// 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" "testing" "time" "github.com/bits-and-blooms/bloom/v3" "github.com/milvus-io/milvus/internal/proto/schemapb" "github.com/milvus-io/milvus/internal/util/flowgraph" "github.com/stretchr/testify/assert" ) type mockReplica struct { Replica newSegments map[UniqueID]*Segment normalSegments map[UniqueID]*Segment flushedSegments map[UniqueID]*Segment } func newMockReplica() *mockReplica { return &mockReplica{ newSegments: make(map[int64]*Segment), normalSegments: make(map[int64]*Segment), flushedSegments: make(map[int64]*Segment), } } func (replica *mockReplica) filterSegments(channelName string, partitionID UniqueID) []*Segment { results := make([]*Segment, 0) for _, value := range replica.newSegments { results = append(results, value) } for _, value := range replica.normalSegments { results = append(results, value) } for _, value := range replica.flushedSegments { results = append(results, value) } return results } func (replica *mockReplica) getCollectionSchema(collectionID UniqueID, ts Timestamp) (*schemapb.CollectionSchema, error) { return &schemapb.CollectionSchema{}, nil } func (replica *mockReplica) getCollectionAndPartitionID(segID UniqueID) (collID, partitionID UniqueID, err error) { return 0, 1, nil } func TestFlowGraphDeleteNode_newDeleteNode(te *testing.T) { tests := []struct { ctx context.Context config *nodeConfig description string }{ {context.Background(), &nodeConfig{}, "pointer of SegmentReplica"}, } for _, test := range tests { te.Run(test.description, func(t *testing.T) { dn, err := newDeleteNode(test.ctx, make(chan *flushMsg), test.config) assert.Nil(t, err) assert.NotNil(t, dn) assert.Equal(t, "deleteNode", dn.Name()) dn.Close() }) } } func genMockReplica(segIDs []int64, pks []int64, chanName string) *mockReplica { buf := make([]byte, 8) filter0 := bloom.NewWithEstimates(1000000, 0.01) for i := 0; i < 3; i++ { binary.BigEndian.PutUint64(buf, uint64(pks[i])) filter0.Add(buf) } filter1 := bloom.NewWithEstimates(1000000, 0.01) for i := 3; i < 5; i++ { binary.BigEndian.PutUint64(buf, uint64(pks[i])) filter1.Add(buf) } seg0 := &Segment{ segmentID: segIDs[0], channelName: chanName, pkFilter: filter0, } seg1 := &Segment{ segmentID: segIDs[1], channelName: chanName, pkFilter: filter0, } seg2 := &Segment{ segmentID: segIDs[2], channelName: chanName, pkFilter: filter0, } seg3 := &Segment{ segmentID: segIDs[3], channelName: chanName, pkFilter: filter1, } seg4 := &Segment{ segmentID: segIDs[4], channelName: chanName, pkFilter: filter1, } seg5 := &Segment{ segmentID: segIDs[4], channelName: "test_error", pkFilter: filter1, } replica := newMockReplica() replica.newSegments[segIDs[0]] = seg0 replica.newSegments[segIDs[1]] = seg1 replica.normalSegments[segIDs[2]] = seg2 replica.normalSegments[segIDs[3]] = seg3 replica.flushedSegments[segIDs[4]] = seg4 replica.flushedSegments[segIDs[4]] = seg5 return replica } func TestFlowGraphDeleteNode_Operate(t *testing.T) { t.Run("Test deleteNode Operate invalid Msg", func(te *testing.T) { invalidInTests := []struct { in []Msg desc string }{ {[]Msg{}, "Invalid input length == 0"}, {[]Msg{&flowGraphMsg{}, &flowGraphMsg{}, &flowGraphMsg{}}, "Invalid input length == 3"}, {[]Msg{&flowGraphMsg{}}, "Invalid input length == 1 but input message is not msgStreamMsg"}, } for _, test := range invalidInTests { te.Run(test.desc, func(t *testing.T) { flushCh := make(chan *flushMsg, 10) dn := deleteNode{flushCh: flushCh} rt := dn.Operate(test.in) assert.Empty(t, rt) }) } }) const ( chanName = "channel-test" ) var ( segIDs = []int64{11, 22, 33, 44, 55} pks = []int64{3, 17, 44, 190, 425} ) replica := genMockReplica(segIDs, pks, chanName) t.Run("Test get segment by primary keys", func(te *testing.T) { c := &nodeConfig{ replica: replica, allocator: &allocator{}, vChannelName: chanName, } dn, err := newDeleteNode(context.Background(), make(chan *flushMsg), c) assert.Nil(t, err) results := dn.filterSegmentByPK(0, pks) expected := map[int64][]int64{ pks[0]: segIDs[0:3], pks[1]: segIDs[0:3], pks[2]: segIDs[0:3], pks[3]: segIDs[3:5], pks[4]: segIDs[3:5], } for key, value := range expected { assert.ElementsMatch(t, value, results[key]) } }) t.Run("Test deleteNode Operate valid Msg", func(te *testing.T) { ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() chanName := "datanode-test-FlowGraphDeletenode-operate" testPath := "/test/datanode/root/meta" assert.NoError(t, clearEtcd(testPath)) Params.MetaRootPath = testPath Params.DeleteBinlogRootPath = testPath flushChan := make(chan *flushMsg, 100) c := &nodeConfig{ replica: replica, allocator: NewAllocatorFactory(), vChannelName: chanName, } delNode, err := newDeleteNode(ctx, flushChan, c) assert.Nil(te, err) flushChan <- &flushMsg{ msgID: 1, timestamp: 2000, collectionID: UniqueID(1), } msg := GenFlowGraphDeleteMsg(pks, chanName) var fgMsg flowgraph.Msg = &msg delNode.Operate([]flowgraph.Msg{fgMsg}) }) }