package metrics import ( "reflect" "runtime" "testing" "time" ) func mockMetric() (*MockSink, *Metrics) { m := &MockSink{} met := &Metrics{Config: Config{FilterDefault: true}, sink: m} return m, met } func TestMetrics_SetGauge(t *testing.T) { m, met := mockMetric() met.SetGauge([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() labels := []Label{{"a", "b"}} met.SetGaugeWithLabels([]string{"key"}, float32(1), labels) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } if !reflect.DeepEqual(m.labels[0], labels) { t.Fatalf("") } m, met = mockMetric() met.HostName = "test" met.EnableHostname = true met.SetGauge([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "test" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() met.EnableTypePrefix = true met.SetGauge([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "gauge" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() met.ServiceName = "service" met.SetGauge([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "service" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } } func TestMetrics_EmitKey(t *testing.T) { m, met := mockMetric() met.EmitKey([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() met.EnableTypePrefix = true met.EmitKey([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "kv" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() met.ServiceName = "service" met.EmitKey([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "service" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } } func TestMetrics_IncrCounter(t *testing.T) { m, met := mockMetric() met.IncrCounter([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() labels := []Label{{"a", "b"}} met.IncrCounterWithLabels([]string{"key"}, float32(1), labels) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } if !reflect.DeepEqual(m.labels[0], labels) { t.Fatalf("") } m, met = mockMetric() met.EnableTypePrefix = true met.IncrCounter([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "counter" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() met.ServiceName = "service" met.IncrCounter([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "service" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } } func TestMetrics_AddSample(t *testing.T) { m, met := mockMetric() met.AddSample([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() labels := []Label{{"a", "b"}} met.AddSampleWithLabels([]string{"key"}, float32(1), labels) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } if !reflect.DeepEqual(m.labels[0], labels) { t.Fatalf("") } m, met = mockMetric() met.EnableTypePrefix = true met.AddSample([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "sample" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } m, met = mockMetric() met.ServiceName = "service" met.AddSample([]string{"key"}, float32(1)) if m.getKeys()[0][0] != "service" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] != 1 { t.Fatalf("") } } func TestMetrics_MeasureSince(t *testing.T) { m, met := mockMetric() met.TimerGranularity = time.Millisecond n := time.Now() met.MeasureSince([]string{"key"}, n) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] > 0.1 { t.Fatalf("") } m, met = mockMetric() met.TimerGranularity = time.Millisecond labels := []Label{{"a", "b"}} met.MeasureSinceWithLabels([]string{"key"}, n, labels) if m.getKeys()[0][0] != "key" { t.Fatalf("") } if m.vals[0] > 0.1 { t.Fatalf("") } if !reflect.DeepEqual(m.labels[0], labels) { t.Fatalf("") } m, met = mockMetric() met.TimerGranularity = time.Millisecond met.EnableTypePrefix = true met.MeasureSince([]string{"key"}, n) if m.getKeys()[0][0] != "timer" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] > 0.1 { t.Fatalf("") } m, met = mockMetric() met.TimerGranularity = time.Millisecond met.ServiceName = "service" met.MeasureSince([]string{"key"}, n) if m.getKeys()[0][0] != "service" || m.getKeys()[0][1] != "key" { t.Fatalf("") } if m.vals[0] > 0.1 { t.Fatalf("") } } func TestMetrics_EmitRuntimeStats(t *testing.T) { runtime.GC() m, met := mockMetric() met.emitRuntimeStats() if m.getKeys()[0][0] != "runtime" || m.getKeys()[0][1] != "num_goroutines" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[0] <= 1 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[1][0] != "runtime" || m.getKeys()[1][1] != "alloc_bytes" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[1] <= 40000 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[2][0] != "runtime" || m.getKeys()[2][1] != "sys_bytes" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[2] <= 100000 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[3][0] != "runtime" || m.getKeys()[3][1] != "malloc_count" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[3] <= 100 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[4][0] != "runtime" || m.getKeys()[4][1] != "free_count" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[4] <= 100 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[5][0] != "runtime" || m.getKeys()[5][1] != "heap_objects" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[5] <= 100 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[6][0] != "runtime" || m.getKeys()[6][1] != "total_gc_pause_ns" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[6] <= 100 { t.Fatalf("bad val: %v\nkeys: %v", m.vals, m.getKeys()) } if m.getKeys()[7][0] != "runtime" || m.getKeys()[7][1] != "total_gc_runs" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[7] < 1 { t.Fatalf("bad val: %v", m.vals) } if m.getKeys()[8][0] != "runtime" || m.getKeys()[8][1] != "gc_pause_ns" { t.Fatalf("bad key %v", m.getKeys()) } if m.vals[8] <= 1000 { t.Fatalf("bad val: %v", m.vals) } } func TestInsert(t *testing.T) { k := []string{"hi", "bob"} exp := []string{"hi", "there", "bob"} out := insert(1, "there", k) if !reflect.DeepEqual(exp, out) { t.Fatalf("bad insert %v %v", exp, out) } } func TestMetrics_Filter_Blacklist(t *testing.T) { m := &MockSink{} conf := DefaultConfig("") conf.AllowedPrefixes = []string{"service", "debug.thing"} conf.BlockedPrefixes = []string{"debug"} conf.EnableHostname = false met, err := New(conf, m) if err != nil { t.Fatal(err) } // Allowed by default key := []string{"thing"} met.SetGauge(key, 1) if !reflect.DeepEqual(m.getKeys()[0], key) { t.Fatalf("key doesn't exist %v, %v", m.getKeys()[0], key) } if m.vals[0] != 1 { t.Fatalf("bad val: %v", m.vals[0]) } // Allowed by filter key = []string{"service", "thing"} met.SetGauge(key, 2) if !reflect.DeepEqual(m.getKeys()[1], key) { t.Fatalf("key doesn't exist") } if m.vals[1] != 2 { t.Fatalf("bad val: %v", m.vals[1]) } // Allowed by filter, subtree of a blocked entry key = []string{"debug", "thing"} met.SetGauge(key, 3) if !reflect.DeepEqual(m.getKeys()[2], key) { t.Fatalf("key doesn't exist") } if m.vals[2] != 3 { t.Fatalf("bad val: %v", m.vals[2]) } // Blocked by filter key = []string{"debug", "other-thing"} met.SetGauge(key, 4) if len(m.getKeys()) != 3 { t.Fatalf("key shouldn't exist") } } func HasElem(s interface{}, elem interface{}) bool { arrV := reflect.ValueOf(s) if arrV.Kind() == reflect.Slice { for i := 0; i < arrV.Len(); i++ { if arrV.Index(i).Interface() == elem { return true } } } return false } func TestMetrics_Filter_Whitelist(t *testing.T) { m := &MockSink{} conf := DefaultConfig("") conf.AllowedPrefixes = []string{"service", "debug.thing"} conf.BlockedPrefixes = []string{"debug"} conf.FilterDefault = false conf.EnableHostname = false conf.BlockedLabels = []string{"bad_label"} met, err := New(conf, m) if err != nil { t.Fatal(err) } // Blocked by default key := []string{"thing"} met.SetGauge(key, 1) if len(m.getKeys()) != 0 { t.Fatalf("key should not exist") } // Allowed by filter key = []string{"service", "thing"} met.SetGauge(key, 2) if !reflect.DeepEqual(m.getKeys()[0], key) { t.Fatalf("key doesn't exist") } if m.vals[0] != 2 { t.Fatalf("bad val: %v", m.vals[0]) } // Allowed by filter, subtree of a blocked entry key = []string{"debug", "thing"} met.SetGauge(key, 3) if !reflect.DeepEqual(m.getKeys()[1], key) { t.Fatalf("key doesn't exist") } if m.vals[1] != 3 { t.Fatalf("bad val: %v", m.vals[1]) } // Blocked by filter key = []string{"debug", "other-thing"} met.SetGauge(key, 4) if len(m.getKeys()) != 2 { t.Fatalf("key shouldn't exist") } // Test blacklisting of labels key = []string{"debug", "thing"} goodLabel := Label{Name: "good", Value: "should be present"} badLabel := Label{Name: "bad_label", Value: "should not be there"} labels := []Label{badLabel, goodLabel} met.SetGaugeWithLabels(key, 3, labels) if !reflect.DeepEqual(m.getKeys()[1], key) { t.Fatalf("key doesn't exist") } if m.vals[2] != 3 { t.Fatalf("bad val: %v", m.vals[1]) } if HasElem(m.labels[2], badLabel) { t.Fatalf("bad_label should not be present in %v", m.labels[2]) } if !HasElem(m.labels[2], goodLabel) { t.Fatalf("good label is not present in %v", m.labels[2]) } } func TestMetrics_Filter_Labels_Whitelist(t *testing.T) { m := &MockSink{} conf := DefaultConfig("") conf.AllowedPrefixes = []string{"service", "debug.thing"} conf.BlockedPrefixes = []string{"debug"} conf.FilterDefault = false conf.EnableHostname = false conf.AllowedLabels = []string{"good_label"} conf.BlockedLabels = []string{"bad_label"} met, err := New(conf, m) if err != nil { t.Fatal(err) } // Blocked by default key := []string{"thing"} key = []string{"debug", "thing"} goodLabel := Label{Name: "good_label", Value: "should be present"} notReallyGoodLabel := Label{Name: "not_really_good_label", Value: "not whitelisted, but not blacklisted"} badLabel := Label{Name: "bad_label", Value: "should not be there"} labels := []Label{badLabel, notReallyGoodLabel, goodLabel} met.SetGaugeWithLabels(key, 1, labels) if HasElem(m.labels[0], badLabel) { t.Fatalf("bad_label should not be present in %v", m.labels[0]) } if HasElem(m.labels[0], notReallyGoodLabel) { t.Fatalf("not_really_good_label should not be present in %v", m.labels[0]) } if !HasElem(m.labels[0], goodLabel) { t.Fatalf("good label is not present in %v", m.labels[0]) } conf.AllowedLabels = nil met.UpdateFilterAndLabels(conf.AllowedPrefixes, conf.BlockedLabels, conf.AllowedLabels, conf.BlockedLabels) met.SetGaugeWithLabels(key, 1, labels) if HasElem(m.labels[1], badLabel) { t.Fatalf("bad_label should not be present in %v", m.labels[1]) } // Since no whitelist, not_really_good_label should be there if !HasElem(m.labels[1], notReallyGoodLabel) { t.Fatalf("not_really_good_label is not present in %v", m.labels[1]) } if !HasElem(m.labels[1], goodLabel) { t.Fatalf("good label is not present in %v", m.labels[1]) } } func TestMetrics_Filter_Labels_ModifyArgs(t *testing.T) { m := &MockSink{} conf := DefaultConfig("") conf.FilterDefault = false conf.EnableHostname = false conf.AllowedLabels = []string{"keep"} conf.BlockedLabels = []string{"delete"} met, err := New(conf, m) if err != nil { t.Fatal(err) } // Blocked by default key := []string{"thing"} key = []string{"debug", "thing"} goodLabel := Label{Name: "keep", Value: "should be kept"} badLabel := Label{Name: "delete", Value: "should be deleted"} argLabels := []Label{badLabel, goodLabel, badLabel, goodLabel, badLabel, goodLabel, badLabel} origLabels := append([]Label{}, argLabels...) met.SetGaugeWithLabels(key, 1, argLabels) if !reflect.DeepEqual(argLabels, origLabels) { t.Fatalf("SetGaugeWithLabels modified the input argument") } }