// 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" "errors" "sync" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" memkv "github.com/milvus-io/milvus/internal/kv/mem" "github.com/milvus-io/milvus/internal/mq/msgstream" "github.com/milvus-io/milvus/internal/types" "github.com/milvus-io/milvus/internal/util/flowgraph" "github.com/milvus-io/milvus/internal/proto/commonpb" "github.com/milvus-io/milvus/internal/proto/etcdpb" "github.com/milvus-io/milvus/internal/proto/internalpb" "github.com/milvus-io/milvus/internal/proto/milvuspb" "github.com/milvus-io/milvus/internal/proto/schemapb" ) // CDFMsFactory count down fails msg factory type CDFMsFactory struct { msgstream.Factory cd int } func (f *CDFMsFactory) NewMsgStream(ctx context.Context) (msgstream.MsgStream, error) { f.cd-- if f.cd < 0 { return nil, errors.New("fail") } return f.Factory.NewMsgStream(ctx) } func TestFlowGraphInsertBufferNodeCreate(t *testing.T) { ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() insertChannelName := "datanode-01-test-flowgraphinsertbuffernode-create" testPath := "/test/datanode/root/meta" err := clearEtcd(testPath) require.NoError(t, err) Params.EtcdCfg.MetaRootPath = testPath Factory := &MetaFactory{} collMeta := Factory.GetCollectionMeta(UniqueID(0), "coll1") mockRootCoord := &RootCoordFactory{} replica, err := newReplica(ctx, mockRootCoord, collMeta.ID) assert.Nil(t, err) err = replica.addNewSegment(1, collMeta.ID, 0, insertChannelName, &internalpb.MsgPosition{}, &internalpb.MsgPosition{}) require.NoError(t, err) msFactory := msgstream.NewPmsFactory() m := map[string]interface{}{ "receiveBufSize": 1024, "pulsarAddress": Params.PulsarCfg.Address, "pulsarBufSize": 1024} err = msFactory.SetParams(m) assert.Nil(t, err) memkv := memkv.NewMemoryKV() fm := NewRendezvousFlushManager(&allocator{}, memkv, replica, func(*segmentFlushPack) {}, emptyFlushAndDropFunc) flushChan := make(chan flushMsg, 100) c := &nodeConfig{ replica: replica, msFactory: msFactory, allocator: NewAllocatorFactory(), vChannelName: "string", } iBNode, err := newInsertBufferNode(ctx, collMeta.ID, flushChan, fm, newCache(), c) assert.NotNil(t, iBNode) require.NoError(t, err) /*ctxDone, cancel := context.WithCancel(ctx) cancel() // cancel now to make context done _, err = newInsertBufferNode(ctxDone, flushChan, fm, newCache(), c) assert.Error(t, err)*/ c.msFactory = &CDFMsFactory{ Factory: msFactory, cd: 0, } _, err = newInsertBufferNode(ctx, collMeta.ID, flushChan, fm, newCache(), c) assert.Error(t, err) } type mockMsg struct{} func (*mockMsg) TimeTick() Timestamp { return 0 } func TestFlowGraphInsertBufferNode_Operate(t *testing.T) { t.Run("Test iBNode Operate invalid Msg", func(te *testing.T) { invalidInTests := []struct { in []Msg description string }{ {[]Msg{}, "Invalid input length == 0"}, {[]Msg{&flowGraphMsg{}, &flowGraphMsg{}, &flowGraphMsg{}}, "Invalid input length == 3"}, {[]Msg{&mockMsg{}}, "Invalid input length == 1 but input message is not flowGraphMsg"}, } for _, test := range invalidInTests { te.Run(test.description, func(t0 *testing.T) { ibn := &insertBufferNode{ ttMerger: newMergedTimeTickerSender(func(Timestamp, []int64) error { return nil }), } rt := ibn.Operate(test.in) assert.Empty(t0, rt) }) } }) ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() insertChannelName := "datanode-01-test-flowgraphinsertbuffernode-operate" testPath := "/test/datanode/root/meta" err := clearEtcd(testPath) require.NoError(t, err) Params.EtcdCfg.MetaRootPath = testPath Factory := &MetaFactory{} collMeta := Factory.GetCollectionMeta(UniqueID(0), "coll1") mockRootCoord := &RootCoordFactory{} replica, err := newReplica(ctx, mockRootCoord, collMeta.ID) assert.Nil(t, err) err = replica.addNewSegment(1, collMeta.ID, 0, insertChannelName, &internalpb.MsgPosition{}, &internalpb.MsgPosition{}) require.NoError(t, err) msFactory := msgstream.NewPmsFactory() m := map[string]interface{}{ "receiveBufSize": 1024, "pulsarAddress": Params.PulsarCfg.Address, "pulsarBufSize": 1024} err = msFactory.SetParams(m) assert.Nil(t, err) memkv := memkv.NewMemoryKV() fm := NewRendezvousFlushManager(NewAllocatorFactory(), memkv, replica, func(*segmentFlushPack) {}, emptyFlushAndDropFunc) flushChan := make(chan flushMsg, 100) c := &nodeConfig{ replica: replica, msFactory: msFactory, allocator: NewAllocatorFactory(), vChannelName: "string", } iBNode, err := newInsertBufferNode(ctx, collMeta.ID, flushChan, fm, newCache(), c) require.NoError(t, err) // trigger log ts iBNode.ttLogger.counter.Store(999) flushChan <- flushMsg{ msgID: 1, timestamp: 2000, segmentID: UniqueID(1), collectionID: UniqueID(1), } inMsg := genFlowGraphInsertMsg(insertChannelName) assert.NotPanics(t, func() { iBNode.Operate([]flowgraph.Msg{&inMsg}) }) // test drop collection operate inMsg = genFlowGraphInsertMsg(insertChannelName) inMsg.dropCollection = true assert.NotPanics(t, func() { iBNode.Operate([]flowgraph.Msg{&inMsg}) }) } /* func TestFlushSegment(t *testing.T) { ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() idAllocMock := NewAllocatorFactory(1) mockMinIO := memkv.NewMemoryKV() insertChannelName := "datanode-02-test-flushsegment" segmentID, _ := idAllocMock.allocID() partitionID, _ := idAllocMock.allocID() collectionID, _ := idAllocMock.allocID() fmt.Printf("generate segmentID, partitionID, collectionID: %v, %v, %v\n", segmentID, partitionID, collectionID) collMeta := genCollectionMeta(collectionID, "test_flush_segment_txn") flushMap := sync.Map{} mockRootCoord := &RootCoordFactory{} replica, err := newReplica(ctx, mockRootCoord, collMeta.ID) assert.Nil(t, err) err = replica.addNewSegment(segmentID, collMeta.ID, 0, insertChannelName, &internalpb.MsgPosition{}, &internalpb.MsgPosition{}) require.NoError(t, err) replica.updateSegmentEndPosition(segmentID, &internalpb.MsgPosition{ChannelName: "TestChannel"}) finishCh := make(chan segmentFlushUnit, 1) insertData := &InsertData{ Data: make(map[storage.FieldID]storage.FieldData), } insertData.Data[0] = &storage.Int64FieldData{ NumRows: []int64{10}, Data: []int64{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}, } insertData.Data[1] = &storage.Int64FieldData{ NumRows: []int64{10}, Data: []int64{1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, } insertData.Data[107] = &storage.FloatFieldData{ NumRows: []int64{10}, Data: make([]float32, 10), } flushMap.Store(segmentID, insertData) msFactory := msgstream.NewPmsFactory() m := map[string]interface{}{ "receiveBufSize": 1024, "pulsarAddress": Params.PulsarAddress, "pulsarBufSize": 1024} err = msFactory.SetParams(m) assert.Nil(t, err) flushChan := make(chan flushMsg, 100) memkv := memkv.NewMemoryKV() fm := NewRendezvousFlushManager(&allocator{}, memkv, replica, func(*segmentFlushPack) error { return nil }) c := &nodeConfig{ replica: replica, msFactory: msFactory, allocator: NewAllocatorFactory(), vChannelName: "string", } ibNode, err := newInsertBufferNode(ctx, flushChan, fm, newCache(), c) require.NoError(t, err) flushSegment(collMeta, segmentID, partitionID, collectionID, &flushMap, mockMinIO, finishCh, nil, ibNode, idAllocMock) fu := <-finishCh assert.NotNil(t, fu.field2Path) assert.Equal(t, fu.segID, segmentID) k := JoinIDPath(collectionID, partitionID, segmentID, 0) key := path.Join(Params.StatsBinlogRootPath, k) _, values, _ := mockMinIO.LoadWithPrefix(key) assert.Equal(t, len(values), 1) }*/ func genCollectionMeta(collectionID UniqueID, collectionName string) *etcdpb.CollectionMeta { sch := schemapb.CollectionSchema{ Name: collectionName, Description: "test collection by meta factory", AutoID: true, Fields: []*schemapb.FieldSchema{ { FieldID: 0, Name: "RowID", Description: "RowID field", DataType: schemapb.DataType_Int64, TypeParams: []*commonpb.KeyValuePair{ { Key: "f0_tk1", Value: "f0_tv1", }, }, }, { FieldID: 1, Name: "Timestamp", Description: "Timestamp field", DataType: schemapb.DataType_Int64, TypeParams: []*commonpb.KeyValuePair{ { Key: "f1_tk1", Value: "f1_tv1", }, }, }, { FieldID: 107, Name: "float32_field", Description: "field 107", DataType: schemapb.DataType_Float, TypeParams: []*commonpb.KeyValuePair{}, IndexParams: []*commonpb.KeyValuePair{}, }, }, } collection := etcdpb.CollectionMeta{ ID: collectionID, Schema: &sch, CreateTime: Timestamp(1), SegmentIDs: make([]UniqueID, 0), PartitionIDs: []UniqueID{0}, } return &collection } func TestFlowGraphInsertBufferNode_AutoFlush(t *testing.T) { ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) defer cancel() testPath := "/test/datanode/root/meta" err := clearEtcd(testPath) require.NoError(t, err) Params.EtcdCfg.MetaRootPath = testPath Factory := &MetaFactory{} collMeta := Factory.GetCollectionMeta(UniqueID(0), "coll1") dataFactory := NewDataFactory() mockRootCoord := &RootCoordFactory{} colRep := &SegmentReplica{ collectionID: collMeta.ID, newSegments: make(map[UniqueID]*Segment), normalSegments: make(map[UniqueID]*Segment), flushedSegments: make(map[UniqueID]*Segment), } colRep.metaService = newMetaService(mockRootCoord, collMeta.ID) msFactory := msgstream.NewPmsFactory() m := map[string]interface{}{ "receiveBufSize": 1024, "pulsarAddress": Params.PulsarCfg.Address, "pulsarBufSize": 1024} err = msFactory.SetParams(m) assert.Nil(t, err) flushPacks := []*segmentFlushPack{} fpMut := sync.Mutex{} memkv := memkv.NewMemoryKV() wg := sync.WaitGroup{} fm := NewRendezvousFlushManager(NewAllocatorFactory(), memkv, colRep, func(pack *segmentFlushPack) { fpMut.Lock() flushPacks = append(flushPacks, pack) fpMut.Unlock() colRep.listNewSegmentsStartPositions() colRep.listSegmentsCheckPoints() if pack.flushed || pack.dropped { colRep.segmentFlushed(pack.segmentID) } wg.Done() }, emptyFlushAndDropFunc) flushChan := make(chan flushMsg, 100) c := &nodeConfig{ replica: colRep, msFactory: msFactory, allocator: NewAllocatorFactory(), vChannelName: "string", } iBNode, err := newInsertBufferNode(ctx, collMeta.ID, flushChan, fm, newCache(), c) require.NoError(t, err) // Auto flush number of rows set to 2 inMsg := genFlowGraphInsertMsg("datanode-03-test-autoflush") inMsg.insertMessages = dataFactory.GetMsgStreamInsertMsgs(2) var iMsg flowgraph.Msg = &inMsg t.Run("Pure auto flush", func(t *testing.T) { // iBNode.insertBuffer.maxSize = 2 tmp := Params.DataNodeCfg.FlushInsertBufferSize Params.DataNodeCfg.FlushInsertBufferSize = 4 * 4 defer func() { Params.DataNodeCfg.FlushInsertBufferSize = tmp }() for i := range inMsg.insertMessages { inMsg.insertMessages[i].SegmentID = int64(i%2) + 1 } inMsg.startPositions = []*internalpb.MsgPosition{{Timestamp: 100}} inMsg.endPositions = []*internalpb.MsgPosition{{Timestamp: 123}} type Test struct { expectedSegID UniqueID expectedNumOfRows int64 expectedStartPosTs Timestamp expectedEndPosTs Timestamp expectedCpNumOfRows int64 expectedCpPosTs Timestamp } beforeAutoFlushTests := []Test{ // segID, numOfRow, startTs, endTs, cp.numOfRow, cp.Ts {1, 1, 100, 123, 0, 100}, {2, 1, 100, 123, 0, 100}, } iBNode.Operate([]flowgraph.Msg{iMsg}) require.Equal(t, 2, len(colRep.newSegments)) require.Equal(t, 0, len(colRep.normalSegments)) assert.Equal(t, 0, len(flushPacks)) for i, test := range beforeAutoFlushTests { colRep.segMu.Lock() seg, ok := colRep.newSegments[UniqueID(i+1)] colRep.segMu.Unlock() assert.True(t, ok) assert.Equal(t, test.expectedSegID, seg.segmentID) assert.Equal(t, test.expectedNumOfRows, seg.numRows) assert.Equal(t, test.expectedStartPosTs, seg.startPos.GetTimestamp()) assert.Equal(t, test.expectedCpNumOfRows, seg.checkPoint.numRows) assert.Equal(t, test.expectedCpPosTs, seg.checkPoint.pos.GetTimestamp()) } for i := range inMsg.insertMessages { inMsg.insertMessages[i].SegmentID = int64(i%2) + 2 } inMsg.startPositions = []*internalpb.MsgPosition{{Timestamp: 200}} inMsg.endPositions = []*internalpb.MsgPosition{{Timestamp: 234}} iMsg = &inMsg // Triger auto flush output := iBNode.Operate([]flowgraph.Msg{iMsg}) fgm := output[0].(*flowGraphMsg) wg.Add(len(fgm.segmentsToFlush)) t.Log("segments to flush", fgm.segmentsToFlush) for _, im := range fgm.segmentsToFlush { // send del done signal fm.flushDelData(nil, im, fgm.endPositions[0]) } wg.Wait() require.Equal(t, 0, len(colRep.newSegments)) require.Equal(t, 3, len(colRep.normalSegments)) assert.Equal(t, 1, len(flushPacks)) // assert.Equal(t, 3, len(flushUnit[0].checkPoint)) assert.Less(t, 0, len(flushPacks[0].insertLogs)) assert.False(t, flushPacks[0].flushed) afterAutoFlushTests := []Test{ // segID, numOfRow, startTs, endTs, cp.numOfRow, cp.Ts {1, 1, 100, 123, 0, 100}, {2, 2, 100, 234, 2, 234}, {3, 1, 200, 234, 0, 200}, } for i, test := range afterAutoFlushTests { seg, ok := colRep.normalSegments[UniqueID(i+1)] assert.True(t, ok) assert.Equal(t, test.expectedSegID, seg.segmentID) assert.Equal(t, test.expectedNumOfRows, seg.numRows) assert.Equal(t, test.expectedStartPosTs, seg.startPos.GetTimestamp()) assert.Equal(t, test.expectedCpNumOfRows, seg.checkPoint.numRows) assert.Equal(t, test.expectedCpPosTs, seg.checkPoint.pos.GetTimestamp()) // assert.Equal(t, test.expectedCpNumOfRows, flushPacks[0].checkPoint[UniqueID(i+1)].numRows) // assert.Equal(t, test.expectedCpPosTs, flushPacks[0].checkPoint[UniqueID(i+1)].pos.Timestamp) if i == 1 { assert.Equal(t, test.expectedSegID, flushPacks[0].segmentID) // assert.Equal(t, int64(0), iBNode.insertBuffer.size(UniqueID(i+1))) } // else { // // assert.Equal(t, int64(1), iBNode.insertBuffer.size(UniqueID(i+1))) // } } }) t.Run("Auto with manual flush", func(t *testing.T) { tmp := Params.DataNodeCfg.FlushInsertBufferSize Params.DataNodeCfg.FlushInsertBufferSize = 4 * 4 defer func() { Params.DataNodeCfg.FlushInsertBufferSize = tmp }() fpMut.Lock() flushPacks = flushPacks[:0] fpMut.Unlock() inMsg := genFlowGraphInsertMsg("datanode-03-test-autoflush") inMsg.insertMessages = dataFactory.GetMsgStreamInsertMsgs(2) for i := range inMsg.insertMessages { inMsg.insertMessages[i].SegmentID = UniqueID(10 + i) } inMsg.startPositions = []*internalpb.MsgPosition{{Timestamp: 300}} inMsg.endPositions = []*internalpb.MsgPosition{{Timestamp: 323}} var iMsg flowgraph.Msg = &inMsg type Test struct { expectedSegID UniqueID expectedNumOfRows int64 expectedStartPosTs Timestamp expectedEndPosTs Timestamp expectedCpNumOfRows int64 expectedCpPosTs Timestamp } beforeAutoFlushTests := []Test{ // segID, numOfRow, startTs, endTs, cp.numOfRow, cp.Ts {10, 1, 300, 323, 0, 300}, {11, 1, 300, 323, 0, 300}, } iBNode.Operate([]flowgraph.Msg{iMsg}) require.Equal(t, 2, len(colRep.newSegments)) require.Equal(t, 3, len(colRep.normalSegments)) assert.Equal(t, 0, len(flushPacks)) for _, test := range beforeAutoFlushTests { colRep.segMu.Lock() seg, ok := colRep.newSegments[test.expectedSegID] colRep.segMu.Unlock() assert.True(t, ok) assert.Equal(t, test.expectedSegID, seg.segmentID) assert.Equal(t, test.expectedNumOfRows, seg.numRows) assert.Equal(t, test.expectedStartPosTs, seg.startPos.GetTimestamp()) assert.Equal(t, test.expectedCpNumOfRows, seg.checkPoint.numRows) assert.Equal(t, test.expectedCpPosTs, seg.checkPoint.pos.GetTimestamp()) } inMsg.startPositions = []*internalpb.MsgPosition{{Timestamp: 400}} inMsg.endPositions = []*internalpb.MsgPosition{{Timestamp: 434}} // trigger manual flush flushChan <- flushMsg{ segmentID: 10, flushed: true, } // trigger auto flush since buffer full output := iBNode.Operate([]flowgraph.Msg{iMsg}) fgm := output[0].(*flowGraphMsg) wg.Add(len(fgm.segmentsToFlush)) for _, im := range fgm.segmentsToFlush { // send del done signal fm.flushDelData(nil, im, fgm.endPositions[0]) } wg.Wait() require.Equal(t, 0, len(colRep.newSegments)) require.Equal(t, 4, len(colRep.normalSegments)) require.Equal(t, 1, len(colRep.flushedSegments)) assert.Equal(t, 2, len(flushPacks)) for _, pack := range flushPacks { if pack.segmentID == 10 { assert.Equal(t, true, pack.flushed) } else { assert.Equal(t, false, pack.flushed) } } }) } // CompactedRootCoord has meta info compacted at ts type CompactedRootCoord struct { types.RootCoord compactTs Timestamp } func (m *CompactedRootCoord) DescribeCollection(ctx context.Context, in *milvuspb.DescribeCollectionRequest) (*milvuspb.DescribeCollectionResponse, error) { if in.GetTimeStamp() <= m.compactTs { return &milvuspb.DescribeCollectionResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: "meta compacted", }, }, nil } return m.RootCoord.DescribeCollection(ctx, in) } func TestInsertBufferNode_bufferInsertMsg(t *testing.T) { ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() insertChannelName := "datanode-01-test-flowgraphinsertbuffernode-operate" testPath := "/test/datanode/root/meta" err := clearEtcd(testPath) require.NoError(t, err) Params.EtcdCfg.MetaRootPath = testPath Factory := &MetaFactory{} collMeta := Factory.GetCollectionMeta(UniqueID(0), "coll1") rcf := &RootCoordFactory{} mockRootCoord := &CompactedRootCoord{ RootCoord: rcf, compactTs: 100, } replica, err := newReplica(ctx, mockRootCoord, collMeta.ID) assert.Nil(t, err) err = replica.addNewSegment(1, collMeta.ID, 0, insertChannelName, &internalpb.MsgPosition{}, &internalpb.MsgPosition{}) require.NoError(t, err) msFactory := msgstream.NewPmsFactory() m := map[string]interface{}{ "receiveBufSize": 1024, "pulsarAddress": Params.PulsarCfg.Address, "pulsarBufSize": 1024} err = msFactory.SetParams(m) assert.Nil(t, err) memkv := memkv.NewMemoryKV() fm := NewRendezvousFlushManager(&allocator{}, memkv, replica, func(*segmentFlushPack) {}, emptyFlushAndDropFunc) flushChan := make(chan flushMsg, 100) c := &nodeConfig{ replica: replica, msFactory: msFactory, allocator: NewAllocatorFactory(), vChannelName: "string", } iBNode, err := newInsertBufferNode(ctx, collMeta.ID, flushChan, fm, newCache(), c) require.NoError(t, err) inMsg := genFlowGraphInsertMsg(insertChannelName) for _, msg := range inMsg.insertMessages { msg.EndTimestamp = 101 // ts valid err = iBNode.bufferInsertMsg(msg, &internalpb.MsgPosition{}) assert.Nil(t, err) } for _, msg := range inMsg.insertMessages { msg.EndTimestamp = 101 // ts valid msg.RowIDs = []int64{} //misaligned data err = iBNode.bufferInsertMsg(msg, &internalpb.MsgPosition{}) assert.NotNil(t, err) } } func TestInsertBufferNode_updateSegStatesInReplica(te *testing.T) { invalideTests := []struct { replicaCollID UniqueID inCollID UniqueID segID UniqueID description string }{ {1, 9, 100, "collectionID mismatch"}, } for _, test := range invalideTests { replica, err := newReplica(context.Background(), &RootCoordFactory{}, test.replicaCollID) assert.Nil(te, err) ibNode := &insertBufferNode{ replica: replica, } im := []*msgstream.InsertMsg{ { InsertRequest: internalpb.InsertRequest{ CollectionID: test.inCollID, SegmentID: test.segID, }, }, } seg, err := ibNode.updateSegStatesInReplica(im, &internalpb.MsgPosition{}, &internalpb.MsgPosition{}) assert.Error(te, err) assert.Empty(te, seg) } } func TestInsertBufferNode_BufferData(te *testing.T) { Params.DataNodeCfg.FlushInsertBufferSize = 16 * (1 << 20) // 16 MB tests := []struct { isValid bool indim int64 expectedLimit int64 description string }{ {true, 1, 4194304, "Smallest of the DIM"}, {true, 128, 32768, "Normal DIM"}, {true, 32768, 128, "Largest DIM"}, {false, 0, 0, "Illegal DIM"}, } for _, test := range tests { te.Run(test.description, func(t *testing.T) { idata, err := newBufferData(test.indim) if test.isValid { assert.NoError(t, err) assert.NotNil(t, idata) assert.Equal(t, test.expectedLimit, idata.limit) assert.Zero(t, idata.size) capacity := idata.effectiveCap() assert.Equal(t, test.expectedLimit, capacity) } else { assert.Error(t, err) assert.Nil(t, idata) } }) } }