예제 #1
0
// quarantineSeriesFile moves a series file to the orphaned directory. It also
// writes a hint file with the provided quarantine reason and, if series is
// non-nil, the string representation of the metric.
func (p *persistence) quarantineSeriesFile(fp model.Fingerprint, quarantineReason error, metric model.Metric) error {
	var (
		oldName     = p.fileNameForFingerprint(fp)
		orphanedDir = filepath.Join(p.basePath, "orphaned", filepath.Base(filepath.Dir(oldName)))
		newName     = filepath.Join(orphanedDir, filepath.Base(oldName))
		hintName    = newName[:len(newName)-len(seriesFileSuffix)] + hintFileSuffix
	)

	renameErr := os.MkdirAll(orphanedDir, 0700)
	if renameErr != nil {
		return renameErr
	}
	renameErr = os.Rename(oldName, newName)
	if os.IsNotExist(renameErr) {
		// Source file dosn't exist. That's normal.
		renameErr = nil
	}
	// Write hint file even if the rename ended in an error. At least try...
	// And ignore errors writing the hint file. It's best effort.
	if f, err := os.Create(hintName); err == nil {
		if metric != nil {
			f.WriteString(metric.String() + "\n")
		} else {
			f.WriteString("[UNKNOWN METRIC]\n")
		}
		if quarantineReason != nil {
			f.WriteString(quarantineReason.Error() + "\n")
		} else {
			f.WriteString("[UNKNOWN REASON]\n")
		}
		f.Close()
	}
	return renameErr
}
예제 #2
0
파일: test.go 프로젝트: PrFalken/prometheus
// expect adds a new metric with a sequence of values to the set of expected
// results for the query.
func (ev *evalCmd) expect(pos int, m model.Metric, vals ...sequenceValue) {
	if m == nil {
		ev.expected[0] = entry{pos: pos, vals: vals}
		return
	}
	fp := m.Fingerprint()
	ev.metrics[fp] = m
	ev.expected[fp] = entry{pos: pos, vals: vals}
}
예제 #3
0
// mapFP takes a raw fingerprint (as returned by Metrics.FastFingerprint) and
// returns a truly unique fingerprint. The caller must have locked the raw
// fingerprint.
//
// If an error is encountered, it is returned together with the unchanged raw
// fingerprint.
func (m *fpMapper) mapFP(fp model.Fingerprint, metric model.Metric) model.Fingerprint {
	// First check if we are in the reserved FP space, in which case this is
	// automatically a collision that has to be mapped.
	if fp <= maxMappedFP {
		return m.maybeAddMapping(fp, metric)
	}

	// Then check the most likely case: This fp belongs to a series that is
	// already in memory.
	s, ok := m.fpToSeries.get(fp)
	if ok {
		// FP exists in memory, but is it for the same metric?
		if metric.Equal(s.metric) {
			// Yupp. We are done.
			return fp
		}
		// Collision detected!
		return m.maybeAddMapping(fp, metric)
	}
	// Metric is not in memory. Before doing the expensive archive lookup,
	// check if we have a mapping for this metric in place already.
	m.mtx.RLock()
	mappedFPs, fpAlreadyMapped := m.mappings[fp]
	m.mtx.RUnlock()
	if fpAlreadyMapped {
		// We indeed have mapped fp historically.
		ms := metricToUniqueString(metric)
		// fp is locked by the caller, so no further locking of
		// 'collisions' required (it is specific to fp).
		mappedFP, ok := mappedFPs[ms]
		if ok {
			// Historical mapping found, return the mapped FP.
			return mappedFP
		}
	}
	// If we are here, FP does not exist in memory and is either not mapped
	// at all, or existing mappings for FP are not for m. Check if we have
	// something for FP in the archive.
	archivedMetric, err := m.p.archivedMetric(fp)
	if err != nil || archivedMetric == nil {
		// Either the archive lookup has returend an error, or fp does
		// not exist in the archive. In the former case, the storage has
		// been marked as dirty already. We just carry on for as long as
		// it goes, assuming that fp does not exist. In either case,
		// since now we know (or assume) now that fp does not exist,
		// neither in memory nor in archive, we can safely keep it
		// unmapped.
		return fp
	}
	// FP exists in archive, but is it for the same metric?
	if metric.Equal(archivedMetric) {
		// Yupp. We are done.
		return fp
	}
	// Collision detected!
	return m.maybeAddMapping(fp, metric)
}
예제 #4
0
func TestMetric(t *testing.T) {
	testMetric := model.Metric{
		"to_delete": "test1",
		"to_change": "test2",
	}

	scenarios := []struct {
		fn  func(*Metric)
		out model.Metric
	}{
		{
			fn: func(cm *Metric) {
				cm.Del("to_delete")
			},
			out: model.Metric{
				"to_change": "test2",
			},
		},
		{
			fn: func(cm *Metric) {
				cm.Set("to_change", "changed")
			},
			out: model.Metric{
				"to_delete": "test1",
				"to_change": "changed",
			},
		},
	}

	for i, s := range scenarios {
		orig := testMetric.Clone()
		cm := &Metric{
			Metric: orig,
			Copied: false,
		}

		s.fn(cm)

		// Test that the original metric was not modified.
		if !orig.Equal(testMetric) {
			t.Fatalf("%d. original metric changed; expected %v, got %v", i, testMetric, orig)
		}

		// Test that the new metric has the right changes.
		if !cm.Metric.Equal(s.out) {
			t.Fatalf("%d. copied metric doesn't contain expected changes; expected %v, got %v", i, s.out, cm.Metric)
		}
	}
}
예제 #5
0
// maybeAddMapping adds a fingerprint mapping to fpm if the FastFingerprint of m is different from fp.
func maybeAddMapping(fp model.Fingerprint, m model.Metric, fpm fpMappings) {
	if rawFP := m.FastFingerprint(); rawFP != fp {
		log.Warnf(
			"Metric %v with fingerprint %v is mapped from raw fingerprint %v.",
			m, fp, rawFP,
		)
		if mappedFPs, ok := fpm[rawFP]; ok {
			mappedFPs[metricToUniqueString(m)] = fp
		} else {
			fpm[rawFP] = map[string]model.Fingerprint{
				metricToUniqueString(m): fp,
			}
		}
	}
}
예제 #6
0
func TestAppendOutOfOrder(t *testing.T) {
	s, closer := NewTestStorage(t, 1)
	defer closer.Close()

	m := model.Metric{
		model.MetricNameLabel: "out_of_order",
	}

	for i, t := range []int{0, 2, 2, 1} {
		s.Append(&model.Sample{
			Metric:    m,
			Timestamp: model.Time(t),
			Value:     model.SampleValue(i),
		})
	}

	fp, err := s.mapper.mapFP(m.FastFingerprint(), m)
	if err != nil {
		t.Fatal(err)
	}

	pl := s.NewPreloader()
	defer pl.Close()

	err = pl.PreloadRange(fp, 0, 2, 5*time.Minute)
	if err != nil {
		t.Fatalf("Error preloading chunks: %s", err)
	}

	it := s.NewIterator(fp)

	want := []model.SamplePair{
		{
			Timestamp: 0,
			Value:     0,
		},
		{
			Timestamp: 2,
			Value:     1,
		},
	}
	got := it.RangeValues(metric.Interval{OldestInclusive: 0, NewestInclusive: 2})
	if !reflect.DeepEqual(want, got) {
		t.Fatalf("want %v, got %v", want, got)
	}
}
예제 #7
0
파일: test.go 프로젝트: PrFalken/prometheus
// set a sequence of sample values for the given metric.
func (cmd *loadCmd) set(m model.Metric, vals ...sequenceValue) {
	fp := m.Fingerprint()

	samples := make([]model.SamplePair, 0, len(vals))
	ts := testStartTime
	for _, v := range vals {
		if !v.omitted {
			samples = append(samples, model.SamplePair{
				Timestamp: ts,
				Value:     v.value,
			})
		}
		ts = ts.Add(cmd.gap)
	}
	cmd.defs[fp] = samples
	cmd.metrics[fp] = m
}
예제 #8
0
파일: prometheus.go 프로젝트: CamJN/grafana
func formatLegend(metric pmodel.Metric, query *PrometheusQuery) string {
	if query.LegendFormat == "" {
		return metric.String()
	}

	result := legendFormat.ReplaceAllFunc([]byte(query.LegendFormat), func(in []byte) []byte {
		labelName := strings.Replace(string(in), "{{", "", 1)
		labelName = strings.Replace(labelName, "}}", "", 1)
		labelName = strings.TrimSpace(labelName)
		if val, exists := metric[pmodel.LabelName(labelName)]; exists {
			return []byte(val)
		}

		return in
	})

	return string(result)
}
예제 #9
0
// HTMLSnippet returns an HTML snippet representing this alerting rule. The
// resulting snippet is expected to be presented in a <pre> element, so that
// line breaks and other returned whitespace is respected.
func (rule *AlertingRule) HTMLSnippet(pathPrefix string) template.HTML {
	alertMetric := model.Metric{
		model.MetricNameLabel: alertMetricName,
		alertNameLabel:        model.LabelValue(rule.name),
	}
	s := fmt.Sprintf("ALERT <a href=%q>%s</a>", pathPrefix+strutil.GraphLinkForExpression(alertMetric.String()), rule.name)
	s += fmt.Sprintf("\n  IF <a href=%q>%s</a>", pathPrefix+strutil.GraphLinkForExpression(rule.vector.String()), rule.vector)
	if rule.holdDuration > 0 {
		s += fmt.Sprintf("\n  FOR %s", strutil.DurationToString(rule.holdDuration))
	}
	if len(rule.labels) > 0 {
		s += fmt.Sprintf("\n  WITH %s", rule.labels)
	}
	s += fmt.Sprintf("\n  SUMMARY %q", rule.summary)
	s += fmt.Sprintf("\n  DESCRIPTION %q", rule.description)
	s += fmt.Sprintf("\n  RUNBOOK %q", rule.runbook)
	return template.HTML(s)
}
예제 #10
0
// HTMLSnippet returns an HTML snippet representing this alerting rule. The
// resulting snippet is expected to be presented in a <pre> element, so that
// line breaks and other returned whitespace is respected.
func (r *AlertingRule) HTMLSnippet(pathPrefix string) html_template.HTML {
	alertMetric := model.Metric{
		model.MetricNameLabel: alertMetricName,
		alertNameLabel:        model.LabelValue(r.name),
	}
	s := fmt.Sprintf("ALERT <a href=%q>%s</a>", pathPrefix+strutil.GraphLinkForExpression(alertMetric.String()), r.name)
	s += fmt.Sprintf("\n  IF <a href=%q>%s</a>", pathPrefix+strutil.GraphLinkForExpression(r.vector.String()), html_template.HTMLEscapeString(r.vector.String()))
	if r.holdDuration > 0 {
		s += fmt.Sprintf("\n  FOR %s", model.Duration(r.holdDuration))
	}
	if len(r.labels) > 0 {
		s += fmt.Sprintf("\n  LABELS %s", html_template.HTMLEscapeString(r.labels.String()))
	}
	if len(r.annotations) > 0 {
		s += fmt.Sprintf("\n  ANNOTATIONS %s", html_template.HTMLEscapeString(r.annotations.String()))
	}
	return html_template.HTML(s)
}
예제 #11
0
// HTMLSnippet returns an HTML snippet representing this alerting rule. The
// resulting snippet is expected to be presented in a <pre> element, so that
// line breaks and other returned whitespace is respected.
func (rule *AlertingRule) HTMLSnippet(pathPrefix string) template.HTML {
	alertMetric := model.Metric{
		model.MetricNameLabel: alertMetricName,
		alertNameLabel:        model.LabelValue(rule.name),
	}
	s := fmt.Sprintf("ALERT <a href=%q>%s</a>", pathPrefix+strutil.GraphLinkForExpression(alertMetric.String()), rule.name)
	s += fmt.Sprintf("\n  IF <a href=%q>%s</a>", pathPrefix+strutil.GraphLinkForExpression(rule.vector.String()), rule.vector)
	if rule.holdDuration > 0 {
		s += fmt.Sprintf("\n  FOR %s", strutil.DurationToString(rule.holdDuration))
	}
	if len(rule.labels) > 0 {
		s += fmt.Sprintf("\n  WITH %s", rule.labels)
	}
	if len(rule.annotations) > 0 {
		s += fmt.Sprintf("\n  ANNOTATIONS %s", rule.annotations)
	}
	return template.HTML(s)
}
예제 #12
0
func TestQuarantineMetric(t *testing.T) {
	now := model.Now()
	insertStart := now.Add(-2 * time.Hour)

	s, closer := NewTestStorage(t, 2)
	defer closer.Close()

	chunkFileExists := func(fp model.Fingerprint) (bool, error) {
		f, err := s.persistence.openChunkFileForReading(fp)
		if err == nil {
			f.Close()
			return true, nil
		}
		if os.IsNotExist(err) {
			return false, nil
		}
		return false, err
	}

	m1 := model.Metric{model.MetricNameLabel: "test", "n1": "v1"}
	m2 := model.Metric{model.MetricNameLabel: "test", "n1": "v2"}
	m3 := model.Metric{model.MetricNameLabel: "test", "n1": "v3"}

	N := 120000

	for j, m := range []model.Metric{m1, m2, m3} {
		for i := 0; i < N; i++ {
			smpl := &model.Sample{
				Metric:    m,
				Timestamp: insertStart.Add(time.Duration(i) * time.Millisecond), // 1 millisecond intervals.
				Value:     model.SampleValue(j),
			}
			s.Append(smpl)
		}
	}
	s.WaitForIndexing()

	// Archive m3, but first maintain it so that at least something is written to disk.
	fpToBeArchived := m3.FastFingerprint()
	s.maintainMemorySeries(fpToBeArchived, 0)
	s.fpLocker.Lock(fpToBeArchived)
	s.fpToSeries.del(fpToBeArchived)
	s.persistence.archiveMetric(fpToBeArchived, m3, 0, insertStart.Add(time.Duration(N-1)*time.Millisecond))
	s.fpLocker.Unlock(fpToBeArchived)

	// Corrupt the series file for m3.
	f, err := os.Create(s.persistence.fileNameForFingerprint(fpToBeArchived))
	if err != nil {
		t.Fatal(err)
	}
	if _, err := f.WriteString("This is clearly not the content of a series file."); err != nil {
		t.Fatal(err)
	}
	if f.Close(); err != nil {
		t.Fatal(err)
	}

	fps := s.fingerprintsForLabelPairs(model.LabelPair{Name: model.MetricNameLabel, Value: "test"})
	if len(fps) != 3 {
		t.Errorf("unexpected number of fingerprints: %d", len(fps))
	}

	pl := s.NewPreloader()
	// This will access the corrupt file and lead to quarantining.
	pl.PreloadInstant(fpToBeArchived, now.Add(-2*time.Hour), time.Minute)
	pl.Close()
	time.Sleep(time.Second) // Give time to quarantine. TODO(beorn7): Find a better way to wait.
	s.WaitForIndexing()

	fps2 := s.fingerprintsForLabelPairs(model.LabelPair{
		Name: model.MetricNameLabel, Value: "test",
	})
	if len(fps2) != 2 {
		t.Errorf("unexpected number of fingerprints: %d", len(fps2))
	}

	exists, err := chunkFileExists(fpToBeArchived)
	if err != nil {
		t.Fatal(err)
	}
	if exists {
		t.Errorf("chunk file exists for fp=%v", fpToBeArchived)
	}
}
예제 #13
0
func TestDropMetrics(t *testing.T) {
	now := model.Now()
	insertStart := now.Add(-2 * time.Hour)

	s, closer := NewTestStorage(t, 1)
	defer closer.Close()

	chunkFileExists := func(fp model.Fingerprint) (bool, error) {
		f, err := s.persistence.openChunkFileForReading(fp)
		if err == nil {
			f.Close()
			return true, nil
		}
		if os.IsNotExist(err) {
			return false, nil
		}
		return false, err
	}

	m1 := model.Metric{model.MetricNameLabel: "test", "n1": "v1"}
	m2 := model.Metric{model.MetricNameLabel: "test", "n1": "v2"}
	m3 := model.Metric{model.MetricNameLabel: "test", "n1": "v3"}

	N := 120000

	for j, m := range []model.Metric{m1, m2, m3} {
		for i := 0; i < N; i++ {
			smpl := &model.Sample{
				Metric:    m,
				Timestamp: insertStart.Add(time.Duration(i) * time.Millisecond), // 1 millisecond intervals.
				Value:     model.SampleValue(j),
			}
			s.Append(smpl)
		}
	}
	s.WaitForIndexing()

	// Archive m3, but first maintain it so that at least something is written to disk.
	fpToBeArchived := m3.FastFingerprint()
	s.maintainMemorySeries(fpToBeArchived, 0)
	s.fpLocker.Lock(fpToBeArchived)
	s.fpToSeries.del(fpToBeArchived)
	if err := s.persistence.archiveMetric(
		fpToBeArchived, m3, 0, insertStart.Add(time.Duration(N-1)*time.Millisecond),
	); err != nil {
		t.Error(err)
	}
	s.fpLocker.Unlock(fpToBeArchived)

	fps := s.fingerprintsForLabelPairs(model.LabelPair{Name: model.MetricNameLabel, Value: "test"})
	if len(fps) != 3 {
		t.Errorf("unexpected number of fingerprints: %d", len(fps))
	}

	fpList := model.Fingerprints{m1.FastFingerprint(), m2.FastFingerprint(), fpToBeArchived}

	s.DropMetricsForFingerprints(fpList[0])
	s.WaitForIndexing()

	fps2 := s.fingerprintsForLabelPairs(model.LabelPair{
		Name: model.MetricNameLabel, Value: "test",
	})
	if len(fps2) != 2 {
		t.Errorf("unexpected number of fingerprints: %d", len(fps2))
	}

	it := s.NewIterator(fpList[0])
	if vals := it.RangeValues(metric.Interval{OldestInclusive: insertStart, NewestInclusive: now}); len(vals) != 0 {
		t.Errorf("unexpected number of samples: %d", len(vals))
	}
	it = s.NewIterator(fpList[1])
	if vals := it.RangeValues(metric.Interval{OldestInclusive: insertStart, NewestInclusive: now}); len(vals) != N {
		t.Errorf("unexpected number of samples: %d", len(vals))
	}
	exists, err := chunkFileExists(fpList[2])
	if err != nil {
		t.Fatal(err)
	}
	if !exists {
		t.Errorf("chunk file does not exist for fp=%v", fpList[2])
	}

	s.DropMetricsForFingerprints(fpList...)
	s.WaitForIndexing()

	fps3 := s.fingerprintsForLabelPairs(model.LabelPair{
		Name: model.MetricNameLabel, Value: "test",
	})
	if len(fps3) != 0 {
		t.Errorf("unexpected number of fingerprints: %d", len(fps3))
	}

	it = s.NewIterator(fpList[0])
	if vals := it.RangeValues(metric.Interval{OldestInclusive: insertStart, NewestInclusive: now}); len(vals) != 0 {
		t.Errorf("unexpected number of samples: %d", len(vals))
	}
	it = s.NewIterator(fpList[1])
	if vals := it.RangeValues(metric.Interval{OldestInclusive: insertStart, NewestInclusive: now}); len(vals) != 0 {
		t.Errorf("unexpected number of samples: %d", len(vals))
	}
	exists, err = chunkFileExists(fpList[2])
	if err != nil {
		t.Fatal(err)
	}
	if exists {
		t.Errorf("chunk file still exists for fp=%v", fpList[2])
	}
}
예제 #14
0
func TestMatches(t *testing.T) {
	storage, closer := NewTestStorage(t, 1)
	defer closer.Close()

	samples := make([]*model.Sample, 100)
	fingerprints := make(model.Fingerprints, 100)

	for i := range samples {
		metric := model.Metric{
			model.MetricNameLabel: model.LabelValue(fmt.Sprintf("test_metric_%d", i)),
			"label1":              model.LabelValue(fmt.Sprintf("test_%d", i/10)),
			"label2":              model.LabelValue(fmt.Sprintf("test_%d", (i+5)/10)),
			"all":                 "const",
		}
		samples[i] = &model.Sample{
			Metric:    metric,
			Timestamp: model.Time(i),
			Value:     model.SampleValue(i),
		}
		fingerprints[i] = metric.FastFingerprint()
	}
	for _, s := range samples {
		storage.Append(s)
	}
	storage.WaitForIndexing()

	newMatcher := func(matchType metric.MatchType, name model.LabelName, value model.LabelValue) *metric.LabelMatcher {
		lm, err := metric.NewLabelMatcher(matchType, name, value)
		if err != nil {
			t.Fatalf("error creating label matcher: %s", err)
		}
		return lm
	}

	var matcherTests = []struct {
		matchers metric.LabelMatchers
		expected model.Fingerprints
	}{
		{
			matchers: metric.LabelMatchers{newMatcher(metric.Equal, "label1", "x")},
			expected: model.Fingerprints{},
		},
		{
			matchers: metric.LabelMatchers{newMatcher(metric.Equal, "label1", "test_0")},
			expected: fingerprints[:10],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", "test_0"),
				newMatcher(metric.Equal, "label2", "test_1"),
			},
			expected: fingerprints[5:10],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "x"),
			},
			expected: fingerprints,
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "test_0"),
			},
			expected: fingerprints[10:],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.NotEqual, "label1", "test_1"),
				newMatcher(metric.NotEqual, "label1", "test_2"),
			},
			expected: fingerprints[30:],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", ""),
			},
			expected: fingerprints[:0],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.Equal, "label1", ""),
			},
			expected: fingerprints[:0],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.Equal, "label2", ""),
			},
			expected: fingerprints[:0],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.Equal, "not_existant", ""),
			},
			expected: fingerprints[10:],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.RegexMatch, "label1", `test_[3-5]`),
			},
			expected: fingerprints[30:60],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.RegexNoMatch, "label1", `test_[3-5]`),
			},
			expected: append(append(model.Fingerprints{}, fingerprints[:30]...), fingerprints[60:]...),
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.RegexMatch, "label1", `test_[3-5]`),
				newMatcher(metric.RegexMatch, "label2", `test_[4-6]`),
			},
			expected: fingerprints[35:60],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.RegexMatch, "label1", `test_[3-5]`),
				newMatcher(metric.NotEqual, "label2", `test_4`),
			},
			expected: append(append(model.Fingerprints{}, fingerprints[30:35]...), fingerprints[45:60]...),
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", `nonexistent`),
				newMatcher(metric.RegexMatch, "label2", `test`),
			},
			expected: model.Fingerprints{},
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", `test_0`),
				newMatcher(metric.RegexMatch, "label2", `nonexistent`),
			},
			expected: model.Fingerprints{},
		},
	}

	for _, mt := range matcherTests {
		res := storage.MetricsForLabelMatchers(mt.matchers...)
		if len(mt.expected) != len(res) {
			t.Fatalf("expected %d matches for %q, found %d", len(mt.expected), mt.matchers, len(res))
		}
		for fp1 := range res {
			found := false
			for _, fp2 := range mt.expected {
				if fp1 == fp2 {
					found = true
					break
				}
			}
			if !found {
				t.Errorf("expected fingerprint %s for %q not in result", fp1, mt.matchers)
			}
		}
	}
}
예제 #15
0
func BenchmarkLabelMatching(b *testing.B) {
	s, closer := NewTestStorage(b, 1)
	defer closer.Close()

	h := fnv.New64a()
	lbl := func(x int) model.LabelValue {
		h.Reset()
		h.Write([]byte(fmt.Sprintf("%d", x)))
		return model.LabelValue(fmt.Sprintf("%d", h.Sum64()))
	}

	M := 32
	met := model.Metric{}
	for i := 0; i < M; i++ {
		met["label_a"] = lbl(i)
		for j := 0; j < M; j++ {
			met["label_b"] = lbl(j)
			for k := 0; k < M; k++ {
				met["label_c"] = lbl(k)
				for l := 0; l < M; l++ {
					met["label_d"] = lbl(l)
					s.Append(&model.Sample{
						Metric:    met.Clone(),
						Timestamp: 0,
						Value:     1,
					})
				}
			}
		}
	}
	s.WaitForIndexing()

	newMatcher := func(matchType metric.MatchType, name model.LabelName, value model.LabelValue) *metric.LabelMatcher {
		lm, err := metric.NewLabelMatcher(matchType, name, value)
		if err != nil {
			b.Fatalf("error creating label matcher: %s", err)
		}
		return lm
	}

	var matcherTests = []metric.LabelMatchers{
		{
			newMatcher(metric.Equal, "label_a", lbl(1)),
		},
		{
			newMatcher(metric.Equal, "label_a", lbl(3)),
			newMatcher(metric.Equal, "label_c", lbl(3)),
		},
		{
			newMatcher(metric.Equal, "label_a", lbl(3)),
			newMatcher(metric.Equal, "label_c", lbl(3)),
			newMatcher(metric.NotEqual, "label_d", lbl(3)),
		},
		{
			newMatcher(metric.Equal, "label_a", lbl(3)),
			newMatcher(metric.Equal, "label_b", lbl(3)),
			newMatcher(metric.Equal, "label_c", lbl(3)),
			newMatcher(metric.NotEqual, "label_d", lbl(3)),
		},
		{
			newMatcher(metric.RegexMatch, "label_a", ".+"),
		},
		{
			newMatcher(metric.Equal, "label_a", lbl(3)),
			newMatcher(metric.RegexMatch, "label_a", ".+"),
		},
		{
			newMatcher(metric.Equal, "label_a", lbl(1)),
			newMatcher(metric.RegexMatch, "label_c", "("+lbl(3)+"|"+lbl(10)+")"),
		},
		{
			newMatcher(metric.Equal, "label_a", lbl(3)),
			newMatcher(metric.Equal, "label_a", lbl(4)),
			newMatcher(metric.RegexMatch, "label_c", "("+lbl(3)+"|"+lbl(10)+")"),
		},
	}

	b.ReportAllocs()
	b.ResetTimer()

	for i := 0; i < b.N; i++ {
		benchLabelMatchingRes = map[model.Fingerprint]metric.Metric{}
		for _, mt := range matcherTests {
			benchLabelMatchingRes = s.MetricsForLabelMatchers(mt...)
		}
	}
	// Stop timer to not count the storage closing.
	b.StopTimer()
}
예제 #16
0
func TestFingerprintsForLabels(t *testing.T) {
	storage, closer := NewTestStorage(t, 1)
	defer closer.Close()

	samples := make([]*model.Sample, 100)
	fingerprints := make(model.Fingerprints, 100)

	for i := range samples {
		metric := model.Metric{
			model.MetricNameLabel: model.LabelValue(fmt.Sprintf("test_metric_%d", i)),
			"label1":              model.LabelValue(fmt.Sprintf("test_%d", i/10)),
			"label2":              model.LabelValue(fmt.Sprintf("test_%d", (i+5)/10)),
		}
		samples[i] = &model.Sample{
			Metric:    metric,
			Timestamp: model.Time(i),
			Value:     model.SampleValue(i),
		}
		fingerprints[i] = metric.FastFingerprint()
	}
	for _, s := range samples {
		storage.Append(s)
	}
	storage.WaitForIndexing()

	var matcherTests = []struct {
		pairs    []model.LabelPair
		expected model.Fingerprints
	}{
		{
			pairs:    []model.LabelPair{{"label1", "x"}},
			expected: fingerprints[:0],
		},
		{
			pairs:    []model.LabelPair{{"label1", "test_0"}},
			expected: fingerprints[:10],
		},
		{
			pairs: []model.LabelPair{
				{"label1", "test_0"},
				{"label1", "test_1"},
			},
			expected: fingerprints[:0],
		},
		{
			pairs: []model.LabelPair{
				{"label1", "test_0"},
				{"label2", "test_1"},
			},
			expected: fingerprints[5:10],
		},
		{
			pairs: []model.LabelPair{
				{"label1", "test_1"},
				{"label2", "test_2"},
			},
			expected: fingerprints[15:20],
		},
	}

	for _, mt := range matcherTests {
		resfps := storage.fingerprintsForLabelPairs(mt.pairs...)
		if len(mt.expected) != len(resfps) {
			t.Fatalf("expected %d matches for %q, found %d", len(mt.expected), mt.pairs, len(resfps))
		}
		for fp1 := range resfps {
			found := false
			for _, fp2 := range mt.expected {
				if fp1 == fp2 {
					found = true
					break
				}
			}
			if !found {
				t.Errorf("expected fingerprint %s for %q not in result", fp1, mt.pairs)
			}
		}
	}
}
예제 #17
0
func TestMatches(t *testing.T) {
	storage, closer := NewTestStorage(t, 2)
	defer closer.Close()

	storage.archiveHighWatermark = 90
	samples := make([]*model.Sample, 100)
	fingerprints := make(model.Fingerprints, 100)

	for i := range samples {
		metric := model.Metric{
			model.MetricNameLabel: model.LabelValue(fmt.Sprintf("test_metric_%d", i)),
			"label1":              model.LabelValue(fmt.Sprintf("test_%d", i/10)),
			"label2":              model.LabelValue(fmt.Sprintf("test_%d", (i+5)/10)),
			"all":                 "const",
		}
		samples[i] = &model.Sample{
			Metric:    metric,
			Timestamp: model.Time(i),
			Value:     model.SampleValue(i),
		}
		fingerprints[i] = metric.FastFingerprint()
	}
	for _, s := range samples {
		storage.Append(s)
	}
	storage.WaitForIndexing()

	// Archive every tenth metric.
	for i, fp := range fingerprints {
		if i%10 != 0 {
			continue
		}
		s, ok := storage.fpToSeries.get(fp)
		if !ok {
			t.Fatal("could not retrieve series for fp", fp)
		}
		storage.fpLocker.Lock(fp)
		storage.persistence.archiveMetric(fp, s.metric, s.firstTime(), s.lastTime)
		storage.fpLocker.Unlock(fp)
	}

	newMatcher := func(matchType metric.MatchType, name model.LabelName, value model.LabelValue) *metric.LabelMatcher {
		lm, err := metric.NewLabelMatcher(matchType, name, value)
		if err != nil {
			t.Fatalf("error creating label matcher: %s", err)
		}
		return lm
	}

	var matcherTests = []struct {
		matchers metric.LabelMatchers
		expected model.Fingerprints
	}{
		{
			matchers: metric.LabelMatchers{newMatcher(metric.Equal, "label1", "x")},
			expected: model.Fingerprints{},
		},
		{
			matchers: metric.LabelMatchers{newMatcher(metric.Equal, "label1", "test_0")},
			expected: fingerprints[:10],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", "test_0"),
				newMatcher(metric.Equal, "label2", "test_1"),
			},
			expected: fingerprints[5:10],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "x"),
			},
			expected: fingerprints,
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "test_0"),
			},
			expected: fingerprints[10:],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.NotEqual, "label1", "test_1"),
				newMatcher(metric.NotEqual, "label1", "test_2"),
			},
			expected: fingerprints[30:],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", ""),
			},
			expected: fingerprints[:0],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.Equal, "label1", ""),
			},
			expected: fingerprints[:0],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.Equal, "label2", ""),
			},
			expected: fingerprints[:0],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.NotEqual, "label1", "test_0"),
				newMatcher(metric.Equal, "not_existant", ""),
			},
			expected: fingerprints[10:],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.RegexMatch, "label1", `test_[3-5]`),
			},
			expected: fingerprints[30:60],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "all", "const"),
				newMatcher(metric.RegexNoMatch, "label1", `test_[3-5]`),
			},
			expected: append(append(model.Fingerprints{}, fingerprints[:30]...), fingerprints[60:]...),
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.RegexMatch, "label1", `test_[3-5]`),
				newMatcher(metric.RegexMatch, "label2", `test_[4-6]`),
			},
			expected: fingerprints[35:60],
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.RegexMatch, "label1", `test_[3-5]`),
				newMatcher(metric.NotEqual, "label2", `test_4`),
			},
			expected: append(append(model.Fingerprints{}, fingerprints[30:35]...), fingerprints[45:60]...),
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", `nonexistent`),
				newMatcher(metric.RegexMatch, "label2", `test`),
			},
			expected: model.Fingerprints{},
		},
		{
			matchers: metric.LabelMatchers{
				newMatcher(metric.Equal, "label1", `test_0`),
				newMatcher(metric.RegexMatch, "label2", `nonexistent`),
			},
			expected: model.Fingerprints{},
		},
	}

	for _, mt := range matcherTests {
		res := storage.MetricsForLabelMatchers(
			model.Earliest, model.Latest,
			mt.matchers...,
		)
		if len(mt.expected) != len(res) {
			t.Fatalf("expected %d matches for %q, found %d", len(mt.expected), mt.matchers, len(res))
		}
		for fp1 := range res {
			found := false
			for _, fp2 := range mt.expected {
				if fp1 == fp2 {
					found = true
					break
				}
			}
			if !found {
				t.Errorf("expected fingerprint %s for %q not in result", fp1, mt.matchers)
			}
		}
		// Smoketest for from/through.
		if len(storage.MetricsForLabelMatchers(
			model.Earliest, -10000,
			mt.matchers...,
		)) > 0 {
			t.Error("expected no matches with 'through' older than any sample")
		}
		if len(storage.MetricsForLabelMatchers(
			10000, model.Latest,
			mt.matchers...,
		)) > 0 {
			t.Error("expected no matches with 'from' newer than any sample")
		}
		// Now the tricky one, cut out something from the middle.
		var (
			from    model.Time = 25
			through model.Time = 75
		)
		res = storage.MetricsForLabelMatchers(
			from, through,
			mt.matchers...,
		)
		expected := model.Fingerprints{}
		for _, fp := range mt.expected {
			i := 0
			for ; fingerprints[i] != fp && i < len(fingerprints); i++ {
			}
			if i == len(fingerprints) {
				t.Fatal("expected fingerprint does not exist")
			}
			if !model.Time(i).Before(from) && !model.Time(i).After(through) {
				expected = append(expected, fp)
			}
		}
		if len(expected) != len(res) {
			t.Errorf("expected %d range-limited matches for %q, found %d", len(expected), mt.matchers, len(res))
		}
		for fp1 := range res {
			found := false
			for _, fp2 := range expected {
				if fp1 == fp2 {
					found = true
					break
				}
			}
			if !found {
				t.Errorf("expected fingerprint %s for %q not in range-limited result", fp1, mt.matchers)
			}
		}

	}
}