// Copyright 2014 The Prometheus Authors // Licensed 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 local import ( "reflect" "testing" clientmodel "github.com/prometheus/client_golang/model" "github.com/prometheus/prometheus/storage/local/codable" "github.com/prometheus/prometheus/storage/local/index" "github.com/prometheus/prometheus/storage/metric" "github.com/prometheus/prometheus/utility/test" ) var ( m1 = clientmodel.Metric{"label": "value1"} m2 = clientmodel.Metric{"label": "value2"} m3 = clientmodel.Metric{"label": "value3"} m4 = clientmodel.Metric{"label": "value4"} m5 = clientmodel.Metric{"label": "value5"} ) func newTestPersistence(t *testing.T, encoding chunkEncoding) (*persistence, test.Closer) { *defaultChunkEncoding = int(encoding) dir := test.NewTemporaryDirectory("test_persistence", t) p, err := newPersistence(dir.Path(), false, false, func() bool { return false }) if err != nil { dir.Close() t.Fatal(err) } return p, test.NewCallbackCloser(func() { p.close() dir.Close() }) } func buildTestChunks(encoding chunkEncoding) map[clientmodel.Fingerprint][]chunk { fps := clientmodel.Fingerprints{ m1.Fingerprint(), m2.Fingerprint(), m3.Fingerprint(), } fpToChunks := map[clientmodel.Fingerprint][]chunk{} for _, fp := range fps { fpToChunks[fp] = make([]chunk, 0, 10) for i := 0; i < 10; i++ { fpToChunks[fp] = append(fpToChunks[fp], newChunkForEncoding(encoding).add(&metric.SamplePair{ Timestamp: clientmodel.Timestamp(i), Value: clientmodel.SampleValue(fp), })[0]) } } return fpToChunks } func chunksEqual(c1, c2 chunk) bool { values2 := c2.values() for v1 := range c1.values() { v2 := <-values2 if !v1.Equal(v2) { return false } } return true } func testPersistLoadDropChunks(t *testing.T, encoding chunkEncoding) { p, closer := newTestPersistence(t, encoding) defer closer.Close() fpToChunks := buildTestChunks(encoding) for fp, chunks := range fpToChunks { firstTimeNotDropped, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, clientmodel.Earliest, chunks) if err != nil { t.Fatal(err) } if got, want := firstTimeNotDropped, clientmodel.Timestamp(0); got != want { t.Errorf("Want firstTimeNotDropped %v, got %v.", got, want) } if got, want := offset, 0; got != want { t.Errorf("Want offset %v, got %v.", got, want) } if got, want := numDropped, 0; got != want { t.Errorf("Want numDropped %v, got %v.", got, want) } if allDropped { t.Error("All dropped.") } } for fp, expectedChunks := range fpToChunks { indexes := make([]int, 0, len(expectedChunks)) for i := range expectedChunks { indexes = append(indexes, i) } actualChunks, err := p.loadChunks(fp, indexes, 0) if err != nil { t.Fatal(err) } for _, i := range indexes { if !chunksEqual(expectedChunks[i], actualChunks[i]) { t.Errorf("%d. Chunks not equal.", i) } } // Load all chunk descs. actualChunkDescs, err := p.loadChunkDescs(fp, 10) if len(actualChunkDescs) != 10 { t.Errorf("Got %d chunkDescs, want %d.", len(actualChunkDescs), 10) } for i, cd := range actualChunkDescs { if cd.firstTime() != clientmodel.Timestamp(i) || cd.lastTime() != clientmodel.Timestamp(i) { t.Errorf( "Want ts=%v, got firstTime=%v, lastTime=%v.", i, cd.firstTime(), cd.lastTime(), ) } } // Load chunk descs partially. actualChunkDescs, err = p.loadChunkDescs(fp, 5) if len(actualChunkDescs) != 5 { t.Errorf("Got %d chunkDescs, want %d.", len(actualChunkDescs), 5) } for i, cd := range actualChunkDescs { if cd.firstTime() != clientmodel.Timestamp(i) || cd.lastTime() != clientmodel.Timestamp(i) { t.Errorf( "Want ts=%v, got firstTime=%v, lastTime=%v.", i, cd.firstTime(), cd.lastTime(), ) } } } // Drop half of the chunks. for fp, expectedChunks := range fpToChunks { firstTime, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, 5, nil) if err != nil { t.Fatal(err) } if offset != 5 { t.Errorf("want offset 5, got %d", offset) } if firstTime != 5 { t.Errorf("want first time 5, got %d", firstTime) } if numDropped != 5 { t.Errorf("want 5 dropped chunks, got %v", numDropped) } if allDropped { t.Error("all chunks dropped") } indexes := make([]int, 5) for i := range indexes { indexes[i] = i } actualChunks, err := p.loadChunks(fp, indexes, 0) if err != nil { t.Fatal(err) } for _, i := range indexes { if !chunksEqual(expectedChunks[i+5], actualChunks[i]) { t.Errorf("%d. Chunks not equal.", i) } } } // Drop all the chunks. for fp := range fpToChunks { firstTime, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, 100, nil) if firstTime != 0 { t.Errorf("want first time 0, got %d", firstTime) } if err != nil { t.Fatal(err) } if offset != 0 { t.Errorf("want offset 0, got %d", offset) } if numDropped != 5 { t.Errorf("want 5 dropped chunks, got %v", numDropped) } if !allDropped { t.Error("not all chunks dropped") } } // Re-add first two of the chunks. for fp, chunks := range fpToChunks { firstTimeNotDropped, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, clientmodel.Earliest, chunks[:2]) if err != nil { t.Fatal(err) } if got, want := firstTimeNotDropped, clientmodel.Timestamp(0); got != want { t.Errorf("Want firstTimeNotDropped %v, got %v.", got, want) } if got, want := offset, 0; got != want { t.Errorf("Want offset %v, got %v.", got, want) } if got, want := numDropped, 0; got != want { t.Errorf("Want numDropped %v, got %v.", got, want) } if allDropped { t.Error("All dropped.") } } // Drop the first of the chunks while adding two more. for fp, chunks := range fpToChunks { firstTime, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, 1, chunks[2:4]) if err != nil { t.Fatal(err) } if offset != 1 { t.Errorf("want offset 1, got %d", offset) } if firstTime != 1 { t.Errorf("want first time 1, got %d", firstTime) } if numDropped != 1 { t.Errorf("want 1 dropped chunk, got %v", numDropped) } if allDropped { t.Error("all chunks dropped") } wantChunks := chunks[1:4] indexes := make([]int, len(wantChunks)) for i := range indexes { indexes[i] = i } gotChunks, err := p.loadChunks(fp, indexes, 0) if err != nil { t.Fatal(err) } for i, wantChunk := range wantChunks { if !chunksEqual(wantChunk, gotChunks[i]) { t.Errorf("%d. Chunks not equal.", i) } } } // Drop all the chunks while adding two more. for fp, chunks := range fpToChunks { firstTime, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, 4, chunks[4:6]) if err != nil { t.Fatal(err) } if offset != 0 { t.Errorf("want offset 0, got %d", offset) } if firstTime != 4 { t.Errorf("want first time 4, got %d", firstTime) } if numDropped != 3 { t.Errorf("want 3 dropped chunks, got %v", numDropped) } if allDropped { t.Error("all chunks dropped") } wantChunks := chunks[4:6] indexes := make([]int, len(wantChunks)) for i := range indexes { indexes[i] = i } gotChunks, err := p.loadChunks(fp, indexes, 0) if err != nil { t.Fatal(err) } for i, wantChunk := range wantChunks { if !chunksEqual(wantChunk, gotChunks[i]) { t.Errorf("%d. Chunks not equal.", i) } } } // While adding two more, drop all but one of the added ones. for fp, chunks := range fpToChunks { firstTime, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, 7, chunks[6:8]) if err != nil { t.Fatal(err) } if offset != 0 { t.Errorf("want offset 0, got %d", offset) } if firstTime != 7 { t.Errorf("want first time 7, got %d", firstTime) } if numDropped != 3 { t.Errorf("want 3 dropped chunks, got %v", numDropped) } if allDropped { t.Error("all chunks dropped") } wantChunks := chunks[7:8] indexes := make([]int, len(wantChunks)) for i := range indexes { indexes[i] = i } gotChunks, err := p.loadChunks(fp, indexes, 0) if err != nil { t.Fatal(err) } for i, wantChunk := range wantChunks { if !chunksEqual(wantChunk, gotChunks[i]) { t.Errorf("%d. Chunks not equal.", i) } } } // While adding two more, drop all chunks including the added ones. for fp, chunks := range fpToChunks { firstTime, offset, numDropped, allDropped, err := p.dropAndPersistChunks(fp, 10, chunks[8:]) if err != nil { t.Fatal(err) } if offset != 0 { t.Errorf("want offset 0, got %d", offset) } if firstTime != 0 { t.Errorf("want first time 0, got %d", firstTime) } if numDropped != 3 { t.Errorf("want 3 dropped chunks, got %v", numDropped) } if !allDropped { t.Error("not all chunks dropped") } } } func TestPersistLoadDropChunksType0(t *testing.T) { testPersistLoadDropChunks(t, 0) } func TestPersistLoadDropChunksType1(t *testing.T) { testPersistLoadDropChunks(t, 1) } func testCheckpointAndLoadSeriesMapAndHeads(t *testing.T, encoding chunkEncoding) { p, closer := newTestPersistence(t, encoding) defer closer.Close() fpLocker := newFingerprintLocker(10) sm := newSeriesMap() s1 := newMemorySeries(m1, true, 0) s2 := newMemorySeries(m2, false, 0) s3 := newMemorySeries(m3, false, 0) s4 := newMemorySeries(m4, true, 0) s5 := newMemorySeries(m5, true, 0) s1.add(&metric.SamplePair{Timestamp: 1, Value: 3.14}) s3.add(&metric.SamplePair{Timestamp: 2, Value: 2.7}) s3.headChunkClosed = true s3.persistWatermark = 1 for i := 0; i < 10000; i++ { s4.add(&metric.SamplePair{ Timestamp: clientmodel.Timestamp(i), Value: clientmodel.SampleValue(i) / 2, }) s5.add(&metric.SamplePair{ Timestamp: clientmodel.Timestamp(i), Value: clientmodel.SampleValue(i * i), }) } s5.persistWatermark = 3 chunkCountS4 := len(s4.chunkDescs) chunkCountS5 := len(s5.chunkDescs) sm.put(m1.Fingerprint(), s1) sm.put(m2.Fingerprint(), s2) sm.put(m3.Fingerprint(), s3) sm.put(m4.Fingerprint(), s4) sm.put(m5.Fingerprint(), s5) if err := p.checkpointSeriesMapAndHeads(sm, fpLocker); err != nil { t.Fatal(err) } loadedSM, _, err := p.loadSeriesMapAndHeads() if err != nil { t.Fatal(err) } if loadedSM.length() != 4 { t.Errorf("want 4 series in map, got %d", loadedSM.length()) } if loadedS1, ok := loadedSM.get(m1.Fingerprint()); ok { if !reflect.DeepEqual(loadedS1.metric, m1) { t.Errorf("want metric %v, got %v", m1, loadedS1.metric) } if !reflect.DeepEqual(loadedS1.head().chunk, s1.head().chunk) { t.Error("head chunks differ") } if loadedS1.chunkDescsOffset != 0 { t.Errorf("want chunkDescsOffset 0, got %d", loadedS1.chunkDescsOffset) } if loadedS1.headChunkClosed { t.Error("headChunkClosed is true") } } else { t.Errorf("couldn't find %v in loaded map", m1) } if loadedS3, ok := loadedSM.get(m3.Fingerprint()); ok { if !reflect.DeepEqual(loadedS3.metric, m3) { t.Errorf("want metric %v, got %v", m3, loadedS3.metric) } if loadedS3.head().chunk != nil { t.Error("head chunk not evicted") } if loadedS3.chunkDescsOffset != -1 { t.Errorf("want chunkDescsOffset -1, got %d", loadedS3.chunkDescsOffset) } if !loadedS3.headChunkClosed { t.Error("headChunkClosed is false") } } else { t.Errorf("couldn't find %v in loaded map", m3) } if loadedS4, ok := loadedSM.get(m4.Fingerprint()); ok { if !reflect.DeepEqual(loadedS4.metric, m4) { t.Errorf("want metric %v, got %v", m4, loadedS4.metric) } if got, want := len(loadedS4.chunkDescs), chunkCountS4; got != want { t.Errorf("got %d chunkDescs, want %d", got, want) } if got, want := loadedS4.persistWatermark, 0; got != want { t.Errorf("got persistWatermark %d, want %d", got, want) } if loadedS4.chunkDescs[2].isEvicted() { t.Error("3rd chunk evicted") } if loadedS4.chunkDescs[3].isEvicted() { t.Error("4th chunk evicted") } if loadedS4.chunkDescsOffset != 0 { t.Errorf("want chunkDescsOffset 0, got %d", loadedS4.chunkDescsOffset) } if loadedS4.headChunkClosed { t.Error("headChunkClosed is true") } } else { t.Errorf("couldn't find %v in loaded map", m4) } if loadedS5, ok := loadedSM.get(m5.Fingerprint()); ok { if !reflect.DeepEqual(loadedS5.metric, m5) { t.Errorf("want metric %v, got %v", m5, loadedS5.metric) } if got, want := len(loadedS5.chunkDescs), chunkCountS5; got != want { t.Errorf("got %d chunkDescs, want %d", got, want) } if got, want := loadedS5.persistWatermark, 3; got != want { t.Errorf("got persistWatermark %d, want %d", got, want) } if !loadedS5.chunkDescs[2].isEvicted() { t.Error("3rd chunk not evicted") } if loadedS5.chunkDescs[3].isEvicted() { t.Error("4th chunk evicted") } if loadedS5.chunkDescsOffset != 0 { t.Errorf("want chunkDescsOffset 0, got %d", loadedS5.chunkDescsOffset) } if loadedS5.headChunkClosed { t.Error("headChunkClosed is true") } } else { t.Errorf("couldn't find %v in loaded map", m5) } } func TestCheckpointAndLoadSeriesMapAndHeadsChunkType0(t *testing.T) { testCheckpointAndLoadSeriesMapAndHeads(t, 0) } func TestCheckpointAndLoadSeriesMapAndHeadsChunkType1(t *testing.T) { testCheckpointAndLoadSeriesMapAndHeads(t, 1) } func testGetFingerprintsModifiedBefore(t *testing.T, encoding chunkEncoding) { p, closer := newTestPersistence(t, encoding) defer closer.Close() m1 := clientmodel.Metric{"n1": "v1"} m2 := clientmodel.Metric{"n2": "v2"} m3 := clientmodel.Metric{"n1": "v2"} p.archiveMetric(1, m1, 2, 4) p.archiveMetric(2, m2, 1, 6) p.archiveMetric(3, m3, 5, 5) expectedFPs := map[clientmodel.Timestamp][]clientmodel.Fingerprint{ 0: {}, 1: {}, 2: {2}, 3: {1, 2}, 4: {1, 2}, 5: {1, 2}, 6: {1, 2, 3}, } for ts, want := range expectedFPs { got, err := p.getFingerprintsModifiedBefore(ts) if err != nil { t.Fatal(err) } if !reflect.DeepEqual(want, got) { t.Errorf("timestamp: %v, want FPs %v, got %v", ts, want, got) } } unarchived, firstTime, err := p.unarchiveMetric(1) if err != nil { t.Fatal(err) } if !unarchived { t.Fatal("expected actual unarchival") } if firstTime != 2 { t.Errorf("expected first time 2, got %v", firstTime) } unarchived, firstTime, err = p.unarchiveMetric(1) if err != nil { t.Fatal(err) } if unarchived { t.Fatal("expected no unarchival") } expectedFPs = map[clientmodel.Timestamp][]clientmodel.Fingerprint{ 0: {}, 1: {}, 2: {2}, 3: {2}, 4: {2}, 5: {2}, 6: {2, 3}, } for ts, want := range expectedFPs { got, err := p.getFingerprintsModifiedBefore(ts) if err != nil { t.Fatal(err) } if !reflect.DeepEqual(want, got) { t.Errorf("timestamp: %v, want FPs %v, got %v", ts, want, got) } } } func TestGetFingerprintsModifiedBeforeChunkType0(t *testing.T) { testGetFingerprintsModifiedBefore(t, 0) } func TestGetFingerprintsModifiedBeforeChunkType1(t *testing.T) { testGetFingerprintsModifiedBefore(t, 1) } func testDropArchivedMetric(t *testing.T, encoding chunkEncoding) { p, closer := newTestPersistence(t, encoding) defer closer.Close() m1 := clientmodel.Metric{"n1": "v1"} m2 := clientmodel.Metric{"n2": "v2"} p.archiveMetric(1, m1, 2, 4) p.archiveMetric(2, m2, 1, 6) p.indexMetric(1, m1) p.indexMetric(2, m2) p.waitForIndexing() outFPs, err := p.getFingerprintsForLabelPair(metric.LabelPair{Name: "n1", Value: "v1"}) if err != nil { t.Fatal(err) } want := clientmodel.Fingerprints{1} if !reflect.DeepEqual(outFPs, want) { t.Errorf("want %#v, got %#v", want, outFPs) } outFPs, err = p.getFingerprintsForLabelPair(metric.LabelPair{Name: "n2", Value: "v2"}) if err != nil { t.Fatal(err) } want = clientmodel.Fingerprints{2} if !reflect.DeepEqual(outFPs, want) { t.Errorf("want %#v, got %#v", want, outFPs) } if archived, _, _, err := p.hasArchivedMetric(1); err != nil || !archived { t.Error("want FP 1 archived") } if archived, _, _, err := p.hasArchivedMetric(2); err != nil || !archived { t.Error("want FP 2 archived") } if err != p.purgeArchivedMetric(1) { t.Fatal(err) } if err != p.purgeArchivedMetric(3) { // Purging something that has not beet archived is not an error. t.Fatal(err) } p.waitForIndexing() outFPs, err = p.getFingerprintsForLabelPair(metric.LabelPair{Name: "n1", Value: "v1"}) if err != nil { t.Fatal(err) } want = nil if !reflect.DeepEqual(outFPs, want) { t.Errorf("want %#v, got %#v", want, outFPs) } outFPs, err = p.getFingerprintsForLabelPair(metric.LabelPair{Name: "n2", Value: "v2"}) if err != nil { t.Fatal(err) } want = clientmodel.Fingerprints{2} if !reflect.DeepEqual(outFPs, want) { t.Errorf("want %#v, got %#v", want, outFPs) } if archived, _, _, err := p.hasArchivedMetric(1); err != nil || archived { t.Error("want FP 1 not archived") } if archived, _, _, err := p.hasArchivedMetric(2); err != nil || !archived { t.Error("want FP 2 archived") } } func TestDropArchivedMetricChunkType0(t *testing.T) { testDropArchivedMetric(t, 0) } func TestDropArchivedMetricChunkType1(t *testing.T) { testDropArchivedMetric(t, 1) } type incrementalBatch struct { fpToMetric index.FingerprintMetricMapping expectedLnToLvs index.LabelNameLabelValuesMapping expectedLpToFps index.LabelPairFingerprintsMapping } func testIndexing(t *testing.T, encoding chunkEncoding) { batches := []incrementalBatch{ { fpToMetric: index.FingerprintMetricMapping{ 0: { clientmodel.MetricNameLabel: "metric_0", "label_1": "value_1", }, 1: { clientmodel.MetricNameLabel: "metric_0", "label_2": "value_2", "label_3": "value_3", }, 2: { clientmodel.MetricNameLabel: "metric_1", "label_1": "value_2", }, }, expectedLnToLvs: index.LabelNameLabelValuesMapping{ clientmodel.MetricNameLabel: codable.LabelValueSet{ "metric_0": struct{}{}, "metric_1": struct{}{}, }, "label_1": codable.LabelValueSet{ "value_1": struct{}{}, "value_2": struct{}{}, }, "label_2": codable.LabelValueSet{ "value_2": struct{}{}, }, "label_3": codable.LabelValueSet{ "value_3": struct{}{}, }, }, expectedLpToFps: index.LabelPairFingerprintsMapping{ metric.LabelPair{ Name: clientmodel.MetricNameLabel, Value: "metric_0", }: codable.FingerprintSet{0: struct{}{}, 1: struct{}{}}, metric.LabelPair{ Name: clientmodel.MetricNameLabel, Value: "metric_1", }: codable.FingerprintSet{2: struct{}{}}, metric.LabelPair{ Name: "label_1", Value: "value_1", }: codable.FingerprintSet{0: struct{}{}}, metric.LabelPair{ Name: "label_1", Value: "value_2", }: codable.FingerprintSet{2: struct{}{}}, metric.LabelPair{ Name: "label_2", Value: "value_2", }: codable.FingerprintSet{1: struct{}{}}, metric.LabelPair{ Name: "label_3", Value: "value_3", }: codable.FingerprintSet{1: struct{}{}}, }, }, { fpToMetric: index.FingerprintMetricMapping{ 3: { clientmodel.MetricNameLabel: "metric_0", "label_1": "value_3", }, 4: { clientmodel.MetricNameLabel: "metric_2", "label_2": "value_2", "label_3": "value_1", }, 5: { clientmodel.MetricNameLabel: "metric_1", "label_1": "value_3", }, }, expectedLnToLvs: index.LabelNameLabelValuesMapping{ clientmodel.MetricNameLabel: codable.LabelValueSet{ "metric_0": struct{}{}, "metric_1": struct{}{}, "metric_2": struct{}{}, }, "label_1": codable.LabelValueSet{ "value_1": struct{}{}, "value_2": struct{}{}, "value_3": struct{}{}, }, "label_2": codable.LabelValueSet{ "value_2": struct{}{}, }, "label_3": codable.LabelValueSet{ "value_1": struct{}{}, "value_3": struct{}{}, }, }, expectedLpToFps: index.LabelPairFingerprintsMapping{ metric.LabelPair{ Name: clientmodel.MetricNameLabel, Value: "metric_0", }: codable.FingerprintSet{0: struct{}{}, 1: struct{}{}, 3: struct{}{}}, metric.LabelPair{ Name: clientmodel.MetricNameLabel, Value: "metric_1", }: codable.FingerprintSet{2: struct{}{}, 5: struct{}{}}, metric.LabelPair{ Name: clientmodel.MetricNameLabel, Value: "metric_2", }: codable.FingerprintSet{4: struct{}{}}, metric.LabelPair{ Name: "label_1", Value: "value_1", }: codable.FingerprintSet{0: struct{}{}}, metric.LabelPair{ Name: "label_1", Value: "value_2", }: codable.FingerprintSet{2: struct{}{}}, metric.LabelPair{ Name: "label_1", Value: "value_3", }: codable.FingerprintSet{3: struct{}{}, 5: struct{}{}}, metric.LabelPair{ Name: "label_2", Value: "value_2", }: codable.FingerprintSet{1: struct{}{}, 4: struct{}{}}, metric.LabelPair{ Name: "label_3", Value: "value_1", }: codable.FingerprintSet{4: struct{}{}}, metric.LabelPair{ Name: "label_3", Value: "value_3", }: codable.FingerprintSet{1: struct{}{}}, }, }, } p, closer := newTestPersistence(t, encoding) defer closer.Close() indexedFpsToMetrics := index.FingerprintMetricMapping{} for i, b := range batches { for fp, m := range b.fpToMetric { p.indexMetric(fp, m) if err := p.archiveMetric(fp, m, 1, 2); err != nil { t.Fatal(err) } indexedFpsToMetrics[fp] = m } verifyIndexedState(i, t, b, indexedFpsToMetrics, p) } for i := len(batches) - 1; i >= 0; i-- { b := batches[i] verifyIndexedState(i, t, batches[i], indexedFpsToMetrics, p) for fp, m := range b.fpToMetric { p.unindexMetric(fp, m) unarchived, firstTime, err := p.unarchiveMetric(fp) if err != nil { t.Fatal(err) } if !unarchived { t.Errorf("%d. metric not unarchived", i) } if firstTime != 1 { t.Errorf("%d. expected firstTime=1, got %v", i, firstTime) } delete(indexedFpsToMetrics, fp) } } } func TestIndexingChunkType0(t *testing.T) { testIndexing(t, 0) } func TestIndexingChunkType1(t *testing.T) { testIndexing(t, 1) } func verifyIndexedState(i int, t *testing.T, b incrementalBatch, indexedFpsToMetrics index.FingerprintMetricMapping, p *persistence) { p.waitForIndexing() for fp, m := range indexedFpsToMetrics { // Compare archived metrics with input metrics. mOut, err := p.getArchivedMetric(fp) if err != nil { t.Fatal(err) } if !mOut.Equal(m) { t.Errorf("%d. %v: Got: %s; want %s", i, fp, mOut, m) } // Check that archived metrics are in membership index. has, first, last, err := p.hasArchivedMetric(fp) if err != nil { t.Fatal(err) } if !has { t.Errorf("%d. fingerprint %v not found", i, fp) } if first != 1 || last != 2 { t.Errorf( "%d. %v: Got first: %d, last %d; want first: %d, last %d", i, fp, first, last, 1, 2, ) } } // Compare label name -> label values mappings. for ln, lvs := range b.expectedLnToLvs { outLvs, err := p.getLabelValuesForLabelName(ln) if err != nil { t.Fatal(err) } outSet := codable.LabelValueSet{} for _, lv := range outLvs { outSet[lv] = struct{}{} } if !reflect.DeepEqual(lvs, outSet) { t.Errorf("%d. label values don't match. Got: %v; want %v", i, outSet, lvs) } } // Compare label pair -> fingerprints mappings. for lp, fps := range b.expectedLpToFps { outFPs, err := p.getFingerprintsForLabelPair(lp) if err != nil { t.Fatal(err) } outSet := codable.FingerprintSet{} for _, fp := range outFPs { outSet[fp] = struct{}{} } if !reflect.DeepEqual(fps, outSet) { t.Errorf("%d. %v: fingerprints don't match. Got: %v; want %v", i, lp, outSet, fps) } } } var fpStrings = []string{ "b004b821ca50ba26", "b037c21e884e4fc5", "b037de1e884e5469", } func BenchmarkLoadChunksSequentially(b *testing.B) { p := persistence{ basePath: "fixtures", } sequentialIndexes := make([]int, 47) for i := range sequentialIndexes { sequentialIndexes[i] = i } var fp clientmodel.Fingerprint for i := 0; i < b.N; i++ { for _, s := range fpStrings { fp.LoadFromString(s) cds, err := p.loadChunks(fp, sequentialIndexes, 0) if err != nil { b.Error(err) } if len(cds) == 0 { b.Error("could not read any chunks") } } } } func BenchmarkLoadChunksRandomly(b *testing.B) { p := persistence{ basePath: "fixtures", } randomIndexes := []int{1, 5, 6, 8, 11, 14, 18, 23, 29, 33, 42, 46} var fp clientmodel.Fingerprint for i := 0; i < b.N; i++ { for _, s := range fpStrings { fp.LoadFromString(s) cds, err := p.loadChunks(fp, randomIndexes, 0) if err != nil { b.Error(err) } if len(cds) == 0 { b.Error("could not read any chunks") } } } } func BenchmarkLoadChunkDescs(b *testing.B) { p := persistence{ basePath: "fixtures", } var fp clientmodel.Fingerprint for i := 0; i < b.N; i++ { for _, s := range fpStrings { fp.LoadFromString(s) cds, err := p.loadChunkDescs(fp, clientmodel.Latest) if err != nil { b.Error(err) } if len(cds) == 0 { b.Error("could not read any chunk descs") } } } }