package histogram import ( "fmt" "testing" "time" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/metric" "github.com/influxdata/telegraf/testutil" "github.com/stretchr/testify/assert" ) // NewTestHistogram creates new test histogram aggregation with specified config func NewTestHistogram(cfg []config) telegraf.Aggregator { htm := &HistogramAggregator{Configs: cfg} htm.buckets = make(bucketsByMetrics) htm.resetCache() return htm } // firstMetric1 is the first test metric var firstMetric1, _ = metric.New( "first_metric_name", map[string]string{"tag_name": "tag_value"}, map[string]interface{}{ "a": float64(15.3), "b": float64(40), }, time.Now(), ) // firstMetric1 is the first test metric with other value var firstMetric2, _ = metric.New( "first_metric_name", map[string]string{"tag_name": "tag_value"}, map[string]interface{}{ "a": float64(15.9), "c": float64(40), }, time.Now(), ) // secondMetric is the second metric var secondMetric, _ = metric.New( "second_metric_name", map[string]string{"tag_name": "tag_value"}, map[string]interface{}{ "a": float64(105), "ignoreme": "string", "andme": true, }, time.Now(), ) // BenchmarkApply runs benchmarks func BenchmarkApply(b *testing.B) { histogram := NewHistogramAggregator() for n := 0; n < b.N; n++ { histogram.Add(firstMetric1) histogram.Add(firstMetric2) histogram.Add(secondMetric) } } // TestHistogramWithPeriodAndOneField tests metrics for one period and for one field func TestHistogramWithPeriodAndOneField(t *testing.T) { var cfg []config cfg = append(cfg, config{Metric: "first_metric_name", Fields: []string{"a"}, Buckets: []float64{0.0, 10.0, 20.0, 30.0, 40.0}}) histogram := NewTestHistogram(cfg) acc := &testutil.Accumulator{} histogram.Add(firstMetric1) histogram.Add(firstMetric2) histogram.Push(acc) if len(acc.Metrics) != 6 { assert.Fail(t, "Incorrect number of metrics") } assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0)}, "0") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0)}, "10") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2)}, "20") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2)}, "30") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2)}, "40") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2)}, bucketInf) } // TestHistogramWithPeriodAndAllFields tests two metrics for one period and for all fields func TestHistogramWithPeriodAndAllFields(t *testing.T) { var cfg []config cfg = append(cfg, config{Metric: "first_metric_name", Buckets: []float64{0.0, 15.5, 20.0, 30.0, 40.0}}) cfg = append(cfg, config{Metric: "second_metric_name", Buckets: []float64{0.0, 4.0, 10.0, 23.0, 30.0}}) histogram := NewTestHistogram(cfg) acc := &testutil.Accumulator{} histogram.Add(firstMetric1) histogram.Add(firstMetric2) histogram.Add(secondMetric) histogram.Push(acc) if len(acc.Metrics) != 12 { assert.Fail(t, "Incorrect number of metrics") } assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0), "b_bucket": int64(0), "c_bucket": int64(0)}, "0") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(1), "b_bucket": int64(0), "c_bucket": int64(0)}, "15.5") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(0), "c_bucket": int64(0)}, "20") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(0), "c_bucket": int64(0)}, "30") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(1), "c_bucket": int64(1)}, "40") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(1), "c_bucket": int64(1)}, bucketInf) assertContainsTaggedField(t, acc, "second_metric_name", map[string]interface{}{"a_bucket": int64(0), "ignoreme_bucket": int64(0), "andme_bucket": int64(0)}, "0") assertContainsTaggedField(t, acc, "second_metric_name", map[string]interface{}{"a_bucket": int64(0), "ignoreme_bucket": int64(0), "andme_bucket": int64(0)}, "4") assertContainsTaggedField(t, acc, "second_metric_name", map[string]interface{}{"a_bucket": int64(0), "ignoreme_bucket": int64(0), "andme_bucket": int64(0)}, "10") assertContainsTaggedField(t, acc, "second_metric_name", map[string]interface{}{"a_bucket": int64(0), "ignoreme_bucket": int64(0), "andme_bucket": int64(0)}, "23") assertContainsTaggedField(t, acc, "second_metric_name", map[string]interface{}{"a_bucket": int64(0), "ignoreme_bucket": int64(0), "andme_bucket": int64(0)}, "30") assertContainsTaggedField(t, acc, "second_metric_name", map[string]interface{}{"a_bucket": int64(1), "ignoreme_bucket": int64(0), "andme_bucket": int64(0)}, bucketInf) } // TestHistogramDifferentPeriodsAndAllFields tests two metrics getting added with a push/reset in between (simulates // getting added in different periods) for all fields func TestHistogramDifferentPeriodsAndAllFields(t *testing.T) { var cfg []config cfg = append(cfg, config{Metric: "first_metric_name", Buckets: []float64{0.0, 10.0, 20.0, 30.0, 40.0}}) histogram := NewTestHistogram(cfg) acc := &testutil.Accumulator{} histogram.Add(firstMetric1) histogram.Push(acc) assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0), "b_bucket": int64(0)}, "0") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0), "b_bucket": int64(0)}, "10") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(1), "b_bucket": int64(0)}, "20") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(1), "b_bucket": int64(0)}, "30") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(1), "b_bucket": int64(1)}, "40") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(1), "b_bucket": int64(1)}, bucketInf) acc.ClearMetrics() histogram.Add(firstMetric2) histogram.Push(acc) assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0), "b_bucket": int64(0), "c_bucket": int64(0)}, "0") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(0), "b_bucket": int64(0), "c_bucket": int64(0)}, "10") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(0), "c_bucket": int64(0)}, "20") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(0), "c_bucket": int64(0)}, "30") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(1), "c_bucket": int64(1)}, "40") assertContainsTaggedField(t, acc, "first_metric_name", map[string]interface{}{"a_bucket": int64(2), "b_bucket": int64(1), "c_bucket": int64(1)}, bucketInf) } // TestWrongBucketsOrder tests the calling panic with incorrect order of buckets func TestWrongBucketsOrder(t *testing.T) { defer func() { if r := recover(); r != nil { assert.Equal( t, "histogram buckets must be in increasing order: 90.00 >= 20.00, metrics: first_metric_name, field: a", fmt.Sprint(r), ) } }() var cfg []config cfg = append(cfg, config{Metric: "first_metric_name", Buckets: []float64{0.0, 90.0, 20.0, 30.0, 40.0}}) histogram := NewTestHistogram(cfg) histogram.Add(firstMetric2) } // assertContainsTaggedField is help functions to test histogram data func assertContainsTaggedField(t *testing.T, acc *testutil.Accumulator, metricName string, fields map[string]interface{}, le string) { acc.Lock() defer acc.Unlock() for _, checkedMetric := range acc.Metrics { // check metric name if checkedMetric.Measurement != metricName { continue } // check "le" tag if checkedMetric.Tags[bucketTag] != le { continue } // check fields isFieldsIdentical := true for field := range fields { if _, ok := checkedMetric.Fields[field]; !ok { isFieldsIdentical = false break } } if !isFieldsIdentical { continue } // check fields with their counts if assert.Equal(t, fields, checkedMetric.Fields) { return } assert.Fail(t, fmt.Sprintf("incorrect fields %v of metric %s", fields, metricName)) } assert.Fail(t, fmt.Sprintf("unknown measurement '%s' with tags: %v, fields: %v", metricName, map[string]string{"le": le}, fields)) }