// Copyright 2016 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 silence import ( "bytes" "fmt" "os" "runtime" "sort" "strings" "sync" "testing" "time" "github.com/coder/quartz" "github.com/go-kit/log" "github.com/matttproud/golang_protobuf_extensions/pbutil" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/client_golang/prometheus/testutil" "github.com/prometheus/common/model" "github.com/stretchr/testify/require" "go.uber.org/atomic" "github.com/prometheus/alertmanager/featurecontrol" "github.com/prometheus/alertmanager/matcher/compat" pb "github.com/prometheus/alertmanager/silence/silencepb" "github.com/prometheus/alertmanager/types" ) func checkErr(t *testing.T, expected string, got error) { t.Helper() if expected == "" { require.NoError(t, got) return } if got == nil { t.Errorf("expected error containing %q but got none", expected) return } require.Contains(t, got.Error(), expected) } func TestOptionsValidate(t *testing.T) { cases := []struct { options *Options err string }{ { options: &Options{ SnapshotReader: &bytes.Buffer{}, }, }, { options: &Options{ SnapshotFile: "test.bkp", }, }, { options: &Options{ SnapshotFile: "test bkp", SnapshotReader: &bytes.Buffer{}, }, err: "only one of SnapshotFile and SnapshotReader must be set", }, } for _, c := range cases { checkErr(t, c.err, c.options.validate()) } } func TestSilenceGCOverTime(t *testing.T) { t.Run("GC does not remove active silences", func(t *testing.T) { s, err := New(Options{}) require.NoError(t, err) s.clock = quartz.NewMock(t) now := s.nowUTC() s.st = state{ "1": &pb.MeshSilence{Silence: &pb.Silence{Id: "1"}, ExpiresAt: now}, "2": &pb.MeshSilence{Silence: &pb.Silence{Id: "2"}, ExpiresAt: now.Add(-time.Second)}, "3": &pb.MeshSilence{Silence: &pb.Silence{Id: "3"}, ExpiresAt: now.Add(time.Second)}, } want := state{ "3": &pb.MeshSilence{Silence: &pb.Silence{Id: "3"}, ExpiresAt: now.Add(time.Second)}, } n, err := s.GC() require.NoError(t, err) require.Equal(t, 2, n) require.Equal(t, want, s.st) }) t.Run("GC does not leak cache entries", func(t *testing.T) { s, err := New(Options{}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock sil1 := &pb.Silence{ Matchers: []*pb.Matcher{{ Type: pb.Matcher_EQUAL, Name: "foo", Pattern: "bar", }}, StartsAt: clock.Now(), EndsAt: clock.Now().Add(time.Minute), } require.NoError(t, s.Set(sil1)) // Need to query the silence to populate the matcher cache. s.Query(QMatches(model.LabelSet{"foo": "bar"})) require.Len(t, s.st, 1) require.Len(t, s.mc, 1) // Move time forward and both silence and cache entry should be garbage // collected. clock.Advance(time.Minute) n, err := s.GC() require.NoError(t, err) require.Equal(t, 1, n) require.Empty(t, s.st) require.Empty(t, s.mc) }) t.Run("replacing a silences does not leak cache entries", func(t *testing.T) { s, err := New(Options{}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock sil1 := &pb.Silence{ Matchers: []*pb.Matcher{{ Type: pb.Matcher_EQUAL, Name: "foo", Pattern: "bar", }}, StartsAt: clock.Now(), EndsAt: clock.Now().Add(time.Minute), } require.NoError(t, s.Set(sil1)) // Need to query the silence to populate the matcher cache. s.Query(QMatches(model.LabelSet{"foo": "bar"})) require.Len(t, s.st, 1) require.Len(t, s.mc, 1) // must clone sil1 before replacing it. sil2 := cloneSilence(sil1) sil2.Matchers = []*pb.Matcher{{ Type: pb.Matcher_EQUAL, Name: "bar", Pattern: "baz", }} require.NoError(t, s.Set(sil2)) // Need to query the silence to populate the matcher cache. s.Query(QMatches(model.LabelSet{"bar": "baz"})) require.Len(t, s.st, 2) require.Len(t, s.mc, 2) // Move time forward and both silence and cache entry should be garbage // collected. clock.Advance(time.Minute) n, err := s.GC() require.NoError(t, err) require.Equal(t, 2, n) require.Empty(t, s.st) require.Empty(t, s.mc) }) // This test checks for a memory leak that occurred in the matcher cache when // updating an existing silence. t.Run("updating a silences does not leak cache entries", func(t *testing.T) { s, err := New(Options{}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock sil1 := &pb.Silence{ Id: "1", Matchers: []*pb.Matcher{{ Type: pb.Matcher_EQUAL, Name: "foo", Pattern: "bar", }}, StartsAt: clock.Now(), EndsAt: clock.Now().Add(time.Minute), } s.st["1"] = &pb.MeshSilence{Silence: sil1, ExpiresAt: clock.Now().Add(time.Minute)} // Need to query the silence to populate the matcher cache. s.Query(QMatches(model.LabelSet{"foo": "bar"})) require.Len(t, s.mc, 1) // must clone sil1 before updating it. sil2 := cloneSilence(sil1) require.NoError(t, s.Set(sil2)) // The memory leak occurred because updating a silence would add a new // entry in the matcher cache even though no new silence was created. // This check asserts that this no longer happens. s.Query(QMatches(model.LabelSet{"foo": "bar"})) require.Len(t, s.st, 1) require.Len(t, s.mc, 1) // Move time forward and both silence and cache entry should be garbage // collected. clock.Advance(time.Minute) n, err := s.GC() require.NoError(t, err) require.Equal(t, 1, n) require.Empty(t, s.st) require.Empty(t, s.mc) }) } func TestSilencesSnapshot(t *testing.T) { // Check whether storing and loading the snapshot is symmetric. now := quartz.NewMock(t).Now().UTC() cases := []struct { entries []*pb.MeshSilence }{ { entries: []*pb.MeshSilence{ { Silence: &pb.Silence{ Id: "3be80475-e219-4ee7-b6fc-4b65114e362f", Matchers: []*pb.Matcher{ {Name: "label1", Pattern: "val1", Type: pb.Matcher_EQUAL}, {Name: "label2", Pattern: "val.+", Type: pb.Matcher_REGEXP}, }, StartsAt: now, EndsAt: now, UpdatedAt: now, }, ExpiresAt: now, }, { Silence: &pb.Silence{ Id: "3dfb2528-59ce-41eb-b465-f875a4e744a4", Matchers: []*pb.Matcher{ {Name: "label1", Pattern: "val1", Type: pb.Matcher_NOT_EQUAL}, {Name: "label2", Pattern: "val.+", Type: pb.Matcher_NOT_REGEXP}, }, StartsAt: now, EndsAt: now, UpdatedAt: now, }, ExpiresAt: now, }, { Silence: &pb.Silence{ Id: "4b1e760d-182c-4980-b873-c1a6827c9817", Matchers: []*pb.Matcher{ {Name: "label1", Pattern: "val1", Type: pb.Matcher_EQUAL}, }, StartsAt: now.Add(time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now, }, ExpiresAt: now.Add(24 * time.Hour), }, }, }, } for _, c := range cases { f, err := os.CreateTemp("", "snapshot") require.NoError(t, err, "creating temp file failed") s1 := &Silences{st: state{}, metrics: newMetrics(nil, nil)} // Setup internal state manually. for _, e := range c.entries { s1.st[e.Silence.Id] = e } _, err = s1.Snapshot(f) require.NoError(t, err, "creating snapshot failed") require.NoError(t, f.Close(), "closing snapshot file failed") f, err = os.Open(f.Name()) require.NoError(t, err, "opening snapshot file failed") // Check again against new nlog instance. s2 := &Silences{mc: matcherCache{}, st: state{}} err = s2.loadSnapshot(f) require.NoError(t, err, "error loading snapshot") require.Equal(t, s1.st, s2.st, "state after loading snapshot did not match snapshotted state") require.NoError(t, f.Close(), "closing snapshot file failed") } } // This tests a regression introduced by https://github.com/prometheus/alertmanager/pull/2689. func TestSilences_Maintenance_DefaultMaintenanceFuncDoesntCrash(t *testing.T) { f, err := os.CreateTemp("", "snapshot") require.NoError(t, err, "creating temp file failed") clock := quartz.NewMock(t) s := &Silences{st: state{}, logger: log.NewNopLogger(), clock: clock, metrics: newMetrics(nil, nil)} stopc := make(chan struct{}) done := make(chan struct{}) go func() { s.Maintenance(100*time.Millisecond, f.Name(), stopc, nil) close(done) }() runtime.Gosched() clock.Advance(100 * time.Millisecond) close(stopc) <-done } func TestSilences_Maintenance_SupportsCustomCallback(t *testing.T) { f, err := os.CreateTemp("", "snapshot") require.NoError(t, err, "creating temp file failed") clock := quartz.NewMock(t) reg := prometheus.NewRegistry() s := &Silences{st: state{}, logger: log.NewNopLogger(), clock: clock} s.metrics = newMetrics(reg, s) stopc := make(chan struct{}) var calls atomic.Int32 var wg sync.WaitGroup wg.Add(1) go func() { defer wg.Done() s.Maintenance(10*time.Second, f.Name(), stopc, func() (int64, error) { calls.Add(1) return 0, nil }) }() gosched() // Before the first tick, no maintenance executed. clock.Advance(9 * time.Second) require.EqualValues(t, 0, calls.Load()) // Tick once. clock.Advance(1 * time.Second) require.Eventually(t, func() bool { return calls.Load() == 1 }, 5*time.Second, time.Second) // Stop the maintenance loop. We should get exactly one more execution of the maintenance func. close(stopc) wg.Wait() require.EqualValues(t, 2, calls.Load()) // Check the maintenance metrics. require.NoError(t, testutil.GatherAndCompare(reg, bytes.NewBufferString(` # HELP alertmanager_silences_maintenance_errors_total How many maintenances were executed for silences that failed. # TYPE alertmanager_silences_maintenance_errors_total counter alertmanager_silences_maintenance_errors_total 0 # HELP alertmanager_silences_maintenance_total How many maintenances were executed for silences. # TYPE alertmanager_silences_maintenance_total counter alertmanager_silences_maintenance_total 2 `), "alertmanager_silences_maintenance_total", "alertmanager_silences_maintenance_errors_total")) } func TestSilencesSetSilence(t *testing.T) { s, err := New(Options{ Retention: time.Minute, }) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock nowpb := s.nowUTC() sil := &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{{Name: "abc", Pattern: "def"}}, StartsAt: nowpb, EndsAt: nowpb, } want := state{ "some_id": &pb.MeshSilence{ Silence: sil, ExpiresAt: nowpb.Add(time.Minute), }, } done := make(chan struct{}) s.broadcast = func(b []byte) { var e pb.MeshSilence r := bytes.NewReader(b) _, err := pbutil.ReadDelimited(r, &e) require.NoError(t, err) require.Equal(t, &e, want["some_id"]) close(done) } // setSilence() is always called with s.mtx locked() in the application code func() { s.mtx.Lock() defer s.mtx.Unlock() require.NoError(t, s.setSilence(s.toMeshSilence(sil), nowpb)) }() // Ensure broadcast was called. if _, isOpen := <-done; isOpen { t.Fatal("broadcast was not called") } require.Equal(t, want, s.st, "Unexpected silence state") } func TestSilenceSet(t *testing.T) { s, err := New(Options{ Retention: time.Hour, }) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock start1 := s.nowUTC() // Insert silence with fixed start time. sil1 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: start1.Add(2 * time.Minute), EndsAt: start1.Add(5 * time.Minute), } versionBeforeOp := s.Version() require.NoError(t, s.Set(sil1)) require.NotEqual(t, "", sil1.Id) require.NotEqual(t, versionBeforeOp, s.Version()) want := state{ sil1.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil1.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: start1.Add(2 * time.Minute), EndsAt: start1.Add(5 * time.Minute), UpdatedAt: start1, }, ExpiresAt: start1.Add(5*time.Minute + s.retention), }, } require.Equal(t, want, s.st, "unexpected state after silence creation") // Insert silence with unset start time. Must be set to now. clock.Advance(time.Minute) start2 := s.nowUTC() sil2 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, EndsAt: start2.Add(1 * time.Minute), } versionBeforeOp = s.Version() require.NoError(t, s.Set(sil2)) require.NotEqual(t, "", sil2.Id) require.NotEqual(t, versionBeforeOp, s.Version()) want = state{ sil1.Id: want[sil1.Id], sil2.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil2.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: start2, EndsAt: start2.Add(1 * time.Minute), UpdatedAt: start2, }, ExpiresAt: start2.Add(1*time.Minute + s.retention), }, } require.Equal(t, want, s.st, "unexpected state after silence creation") // Should be able to update silence without modifications. It is expected to // keep the same ID. sil3 := cloneSilence(sil2) versionBeforeOp = s.Version() require.NoError(t, s.Set(sil3)) require.Equal(t, sil2.Id, sil3.Id) require.Equal(t, versionBeforeOp, s.Version()) // Should be able to update silence with comment. It is also expected to // keep the same ID. sil4 := cloneSilence(sil3) sil4.Comment = "c" versionBeforeOp = s.Version() require.NoError(t, s.Set(sil4)) require.Equal(t, sil3.Id, sil4.Id) require.Equal(t, versionBeforeOp, s.Version()) // Extend sil4 to expire at a later time. This should not expire the // existing silence, and so should also keep the same ID. clock.Advance(time.Minute) start5 := s.nowUTC() sil5 := cloneSilence(sil4) sil5.EndsAt = start5.Add(100 * time.Minute) versionBeforeOp = s.Version() require.NoError(t, s.Set(sil5)) require.Equal(t, sil4.Id, sil5.Id) want = state{ sil1.Id: want[sil1.Id], sil2.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil2.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: start2, EndsAt: start5.Add(100 * time.Minute), UpdatedAt: start5, Comment: "c", }, ExpiresAt: start5.Add(100*time.Minute + s.retention), }, } require.Equal(t, want, s.st, "unexpected state after silence creation") require.Equal(t, versionBeforeOp, s.Version()) // Replace the silence sil5 with another silence with different matchers. // Unlike previous updates, changing the matchers for an existing silence // will expire the existing silence and create a new silence. The new // silence is expected to have a different ID to preserve the history of // the previous silence. clock.Advance(time.Minute) start6 := s.nowUTC() sil6 := cloneSilence(sil5) sil6.Matchers = []*pb.Matcher{{Name: "a", Pattern: "c"}} versionBeforeOp = s.Version() require.NoError(t, s.Set(sil6)) require.NotEqual(t, sil5.Id, sil6.Id) want = state{ sil1.Id: want[sil1.Id], sil2.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil2.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: start2, EndsAt: start6, // Expired UpdatedAt: start6, Comment: "c", }, ExpiresAt: start6.Add(s.retention), }, sil6.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil6.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "c"}}, StartsAt: start6, EndsAt: start5.Add(100 * time.Minute), UpdatedAt: start6, Comment: "c", }, ExpiresAt: start5.Add(100*time.Minute + s.retention), }, } require.Equal(t, want, s.st, "unexpected state after silence creation") require.NotEqual(t, versionBeforeOp, s.Version()) // Re-create the silence that we just replaced. Changing the start time, // just like changing the matchers, creates a new silence with a different // ID. This is again to preserve the history of the original silence. clock.Advance(time.Minute) start7 := s.nowUTC() sil7 := cloneSilence(sil5) sil7.StartsAt = start1 sil7.EndsAt = start1.Add(5 * time.Minute) versionBeforeOp = s.Version() require.NoError(t, s.Set(sil7)) require.NotEqual(t, sil2.Id, sil7.Id) want = state{ sil1.Id: want[sil1.Id], sil2.Id: want[sil2.Id], sil6.Id: want[sil6.Id], sil7.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil7.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: start7, // New silences have their start time set to "now" when created. EndsAt: start1.Add(5 * time.Minute), UpdatedAt: start7, Comment: "c", }, ExpiresAt: start1.Add(5*time.Minute + s.retention), }, } require.Equal(t, want, s.st, "unexpected state after silence creation") require.NotEqual(t, versionBeforeOp, s.Version()) // Updating an existing silence with an invalid silence should not expire // the original silence. clock.Advance(time.Millisecond) sil8 := cloneSilence(sil7) sil8.EndsAt = time.Time{} versionBeforeOp = s.Version() require.EqualError(t, s.Set(sil8), "invalid silence: invalid zero end timestamp") // sil7 should not be expired because the update failed. clock.Advance(time.Millisecond) sil7, err = s.QueryOne(QIDs(sil7.Id)) require.NoError(t, err) require.Equal(t, types.SilenceStateActive, getState(sil7, s.nowUTC())) require.Equal(t, versionBeforeOp, s.Version()) } func TestSilenceLimits(t *testing.T) { s, err := New(Options{ Limits: Limits{ MaxSilences: func() int { return 1 }, MaxSilenceSizeBytes: func() int { return 2 << 11 }, // 4KB }, }) require.NoError(t, err) // Insert sil1 should succeed without error. sil1 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: time.Now(), EndsAt: time.Now().Add(5 * time.Minute), } require.NoError(t, s.Set(sil1)) // Insert sil2 should fail because maximum number of silences has been // exceeded. sil2 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "c", Pattern: "d"}}, StartsAt: time.Now(), EndsAt: time.Now().Add(5 * time.Minute), } require.EqualError(t, s.Set(sil2), "exceeded maximum number of silences: 1 (limit: 1)") // Expire sil1 and run the GC. This should allow sil2 to be inserted. require.NoError(t, s.Expire(sil1.Id)) n, err := s.GC() require.NoError(t, err) require.Equal(t, 1, n) require.NoError(t, s.Set(sil2)) // Expire sil2 and run the GC. require.NoError(t, s.Expire(sil2.Id)) n, err = s.GC() require.NoError(t, err) require.Equal(t, 1, n) // Insert sil3 should fail because it exceeds maximum size. sil3 := &pb.Silence{ Matchers: []*pb.Matcher{ { Name: strings.Repeat("e", 2<<9), Pattern: strings.Repeat("f", 2<<9), }, { Name: strings.Repeat("g", 2<<9), Pattern: strings.Repeat("h", 2<<9), }, }, CreatedBy: strings.Repeat("i", 2<<9), Comment: strings.Repeat("j", 2<<9), StartsAt: time.Now(), EndsAt: time.Now().Add(5 * time.Minute), } require.EqualError(t, s.Set(sil3), fmt.Sprintf("silence exceeded maximum size: %d bytes (limit: 4096 bytes)", s.toMeshSilence(sil3).Size())) // Should be able to insert sil4. sil4 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "k", Pattern: "l"}}, StartsAt: time.Now(), EndsAt: time.Now().Add(5 * time.Minute), } require.NoError(t, s.Set(sil4)) // Should be able to update sil4 without modifications. It is expected to // keep the same ID. sil5 := cloneSilence(sil4) require.NoError(t, s.Set(sil5)) require.Equal(t, sil4.Id, sil5.Id) // Should be able to update the comment. It is also expected to keep the // same ID. sil6 := cloneSilence(sil5) sil6.Comment = "m" require.NoError(t, s.Set(sil6)) require.Equal(t, sil5.Id, sil6.Id) // Should not be able to update the start and end time as this requires // sil6 to be expired and a new silence to be created. However, this would // exceed the maximum number of silences, which counts both active and // expired silences. sil7 := cloneSilence(sil6) sil7.StartsAt = time.Now().Add(5 * time.Minute) sil7.EndsAt = time.Now().Add(10 * time.Minute) require.EqualError(t, s.Set(sil7), "exceeded maximum number of silences: 1 (limit: 1)") // sil6 should not be expired because the update failed. sil6, err = s.QueryOne(QIDs(sil6.Id)) require.NoError(t, err) require.Equal(t, types.SilenceStateActive, getState(sil6, s.nowUTC())) // Should not be able to update with a comment that exceeds maximum size. // Need to increase the maximum number of silences to test this. s.limits.MaxSilences = func() int { return 2 } sil8 := cloneSilence(sil6) sil8.Comment = strings.Repeat("m", 2<<11) require.EqualError(t, s.Set(sil8), fmt.Sprintf("silence exceeded maximum size: %d bytes (limit: 4096 bytes)", s.toMeshSilence(sil8).Size())) // sil6 should not be expired because the update failed. sil6, err = s.QueryOne(QIDs(sil6.Id)) require.NoError(t, err) require.Equal(t, types.SilenceStateActive, getState(sil6, s.nowUTC())) // Should not be able to replace with a silence that exceeds maximum size. // This is different from the previous assertion as unlike when adding or // updating a comment, changing the matchers for a silence should expire // the existing silence, unless the silence that is replacing it exceeds // limits, in which case the operation should fail and the existing silence // should still be active. sil9 := cloneSilence(sil8) sil9.Matchers = []*pb.Matcher{{Name: "n", Pattern: "o"}} require.EqualError(t, s.Set(sil9), fmt.Sprintf("silence exceeded maximum size: %d bytes (limit: 4096 bytes)", s.toMeshSilence(sil9).Size())) // sil6 should not be expired because the update failed. sil6, err = s.QueryOne(QIDs(sil6.Id)) require.NoError(t, err) require.Equal(t, types.SilenceStateActive, getState(sil6, s.nowUTC())) } func TestSilenceNoLimits(t *testing.T) { s, err := New(Options{ Limits: Limits{}, }) require.NoError(t, err) // Insert sil should succeed without error. sil := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: time.Now(), EndsAt: time.Now().Add(5 * time.Minute), Comment: strings.Repeat("c", 2<<9), } require.NoError(t, s.Set(sil)) require.NotEqual(t, "", sil.Id) } func TestSetActiveSilence(t *testing.T) { s, err := New(Options{ Retention: time.Hour, }) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock now := clock.Now() startsAt := now.Add(-1 * time.Minute) endsAt := now.Add(5 * time.Minute) // Insert silence with fixed start time. sil1 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: startsAt, EndsAt: endsAt, } require.NoError(t, s.Set(sil1)) // Update silence with 2 extra nanoseconds so the "seconds" part should not change newStartsAt := now.Add(2 * time.Nanosecond) newEndsAt := endsAt.Add(2 * time.Minute) sil2 := cloneSilence(sil1) sil2.Id = sil1.Id sil2.StartsAt = newStartsAt sil2.EndsAt = newEndsAt clock.Advance(time.Minute) now = s.nowUTC() require.NoError(t, s.Set(sil2)) require.Equal(t, sil1.Id, sil2.Id) want := state{ sil2.Id: &pb.MeshSilence{ Silence: &pb.Silence{ Id: sil1.Id, Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, StartsAt: newStartsAt, EndsAt: newEndsAt, UpdatedAt: now, }, ExpiresAt: newEndsAt.Add(s.retention), }, } require.Equal(t, want, s.st, "unexpected state after silence creation") } func TestSilencesSetFail(t *testing.T) { s, err := New(Options{}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock cases := []struct { s *pb.Silence err string }{ { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{{Name: "a", Pattern: "b"}}, EndsAt: clock.Now().Add(5 * time.Minute), }, err: ErrNotFound.Error(), }, { s: &pb.Silence{}, // Silence without matcher. err: "invalid silence", }, } for _, c := range cases { checkErr(t, c.err, s.Set(c.s)) } } func TestQState(t *testing.T) { now := time.Now().UTC() cases := []struct { sil *pb.Silence states []types.SilenceState keep bool }{ { sil: &pb.Silence{ StartsAt: now.Add(time.Minute), EndsAt: now.Add(time.Hour), }, states: []types.SilenceState{types.SilenceStateActive, types.SilenceStateExpired}, keep: false, }, { sil: &pb.Silence{ StartsAt: now.Add(time.Minute), EndsAt: now.Add(time.Hour), }, states: []types.SilenceState{types.SilenceStatePending}, keep: true, }, { sil: &pb.Silence{ StartsAt: now.Add(time.Minute), EndsAt: now.Add(time.Hour), }, states: []types.SilenceState{types.SilenceStateExpired, types.SilenceStatePending}, keep: true, }, } for i, c := range cases { q := &query{} QState(c.states...)(q) f := q.filters[0] keep, err := f(c.sil, nil, now) require.NoError(t, err) require.Equal(t, c.keep, keep, "unexpected filter result for case %d", i) } } func TestQMatches(t *testing.T) { qp := QMatches(model.LabelSet{ "job": "test", "instance": "web-1", "path": "/user/profile", "method": "GET", }) q := &query{} qp(q) f := q.filters[0] cases := []struct { sil *pb.Silence drop bool }{ { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "job", Pattern: "test", Type: pb.Matcher_EQUAL}, }, }, drop: true, }, { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "job", Pattern: "test", Type: pb.Matcher_NOT_EQUAL}, }, }, drop: false, }, { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "job", Pattern: "test", Type: pb.Matcher_EQUAL}, {Name: "method", Pattern: "POST", Type: pb.Matcher_EQUAL}, }, }, drop: false, }, { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "job", Pattern: "test", Type: pb.Matcher_EQUAL}, {Name: "method", Pattern: "POST", Type: pb.Matcher_NOT_EQUAL}, }, }, drop: true, }, { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "path", Pattern: "/user/.+", Type: pb.Matcher_REGEXP}, }, }, drop: true, }, { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "path", Pattern: "/user/.+", Type: pb.Matcher_NOT_REGEXP}, }, }, drop: false, }, { sil: &pb.Silence{ Matchers: []*pb.Matcher{ {Name: "path", Pattern: "/user/.+", Type: pb.Matcher_REGEXP}, {Name: "path", Pattern: "/nothing/.+", Type: pb.Matcher_REGEXP}, }, }, drop: false, }, } for _, c := range cases { drop, err := f(c.sil, &Silences{mc: matcherCache{}, st: state{}}, time.Time{}) require.NoError(t, err) require.Equal(t, c.drop, drop, "unexpected filter result") } } func TestSilencesQuery(t *testing.T) { s, err := New(Options{}) require.NoError(t, err) s.st = state{ "1": &pb.MeshSilence{Silence: &pb.Silence{Id: "1"}}, "2": &pb.MeshSilence{Silence: &pb.Silence{Id: "2"}}, "3": &pb.MeshSilence{Silence: &pb.Silence{Id: "3"}}, "4": &pb.MeshSilence{Silence: &pb.Silence{Id: "4"}}, "5": &pb.MeshSilence{Silence: &pb.Silence{Id: "5"}}, } cases := []struct { q *query exp []*pb.Silence }{ { // Default query of retrieving all silences. q: &query{}, exp: []*pb.Silence{ {Id: "1"}, {Id: "2"}, {Id: "3"}, {Id: "4"}, {Id: "5"}, }, }, { // Retrieve by IDs. q: &query{ ids: []string{"2", "5"}, }, exp: []*pb.Silence{ {Id: "2"}, {Id: "5"}, }, }, { // Retrieve all and filter q: &query{ filters: []silenceFilter{ func(sil *pb.Silence, _ *Silences, _ time.Time) (bool, error) { return sil.Id == "1" || sil.Id == "2", nil }, }, }, exp: []*pb.Silence{ {Id: "1"}, {Id: "2"}, }, }, { // Retrieve by IDs and filter q: &query{ ids: []string{"2", "5"}, filters: []silenceFilter{ func(sil *pb.Silence, _ *Silences, _ time.Time) (bool, error) { return sil.Id == "1" || sil.Id == "2", nil }, }, }, exp: []*pb.Silence{ {Id: "2"}, }, }, } for _, c := range cases { // Run default query of retrieving all silences. res, _, err := s.query(c.q, time.Time{}) require.NoError(t, err, "unexpected error on querying") // Currently there are no sorting guarantees in the querying API. sort.Sort(silencesByID(c.exp)) sort.Sort(silencesByID(res)) require.Equal(t, c.exp, res, "unexpected silences in result") } } type silencesByID []*pb.Silence func (s silencesByID) Len() int { return len(s) } func (s silencesByID) Swap(i, j int) { s[i], s[j] = s[j], s[i] } func (s silencesByID) Less(i, j int) bool { return s[i].Id < s[j].Id } func TestSilenceCanUpdate(t *testing.T) { now := time.Now().UTC() cases := []struct { a, b *pb.Silence ok bool }{ // Bad arguments. { a: &pb.Silence{}, b: &pb.Silence{ StartsAt: now, EndsAt: now.Add(-time.Minute), }, ok: false, }, // Expired silence. { a: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(-time.Second), }, b: &pb.Silence{ StartsAt: now, EndsAt: now, }, ok: false, }, // Pending silences. { a: &pb.Silence{ StartsAt: now.Add(time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now.Add(-time.Minute), EndsAt: now.Add(time.Hour), }, ok: false, }, { a: &pb.Silence{ StartsAt: now.Add(time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now.Add(time.Minute), EndsAt: now.Add(time.Minute), }, ok: true, }, { a: &pb.Silence{ StartsAt: now.Add(time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now, // set to exactly start now. EndsAt: now.Add(2 * time.Hour), }, ok: true, }, // Active silences. { a: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now.Add(-time.Minute), EndsAt: now.Add(2 * time.Hour), }, ok: false, }, { a: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(-time.Second), }, ok: false, }, { a: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now, }, ok: true, }, { a: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now.Add(-time.Hour), }, b: &pb.Silence{ StartsAt: now.Add(-time.Hour), EndsAt: now.Add(3 * time.Hour), }, ok: true, }, } for _, c := range cases { ok := canUpdate(c.a, c.b, now) if ok && !c.ok { t.Errorf("expected not-updateable but was: %v, %v", c.a, c.b) } if ok && !c.ok { t.Errorf("expected updateable but was not: %v, %v", c.a, c.b) } } } func TestSilenceExpire(t *testing.T) { s, err := New(Options{Retention: time.Hour}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock now := s.nowUTC() m := &pb.Matcher{Type: pb.Matcher_EQUAL, Name: "a", Pattern: "b"} s.st = state{ "pending": &pb.MeshSilence{Silence: &pb.Silence{ Id: "pending", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(time.Minute), EndsAt: now.Add(time.Hour), UpdatedAt: now.Add(-time.Hour), }}, "active": &pb.MeshSilence{Silence: &pb.Silence{ Id: "active", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(-time.Minute), EndsAt: now.Add(time.Hour), UpdatedAt: now.Add(-time.Hour), }}, "expired": &pb.MeshSilence{Silence: &pb.Silence{ Id: "expired", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(-time.Hour), EndsAt: now.Add(-time.Minute), UpdatedAt: now.Add(-time.Hour), }}, } count, err := s.CountState(types.SilenceStatePending) require.NoError(t, err) require.Equal(t, 1, count) count, err = s.CountState(types.SilenceStateExpired) require.NoError(t, err) require.Equal(t, 1, count) require.NoError(t, s.Expire("pending")) require.NoError(t, s.Expire("active")) require.NoError(t, s.Expire("expired")) sil, err := s.QueryOne(QIDs("pending")) require.NoError(t, err) require.Equal(t, &pb.Silence{ Id: "pending", Matchers: []*pb.Matcher{m}, StartsAt: now, EndsAt: now, UpdatedAt: now, }, sil) // Let time pass... clock.Advance(time.Second) count, err = s.CountState(types.SilenceStatePending) require.NoError(t, err) require.Equal(t, 0, count) count, err = s.CountState(types.SilenceStateExpired) require.NoError(t, err) require.Equal(t, 3, count) // Expiring a pending Silence should make the API return the // SilenceStateExpired Silence state. silenceState := types.CalcSilenceState(sil.StartsAt, sil.EndsAt) require.Equal(t, types.SilenceStateExpired, silenceState) sil, err = s.QueryOne(QIDs("active")) require.NoError(t, err) require.Equal(t, &pb.Silence{ Id: "active", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(-time.Minute), EndsAt: now, UpdatedAt: now, }, sil) sil, err = s.QueryOne(QIDs("expired")) require.NoError(t, err) require.Equal(t, &pb.Silence{ Id: "expired", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(-time.Hour), EndsAt: now.Add(-time.Minute), UpdatedAt: now.Add(-time.Hour), }, sil) } // TestSilenceExpireWithZeroRetention covers the problem that, with zero // retention time, a silence explicitly set to expired will also immediately // expire from the silence storage. func TestSilenceExpireWithZeroRetention(t *testing.T) { s, err := New(Options{Retention: 0}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock now := s.nowUTC() m := &pb.Matcher{Type: pb.Matcher_EQUAL, Name: "a", Pattern: "b"} s.st = state{ "pending": &pb.MeshSilence{Silence: &pb.Silence{ Id: "pending", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(time.Minute), EndsAt: now.Add(time.Hour), UpdatedAt: now.Add(-time.Hour), }}, "active": &pb.MeshSilence{Silence: &pb.Silence{ Id: "active", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(-time.Minute), EndsAt: now.Add(time.Hour), UpdatedAt: now.Add(-time.Hour), }}, "expired": &pb.MeshSilence{Silence: &pb.Silence{ Id: "expired", Matchers: []*pb.Matcher{m}, StartsAt: now.Add(-time.Hour), EndsAt: now.Add(-time.Minute), UpdatedAt: now.Add(-time.Hour), }}, } count, err := s.CountState(types.SilenceStatePending) require.NoError(t, err) require.Equal(t, 1, count) count, err = s.CountState(types.SilenceStateActive) require.NoError(t, err) require.Equal(t, 1, count) count, err = s.CountState(types.SilenceStateExpired) require.NoError(t, err) require.Equal(t, 1, count) // Advance time. The silence state management code uses update time when // merging, and the logic is "first write wins". So we must advance the clock // one tick for updates to take effect. clock.Advance(1 * time.Millisecond) require.NoError(t, s.Expire("pending")) require.NoError(t, s.Expire("active")) require.NoError(t, s.Expire("expired")) // Advance time again. Despite what the function name says, s.Expire() does // not expire a silence. It sets the silence to EndAt the current time. This // means that the silence is active immediately after calling Expire. clock.Advance(1 * time.Millisecond) // Verify all silences have expired. count, err = s.CountState(types.SilenceStatePending) require.NoError(t, err) require.Equal(t, 0, count) count, err = s.CountState(types.SilenceStateActive) require.NoError(t, err) require.Equal(t, 0, count) count, err = s.CountState(types.SilenceStateExpired) require.NoError(t, err) require.Equal(t, 3, count) } // This test checks that invalid silences can be expired. func TestSilenceExpireInvalid(t *testing.T) { s, err := New(Options{Retention: time.Hour}) require.NoError(t, err) clock := quartz.NewMock(t) s.clock = clock now := s.nowUTC() // In this test the matcher has an invalid type. silence := pb.Silence{ Id: "active", Matchers: []*pb.Matcher{{Type: -1, Name: "a", Pattern: "b"}}, StartsAt: now.Add(-time.Minute), EndsAt: now.Add(time.Hour), UpdatedAt: now.Add(-time.Hour), } // Assert that this silence is invalid. require.EqualError(t, validateSilence(&silence), "invalid label matcher 0: unknown matcher type \"-1\"") s.st = state{"active": &pb.MeshSilence{Silence: &silence}} // The silence should be active. count, err := s.CountState(types.SilenceStateActive) require.NoError(t, err) require.Equal(t, 1, count) clock.Advance(time.Millisecond) require.NoError(t, s.Expire("active")) clock.Advance(time.Millisecond) // The silence should be expired. count, err = s.CountState(types.SilenceStateActive) require.NoError(t, err) require.Equal(t, 0, count) count, err = s.CountState(types.SilenceStateExpired) require.NoError(t, err) require.Equal(t, 1, count) } func TestSilencer(t *testing.T) { ss, err := New(Options{Retention: time.Hour}) require.NoError(t, err) clock := quartz.NewMock(t) ss.clock = clock now := ss.nowUTC() m := types.NewMarker(prometheus.NewRegistry()) s := NewSilencer(ss, m, log.NewNopLogger()) require.False(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert not silenced without any silences") sil1 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "foo", Pattern: "baz"}}, StartsAt: now.Add(-time.Hour), EndsAt: now.Add(5 * time.Minute), } require.NoError(t, ss.Set(sil1)) require.False(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert not silenced by non-matching silence") sil2 := &pb.Silence{ Matchers: []*pb.Matcher{{Name: "foo", Pattern: "bar"}}, StartsAt: now.Add(-time.Hour), EndsAt: now.Add(5 * time.Minute), } require.NoError(t, ss.Set(sil2)) require.NotEmpty(t, sil2.Id) require.True(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert silenced by matching silence") // One hour passes, silence expires. clock.Advance(time.Hour) now = ss.nowUTC() require.False(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert not silenced by expired silence") // Update silence to start in the future. err = ss.Set(&pb.Silence{ Id: sil2.Id, Matchers: []*pb.Matcher{{Name: "foo", Pattern: "bar"}}, StartsAt: now.Add(time.Hour), EndsAt: now.Add(3 * time.Hour), }) require.NoError(t, err) require.False(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert not silenced by future silence") // Two hours pass, silence becomes active. clock.Advance(2 * time.Hour) now = ss.nowUTC() // Exposes issue #2426. require.True(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert silenced by activated silence") err = ss.Set(&pb.Silence{ Matchers: []*pb.Matcher{{Name: "foo", Pattern: "b..", Type: pb.Matcher_REGEXP}}, StartsAt: now.Add(time.Hour), EndsAt: now.Add(3 * time.Hour), }) require.NoError(t, err) // Note that issue #2426 doesn't apply anymore because we added a new silence. require.True(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert still silenced by activated silence") // Two hours pass, first silence expires, overlapping second silence becomes active. clock.Advance(2 * time.Hour) // Another variant of issue #2426 (overlapping silences). require.True(t, s.Mutes(model.LabelSet{"foo": "bar"}), "expected alert silenced by activated second silence") } func TestValidateClassicMatcher(t *testing.T) { cases := []struct { m *pb.Matcher err string }{ { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_NOT_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_REGEXP, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_NOT_REGEXP, }, err: "", }, { m: &pb.Matcher{ Name: "00", Pattern: "a", Type: pb.Matcher_EQUAL, }, err: "invalid label name", }, { m: &pb.Matcher{ Name: "\xf0\x9f\x99\x82", // U+1F642 Pattern: "a", Type: pb.Matcher_EQUAL, }, err: "invalid label name", }, { m: &pb.Matcher{ Name: "a", Pattern: "((", Type: pb.Matcher_REGEXP, }, err: "invalid regular expression", }, { m: &pb.Matcher{ Name: "a", Pattern: "))", Type: pb.Matcher_NOT_REGEXP, }, err: "invalid regular expression", }, { m: &pb.Matcher{ Name: "a", Pattern: "\xff", Type: pb.Matcher_EQUAL, }, err: "invalid label value", }, { m: &pb.Matcher{ Name: "a", Pattern: "\xf0\x9f\x99\x82", // U+1F642 Type: pb.Matcher_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: 333, }, err: "unknown matcher type", }, } for _, c := range cases { checkErr(t, c.err, validateMatcher(c.m)) } } func TestValidateUTF8Matcher(t *testing.T) { cases := []struct { m *pb.Matcher err string }{ { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_NOT_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_REGEXP, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: pb.Matcher_NOT_REGEXP, }, err: "", }, { m: &pb.Matcher{ Name: "00", Pattern: "a", Type: pb.Matcher_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "\xf0\x9f\x99\x82", // U+1F642 Pattern: "a", Type: pb.Matcher_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "((", Type: pb.Matcher_REGEXP, }, err: "invalid regular expression", }, { m: &pb.Matcher{ Name: "a", Pattern: "))", Type: pb.Matcher_NOT_REGEXP, }, err: "invalid regular expression", }, { m: &pb.Matcher{ Name: "a", Pattern: "\xff", Type: pb.Matcher_EQUAL, }, err: "invalid label value", }, { m: &pb.Matcher{ Name: "a", Pattern: "\xf0\x9f\x99\x82", // U+1F642 Type: pb.Matcher_EQUAL, }, err: "", }, { m: &pb.Matcher{ Name: "a", Pattern: "b", Type: 333, }, err: "unknown matcher type", }, } // Change the mode to UTF-8 mode. ff, err := featurecontrol.NewFlags(log.NewNopLogger(), featurecontrol.FeatureUTF8StrictMode) require.NoError(t, err) compat.InitFromFlags(log.NewNopLogger(), ff) // Restore the mode to classic at the end of the test. ff, err = featurecontrol.NewFlags(log.NewNopLogger(), featurecontrol.FeatureClassicMode) require.NoError(t, err) defer compat.InitFromFlags(log.NewNopLogger(), ff) for _, c := range cases { checkErr(t, c.err, validateMatcher(c.m)) } } func TestValidateSilence(t *testing.T) { var ( now = time.Now().UTC() zeroTimestamp = time.Time{} validTimestamp = now ) cases := []struct { s *pb.Silence err string }{ { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{ {Name: "a", Pattern: "b"}, }, StartsAt: validTimestamp, EndsAt: validTimestamp, UpdatedAt: validTimestamp, }, err: "", }, { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{}, StartsAt: validTimestamp, EndsAt: validTimestamp, UpdatedAt: validTimestamp, }, err: "at least one matcher required", }, { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{ {Name: "a", Pattern: "b"}, {Name: "00", Pattern: "b"}, }, StartsAt: validTimestamp, EndsAt: validTimestamp, UpdatedAt: validTimestamp, }, err: "invalid label matcher", }, { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{ {Name: "a", Pattern: ""}, {Name: "b", Pattern: ".*", Type: pb.Matcher_REGEXP}, }, StartsAt: validTimestamp, EndsAt: validTimestamp, UpdatedAt: validTimestamp, }, err: "at least one matcher must not match the empty string", }, { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{ {Name: "a", Pattern: "b"}, }, StartsAt: now, EndsAt: now.Add(-time.Second), UpdatedAt: validTimestamp, }, err: "end time must not be before start time", }, { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{ {Name: "a", Pattern: "b"}, }, StartsAt: zeroTimestamp, EndsAt: validTimestamp, UpdatedAt: validTimestamp, }, err: "invalid zero start timestamp", }, { s: &pb.Silence{ Id: "some_id", Matchers: []*pb.Matcher{ {Name: "a", Pattern: "b"}, }, StartsAt: validTimestamp, EndsAt: zeroTimestamp, UpdatedAt: validTimestamp, }, err: "invalid zero end timestamp", }, } for _, c := range cases { checkErr(t, c.err, validateSilence(c.s)) } } func TestStateMerge(t *testing.T) { now := time.Now().UTC() // We only care about key names and timestamps for the // merging logic. newSilence := func(id string, ts, exp time.Time) *pb.MeshSilence { return &pb.MeshSilence{ Silence: &pb.Silence{Id: id, UpdatedAt: ts}, ExpiresAt: exp, } } exp := now.Add(time.Minute) cases := []struct { a, b state final state }{ { a: state{ "a1": newSilence("a1", now, exp), "a2": newSilence("a2", now, exp), "a3": newSilence("a3", now, exp), }, b: state{ "b1": newSilence("b1", now, exp), // new key, should be added "a2": newSilence("a2", now.Add(-time.Minute), exp), // older timestamp, should be dropped "a3": newSilence("a3", now.Add(time.Minute), exp), // newer timestamp, should overwrite "a4": newSilence("a4", now.Add(-time.Minute), now.Add(-time.Millisecond)), // new key, expired, should not be added }, final: state{ "a1": newSilence("a1", now, exp), "a2": newSilence("a2", now, exp), "a3": newSilence("a3", now.Add(time.Minute), exp), "b1": newSilence("b1", now, exp), }, }, } for _, c := range cases { for _, e := range c.b { c.a.merge(e, now) } require.Equal(t, c.final, c.a, "Merge result should match expectation") } } func TestStateCoding(t *testing.T) { // Check whether encoding and decoding the data is symmetric. now := time.Now().UTC() cases := []struct { entries []*pb.MeshSilence }{ { entries: []*pb.MeshSilence{ { Silence: &pb.Silence{ Id: "3be80475-e219-4ee7-b6fc-4b65114e362f", Matchers: []*pb.Matcher{ {Name: "label1", Pattern: "val1", Type: pb.Matcher_EQUAL}, {Name: "label2", Pattern: "val.+", Type: pb.Matcher_REGEXP}, }, StartsAt: now, EndsAt: now, UpdatedAt: now, }, ExpiresAt: now, }, { Silence: &pb.Silence{ Id: "4b1e760d-182c-4980-b873-c1a6827c9817", Matchers: []*pb.Matcher{ {Name: "label1", Pattern: "val1", Type: pb.Matcher_EQUAL}, }, StartsAt: now.Add(time.Hour), EndsAt: now.Add(2 * time.Hour), UpdatedAt: now, }, ExpiresAt: now.Add(24 * time.Hour), }, { Silence: &pb.Silence{ Id: "3dfb2528-59ce-41eb-b465-f875a4e744a4", Matchers: []*pb.Matcher{ {Name: "label1", Pattern: "val1", Type: pb.Matcher_NOT_EQUAL}, {Name: "label2", Pattern: "val.+", Type: pb.Matcher_NOT_REGEXP}, }, StartsAt: now, EndsAt: now, UpdatedAt: now, }, ExpiresAt: now, }, }, }, } for _, c := range cases { // Create gossip data from input. in := state{} for _, e := range c.entries { in[e.Silence.Id] = e } msg, err := in.MarshalBinary() require.NoError(t, err) out, err := decodeState(bytes.NewReader(msg)) require.NoError(t, err, "decoding message failed") require.Equal(t, in, out, "decoded data doesn't match encoded data") } } func TestStateDecodingError(t *testing.T) { // Check whether decoding copes with erroneous data. s := state{"": &pb.MeshSilence{}} msg, err := s.MarshalBinary() require.NoError(t, err) _, err = decodeState(bytes.NewReader(msg)) require.Equal(t, ErrInvalidState, err) } // runtime.Gosched() does not "suspend" the current goroutine so there's no guarantee that the main goroutine won't // be able to continue. For more see https://pkg.go.dev/runtime#Gosched. func gosched() { time.Sleep(1 * time.Millisecond) }