package main import ( "context" "errors" "reflect" "sort" "strings" "testing" "time" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/datasource" "github.com/VictoriaMetrics/VictoriaMetrics/app/vmalert/notifier" "github.com/VictoriaMetrics/VictoriaMetrics/lib/prompbmarshal" ) func TestAlertingRule_ToTimeSeries(t *testing.T) { timestamp := time.Now() testCases := []struct { rule *AlertingRule alert *notifier.Alert expTS []prompbmarshal.TimeSeries }{ { newTestAlertingRule("instant", 0), ¬ifier.Alert{State: notifier.StateFiring}, []prompbmarshal.TimeSeries{ newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertMetricName, alertStateLabel: notifier.StateFiring.String(), }), }, }, { newTestAlertingRule("instant extra labels", 0), ¬ifier.Alert{State: notifier.StateFiring, Labels: map[string]string{ "job": "foo", "instance": "bar", }}, []prompbmarshal.TimeSeries{ newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertMetricName, alertStateLabel: notifier.StateFiring.String(), "job": "foo", "instance": "bar", }), }, }, { newTestAlertingRule("instant labels override", 0), ¬ifier.Alert{State: notifier.StateFiring, Labels: map[string]string{ alertStateLabel: "foo", "__name__": "bar", }}, []prompbmarshal.TimeSeries{ newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertMetricName, alertStateLabel: notifier.StateFiring.String(), }), }, }, { newTestAlertingRule("for", time.Second), ¬ifier.Alert{State: notifier.StateFiring, Start: timestamp.Add(time.Second)}, []prompbmarshal.TimeSeries{ newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertMetricName, alertStateLabel: notifier.StateFiring.String(), }), newTimeSeries([]float64{float64(timestamp.Add(time.Second).Unix())}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertForStateMetricName, }), }, }, { newTestAlertingRule("for pending", 10*time.Second), ¬ifier.Alert{State: notifier.StatePending, Start: timestamp.Add(time.Second)}, []prompbmarshal.TimeSeries{ newTimeSeries([]float64{1}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertMetricName, alertStateLabel: notifier.StatePending.String(), }), newTimeSeries([]float64{float64(timestamp.Add(time.Second).Unix())}, []int64{timestamp.UnixNano()}, map[string]string{ "__name__": alertForStateMetricName, }), }, }, } for _, tc := range testCases { t.Run(tc.rule.Name, func(t *testing.T) { tc.rule.alerts[tc.alert.ID] = tc.alert tss := tc.rule.toTimeSeries(timestamp.Unix()) if err := compareTimeSeries(t, tc.expTS, tss); err != nil { t.Fatalf("timeseries missmatch: %s", err) } }) } } func TestAlertingRule_Exec(t *testing.T) { const defaultStep = 5 * time.Millisecond type testAlert struct { labels []string alert *notifier.Alert } testCases := []struct { rule *AlertingRule steps [][]datasource.Metric expAlerts []testAlert }{ { newTestAlertingRule("empty", 0), [][]datasource.Metric{}, nil, }, { newTestAlertingRule("empty labels", 0), [][]datasource.Metric{ {datasource.Metric{Values: []float64{1}, Timestamps: []int64{1}}}, }, []testAlert{ {alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("single-firing", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("single-firing=>inactive", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateInactive}}, }, }, { newTestAlertingRule("single-firing=>inactive=>firing", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {}, {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("single-firing=>inactive=>firing=>inactive", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {}, {metricWithLabels(t, "name", "foo")}, {}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateInactive}}, }, }, { newTestAlertingRule("single-firing=>inactive=>firing=>inactive=>empty", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {}, {metricWithLabels(t, "name", "foo")}, {}, {}, }, nil, }, { newTestAlertingRule("single-firing=>inactive=>firing=>inactive=>empty=>firing", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {}, {metricWithLabels(t, "name", "foo")}, {}, {}, {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("multiple-firing", 0), [][]datasource.Metric{ { metricWithLabels(t, "name", "foo"), metricWithLabels(t, "name", "foo1"), metricWithLabels(t, "name", "foo2"), }, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, {labels: []string{"name", "foo1"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, {labels: []string{"name", "foo2"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("multiple-steps-firing", 0), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo1")}, {metricWithLabels(t, "name", "foo2")}, }, // 1: fire first alert // 2: fire second alert, set first inactive // 3: fire third alert, set second inactive, delete first one []testAlert{ {labels: []string{"name", "foo1"}, alert: ¬ifier.Alert{State: notifier.StateInactive}}, {labels: []string{"name", "foo2"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("for-pending", time.Minute), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StatePending}}, }, }, { newTestAlertingRule("for-fired", defaultStep), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, { newTestAlertingRule("for-pending=>empty", time.Second), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo")}, // empty step to reset and delete pending alerts {}, }, nil, }, { newTestAlertingRule("for-pending=>firing=>inactive", defaultStep), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo")}, // empty step to reset pending alerts {}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateInactive}}, }, }, { newTestAlertingRule("for-pending=>firing=>inactive=>pending", defaultStep), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo")}, // empty step to reset pending alerts {}, {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StatePending}}, }, }, { newTestAlertingRule("for-pending=>firing=>inactive=>pending=>firing", defaultStep), [][]datasource.Metric{ {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo")}, // empty step to reset pending alerts {}, {metricWithLabels(t, "name", "foo")}, {metricWithLabels(t, "name", "foo")}, }, []testAlert{ {labels: []string{"name", "foo"}, alert: ¬ifier.Alert{State: notifier.StateFiring}}, }, }, } fakeGroup := Group{Name: "TestRule_Exec"} for _, tc := range testCases { t.Run(tc.rule.Name, func(t *testing.T) { fq := &fakeQuerier{} tc.rule.q = fq tc.rule.GroupID = fakeGroup.ID() for _, step := range tc.steps { fq.reset() fq.add(step...) if _, err := tc.rule.Exec(context.TODO()); err != nil { t.Fatalf("unexpected err: %s", err) } // artificial delay between applying steps time.Sleep(defaultStep) } if len(tc.rule.alerts) != len(tc.expAlerts) { t.Fatalf("expected %d alerts; got %d", len(tc.expAlerts), len(tc.rule.alerts)) } expAlerts := make(map[uint64]*notifier.Alert) for _, ta := range tc.expAlerts { labels := ta.labels labels = append(labels, alertNameLabel) labels = append(labels, tc.rule.Name) h := hash(metricWithLabels(t, labels...)) expAlerts[h] = ta.alert } for key, exp := range expAlerts { got, ok := tc.rule.alerts[key] if !ok { t.Fatalf("expected to have key %d", key) } if got.State != exp.State { t.Fatalf("expected state %d; got %d", exp.State, got.State) } } }) } } func TestAlertingRule_ExecRange(t *testing.T) { testCases := []struct { rule *AlertingRule data []datasource.Metric expAlerts []*notifier.Alert }{ { newTestAlertingRule("empty", 0), []datasource.Metric{}, nil, }, { newTestAlertingRule("empty labels", 0), []datasource.Metric{ {Values: []float64{1}, Timestamps: []int64{1}}, }, []*notifier.Alert{ {State: notifier.StateFiring}, }, }, { newTestAlertingRule("single-firing", 0), []datasource.Metric{ metricWithLabels(t, "name", "foo"), }, []*notifier.Alert{ { Labels: map[string]string{"name": "foo"}, State: notifier.StateFiring, }, }, }, { newTestAlertingRule("single-firing-on-range", 0), []datasource.Metric{ {Values: []float64{1, 1, 1}, Timestamps: []int64{1e3, 2e3, 3e3}}, }, []*notifier.Alert{ {State: notifier.StateFiring}, {State: notifier.StateFiring}, {State: notifier.StateFiring}, }, }, { newTestAlertingRule("for-pending", time.Second), []datasource.Metric{ {Values: []float64{1, 1, 1}, Timestamps: []int64{1, 3, 5}}, }, []*notifier.Alert{ {State: notifier.StatePending, Start: time.Unix(1, 0)}, {State: notifier.StatePending, Start: time.Unix(3, 0)}, {State: notifier.StatePending, Start: time.Unix(5, 0)}, }, }, { newTestAlertingRule("for-firing", 3*time.Second), []datasource.Metric{ {Values: []float64{1, 1, 1}, Timestamps: []int64{1, 3, 5}}, }, []*notifier.Alert{ {State: notifier.StatePending, Start: time.Unix(1, 0)}, {State: notifier.StatePending, Start: time.Unix(1, 0)}, {State: notifier.StateFiring, Start: time.Unix(1, 0)}, }, }, { newTestAlertingRule("for=>pending=>firing=>pending=>firing=>pending", time.Second), []datasource.Metric{ {Values: []float64{1, 1, 1, 1, 1}, Timestamps: []int64{1, 2, 5, 6, 20}}, }, []*notifier.Alert{ {State: notifier.StatePending, Start: time.Unix(1, 0)}, {State: notifier.StateFiring, Start: time.Unix(1, 0)}, {State: notifier.StatePending, Start: time.Unix(5, 0)}, {State: notifier.StateFiring, Start: time.Unix(5, 0)}, {State: notifier.StatePending, Start: time.Unix(20, 0)}, }, }, { newTestAlertingRule("multi-series-for=>pending=>pending=>firing", 3*time.Second), []datasource.Metric{ {Values: []float64{1, 1, 1}, Timestamps: []int64{1, 3, 5}}, {Values: []float64{1, 1}, Timestamps: []int64{1, 5}, Labels: []datasource.Label{{Name: "foo", Value: "bar"}}, }, }, []*notifier.Alert{ {State: notifier.StatePending, Start: time.Unix(1, 0)}, {State: notifier.StatePending, Start: time.Unix(1, 0)}, {State: notifier.StateFiring, Start: time.Unix(1, 0)}, // {State: notifier.StatePending, Start: time.Unix(1, 0), Labels: map[string]string{ "foo": "bar", }}, {State: notifier.StatePending, Start: time.Unix(5, 0), Labels: map[string]string{ "foo": "bar", }}, }, }, { newTestRuleWithLabels("multi-series-firing", "source", "vm"), []datasource.Metric{ {Values: []float64{1, 1}, Timestamps: []int64{1, 100}}, {Values: []float64{1, 1}, Timestamps: []int64{1, 5}, Labels: []datasource.Label{{Name: "foo", Value: "bar"}}, }, }, []*notifier.Alert{ {State: notifier.StateFiring, Labels: map[string]string{ "source": "vm", }}, {State: notifier.StateFiring, Labels: map[string]string{ "source": "vm", }}, // {State: notifier.StateFiring, Labels: map[string]string{ "foo": "bar", "source": "vm", }}, {State: notifier.StateFiring, Labels: map[string]string{ "foo": "bar", "source": "vm", }}, }, }, } fakeGroup := Group{Name: "TestRule_ExecRange"} for _, tc := range testCases { t.Run(tc.rule.Name, func(t *testing.T) { fq := &fakeQuerier{} tc.rule.q = fq tc.rule.GroupID = fakeGroup.ID() fq.add(tc.data...) gotTS, err := tc.rule.ExecRange(context.TODO(), time.Now(), time.Now()) if err != nil { t.Fatalf("unexpected err: %s", err) } var expTS []prompbmarshal.TimeSeries var j int for _, series := range tc.data { for _, timestamp := range series.Timestamps { a := tc.expAlerts[j] if a.Labels == nil { a.Labels = make(map[string]string) } a.Labels[alertNameLabel] = tc.rule.Name expTS = append(expTS, tc.rule.alertToTimeSeries(tc.expAlerts[j], timestamp)...) j++ } } if len(gotTS) != len(expTS) { t.Fatalf("expected %d time series; got %d", len(expTS), len(gotTS)) } for i := range expTS { got, exp := gotTS[i], expTS[i] if !reflect.DeepEqual(got, exp) { t.Fatalf("%d: expected \n%v but got \n%v", i, exp, got) } } }) } } func TestAlertingRule_Restore(t *testing.T) { testCases := []struct { rule *AlertingRule metrics []datasource.Metric expAlerts map[uint64]*notifier.Alert }{ { newTestRuleWithLabels("no extra labels"), []datasource.Metric{ metricWithValueAndLabels(t, float64(time.Now().Truncate(time.Hour).Unix()), "__name__", alertForStateMetricName, ), }, map[uint64]*notifier.Alert{ hash(datasource.Metric{}): {State: notifier.StatePending, Start: time.Now().Truncate(time.Hour)}, }, }, { newTestRuleWithLabels("metric labels"), []datasource.Metric{ metricWithValueAndLabels(t, float64(time.Now().Truncate(time.Hour).Unix()), "__name__", alertForStateMetricName, alertNameLabel, "metric labels", alertGroupNameLabel, "groupID", "foo", "bar", "namespace", "baz", ), }, map[uint64]*notifier.Alert{ hash(metricWithLabels(t, alertNameLabel, "metric labels", alertGroupNameLabel, "groupID", "foo", "bar", "namespace", "baz", )): {State: notifier.StatePending, Start: time.Now().Truncate(time.Hour)}, }, }, { newTestRuleWithLabels("rule labels", "source", "vm"), []datasource.Metric{ metricWithValueAndLabels(t, float64(time.Now().Truncate(time.Hour).Unix()), "__name__", alertForStateMetricName, "foo", "bar", "namespace", "baz", // extra labels set by rule "source", "vm", ), }, map[uint64]*notifier.Alert{ hash(metricWithLabels(t, "foo", "bar", "namespace", "baz", "source", "vm", )): {State: notifier.StatePending, Start: time.Now().Truncate(time.Hour)}, }, }, { newTestRuleWithLabels("multiple alerts"), []datasource.Metric{ metricWithValueAndLabels(t, float64(time.Now().Truncate(time.Hour).Unix()), "__name__", alertForStateMetricName, "host", "localhost-1", ), metricWithValueAndLabels(t, float64(time.Now().Truncate(2*time.Hour).Unix()), "__name__", alertForStateMetricName, "host", "localhost-2", ), metricWithValueAndLabels(t, float64(time.Now().Truncate(3*time.Hour).Unix()), "__name__", alertForStateMetricName, "host", "localhost-3", ), }, map[uint64]*notifier.Alert{ hash(metricWithLabels(t, "host", "localhost-1")): {State: notifier.StatePending, Start: time.Now().Truncate(time.Hour)}, hash(metricWithLabels(t, "host", "localhost-2")): {State: notifier.StatePending, Start: time.Now().Truncate(2 * time.Hour)}, hash(metricWithLabels(t, "host", "localhost-3")): {State: notifier.StatePending, Start: time.Now().Truncate(3 * time.Hour)}, }, }, } fakeGroup := Group{Name: "TestRule_Exec"} for _, tc := range testCases { t.Run(tc.rule.Name, func(t *testing.T) { fq := &fakeQuerier{} tc.rule.GroupID = fakeGroup.ID() tc.rule.q = fq fq.add(tc.metrics...) if err := tc.rule.Restore(context.TODO(), fq, time.Hour, nil); err != nil { t.Fatalf("unexpected err: %s", err) } if len(tc.rule.alerts) != len(tc.expAlerts) { t.Fatalf("expected %d alerts; got %d", len(tc.expAlerts), len(tc.rule.alerts)) } for key, exp := range tc.expAlerts { got, ok := tc.rule.alerts[key] if !ok { t.Fatalf("expected to have key %d", key) } if got.State != exp.State { t.Fatalf("expected state %d; got %d", exp.State, got.State) } if got.Start != exp.Start { t.Fatalf("expected Start %v; got %v", exp.Start, got.Start) } } }) } } func TestAlertingRule_Exec_Negative(t *testing.T) { fq := &fakeQuerier{} ar := newTestAlertingRule("test", 0) ar.Labels = map[string]string{"job": "test"} ar.q = fq // successful attempt fq.add(metricWithValueAndLabels(t, 1, "__name__", "foo", "job", "bar")) _, err := ar.Exec(context.TODO()) if err != nil { t.Fatal(err) } // label `job` will collide with rule extra label and will make both time series equal fq.add(metricWithValueAndLabels(t, 1, "__name__", "foo", "job", "baz")) _, err = ar.Exec(context.TODO()) if !errors.Is(err, errDuplicate) { t.Fatalf("expected to have %s error; got %s", errDuplicate, err) } fq.reset() expErr := "connection reset by peer" fq.setErr(errors.New(expErr)) _, err = ar.Exec(context.TODO()) if err == nil { t.Fatalf("expected to get err; got nil") } if !strings.Contains(err.Error(), expErr) { t.Fatalf("expected to get err %q; got %q insterad", expErr, err) } } func TestAlertingRule_Template(t *testing.T) { testCases := []struct { rule *AlertingRule metrics []datasource.Metric expAlerts map[uint64]*notifier.Alert }{ { newTestRuleWithLabels("common", "region", "east"), []datasource.Metric{ metricWithValueAndLabels(t, 1, "instance", "foo"), metricWithValueAndLabels(t, 1, "instance", "bar"), }, map[uint64]*notifier.Alert{ hash(metricWithLabels(t, alertNameLabel, "common", "region", "east", "instance", "foo")): { Annotations: map[string]string{}, Labels: map[string]string{ alertNameLabel: "common", "region": "east", "instance": "foo", }, }, hash(metricWithLabels(t, alertNameLabel, "common", "region", "east", "instance", "bar")): { Annotations: map[string]string{}, Labels: map[string]string{ alertNameLabel: "common", "region": "east", "instance": "bar", }, }, }, }, { &AlertingRule{ Name: "override label", Labels: map[string]string{ "instance": "{{ $labels.instance }}", "region": "east", }, Annotations: map[string]string{ "summary": `Too high connection number for "{{ $labels.instance }}" for region {{ $labels.region }}`, "description": `It is {{ $value }} connections for "{{ $labels.instance }}"`, }, alerts: make(map[uint64]*notifier.Alert), }, []datasource.Metric{ metricWithValueAndLabels(t, 2, "instance", "foo"), metricWithValueAndLabels(t, 10, "instance", "bar"), }, map[uint64]*notifier.Alert{ hash(metricWithLabels(t, alertNameLabel, "override label", "region", "east", "instance", "foo")): { Labels: map[string]string{ alertNameLabel: "override label", "instance": "foo", "region": "east", }, Annotations: map[string]string{ "summary": `Too high connection number for "foo" for region east`, "description": `It is 2 connections for "foo"`, }, }, hash(metricWithLabels(t, alertNameLabel, "override label", "region", "east", "instance", "bar")): { Labels: map[string]string{ alertNameLabel: "override label", "instance": "bar", "region": "east", }, Annotations: map[string]string{ "summary": `Too high connection number for "bar" for region east`, "description": `It is 10 connections for "bar"`, }, }, }, }, { &AlertingRule{ Name: "ExtraTemplating", GroupName: "Testing", Labels: map[string]string{ "name": "alert_{{ $labels.alertname }}", "group": "group_{{ $labels.alertgroup }}", "instance": "{{ $labels.instance }}", }, Annotations: map[string]string{ "summary": `Alert "{{ $labels.alertname }}({{ $labels.alertgroup }})" for instance {{ $labels.instance }}`, "description": `Alert "{{ $labels.name }}({{ $labels.group }})" for instance {{ $labels.instance }}`, }, alerts: make(map[uint64]*notifier.Alert), }, []datasource.Metric{ metricWithValueAndLabels(t, 1, "instance", "foo"), }, map[uint64]*notifier.Alert{ hash(metricWithLabels(t, alertNameLabel, "ExtraTemplating", "name", "alert_ExtraTemplating", alertGroupNameLabel, "Testing", "group", "group_Testing", "instance", "foo")): { Labels: map[string]string{ alertNameLabel: "ExtraTemplating", "name": "alert_ExtraTemplating", alertGroupNameLabel: "Testing", "group": "group_Testing", "instance": "foo", }, Annotations: map[string]string{ "summary": `Alert "ExtraTemplating(Testing)" for instance foo`, "description": `Alert "alert_ExtraTemplating(group_Testing)" for instance foo`, }, }, }, }, } fakeGroup := Group{Name: "TestRule_Exec"} for _, tc := range testCases { t.Run(tc.rule.Name, func(t *testing.T) { fq := &fakeQuerier{} tc.rule.GroupID = fakeGroup.ID() tc.rule.q = fq fq.add(tc.metrics...) if _, err := tc.rule.Exec(context.TODO()); err != nil { t.Fatalf("unexpected err: %s", err) } for hash, expAlert := range tc.expAlerts { gotAlert := tc.rule.alerts[hash] if gotAlert == nil { t.Fatalf("alert %d is missing; labels: %v; annotations: %v", hash, expAlert.Labels, expAlert.Annotations) } if !reflect.DeepEqual(expAlert.Annotations, gotAlert.Annotations) { t.Fatalf("expected to have annotations %#v; got %#v", expAlert.Annotations, gotAlert.Annotations) } if !reflect.DeepEqual(expAlert.Labels, gotAlert.Labels) { t.Fatalf("expected to have labels %#v; got %#v", expAlert.Labels, gotAlert.Labels) } } }) } } func TestAlertsToSend(t *testing.T) { ts := time.Now() f := func(alerts, expAlerts []*notifier.Alert, resolveDuration, resendDelay time.Duration) { t.Helper() ar := &AlertingRule{alerts: make(map[uint64]*notifier.Alert)} for i, a := range alerts { ar.alerts[uint64(i)] = a } gotAlerts := ar.alertsToSend(ts, resolveDuration, resendDelay) if gotAlerts == nil && expAlerts == nil { return } if len(gotAlerts) != len(expAlerts) { t.Fatalf("expected to get %d alerts; got %d instead", len(expAlerts), len(gotAlerts)) } sort.Slice(expAlerts, func(i, j int) bool { return expAlerts[i].Name < expAlerts[j].Name }) sort.Slice(gotAlerts, func(i, j int) bool { return gotAlerts[i].Name < gotAlerts[j].Name }) for i, exp := range expAlerts { got := gotAlerts[i] if got.LastSent != exp.LastSent { t.Fatalf("expected LastSent to be %v; got %v", exp.LastSent, got.LastSent) } if got.End != exp.End { t.Fatalf("expected End to be %v; got %v", exp.End, got.End) } } } f( // send firing alert with custom resolve time []*notifier.Alert{{State: notifier.StateFiring}}, []*notifier.Alert{{LastSent: ts, End: ts.Add(5 * time.Minute)}}, 5*time.Minute, time.Minute, ) f( // resolve inactive alert at the current timestamp []*notifier.Alert{{State: notifier.StateInactive}}, []*notifier.Alert{{LastSent: ts, End: ts}}, time.Minute, time.Minute, ) f( // mixed case of firing and resolved alerts. Names are added for deterministic sorting []*notifier.Alert{{Name: "a", State: notifier.StateFiring}, {Name: "b", State: notifier.StateInactive}}, []*notifier.Alert{{Name: "a", LastSent: ts, End: ts.Add(5 * time.Minute)}, {Name: "b", LastSent: ts, End: ts}}, 5*time.Minute, time.Minute, ) f( // mixed case of pending and resolved alerts. Names are added for deterministic sorting []*notifier.Alert{{Name: "a", State: notifier.StatePending}, {Name: "b", State: notifier.StateInactive}}, []*notifier.Alert{{Name: "b", LastSent: ts, End: ts}}, 5*time.Minute, time.Minute, ) f( // attempt to send alert that was already sent in the resendDelay interval []*notifier.Alert{{State: notifier.StateFiring, LastSent: ts.Add(-time.Second)}}, nil, time.Minute, time.Minute, ) f( // attempt to send alert that was sent out of the resendDelay interval []*notifier.Alert{{State: notifier.StateFiring, LastSent: ts.Add(-2 * time.Minute)}}, []*notifier.Alert{{LastSent: ts, End: ts.Add(time.Minute)}}, time.Minute, time.Minute, ) f( // alert must be sent even if resendDelay interval is 0 []*notifier.Alert{{State: notifier.StateFiring, LastSent: ts.Add(-time.Second)}}, []*notifier.Alert{{LastSent: ts, End: ts.Add(time.Minute)}}, time.Minute, 0, ) } func newTestRuleWithLabels(name string, labels ...string) *AlertingRule { r := newTestAlertingRule(name, 0) r.Labels = make(map[string]string) for i := 0; i < len(labels); i += 2 { r.Labels[labels[i]] = labels[i+1] } return r } func newTestAlertingRule(name string, waitFor time.Duration) *AlertingRule { return &AlertingRule{Name: name, alerts: make(map[uint64]*notifier.Alert), For: waitFor, EvalInterval: waitFor} }