457 lines
13 KiB
Go
457 lines
13 KiB
Go
package agent
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import (
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"fmt"
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"math"
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"testing"
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"time"
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"github.com/influxdata/telegraf"
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"github.com/influxdata/telegraf/internal/models"
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"github.com/stretchr/testify/assert"
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)
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func TestAdd(t *testing.T) {
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.Add("acctest", float64(101), map[string]string{})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", now.UnixNano()),
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actual)
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}
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func TestAddNoPrecisionWithInterval(t *testing.T) {
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a := accumulator{}
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now := time.Date(2006, time.February, 10, 12, 0, 0, 82912748, time.UTC)
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.SetPrecision(0, time.Second)
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a.Add("acctest", float64(101), map[string]string{})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800000000000)),
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actual)
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}
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func TestAddNoIntervalWithPrecision(t *testing.T) {
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a := accumulator{}
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now := time.Date(2006, time.February, 10, 12, 0, 0, 82912748, time.UTC)
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.SetPrecision(time.Second, time.Millisecond)
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a.Add("acctest", float64(101), map[string]string{})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800000000000)),
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actual)
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}
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func TestAddDisablePrecision(t *testing.T) {
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a := accumulator{}
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now := time.Date(2006, time.February, 10, 12, 0, 0, 82912748, time.UTC)
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.SetPrecision(time.Second, time.Millisecond)
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a.DisablePrecision()
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a.Add("acctest", float64(101), map[string]string{})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800082912748)),
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actual)
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}
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func TestDifferentPrecisions(t *testing.T) {
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a := accumulator{}
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now := time.Date(2006, time.February, 10, 12, 0, 0, 82912748, time.UTC)
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.SetPrecision(0, time.Second)
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800000000000)),
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actual)
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a.SetPrecision(0, time.Millisecond)
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800083000000)),
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actual)
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a.SetPrecision(0, time.Microsecond)
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800082913000)),
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actual)
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a.SetPrecision(0, time.Nanosecond)
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test value=101 %d", int64(1139572800082912748)),
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actual)
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}
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func TestAddDefaultTags(t *testing.T) {
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a := accumulator{}
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a.addDefaultTag("default", "tag")
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.Add("acctest", float64(101), map[string]string{})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest,default=tag value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test,default=tag value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test,default=tag value=101 %d", now.UnixNano()),
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actual)
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}
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func TestAddFields(t *testing.T) {
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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fields := map[string]interface{}{
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"usage": float64(99),
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}
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a.AddFields("acctest", fields, map[string]string{})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest usage=99")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test usage=99")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test usage=99 %d", now.UnixNano()),
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actual)
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}
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// Test that all Inf fields get dropped, and not added to metrics channel
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func TestAddInfFields(t *testing.T) {
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inf := math.Inf(1)
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ninf := math.Inf(-1)
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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fields := map[string]interface{}{
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"usage": inf,
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"nusage": ninf,
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}
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a.AddFields("acctest", fields, map[string]string{})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"}, now)
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assert.Len(t, a.metrics, 0)
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// test that non-inf fields are kept and not dropped
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fields["notinf"] = float64(100)
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a.AddFields("acctest", fields, map[string]string{})
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest notinf=100")
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}
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// Test that nan fields are dropped and not added
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func TestAddNaNFields(t *testing.T) {
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nan := math.NaN()
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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fields := map[string]interface{}{
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"usage": nan,
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}
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a.AddFields("acctest", fields, map[string]string{})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"}, now)
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assert.Len(t, a.metrics, 0)
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// test that non-nan fields are kept and not dropped
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fields["notnan"] = float64(100)
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a.AddFields("acctest", fields, map[string]string{})
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest notnan=100")
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}
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func TestAddUint64Fields(t *testing.T) {
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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fields := map[string]interface{}{
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"usage": uint64(99),
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}
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a.AddFields("acctest", fields, map[string]string{})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest usage=99i")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test usage=99i")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test usage=99i %d", now.UnixNano()),
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actual)
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}
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func TestAddUint64Overflow(t *testing.T) {
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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fields := map[string]interface{}{
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"usage": uint64(9223372036854775808),
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}
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a.AddFields("acctest", fields, map[string]string{})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"})
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a.AddFields("acctest", fields, map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest usage=9223372036854775807i")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test usage=9223372036854775807i")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test usage=9223372036854775807i %d", now.UnixNano()),
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actual)
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}
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func TestAddInts(t *testing.T) {
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a := accumulator{}
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a.addDefaultTag("default", "tag")
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.Add("acctest", int(101), map[string]string{})
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a.Add("acctest", int32(101), map[string]string{"acc": "test"})
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a.Add("acctest", int64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest,default=tag value=101i")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest,acc=test,default=tag value=101i")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test,default=tag value=101i %d", now.UnixNano()),
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actual)
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}
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func TestAddFloats(t *testing.T) {
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a := accumulator{}
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a.addDefaultTag("default", "tag")
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.Add("acctest", float32(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest,acc=test,default=tag value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test,default=tag value=101 %d", now.UnixNano()),
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actual)
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}
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func TestAddStrings(t *testing.T) {
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a := accumulator{}
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a.addDefaultTag("default", "tag")
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.Add("acctest", "test", map[string]string{"acc": "test"})
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a.Add("acctest", "foo", map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest,acc=test,default=tag value=\"test\"")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test,default=tag value=\"foo\" %d", now.UnixNano()),
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actual)
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}
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func TestAddBools(t *testing.T) {
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a := accumulator{}
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a.addDefaultTag("default", "tag")
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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a.inputConfig = &internal_models.InputConfig{}
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a.Add("acctest", true, map[string]string{"acc": "test"})
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a.Add("acctest", false, map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest,acc=test,default=tag value=true")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest,acc=test,default=tag value=false %d", now.UnixNano()),
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actual)
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}
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// Test that tag filters get applied to metrics.
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func TestAccFilterTags(t *testing.T) {
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a := accumulator{}
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now := time.Now()
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a.metrics = make(chan telegraf.Metric, 10)
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defer close(a.metrics)
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filter := internal_models.Filter{
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TagExclude: []string{"acc"},
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}
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assert.NoError(t, filter.CompileFilter())
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a.inputConfig = &internal_models.InputConfig{}
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a.inputConfig.Filter = filter
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a.Add("acctest", float64(101), map[string]string{})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"})
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a.Add("acctest", float64(101), map[string]string{"acc": "test"}, now)
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testm := <-a.metrics
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actual := testm.String()
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assert.Contains(t, actual, "acctest value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Contains(t, actual, "acctest value=101")
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testm = <-a.metrics
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actual = testm.String()
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assert.Equal(t,
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fmt.Sprintf("acctest value=101 %d", now.UnixNano()),
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actual)
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}
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