package enum import ( "testing" "time" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/metric" "github.com/stretchr/testify/assert" ) func createTestMetric() telegraf.Metric { metric, _ := metric.New("m1", map[string]string{"tag": "tag_value"}, map[string]interface{}{ "string_value": "test", "int_value": int(13), "true_value": true, }, time.Now(), ) return metric } func calculateProcessedValues(mapper EnumMapper, metric telegraf.Metric) map[string]interface{} { processed := mapper.Apply(metric) return processed[0].Fields() } func calculateProcessedTags(mapper EnumMapper, metric telegraf.Metric) map[string]string { processed := mapper.Apply(metric) return processed[0].Tags() } func assertFieldValue(t *testing.T, expected interface{}, field string, fields map[string]interface{}) { value, present := fields[field] assert.True(t, present, "value of field '"+field+"' was not present") assert.EqualValues(t, expected, value) } func assertTagValue(t *testing.T, expected interface{}, tag string, tags map[string]string) { value, present := tags[tag] assert.True(t, present, "value of tag '"+tag+"' was not present") assert.EqualValues(t, expected, value) } func TestRetainsMetric(t *testing.T) { mapper := EnumMapper{} source := createTestMetric() target := mapper.Apply(source)[0] fields := target.Fields() assertFieldValue(t, "test", "string_value", fields) assertFieldValue(t, 13, "int_value", fields) assertFieldValue(t, true, "true_value", fields) assert.Equal(t, "m1", target.Name()) assert.Equal(t, source.Tags(), target.Tags()) assert.Equal(t, source.Time(), target.Time()) } func TestMapsSingleStringValue(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "string_value", ValueMappings: map[string]interface{}{"test": int64(1)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, 1, "string_value", fields) } func TestMapsSingleStringValueTag(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Tag: "tag", ValueMappings: map[string]interface{}{"tag_value": "valuable"}}}} tags := calculateProcessedTags(mapper, createTestMetric()) assertTagValue(t, "valuable", "tag", tags) } func TestNoFailureOnMappingsOnNonStringValuedFields(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "int_value", ValueMappings: map[string]interface{}{"13i": int64(7)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, 13, "int_value", fields) } func TestMapSingleBoolValue(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "true_value", ValueMappings: map[string]interface{}{"true": int64(1)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, 1, "true_value", fields) } func TestMapsToDefaultValueOnUnknownSourceValue(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "string_value", Default: int64(42), ValueMappings: map[string]interface{}{"other": int64(1)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, 42, "string_value", fields) } func TestDoNotMapToDefaultValueKnownSourceValue(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "string_value", Default: int64(42), ValueMappings: map[string]interface{}{"test": int64(1)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, 1, "string_value", fields) } func TestNoMappingWithoutDefaultOrDefinedMappingValue(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "string_value", ValueMappings: map[string]interface{}{"other": int64(1)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, "test", "string_value", fields) } func TestWritesToDestination(t *testing.T) { mapper := EnumMapper{Mappings: []Mapping{{Field: "string_value", Dest: "string_code", ValueMappings: map[string]interface{}{"test": int64(1)}}}} fields := calculateProcessedValues(mapper, createTestMetric()) assertFieldValue(t, "test", "string_value", fields) assertFieldValue(t, 1, "string_code", fields) }