// Copyright 2015 Prometheus Team // 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 notify import ( "context" "errors" "fmt" "io" "reflect" "testing" "time" "github.com/go-kit/log" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/model" "github.com/stretchr/testify/require" "gopkg.in/yaml.v2" "github.com/prometheus/alertmanager/nflog" "github.com/prometheus/alertmanager/nflog/nflogpb" "github.com/prometheus/alertmanager/silence" "github.com/prometheus/alertmanager/silence/silencepb" "github.com/prometheus/alertmanager/timeinterval" "github.com/prometheus/alertmanager/types" ) type sendResolved bool func (s sendResolved) SendResolved() bool { return bool(s) } type notifierFunc func(ctx context.Context, alerts ...*types.Alert) (bool, error) func (f notifierFunc) Notify(ctx context.Context, alerts ...*types.Alert) (bool, error) { return f(ctx, alerts...) } type failStage struct{} func (s failStage) Exec(ctx context.Context, l log.Logger, as ...*types.Alert) (context.Context, []*types.Alert, error) { return ctx, nil, fmt.Errorf("some error") } type testNflog struct { qres []*nflogpb.Entry qerr error logFunc func(r *nflogpb.Receiver, gkey string, firingAlerts, resolvedAlerts []uint64) error } func (l *testNflog) Query(p ...nflog.QueryParam) ([]*nflogpb.Entry, error) { return l.qres, l.qerr } func (l *testNflog) Log(r *nflogpb.Receiver, gkey string, firingAlerts, resolvedAlerts []uint64) error { return l.logFunc(r, gkey, firingAlerts, resolvedAlerts) } func (l *testNflog) GC() (int, error) { return 0, nil } func (l *testNflog) Snapshot(w io.Writer) (int, error) { return 0, nil } func alertHashSet(hashes ...uint64) map[uint64]struct{} { res := map[uint64]struct{}{} for _, h := range hashes { res[h] = struct{}{} } return res } func TestDedupStageNeedsUpdate(t *testing.T) { now := utcNow() cases := []struct { entry *nflogpb.Entry firingAlerts map[uint64]struct{} resolvedAlerts map[uint64]struct{} repeat time.Duration resolve bool res bool }{ { // No matching nflog entry should update. entry: nil, firingAlerts: alertHashSet(2, 3, 4), res: true, }, { // No matching nflog entry shouldn't update if no alert fires. entry: nil, resolvedAlerts: alertHashSet(2, 3, 4), res: false, }, { // Different sets of firing alerts should update. entry: &nflogpb.Entry{FiringAlerts: []uint64{1, 2, 3}}, firingAlerts: alertHashSet(2, 3, 4), res: true, }, { // Zero timestamp in the nflog entry should always update. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2, 3}, Timestamp: time.Time{}, }, firingAlerts: alertHashSet(1, 2, 3), res: true, }, { // Identical sets of alerts shouldn't update before repeat_interval. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2, 3}, Timestamp: now.Add(-9 * time.Minute), }, repeat: 10 * time.Minute, firingAlerts: alertHashSet(1, 2, 3), res: false, }, { // Identical sets of alerts should update after repeat_interval. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2, 3}, Timestamp: now.Add(-11 * time.Minute), }, repeat: 10 * time.Minute, firingAlerts: alertHashSet(1, 2, 3), res: true, }, { // Different sets of resolved alerts without firing alerts shouldn't update after repeat_interval. entry: &nflogpb.Entry{ ResolvedAlerts: []uint64{1, 2, 3}, Timestamp: now.Add(-11 * time.Minute), }, repeat: 10 * time.Minute, resolvedAlerts: alertHashSet(3, 4, 5), resolve: true, res: false, }, { // Different sets of resolved alerts shouldn't update when resolve is false. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2}, ResolvedAlerts: []uint64{3}, Timestamp: now.Add(-9 * time.Minute), }, repeat: 10 * time.Minute, firingAlerts: alertHashSet(1), resolvedAlerts: alertHashSet(2, 3), resolve: false, res: false, }, { // Different sets of resolved alerts should update when resolve is true. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2}, ResolvedAlerts: []uint64{3}, Timestamp: now.Add(-9 * time.Minute), }, repeat: 10 * time.Minute, firingAlerts: alertHashSet(1), resolvedAlerts: alertHashSet(2, 3), resolve: true, res: true, }, { // Empty set of firing alerts should update when resolve is false. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2}, ResolvedAlerts: []uint64{3}, Timestamp: now.Add(-9 * time.Minute), }, repeat: 10 * time.Minute, firingAlerts: alertHashSet(), resolvedAlerts: alertHashSet(1, 2, 3), resolve: false, res: true, }, { // Empty set of firing alerts should update when resolve is true. entry: &nflogpb.Entry{ FiringAlerts: []uint64{1, 2}, ResolvedAlerts: []uint64{3}, Timestamp: now.Add(-9 * time.Minute), }, repeat: 10 * time.Minute, firingAlerts: alertHashSet(), resolvedAlerts: alertHashSet(1, 2, 3), resolve: true, res: true, }, } for i, c := range cases { t.Log("case", i) s := &DedupStage{ now: func() time.Time { return now }, rs: sendResolved(c.resolve), } res := s.needsUpdate(c.entry, c.firingAlerts, c.resolvedAlerts, c.repeat) require.Equal(t, c.res, res) } } func TestDedupStage(t *testing.T) { i := 0 now := utcNow() s := &DedupStage{ hash: func(a *types.Alert) uint64 { res := uint64(i) i++ return res }, now: func() time.Time { return now }, rs: sendResolved(false), } ctx := context.Background() _, _, err := s.Exec(ctx, log.NewNopLogger()) require.EqualError(t, err, "group key missing") ctx = WithGroupKey(ctx, "1") _, _, err = s.Exec(ctx, log.NewNopLogger()) require.EqualError(t, err, "repeat interval missing") ctx = WithRepeatInterval(ctx, time.Hour) alerts := []*types.Alert{{}, {}, {}} // Must catch notification log query errors. s.nflog = &testNflog{ qerr: errors.New("bad things"), } ctx, _, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.EqualError(t, err, "bad things") // ... but skip ErrNotFound. s.nflog = &testNflog{ qerr: nflog.ErrNotFound, } ctx, res, err := s.Exec(ctx, log.NewNopLogger(), alerts...) require.NoError(t, err, "unexpected error on not found log entry") require.Equal(t, alerts, res, "input alerts differ from result alerts") s.nflog = &testNflog{ qerr: nil, qres: []*nflogpb.Entry{ {FiringAlerts: []uint64{0, 1, 2}}, {FiringAlerts: []uint64{1, 2, 3}}, }, } ctx, _, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.Contains(t, err.Error(), "result size") // Must return no error and no alerts no need to update. i = 0 s.nflog = &testNflog{ qerr: nflog.ErrNotFound, qres: []*nflogpb.Entry{ { FiringAlerts: []uint64{0, 1, 2}, Timestamp: now, }, }, } ctx, res, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.NoError(t, err) require.Nil(t, res, "unexpected alerts returned") // Must return no error and all input alerts on changes. i = 0 s.nflog = &testNflog{ qerr: nil, qres: []*nflogpb.Entry{ { FiringAlerts: []uint64{1, 2, 3, 4}, Timestamp: now, }, }, } _, res, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.NoError(t, err) require.Equal(t, alerts, res, "unexpected alerts returned") } func TestMultiStage(t *testing.T) { var ( alerts1 = []*types.Alert{{}} alerts2 = []*types.Alert{{}, {}} alerts3 = []*types.Alert{{}, {}, {}} ) stage := MultiStage{ StageFunc(func(ctx context.Context, l log.Logger, alerts ...*types.Alert) (context.Context, []*types.Alert, error) { if !reflect.DeepEqual(alerts, alerts1) { t.Fatal("Input not equal to input of MultiStage") } //nolint:staticcheck // Ignore SA1029 ctx = context.WithValue(ctx, "key", "value") return ctx, alerts2, nil }), StageFunc(func(ctx context.Context, l log.Logger, alerts ...*types.Alert) (context.Context, []*types.Alert, error) { if !reflect.DeepEqual(alerts, alerts2) { t.Fatal("Input not equal to output of previous stage") } v, ok := ctx.Value("key").(string) if !ok || v != "value" { t.Fatalf("Expected value %q for key %q but got %q", "value", "key", v) } return ctx, alerts3, nil }), } _, alerts, err := stage.Exec(context.Background(), log.NewNopLogger(), alerts1...) if err != nil { t.Fatalf("Exec failed: %s", err) } if !reflect.DeepEqual(alerts, alerts3) { t.Fatal("Output of MultiStage is not equal to the output of the last stage") } } func TestMultiStageFailure(t *testing.T) { var ( ctx = context.Background() s1 = failStage{} stage = MultiStage{s1} ) _, _, err := stage.Exec(ctx, log.NewNopLogger(), nil) if err.Error() != "some error" { t.Fatal("Errors were not propagated correctly by MultiStage") } } func TestRoutingStage(t *testing.T) { var ( alerts1 = []*types.Alert{{}} alerts2 = []*types.Alert{{}, {}} ) stage := RoutingStage{ "name": StageFunc(func(ctx context.Context, l log.Logger, alerts ...*types.Alert) (context.Context, []*types.Alert, error) { if !reflect.DeepEqual(alerts, alerts1) { t.Fatal("Input not equal to input of RoutingStage") } return ctx, alerts2, nil }), "not": failStage{}, } ctx := WithReceiverName(context.Background(), "name") _, alerts, err := stage.Exec(ctx, log.NewNopLogger(), alerts1...) if err != nil { t.Fatalf("Exec failed: %s", err) } if !reflect.DeepEqual(alerts, alerts2) { t.Fatal("Output of RoutingStage is not equal to the output of the inner stage") } } func TestRetryStageWithError(t *testing.T) { fail, retry := true, true sent := []*types.Alert{} i := Integration{ notifier: notifierFunc(func(ctx context.Context, alerts ...*types.Alert) (bool, error) { if fail { fail = false return retry, errors.New("fail to deliver notification") } sent = append(sent, alerts...) return false, nil }), rs: sendResolved(false), } r := RetryStage{ integration: i, metrics: NewMetrics(prometheus.NewRegistry()), } alerts := []*types.Alert{ { Alert: model.Alert{ EndsAt: time.Now().Add(time.Hour), }, }, } ctx := context.Background() ctx = WithFiringAlerts(ctx, []uint64{0}) // Notify with a recoverable error should retry and succeed. resctx, res, err := r.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.Equal(t, alerts, sent) require.NotNil(t, resctx) // Notify with an unrecoverable error should fail. sent = sent[:0] fail = true retry = false resctx, _, err = r.Exec(ctx, log.NewNopLogger(), alerts...) require.NotNil(t, err) require.NotNil(t, resctx) } func TestRetryStageNoResolved(t *testing.T) { sent := []*types.Alert{} i := Integration{ notifier: notifierFunc(func(ctx context.Context, alerts ...*types.Alert) (bool, error) { sent = append(sent, alerts...) return false, nil }), rs: sendResolved(false), } r := RetryStage{ integration: i, metrics: NewMetrics(prometheus.NewRegistry()), } alerts := []*types.Alert{ { Alert: model.Alert{ EndsAt: time.Now().Add(-time.Hour), }, }, { Alert: model.Alert{ EndsAt: time.Now().Add(time.Hour), }, }, } ctx := context.Background() resctx, res, err := r.Exec(ctx, log.NewNopLogger(), alerts...) require.EqualError(t, err, "firing alerts missing") require.Nil(t, res) require.NotNil(t, resctx) ctx = WithFiringAlerts(ctx, []uint64{0}) resctx, res, err = r.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.Equal(t, []*types.Alert{alerts[1]}, sent) require.NotNil(t, resctx) // All alerts are resolved. sent = sent[:0] ctx = WithFiringAlerts(ctx, []uint64{}) alerts[1].Alert.EndsAt = time.Now().Add(-time.Hour) resctx, res, err = r.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.Equal(t, []*types.Alert{}, sent) require.NotNil(t, resctx) } func TestRetryStageSendResolved(t *testing.T) { sent := []*types.Alert{} i := Integration{ notifier: notifierFunc(func(ctx context.Context, alerts ...*types.Alert) (bool, error) { sent = append(sent, alerts...) return false, nil }), rs: sendResolved(true), } r := RetryStage{ integration: i, metrics: NewMetrics(prometheus.NewRegistry()), } alerts := []*types.Alert{ { Alert: model.Alert{ EndsAt: time.Now().Add(-time.Hour), }, }, { Alert: model.Alert{ EndsAt: time.Now().Add(time.Hour), }, }, } ctx := context.Background() ctx = WithFiringAlerts(ctx, []uint64{0}) resctx, res, err := r.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.Equal(t, alerts, sent) require.NotNil(t, resctx) // All alerts are resolved. sent = sent[:0] ctx = WithFiringAlerts(ctx, []uint64{}) alerts[1].Alert.EndsAt = time.Now().Add(-time.Hour) resctx, res, err = r.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.Equal(t, alerts, sent) require.NotNil(t, resctx) } func TestSetNotifiesStage(t *testing.T) { tnflog := &testNflog{} s := &SetNotifiesStage{ recv: &nflogpb.Receiver{GroupName: "test"}, nflog: tnflog, } alerts := []*types.Alert{{}, {}, {}} ctx := context.Background() resctx, res, err := s.Exec(ctx, log.NewNopLogger(), alerts...) require.EqualError(t, err, "group key missing") require.Nil(t, res) require.NotNil(t, resctx) ctx = WithGroupKey(ctx, "1") resctx, res, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.EqualError(t, err, "firing alerts missing") require.Nil(t, res) require.NotNil(t, resctx) ctx = WithFiringAlerts(ctx, []uint64{0, 1, 2}) resctx, res, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.EqualError(t, err, "resolved alerts missing") require.Nil(t, res) require.NotNil(t, resctx) ctx = WithResolvedAlerts(ctx, []uint64{}) tnflog.logFunc = func(r *nflogpb.Receiver, gkey string, firingAlerts, resolvedAlerts []uint64) error { require.Equal(t, s.recv, r) require.Equal(t, "1", gkey) require.Equal(t, []uint64{0, 1, 2}, firingAlerts) require.Equal(t, []uint64{}, resolvedAlerts) return nil } resctx, res, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.NotNil(t, resctx) ctx = WithFiringAlerts(ctx, []uint64{}) ctx = WithResolvedAlerts(ctx, []uint64{0, 1, 2}) tnflog.logFunc = func(r *nflogpb.Receiver, gkey string, firingAlerts, resolvedAlerts []uint64) error { require.Equal(t, s.recv, r) require.Equal(t, "1", gkey) require.Equal(t, []uint64{}, firingAlerts) require.Equal(t, []uint64{0, 1, 2}, resolvedAlerts) return nil } resctx, res, err = s.Exec(ctx, log.NewNopLogger(), alerts...) require.Nil(t, err) require.Equal(t, alerts, res) require.NotNil(t, resctx) } func TestMuteStage(t *testing.T) { // Mute all label sets that have a "mute" key. muter := types.MuteFunc(func(lset model.LabelSet) bool { _, ok := lset["mute"] return ok }) stage := NewMuteStage(muter) in := []model.LabelSet{ {}, {"test": "set"}, {"mute": "me"}, {"foo": "bar", "test": "set"}, {"foo": "bar", "mute": "me"}, {}, {"not": "muted"}, } out := []model.LabelSet{ {}, {"test": "set"}, {"foo": "bar", "test": "set"}, {}, {"not": "muted"}, } var inAlerts []*types.Alert for _, lset := range in { inAlerts = append(inAlerts, &types.Alert{ Alert: model.Alert{Labels: lset}, }) } _, alerts, err := stage.Exec(context.Background(), log.NewNopLogger(), inAlerts...) if err != nil { t.Fatalf("Exec failed: %s", err) } var got []model.LabelSet for _, a := range alerts { got = append(got, a.Labels) } if !reflect.DeepEqual(got, out) { t.Fatalf("Muting failed, expected: %v\ngot %v", out, got) } } func TestMuteStageWithSilences(t *testing.T) { silences, err := silence.New(silence.Options{Retention: time.Hour}) if err != nil { t.Fatal(err) } silID, err := silences.Set(&silencepb.Silence{ EndsAt: utcNow().Add(time.Hour), Matchers: []*silencepb.Matcher{{Name: "mute", Pattern: "me"}}, }) if err != nil { t.Fatal(err) } marker := types.NewMarker(prometheus.NewRegistry()) silencer := silence.NewSilencer(silences, marker, log.NewNopLogger()) stage := NewMuteStage(silencer) in := []model.LabelSet{ {}, {"test": "set"}, {"mute": "me"}, {"foo": "bar", "test": "set"}, {"foo": "bar", "mute": "me"}, {}, {"not": "muted"}, } out := []model.LabelSet{ {}, {"test": "set"}, {"foo": "bar", "test": "set"}, {}, {"not": "muted"}, } var inAlerts []*types.Alert for _, lset := range in { inAlerts = append(inAlerts, &types.Alert{ Alert: model.Alert{Labels: lset}, }) } // Set the second alert as previously silenced with an old version // number. This is expected to get unsilenced by the stage. marker.SetActiveOrSilenced(inAlerts[1].Fingerprint(), 0, []string{"123"}, nil) _, alerts, err := stage.Exec(context.Background(), log.NewNopLogger(), inAlerts...) if err != nil { t.Fatalf("Exec failed: %s", err) } var got []model.LabelSet for _, a := range alerts { got = append(got, a.Labels) } if !reflect.DeepEqual(got, out) { t.Fatalf("Muting failed, expected: %v\ngot %v", out, got) } // Do it again to exercise the version tracking of silences. _, alerts, err = stage.Exec(context.Background(), log.NewNopLogger(), inAlerts...) if err != nil { t.Fatalf("Exec failed: %s", err) } got = got[:0] for _, a := range alerts { got = append(got, a.Labels) } if !reflect.DeepEqual(got, out) { t.Fatalf("Muting failed, expected: %v\ngot %v", out, got) } // Expire the silence and verify that no alerts are silenced now. if err := silences.Expire(silID); err != nil { t.Fatal(err) } _, alerts, err = stage.Exec(context.Background(), log.NewNopLogger(), inAlerts...) if err != nil { t.Fatalf("Exec failed: %s", err) } got = got[:0] for _, a := range alerts { got = append(got, a.Labels) } if !reflect.DeepEqual(got, in) { t.Fatalf("Unmuting failed, expected: %v\ngot %v", in, got) } } func TestTimeMuteStage(t *testing.T) { // Route mutes alerts outside business hours if it is a mute_time_interval muteIn := ` --- - weekdays: ['monday:friday'] times: - start_time: '00:00' end_time: '09:00' - start_time: '17:00' end_time: '24:00' - weekdays: ['saturday', 'sunday']` cases := []struct { fireTime string labels model.LabelSet shouldMute bool }{ { // Friday during business hours fireTime: "01 Jan 21 09:00 +0000", labels: model.LabelSet{"foo": "bar"}, shouldMute: false, }, { // Tuesday before 5pm fireTime: "01 Dec 20 16:59 +0000", labels: model.LabelSet{"dont": "mute"}, shouldMute: false, }, { // Saturday fireTime: "17 Oct 20 10:00 +0000", labels: model.LabelSet{"mute": "me"}, shouldMute: true, }, { // Wednesday before 9am fireTime: "14 Oct 20 05:00 +0000", labels: model.LabelSet{"mute": "me"}, shouldMute: true, }, { // Ensure comparisons are UTC only. 12:00 KST should be muted (03:00 UTC) fireTime: "14 Oct 20 12:00 +0900", labels: model.LabelSet{"mute": "kst"}, shouldMute: true, }, { // Ensure comparisons are UTC only. 22:00 KST should not be muted (13:00 UTC) fireTime: "14 Oct 20 22:00 +0900", labels: model.LabelSet{"kst": "dont_mute"}, shouldMute: false, }, } var intervals []timeinterval.TimeInterval err := yaml.Unmarshal([]byte(muteIn), &intervals) if err != nil { t.Fatalf("Couldn't unmarshal time interval %s", err) } m := map[string][]timeinterval.TimeInterval{"test": intervals} stage := NewTimeMuteStage(m) outAlerts := []*types.Alert{} nonMuteCount := 0 for _, tc := range cases { now, err := time.Parse(time.RFC822Z, tc.fireTime) if err != nil { t.Fatalf("Couldn't parse fire time %s %s", tc.fireTime, err) } // Count alerts with shouldMute == false and compare to ensure none are muted incorrectly if !tc.shouldMute { nonMuteCount++ } a := model.Alert{Labels: tc.labels} alerts := []*types.Alert{{Alert: a}} ctx := context.Background() ctx = WithNow(ctx, now) ctx = WithActiveTimeIntervals(ctx, []string{}) ctx = WithMuteTimeIntervals(ctx, []string{"test"}) _, out, err := stage.Exec(ctx, log.NewNopLogger(), alerts...) if err != nil { t.Fatalf("Unexpected error in time mute stage %s", err) } outAlerts = append(outAlerts, out...) } for _, alert := range outAlerts { if _, ok := alert.Alert.Labels["mute"]; ok { t.Fatalf("Expected alert to be muted %+v", alert.Alert) } } if len(outAlerts) != nonMuteCount { t.Fatalf("Expected %d alerts after time mute stage but got %d", nonMuteCount, len(outAlerts)) } } func TestTimeActiveStage(t *testing.T) { // Route mutes alerts inside business hours if it is an active time interval muteIn := ` --- - weekdays: ['monday:friday'] times: - start_time: '00:00' end_time: '09:00' - start_time: '17:00' end_time: '24:00' - weekdays: ['saturday', 'sunday']` cases := []struct { fireTime string labels model.LabelSet shouldMute bool }{ { // Friday during business hours fireTime: "01 Jan 21 09:00 +0000", labels: model.LabelSet{"mute": "me"}, shouldMute: true, }, { // Tuesday before 5pm fireTime: "01 Dec 20 16:59 +0000", labels: model.LabelSet{"mute": "me"}, shouldMute: true, }, { // Saturday fireTime: "17 Oct 20 10:00 +0000", labels: model.LabelSet{"foo": "bar"}, shouldMute: false, }, { // Wednesday before 9am fireTime: "14 Oct 20 05:00 +0000", labels: model.LabelSet{"dont": "mute"}, shouldMute: false, }, } var intervals []timeinterval.TimeInterval err := yaml.Unmarshal([]byte(muteIn), &intervals) if err != nil { t.Fatalf("Couldn't unmarshal time interval %s", err) } m := map[string][]timeinterval.TimeInterval{"test": intervals} stage := NewTimeActiveStage(m) outAlerts := []*types.Alert{} nonMuteCount := 0 for _, tc := range cases { now, err := time.Parse(time.RFC822Z, tc.fireTime) if err != nil { t.Fatalf("Couldn't parse fire time %s %s", tc.fireTime, err) } // Count alerts with shouldMute == false and compare to ensure none are muted incorrectly if !tc.shouldMute { nonMuteCount++ } a := model.Alert{Labels: tc.labels} alerts := []*types.Alert{{Alert: a}} ctx := context.Background() ctx = WithNow(ctx, now) ctx = WithActiveTimeIntervals(ctx, []string{"test"}) ctx = WithMuteTimeIntervals(ctx, []string{}) _, out, err := stage.Exec(ctx, log.NewNopLogger(), alerts...) if err != nil { t.Fatalf("Unexpected error in time mute stage %s", err) } outAlerts = append(outAlerts, out...) } for _, alert := range outAlerts { if _, ok := alert.Alert.Labels["mute"]; ok { t.Fatalf("Expected alert to be muted %+v", alert.Alert) } } if len(outAlerts) != nonMuteCount { t.Fatalf("Expected %d alerts after time mute stage but got %d", nonMuteCount, len(outAlerts)) } } func BenchmarkHashAlert(b *testing.B) { alert := &types.Alert{ Alert: model.Alert{ Labels: model.LabelSet{"foo": "the_first_value", "bar": "the_second_value", "another": "value"}, }, } for i := 0; i < b.N; i++ { hashAlert(alert) } }