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cloudwatch_test.go
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cloudwatch_test.go
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package cloudwatch
import (
"fmt"
"math"
"sort"
"testing"
"time"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/service/cloudwatch"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/metric"
"github.com/influxdata/telegraf/testutil"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
// Test that each tag becomes one dimension
func TestBuildDimensions(t *testing.T) {
const MaxDimensions = 10
assert := assert.New(t)
testPoint := testutil.TestMetric(1)
dimensions := BuildDimensions(testPoint.Tags())
tagKeys := make([]string, len(testPoint.Tags()))
i := 0
for k := range testPoint.Tags() {
tagKeys[i] = k
i += 1
}
sort.Strings(tagKeys)
if len(testPoint.Tags()) >= MaxDimensions {
assert.Equal(MaxDimensions, len(dimensions), "Number of dimensions should be less than MaxDimensions")
} else {
assert.Equal(len(testPoint.Tags()), len(dimensions), "Number of dimensions should be equal to number of tags")
}
for i, key := range tagKeys {
if i >= 10 {
break
}
assert.Equal(key, *dimensions[i].Name, "Key should be equal")
assert.Equal(testPoint.Tags()[key], *dimensions[i].Value, "Value should be equal")
}
}
// Test that metrics with valid values have a MetricDatum created where as non valid do not.
// Skips "time.Time" type as something is converting the value to string.
func TestBuildMetricDatums(t *testing.T) {
assert := assert.New(t)
zero := 0.0
validMetrics := []telegraf.Metric{
testutil.TestMetric(1),
testutil.TestMetric(int32(1)),
testutil.TestMetric(int64(1)),
testutil.TestMetric(float64(1)),
testutil.TestMetric(float64(0)),
testutil.TestMetric(math.Copysign(zero, -1)), // the CW documentation does not call out -0 as rejected
testutil.TestMetric(float64(8.515920e-109)),
testutil.TestMetric(float64(1.174271e+108)), // largest should be 1.174271e+108
testutil.TestMetric(true),
}
invalidMetrics := []telegraf.Metric{
testutil.TestMetric("Foo"),
testutil.TestMetric(math.Log(-1.0)),
testutil.TestMetric(float64(8.515919e-109)), // smallest should be 8.515920e-109
testutil.TestMetric(float64(1.174272e+108)), // largest should be 1.174271e+108
}
for _, point := range validMetrics {
datums := BuildMetricDatum(false, false, point)
assert.Equal(1, len(datums), fmt.Sprintf("Valid point should create a Datum {value: %v}", point))
}
for _, point := range invalidMetrics {
datums := BuildMetricDatum(false, false, point)
assert.Equal(0, len(datums), fmt.Sprintf("Valid point should not create a Datum {value: %v}", point))
}
statisticMetric, _ := metric.New(
"test1",
map[string]string{"tag1": "value1"},
map[string]interface{}{"value_max": float64(10), "value_min": float64(0), "value_sum": float64(100), "value_count": float64(20)},
time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC),
)
datums := BuildMetricDatum(true, false, statisticMetric)
assert.Equal(1, len(datums), fmt.Sprintf("Valid point should create a Datum {value: %v}", statisticMetric))
multiFieldsMetric, _ := metric.New(
"test1",
map[string]string{"tag1": "value1"},
map[string]interface{}{"valueA": float64(10), "valueB": float64(0), "valueC": float64(100), "valueD": float64(20)},
time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC),
)
datums = BuildMetricDatum(true, false, multiFieldsMetric)
assert.Equal(4, len(datums), fmt.Sprintf("Each field should create a Datum {value: %v}", multiFieldsMetric))
multiStatisticMetric, _ := metric.New(
"test1",
map[string]string{"tag1": "value1"},
map[string]interface{}{
"valueA_max": float64(10), "valueA_min": float64(0), "valueA_sum": float64(100), "valueA_count": float64(20),
"valueB_max": float64(10), "valueB_min": float64(0), "valueB_sum": float64(100), "valueB_count": float64(20),
"valueC_max": float64(10), "valueC_min": float64(0), "valueC_sum": float64(100),
"valueD": float64(10), "valueE": float64(0),
},
time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC),
)
datums = BuildMetricDatum(true, false, multiStatisticMetric)
assert.Equal(7, len(datums), fmt.Sprintf("Valid point should create a Datum {value: %v}", multiStatisticMetric))
}
func TestMetricDatumResolution(t *testing.T) {
const expectedStandardResolutionValue = int64(60)
const expectedHighResolutionValue = int64(1)
assert := assert.New(t)
metric := testutil.TestMetric(1)
standardResolutionDatum := BuildMetricDatum(false, false, metric)
actualStandardResolutionValue := *standardResolutionDatum[0].StorageResolution
assert.Equal(expectedStandardResolutionValue, actualStandardResolutionValue)
highResolutionDatum := BuildMetricDatum(false, true, metric)
actualHighResolutionValue := *highResolutionDatum[0].StorageResolution
assert.Equal(expectedHighResolutionValue, actualHighResolutionValue)
}
func TestBuildMetricDatums_SkipEmptyTags(t *testing.T) {
input := testutil.MustMetric(
"cpu",
map[string]string{
"host": "example.org",
"foo": "",
},
map[string]interface{}{
"value": int64(42),
},
time.Unix(0, 0),
)
datums := BuildMetricDatum(true, false, input)
require.Len(t, datums[0].Dimensions, 1)
}
func TestPartitionDatums(t *testing.T) {
assert := assert.New(t)
testDatum := cloudwatch.MetricDatum{
MetricName: aws.String("Foo"),
Value: aws.Float64(1),
}
zeroDatum := []*cloudwatch.MetricDatum{}
oneDatum := []*cloudwatch.MetricDatum{&testDatum}
twoDatum := []*cloudwatch.MetricDatum{&testDatum, &testDatum}
threeDatum := []*cloudwatch.MetricDatum{&testDatum, &testDatum, &testDatum}
assert.Equal([][]*cloudwatch.MetricDatum{}, PartitionDatums(2, zeroDatum))
assert.Equal([][]*cloudwatch.MetricDatum{oneDatum}, PartitionDatums(2, oneDatum))
assert.Equal([][]*cloudwatch.MetricDatum{oneDatum}, PartitionDatums(2, oneDatum))
assert.Equal([][]*cloudwatch.MetricDatum{twoDatum}, PartitionDatums(2, twoDatum))
assert.Equal([][]*cloudwatch.MetricDatum{twoDatum, oneDatum}, PartitionDatums(2, threeDatum))
}