID]*collectionInfo{
1: {
ID: 1,
Schema: newTestSchema(),
Partitions: []UniqueID{1},
Properties: map[string]string{
common.CollectionTTLConfigKey: "10",
},
},
2: {
ID: 2,
Schema: newTestSchema(),
Partitions: []UniqueID{1},
Properties: map[string]string{
common.CollectionTTLConfigKey: "error",
},
},
}
m := &meta{segments: NewSegmentsInfo(), collections: collections}
got := newCompactionTrigger(m, &compactionPlanHandler{}, newMockAllocator(),
&ServerHandler{
&Server{
meta: m,
},
})
coll := &collectionInfo{
ID: 1,
Schema: newTestSchema(),
Partitions: []UniqueID{1},
Properties: map[string]string{
common.CollectionTTLConfigKey: "10",
},
}
now := tsoutil.GetCurrentTime()
ct, err := got.getCompactTime(now, coll)
assert.NoError(t, err)
assert.NotNil(t, ct)
}
type CompactionTriggerSuite struct {
suite.Suite
collectionID int64
partitionID int64
channel string
meta *meta
tr *compactionTrigger
allocator *NMockAllocator
handler *NMockHandler
compactionHandler *MockCompactionPlanContext
}
func (s *CompactionTriggerSuite) SetupSuite() {
}
func (s *CompactionTriggerSuite) genSeg(segID, numRows int64) *datapb.SegmentInfo {
return &datapb.SegmentInfo{
ID: segID,
CollectionID: s.collectionID,
PartitionID: s.partitionID,
LastExpireTime: 100,
NumOfRows: numRows,
MaxRowNum: 110,
InsertChannel: s.channel,
State: commonpb.SegmentState_Flushed,
Binlogs: []*datapb.FieldBinlog{
{
Binlogs: []*datapb.Binlog{
{EntriesNum: 5, LogPath: "log1", LogSize: 100},
},
},
},
}
}
func (s *CompactionTriggerSuite) SetupTest() {
s.collectionID = 100
s.partitionID = 200
s.channel = "dml_0_100v0"
s.meta = &meta{segments: &SegmentsInfo{
map[int64]*SegmentInfo{
1: {
SegmentInfo: s.genSeg(1, 60),
lastFlushTime: time.Now().Add(-100 * time.Minute),
},
2: {
SegmentInfo: s.genSeg(2, 60),
lastFlushTime: time.Now(),
},
3: {
SegmentInfo: s.genSeg(3, 60),
lastFlushTime: time.Now(),
},
4: {
SegmentInfo: s.genSeg(4, 60),
lastFlushTime: time.Now(),
},
5: {
SegmentInfo: s.genSeg(5, 26),
lastFlushTime: time.Now(),
},
6: {
SegmentInfo: s.genSeg(6, 26),
lastFlushTime: time.Now(),
},
},
},
}
s.allocator = NewNMockAllocator(s.T())
s.compactionHandler = NewMockCompactionPlanContext(s.T())
s.handler = NewNMockHandler(s.T())
s.tr = newCompactionTrigger(
s.meta,
s.compactionHandler,
s.allocator,
s.handler,
)
s.tr.testingOnly = true
}
func (s *CompactionTriggerSuite) TestHandleSignal() {
s.Run("getCompaction_failed", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(nil, errors.New("mocked"))
tr.handleSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: false,
})
// suite shall check compactionHandler.execCompactionPlan never called
})
s.Run("collectionAutoCompactionConfigError", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(&collectionInfo{
Properties: map[string]string{
common.CollectionAutoCompactionKey: "bad_value",
},
}, nil)
tr.handleSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: false,
})
// suite shall check compactionHandler.execCompactionPlan never called
})
s.Run("collectionAutoCompactionDisabled", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(&collectionInfo{
Properties: map[string]string{
common.CollectionAutoCompactionKey: "false",
},
}, nil)
tr.handleSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: false,
})
// suite shall check compactionHandler.execCompactionPlan never called
})
s.Run("collectionAutoCompactionDisabled_force", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.allocator.EXPECT().allocID(mock.Anything).Return(20000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(&collectionInfo{
Properties: map[string]string{
common.CollectionAutoCompactionKey: "false",
},
}, nil)
s.compactionHandler.EXPECT().execCompactionPlan(mock.Anything, mock.Anything).Return(nil)
tr.handleSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: true,
})
})
}
func (s *CompactionTriggerSuite) TestHandleGlobalSignal() {
s.Run("getCompaction_failed", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(nil, errors.New("mocked"))
tr.handleGlobalSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: false,
})
// suite shall check compactionHandler.execCompactionPlan never called
})
s.Run("collectionAutoCompactionConfigError", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(&collectionInfo{
Properties: map[string]string{
common.CollectionAutoCompactionKey: "bad_value",
},
}, nil)
tr.handleGlobalSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: false,
})
// suite shall check compactionHandler.execCompactionPlan never called
})
s.Run("collectionAutoCompactionDisabled", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(&collectionInfo{
Properties: map[string]string{
common.CollectionAutoCompactionKey: "false",
},
}, nil)
tr.handleGlobalSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: false,
})
// suite shall check compactionHandler.execCompactionPlan never called
})
s.Run("collectionAutoCompactionDisabled_force", func() {
defer s.SetupTest()
tr := s.tr
s.compactionHandler.EXPECT().isFull().Return(false)
s.allocator.EXPECT().allocTimestamp(mock.Anything).Return(10000, nil)
s.allocator.EXPECT().allocID(mock.Anything).Return(20000, nil)
s.handler.EXPECT().GetCollection(mock.Anything, int64(100)).Return(&collectionInfo{
Properties: map[string]string{
common.CollectionAutoCompactionKey: "false",
},
}, nil)
s.compactionHandler.EXPECT().execCompactionPlan(mock.Anything, mock.Anything).Return(nil)
tr.handleGlobalSignal(&compactionSignal{
segmentID: 1,
collectionID: s.collectionID,
partitionID: s.partitionID,
channel: s.channel,
isForce: true,
})
})
}
func TestCompactionTriggerSuite(t *testing.T) {
suite.Run(t, new(CompactionTriggerSuite))
}