// Copyright 2013 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 rules import ( "context" "fmt" "io/ioutil" "math" "os" "sort" "testing" "time" "github.com/go-kit/kit/log" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/model" yaml "gopkg.in/yaml.v2" "github.com/prometheus/prometheus/pkg/labels" "github.com/prometheus/prometheus/pkg/rulefmt" "github.com/prometheus/prometheus/pkg/timestamp" "github.com/prometheus/prometheus/pkg/value" "github.com/prometheus/prometheus/promql" "github.com/prometheus/prometheus/storage" "github.com/prometheus/prometheus/util/teststorage" "github.com/prometheus/prometheus/util/testutil" ) func TestAlertingRule(t *testing.T) { suite, err := promql.NewTest(t, ` load 5m http_requests{job="app-server", instance="0", group="canary", severity="overwrite-me"} 75 85 95 105 105 95 85 http_requests{job="app-server", instance="1", group="canary", severity="overwrite-me"} 80 90 100 110 120 130 140 `) testutil.Ok(t, err) defer suite.Close() err = suite.Run() testutil.Ok(t, err) expr, err := promql.ParseExpr(`http_requests{group="canary", job="app-server"} < 100`) testutil.Ok(t, err) rule := NewAlertingRule( "HTTPRequestRateLow", expr, time.Minute, labels.FromStrings("severity", "{{\"c\"}}ritical"), nil, nil, true, nil, ) result := promql.Vector{ { Metric: labels.FromStrings( "__name__", "ALERTS", "alertname", "HTTPRequestRateLow", "alertstate", "pending", "group", "canary", "instance", "0", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, { Metric: labels.FromStrings( "__name__", "ALERTS", "alertname", "HTTPRequestRateLow", "alertstate", "pending", "group", "canary", "instance", "1", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, { Metric: labels.FromStrings( "__name__", "ALERTS", "alertname", "HTTPRequestRateLow", "alertstate", "firing", "group", "canary", "instance", "0", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, { Metric: labels.FromStrings( "__name__", "ALERTS", "alertname", "HTTPRequestRateLow", "alertstate", "firing", "group", "canary", "instance", "1", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, } baseTime := time.Unix(0, 0) var tests = []struct { time time.Duration result promql.Vector }{ { time: 0, result: result[:2], }, { time: 5 * time.Minute, result: result[2:], }, { time: 10 * time.Minute, result: result[2:3], }, { time: 15 * time.Minute, result: nil, }, { time: 20 * time.Minute, result: nil, }, { time: 25 * time.Minute, result: result[:1], }, { time: 30 * time.Minute, result: result[2:3], }, } for i, test := range tests { t.Logf("case %d", i) evalTime := baseTime.Add(test.time) res, err := rule.Eval(suite.Context(), evalTime, EngineQueryFunc(suite.QueryEngine(), suite.Storage()), nil) testutil.Ok(t, err) var filteredRes promql.Vector // After removing 'ALERTS_FOR_STATE' samples. for _, smpl := range res { smplName := smpl.Metric.Get("__name__") if smplName == "ALERTS" { filteredRes = append(filteredRes, smpl) } else { // If not 'ALERTS', it has to be 'ALERTS_FOR_STATE'. testutil.Equals(t, smplName, "ALERTS_FOR_STATE") } } for i := range test.result { test.result[i].T = timestamp.FromTime(evalTime) } testutil.Assert(t, len(test.result) == len(filteredRes), "%d. Number of samples in expected and actual output don't match (%d vs. %d)", i, len(test.result), len(res)) sort.Slice(filteredRes, func(i, j int) bool { return labels.Compare(filteredRes[i].Metric, filteredRes[j].Metric) < 0 }) testutil.Equals(t, test.result, filteredRes) for _, aa := range rule.ActiveAlerts() { testutil.Assert(t, aa.Labels.Get(model.MetricNameLabel) == "", "%s label set on active alert: %s", model.MetricNameLabel, aa.Labels) } } } func TestForStateAddSamples(t *testing.T) { suite, err := promql.NewTest(t, ` load 5m http_requests{job="app-server", instance="0", group="canary", severity="overwrite-me"} 75 85 95 105 105 95 85 http_requests{job="app-server", instance="1", group="canary", severity="overwrite-me"} 80 90 100 110 120 130 140 `) testutil.Ok(t, err) defer suite.Close() err = suite.Run() testutil.Ok(t, err) expr, err := promql.ParseExpr(`http_requests{group="canary", job="app-server"} < 100`) testutil.Ok(t, err) rule := NewAlertingRule( "HTTPRequestRateLow", expr, time.Minute, labels.FromStrings("severity", "{{\"c\"}}ritical"), nil, nil, true, nil, ) result := promql.Vector{ { Metric: labels.FromStrings( "__name__", "ALERTS_FOR_STATE", "alertname", "HTTPRequestRateLow", "group", "canary", "instance", "0", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, { Metric: labels.FromStrings( "__name__", "ALERTS_FOR_STATE", "alertname", "HTTPRequestRateLow", "group", "canary", "instance", "1", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, { Metric: labels.FromStrings( "__name__", "ALERTS_FOR_STATE", "alertname", "HTTPRequestRateLow", "group", "canary", "instance", "0", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, { Metric: labels.FromStrings( "__name__", "ALERTS_FOR_STATE", "alertname", "HTTPRequestRateLow", "group", "canary", "instance", "1", "job", "app-server", "severity", "critical", ), Point: promql.Point{V: 1}, }, } baseTime := time.Unix(0, 0) var tests = []struct { time time.Duration result promql.Vector persistThisTime bool // If true, it means this 'time' is persisted for 'for'. }{ { time: 0, result: append(promql.Vector{}, result[:2]...), persistThisTime: true, }, { time: 5 * time.Minute, result: append(promql.Vector{}, result[2:]...), }, { time: 10 * time.Minute, result: append(promql.Vector{}, result[2:3]...), }, { time: 15 * time.Minute, result: nil, }, { time: 20 * time.Minute, result: nil, }, { time: 25 * time.Minute, result: append(promql.Vector{}, result[:1]...), persistThisTime: true, }, { time: 30 * time.Minute, result: append(promql.Vector{}, result[2:3]...), }, } var forState float64 for i, test := range tests { t.Logf("case %d", i) evalTime := baseTime.Add(test.time) if test.persistThisTime { forState = float64(evalTime.Unix()) } if test.result == nil { forState = float64(value.StaleNaN) } res, err := rule.Eval(suite.Context(), evalTime, EngineQueryFunc(suite.QueryEngine(), suite.Storage()), nil) testutil.Ok(t, err) var filteredRes promql.Vector // After removing 'ALERTS' samples. for _, smpl := range res { smplName := smpl.Metric.Get("__name__") if smplName == "ALERTS_FOR_STATE" { filteredRes = append(filteredRes, smpl) } else { // If not 'ALERTS_FOR_STATE', it has to be 'ALERTS'. testutil.Equals(t, smplName, "ALERTS") } } for i := range test.result { test.result[i].T = timestamp.FromTime(evalTime) // Updating the expected 'for' state. if test.result[i].V >= 0 { test.result[i].V = forState } } testutil.Assert(t, len(test.result) == len(filteredRes), "%d. Number of samples in expected and actual output don't match (%d vs. %d)", i, len(test.result), len(res)) sort.Slice(filteredRes, func(i, j int) bool { return labels.Compare(filteredRes[i].Metric, filteredRes[j].Metric) < 0 }) testutil.Equals(t, test.result, filteredRes) for _, aa := range rule.ActiveAlerts() { testutil.Assert(t, aa.Labels.Get(model.MetricNameLabel) == "", "%s label set on active alert: %s", model.MetricNameLabel, aa.Labels) } } } // sortAlerts sorts `[]*Alert` w.r.t. the Labels. func sortAlerts(items []*Alert) { sort.Slice(items, func(i, j int) bool { return labels.Compare(items[i].Labels, items[j].Labels) <= 0 }) } func TestForStateRestore(t *testing.T) { suite, err := promql.NewTest(t, ` load 5m http_requests{job="app-server", instance="0", group="canary", severity="overwrite-me"} 75 85 50 0 0 25 0 0 40 0 120 http_requests{job="app-server", instance="1", group="canary", severity="overwrite-me"} 125 90 60 0 0 25 0 0 40 0 130 `) testutil.Ok(t, err) defer suite.Close() err = suite.Run() testutil.Ok(t, err) expr, err := promql.ParseExpr(`http_requests{group="canary", job="app-server"} < 100`) testutil.Ok(t, err) opts := &ManagerOptions{ QueryFunc: EngineQueryFunc(suite.QueryEngine(), suite.Storage()), Appendable: suite.Storage(), TSDB: suite.Storage(), Context: context.Background(), Logger: log.NewNopLogger(), NotifyFunc: func(ctx context.Context, expr string, alerts ...*Alert) {}, OutageTolerance: 30 * time.Minute, ForGracePeriod: 10 * time.Minute, } alertForDuration := 25 * time.Minute // Initial run before prometheus goes down. rule := NewAlertingRule( "HTTPRequestRateLow", expr, alertForDuration, labels.FromStrings("severity", "critical"), nil, nil, true, nil, ) group := NewGroup("default", "", time.Second, []Rule{rule}, true, opts) groups := make(map[string]*Group) groups["default;"] = group initialRuns := []time.Duration{0, 5 * time.Minute} baseTime := time.Unix(0, 0) for _, duration := range initialRuns { evalTime := baseTime.Add(duration) group.Eval(suite.Context(), evalTime) } exp := rule.ActiveAlerts() for _, aa := range exp { testutil.Assert(t, aa.Labels.Get(model.MetricNameLabel) == "", "%s label set on active alert: %s", model.MetricNameLabel, aa.Labels) } sort.Slice(exp, func(i, j int) bool { return labels.Compare(exp[i].Labels, exp[j].Labels) < 0 }) // Prometheus goes down here. We create new rules and groups. type testInput struct { restoreDuration time.Duration alerts []*Alert num int noRestore bool gracePeriod bool downDuration time.Duration } tests := []testInput{ { // Normal restore (alerts were not firing). restoreDuration: 15 * time.Minute, alerts: rule.ActiveAlerts(), downDuration: 10 * time.Minute, }, { // Testing Outage Tolerance. restoreDuration: 40 * time.Minute, noRestore: true, num: 2, }, { // No active alerts. restoreDuration: 50 * time.Minute, alerts: []*Alert{}, }, } testFunc := func(tst testInput) { newRule := NewAlertingRule( "HTTPRequestRateLow", expr, alertForDuration, labels.FromStrings("severity", "critical"), nil, nil, false, nil, ) newGroup := NewGroup("default", "", time.Second, []Rule{newRule}, true, opts) newGroups := make(map[string]*Group) newGroups["default;"] = newGroup restoreTime := baseTime.Add(tst.restoreDuration) // First eval before restoration. newGroup.Eval(suite.Context(), restoreTime) // Restore happens here. newGroup.RestoreForState(restoreTime) got := newRule.ActiveAlerts() for _, aa := range got { testutil.Assert(t, aa.Labels.Get(model.MetricNameLabel) == "", "%s label set on active alert: %s", model.MetricNameLabel, aa.Labels) } sort.Slice(got, func(i, j int) bool { return labels.Compare(got[i].Labels, got[j].Labels) < 0 }) // Checking if we have restored it correctly. if tst.noRestore { testutil.Equals(t, tst.num, len(got)) for _, e := range got { testutil.Equals(t, e.ActiveAt, restoreTime) } } else if tst.gracePeriod { testutil.Equals(t, tst.num, len(got)) for _, e := range got { testutil.Equals(t, opts.ForGracePeriod, e.ActiveAt.Add(alertForDuration).Sub(restoreTime)) } } else { exp := tst.alerts testutil.Equals(t, len(exp), len(got)) sortAlerts(exp) sortAlerts(got) for i, e := range exp { testutil.Equals(t, e.Labels, got[i].Labels) // Difference in time should be within 1e6 ns, i.e. 1ms // (due to conversion between ns & ms, float64 & int64). activeAtDiff := float64(e.ActiveAt.Unix() + int64(tst.downDuration/time.Second) - got[i].ActiveAt.Unix()) testutil.Assert(t, math.Abs(activeAtDiff) == 0, "'for' state restored time is wrong") } } } for _, tst := range tests { testFunc(tst) } // Testing the grace period. for _, duration := range []time.Duration{10 * time.Minute, 15 * time.Minute, 20 * time.Minute} { evalTime := baseTime.Add(duration) group.Eval(suite.Context(), evalTime) } testFunc(testInput{ restoreDuration: 25 * time.Minute, alerts: []*Alert{}, gracePeriod: true, num: 2, }) } func TestStaleness(t *testing.T) { storage := teststorage.New(t) defer storage.Close() engineOpts := promql.EngineOpts{ Logger: nil, Reg: nil, MaxSamples: 10, Timeout: 10 * time.Second, } engine := promql.NewEngine(engineOpts) opts := &ManagerOptions{ QueryFunc: EngineQueryFunc(engine, storage), Appendable: storage, TSDB: storage, Context: context.Background(), Logger: log.NewNopLogger(), } expr, err := promql.ParseExpr("a + 1") testutil.Ok(t, err) rule := NewRecordingRule("a_plus_one", expr, labels.Labels{}) group := NewGroup("default", "", time.Second, []Rule{rule}, true, opts) // A time series that has two samples and then goes stale. app, _ := storage.Appender() app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 0, 1) app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 1000, 2) app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 2000, math.Float64frombits(value.StaleNaN)) err = app.Commit() testutil.Ok(t, err) ctx := context.Background() // Execute 3 times, 1 second apart. group.Eval(ctx, time.Unix(0, 0)) group.Eval(ctx, time.Unix(1, 0)) group.Eval(ctx, time.Unix(2, 0)) querier, err := storage.Querier(context.Background(), 0, 2000) testutil.Ok(t, err) defer querier.Close() matcher, err := labels.NewMatcher(labels.MatchEqual, model.MetricNameLabel, "a_plus_one") testutil.Ok(t, err) set, _, err := querier.Select(nil, matcher) testutil.Ok(t, err) samples, err := readSeriesSet(set) testutil.Ok(t, err) metric := labels.FromStrings(model.MetricNameLabel, "a_plus_one").String() metricSample, ok := samples[metric] testutil.Assert(t, ok, "Series %s not returned.", metric) testutil.Assert(t, value.IsStaleNaN(metricSample[2].V), "Appended second sample not as expected. Wanted: stale NaN Got: %x", math.Float64bits(metricSample[2].V)) metricSample[2].V = 42 // reflect.DeepEqual cannot handle NaN. want := map[string][]promql.Point{ metric: {{T: 0, V: 2}, {T: 1000, V: 3}, {T: 2000, V: 42}}, } testutil.Equals(t, want, samples) } // Convert a SeriesSet into a form usable with reflect.DeepEqual. func readSeriesSet(ss storage.SeriesSet) (map[string][]promql.Point, error) { result := map[string][]promql.Point{} for ss.Next() { series := ss.At() points := []promql.Point{} it := series.Iterator() for it.Next() { t, v := it.At() points = append(points, promql.Point{T: t, V: v}) } name := series.Labels().String() result[name] = points } return result, ss.Err() } func TestCopyState(t *testing.T) { oldGroup := &Group{ rules: []Rule{ NewAlertingRule("alert", nil, 0, nil, nil, nil, true, nil), NewRecordingRule("rule1", nil, nil), NewRecordingRule("rule2", nil, nil), NewRecordingRule("rule3", nil, labels.Labels{{Name: "l1", Value: "v1"}}), NewRecordingRule("rule3", nil, labels.Labels{{Name: "l1", Value: "v2"}}), NewRecordingRule("rule3", nil, labels.Labels{{Name: "l1", Value: "v3"}}), NewAlertingRule("alert2", nil, 0, labels.Labels{{Name: "l2", Value: "v1"}}, nil, nil, true, nil), }, seriesInPreviousEval: []map[string]labels.Labels{ {}, {}, {}, {"r3a": labels.Labels{{Name: "l1", Value: "v1"}}}, {"r3b": labels.Labels{{Name: "l1", Value: "v2"}}}, {"r3c": labels.Labels{{Name: "l1", Value: "v3"}}}, {"a2": labels.Labels{{Name: "l2", Value: "v1"}}}, }, evaluationDuration: time.Second, } oldGroup.rules[0].(*AlertingRule).active[42] = nil newGroup := &Group{ rules: []Rule{ NewRecordingRule("rule3", nil, labels.Labels{{Name: "l1", Value: "v0"}}), NewRecordingRule("rule3", nil, labels.Labels{{Name: "l1", Value: "v1"}}), NewRecordingRule("rule3", nil, labels.Labels{{Name: "l1", Value: "v2"}}), NewAlertingRule("alert", nil, 0, nil, nil, nil, true, nil), NewRecordingRule("rule1", nil, nil), NewAlertingRule("alert2", nil, 0, labels.Labels{{Name: "l2", Value: "v0"}}, nil, nil, true, nil), NewAlertingRule("alert2", nil, 0, labels.Labels{{Name: "l2", Value: "v1"}}, nil, nil, true, nil), NewRecordingRule("rule4", nil, nil), }, seriesInPreviousEval: make([]map[string]labels.Labels, 8), } newGroup.CopyState(oldGroup) want := []map[string]labels.Labels{ nil, {"r3a": labels.Labels{{Name: "l1", Value: "v1"}}}, {"r3b": labels.Labels{{Name: "l1", Value: "v2"}}}, {}, {}, nil, {"a2": labels.Labels{{Name: "l2", Value: "v1"}}}, nil, } testutil.Equals(t, want, newGroup.seriesInPreviousEval) testutil.Equals(t, oldGroup.rules[0], newGroup.rules[3]) testutil.Equals(t, oldGroup.evaluationDuration, newGroup.evaluationDuration) testutil.Equals(t, []labels.Labels{labels.Labels{{Name: "l1", Value: "v3"}}}, newGroup.staleSeries) } func TestDeletedRuleMarkedStale(t *testing.T) { storage := teststorage.New(t) defer storage.Close() oldGroup := &Group{ rules: []Rule{ NewRecordingRule("rule1", nil, labels.Labels{{Name: "l1", Value: "v1"}}), }, seriesInPreviousEval: []map[string]labels.Labels{ {"r1": labels.Labels{{Name: "l1", Value: "v1"}}}, }, } newGroup := &Group{ rules: []Rule{}, seriesInPreviousEval: []map[string]labels.Labels{}, opts: &ManagerOptions{ Appendable: storage, }, } newGroup.CopyState(oldGroup) newGroup.Eval(context.Background(), time.Unix(0, 0)) querier, err := storage.Querier(context.Background(), 0, 2000) testutil.Ok(t, err) defer querier.Close() matcher, err := labels.NewMatcher(labels.MatchEqual, "l1", "v1") testutil.Ok(t, err) set, _, err := querier.Select(nil, matcher) testutil.Ok(t, err) samples, err := readSeriesSet(set) testutil.Ok(t, err) metric := labels.FromStrings("l1", "v1").String() metricSample, ok := samples[metric] testutil.Assert(t, ok, "Series %s not returned.", metric) testutil.Assert(t, value.IsStaleNaN(metricSample[0].V), "Appended sample not as expected. Wanted: stale NaN Got: %x", math.Float64bits(metricSample[0].V)) } func TestUpdate(t *testing.T) { files := []string{"fixtures/rules.yaml"} expected := map[string]labels.Labels{ "test": labels.FromStrings("name", "value"), } storage := teststorage.New(t) defer storage.Close() opts := promql.EngineOpts{ Logger: nil, Reg: nil, MaxSamples: 10, Timeout: 10 * time.Second, } engine := promql.NewEngine(opts) ruleManager := NewManager(&ManagerOptions{ Appendable: storage, TSDB: storage, QueryFunc: EngineQueryFunc(engine, storage), Context: context.Background(), Logger: log.NewNopLogger(), }) ruleManager.Run() defer ruleManager.Stop() err := ruleManager.Update(10*time.Second, files, nil) testutil.Ok(t, err) testutil.Assert(t, len(ruleManager.groups) > 0, "expected non-empty rule groups") ogs := map[string]*Group{} for h, g := range ruleManager.groups { g.seriesInPreviousEval = []map[string]labels.Labels{ expected, } ogs[h] = g } err = ruleManager.Update(10*time.Second, files, nil) testutil.Ok(t, err) for h, g := range ruleManager.groups { for _, actual := range g.seriesInPreviousEval { testutil.Equals(t, expected, actual) } // Groups are the same because of no updates. testutil.Equals(t, ogs[h], g) } // Groups will be recreated if updated. rgs, errs := rulefmt.ParseFile("fixtures/rules.yaml") testutil.Assert(t, len(errs) == 0, "file parsing failures") tmpFile, err := ioutil.TempFile("", "rules.test.*.yaml") testutil.Ok(t, err) defer os.Remove(tmpFile.Name()) defer tmpFile.Close() err = ruleManager.Update(10*time.Second, []string{tmpFile.Name()}, nil) testutil.Ok(t, err) for h, g := range ruleManager.groups { ogs[h] = g } // Update interval and reload. for i, g := range rgs.Groups { if g.Interval != 0 { rgs.Groups[i].Interval = g.Interval * 2 } else { rgs.Groups[i].Interval = model.Duration(10) } } reloadAndValidate(rgs, t, tmpFile, ruleManager, expected, ogs) // Change group rules and reload. for i, g := range rgs.Groups { for j, r := range g.Rules { rgs.Groups[i].Rules[j].Expr.SetString(fmt.Sprintf("%s * 0", r.Expr.Value)) } } reloadAndValidate(rgs, t, tmpFile, ruleManager, expected, ogs) } // ruleGroupsTest for running tests over rules. type ruleGroupsTest struct { Groups []ruleGroupTest `yaml:"groups"` } // ruleGroupTest forms a testing struct for running tests over rules. type ruleGroupTest struct { Name string `yaml:"name"` Interval model.Duration `yaml:"interval,omitempty"` Rules []rulefmt.Rule `yaml:"rules"` } func formatRules(r *rulefmt.RuleGroups) ruleGroupsTest { grps := r.Groups tmp := []ruleGroupTest{} for _, g := range grps { rtmp := []rulefmt.Rule{} for _, r := range g.Rules { rtmp = append(rtmp, rulefmt.Rule{ Record: r.Record.Value, Alert: r.Alert.Value, Expr: r.Expr.Value, For: r.For, Labels: r.Labels, Annotations: r.Annotations, }) } tmp = append(tmp, ruleGroupTest{ Name: g.Name, Interval: g.Interval, Rules: rtmp, }) } return ruleGroupsTest{ Groups: tmp, } } func reloadAndValidate(rgs *rulefmt.RuleGroups, t *testing.T, tmpFile *os.File, ruleManager *Manager, expected map[string]labels.Labels, ogs map[string]*Group) { bs, err := yaml.Marshal(formatRules(rgs)) testutil.Ok(t, err) tmpFile.Seek(0, 0) _, err = tmpFile.Write(bs) testutil.Ok(t, err) err = ruleManager.Update(10*time.Second, []string{tmpFile.Name()}, nil) testutil.Ok(t, err) for h, g := range ruleManager.groups { if ogs[h] == g { t.Fail() } ogs[h] = g } } func TestNotify(t *testing.T) { storage := teststorage.New(t) defer storage.Close() engineOpts := promql.EngineOpts{ Logger: nil, Reg: nil, MaxSamples: 10, Timeout: 10 * time.Second, } engine := promql.NewEngine(engineOpts) var lastNotified []*Alert notifyFunc := func(ctx context.Context, expr string, alerts ...*Alert) { lastNotified = alerts } opts := &ManagerOptions{ QueryFunc: EngineQueryFunc(engine, storage), Appendable: storage, TSDB: storage, Context: context.Background(), Logger: log.NewNopLogger(), NotifyFunc: notifyFunc, ResendDelay: 2 * time.Second, } expr, err := promql.ParseExpr("a > 1") testutil.Ok(t, err) rule := NewAlertingRule("aTooHigh", expr, 0, labels.Labels{}, labels.Labels{}, nil, true, log.NewNopLogger()) group := NewGroup("alert", "", time.Second, []Rule{rule}, true, opts) app, _ := storage.Appender() app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 1000, 2) app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 2000, 3) app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 5000, 3) app.Add(labels.FromStrings(model.MetricNameLabel, "a"), 6000, 0) err = app.Commit() testutil.Ok(t, err) ctx := context.Background() // Alert sent right away group.Eval(ctx, time.Unix(1, 0)) testutil.Equals(t, 1, len(lastNotified)) testutil.Assert(t, !lastNotified[0].ValidUntil.IsZero(), "ValidUntil should not be zero") // Alert is not sent 1s later group.Eval(ctx, time.Unix(2, 0)) testutil.Equals(t, 0, len(lastNotified)) // Alert is resent at t=5s group.Eval(ctx, time.Unix(5, 0)) testutil.Equals(t, 1, len(lastNotified)) // Resolution alert sent right away group.Eval(ctx, time.Unix(6, 0)) testutil.Equals(t, 1, len(lastNotified)) } func TestMetricsUpdate(t *testing.T) { files := []string{"fixtures/rules.yaml", "fixtures/rules2.yaml"} metricNames := []string{ "prometheus_rule_group_interval_seconds", "prometheus_rule_group_last_duration_seconds", "prometheus_rule_group_last_evaluation_timestamp_seconds", "prometheus_rule_group_rules", } storage := teststorage.New(t) registry := prometheus.NewRegistry() defer storage.Close() opts := promql.EngineOpts{ Logger: nil, Reg: nil, MaxSamples: 10, Timeout: 10 * time.Second, } engine := promql.NewEngine(opts) ruleManager := NewManager(&ManagerOptions{ Appendable: storage, TSDB: storage, QueryFunc: EngineQueryFunc(engine, storage), Context: context.Background(), Logger: log.NewNopLogger(), Registerer: registry, }) ruleManager.Run() defer ruleManager.Stop() countMetrics := func() int { ms, err := registry.Gather() testutil.Ok(t, err) var metrics int for _, m := range ms { s := m.GetName() for _, n := range metricNames { if s == n { metrics += len(m.Metric) break } } } return metrics } cases := []struct { files []string metrics int }{ { files: files, metrics: 8, }, { files: files[:1], metrics: 4, }, { files: files[:0], metrics: 0, }, { files: files[1:], metrics: 4, }, } for i, c := range cases { err := ruleManager.Update(time.Second, c.files, nil) testutil.Ok(t, err) time.Sleep(2 * time.Second) testutil.Equals(t, c.metrics, countMetrics(), "test %d: invalid count of metrics", i) } }