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3dac50a968
opentelemetry-go/exporters/otlp/otlpmetric/exporter_test.go
Jacob953 3dac50a968
test: --20220112 fix histogram instrument unit test (#2507) 
Co-authored-by: Chester Cheung <cheung.zhy.csu@gmail.com>
Co-authored-by: Anthony Mirabella <a9@aneurysm9.com>
2022-03-23 12:26:13 -07:00

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// Copyright The OpenTelemetry Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package otlpmetric_test
import (
"context"
"fmt"
"testing"
"time"
"github.com/google/go-cmp/cmp"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"google.golang.org/protobuf/testing/protocmp"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/exporters/otlp/otlpmetric"
"go.opentelemetry.io/otel/exporters/otlp/otlpmetric/internal/metrictransform"
"go.opentelemetry.io/otel/metric"
"go.opentelemetry.io/otel/sdk/instrumentation"
"go.opentelemetry.io/otel/sdk/metric/aggregator"
"go.opentelemetry.io/otel/sdk/metric/aggregator/histogram"
"go.opentelemetry.io/otel/sdk/metric/aggregator/sum"
"go.opentelemetry.io/otel/sdk/metric/export"
"go.opentelemetry.io/otel/sdk/metric/export/aggregation"
"go.opentelemetry.io/otel/sdk/metric/metrictest"
"go.opentelemetry.io/otel/sdk/metric/number"
"go.opentelemetry.io/otel/sdk/metric/processor/processortest"
"go.opentelemetry.io/otel/sdk/metric/sdkapi"
"go.opentelemetry.io/otel/sdk/resource"
commonpb "go.opentelemetry.io/proto/otlp/common/v1"
metricpb "go.opentelemetry.io/proto/otlp/metrics/v1"
)
var (
// Timestamps used in this test:
intervalStart = time.Now()
intervalEnd = intervalStart.Add(time.Hour)
)
type stubClient struct {
rm []*metricpb.ResourceMetrics
}
func (m *stubClient) Start(ctx context.Context) error {
return nil
}
func (m *stubClient) Stop(ctx context.Context) error {
return nil
}
func (m *stubClient) UploadMetrics(ctx context.Context, protoMetrics *metricpb.ResourceMetrics) error {
m.rm = append(m.rm, protoMetrics)
return nil
}
var _ otlpmetric.Client = (*stubClient)(nil)
func (m *stubClient) Reset() {
m.rm = nil
}
func newExporter(t *testing.T, opts ...otlpmetric.Option) (*otlpmetric.Exporter, *stubClient) {
client := &stubClient{}
exp, _ := otlpmetric.New(context.Background(), client, opts...)
return exp, client
}
func startTime() uint64 {
return uint64(intervalStart.UnixNano())
}
func pointTime() uint64 {
return uint64(intervalEnd.UnixNano())
}
type testRecord struct {
name string
iKind sdkapi.InstrumentKind
nKind number.Kind
labels []attribute.KeyValue
meterName string
meterOpts []metric.MeterOption
}
func record(
name string,
iKind sdkapi.InstrumentKind,
nKind number.Kind,
labels []attribute.KeyValue,
meterName string,
meterOpts ...metric.MeterOption) testRecord {
return testRecord{
name: name,
iKind: iKind,
nKind: nKind,
labels: labels,
meterName: meterName,
meterOpts: meterOpts,
}
}
var (
baseKeyValues = []attribute.KeyValue{attribute.String("host", "test.com")}
cpuKey = attribute.Key("CPU")
testHistogramBoundaries = []float64{2.0, 4.0, 8.0}
cpu1Labels = []*commonpb.KeyValue{
{
Key: "CPU",
Value: &commonpb.AnyValue{
Value: &commonpb.AnyValue_IntValue{
IntValue: 1,
},
},
},
{
Key: "host",
Value: &commonpb.AnyValue{
Value: &commonpb.AnyValue_StringValue{
StringValue: "test.com",
},
},
},
}
cpu2Labels = []*commonpb.KeyValue{
{
Key: "CPU",
Value: &commonpb.AnyValue{
Value: &commonpb.AnyValue_IntValue{
IntValue: 2,
},
},
},
{
Key: "host",
Value: &commonpb.AnyValue{
Value: &commonpb.AnyValue_StringValue{
StringValue: "test.com",
},
},
},
}
testerAResource = resource.NewSchemaless(attribute.String("instance", "tester-a"))
testerAResourcePb = metrictransform.Resource(testerAResource)
)
const (
// Most of this test uses an empty instrumentation library name.
testLibName = ""
)
func TestNoGroupingExport(t *testing.T) {
runMetricExportTests(
t,
nil,
resource.Empty(),
[]testRecord{
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(2)),
testLibName,
),
},
[]*metricpb.ResourceMetrics{
{
Resource: nil,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "int64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu2Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
},
)
}
func TestHistogramInt64MetricGroupingExport(t *testing.T) {
r := record(
"int64-histogram",
sdkapi.HistogramInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
)
expected := []*metricpb.ResourceMetrics{
{
Resource: nil,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "int64-histogram",
Data: &metricpb.Metric_Histogram{
Histogram: &metricpb.Histogram{
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.HistogramDataPoint{
{
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
Count: 2,
Sum: 11,
ExplicitBounds: testHistogramBoundaries,
BucketCounts: []uint64{1, 0, 0, 1},
},
{
Attributes: cpu1Labels,
Count: 2,
Sum: 11,
ExplicitBounds: testHistogramBoundaries,
BucketCounts: []uint64{1, 0, 0, 1},
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
}
runMetricExportTests(t, nil, resource.Empty(), []testRecord{r, r}, expected)
}
func TestHistogramFloat64MetricGroupingExport(t *testing.T) {
r := record(
"float64-histogram",
sdkapi.HistogramInstrumentKind,
number.Float64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
)
expected := []*metricpb.ResourceMetrics{
{
Resource: nil,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "float64-histogram",
Data: &metricpb.Metric_Histogram{
Histogram: &metricpb.Histogram{
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.HistogramDataPoint{
{
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
Count: 2,
Sum: 11.0,
ExplicitBounds: testHistogramBoundaries,
BucketCounts: []uint64{1, 0, 0, 1},
},
{
Attributes: cpu1Labels,
Count: 2,
Sum: 11.0,
ExplicitBounds: testHistogramBoundaries,
BucketCounts: []uint64{1, 0, 0, 1},
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
}
runMetricExportTests(t, nil, resource.Empty(), []testRecord{r, r}, expected)
}
func TestCountInt64MetricGroupingExport(t *testing.T) {
r := record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
)
runMetricExportTests(
t,
nil,
resource.Empty(),
[]testRecord{r, r},
[]*metricpb.ResourceMetrics{
{
Resource: nil,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "int64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
},
)
}
func TestCountFloat64MetricGroupingExport(t *testing.T) {
r := record(
"float64-count",
sdkapi.CounterInstrumentKind,
number.Float64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
)
runMetricExportTests(
t,
nil,
resource.Empty(),
[]testRecord{r, r},
[]*metricpb.ResourceMetrics{
{
Resource: nil,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "float64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsDouble{AsDouble: 11.0},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsDouble{AsDouble: 11.0},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
},
)
}
func TestResourceMetricGroupingExport(t *testing.T) {
runMetricExportTests(
t,
nil,
testerAResource,
[]testRecord{
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(2)),
testLibName,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
),
},
[]*metricpb.ResourceMetrics{
{
Resource: testerAResourcePb,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "int64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu2Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
},
)
}
func TestResourceInstLibMetricGroupingExport(t *testing.T) {
version1 := metric.WithInstrumentationVersion("v1")
version2 := metric.WithInstrumentationVersion("v2")
specialSchema := metric.WithSchemaURL("schurl")
summingLib := "summing-lib"
countingLib := "counting-lib"
runMetricExportTests(
t,
nil,
testerAResource,
[]testRecord{
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
countingLib,
version1,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
countingLib,
version2,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
countingLib,
version1,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(2)),
countingLib,
version1,
),
record(
"int64-count",
sdkapi.CounterInstrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
summingLib,
specialSchema,
),
},
[]*metricpb.ResourceMetrics{
{
Resource: testerAResourcePb,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
InstrumentationLibrary: &commonpb.InstrumentationLibrary{
Name: "counting-lib",
Version: "v1",
},
Metrics: []*metricpb.Metric{
{
Name: "int64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu2Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
{
InstrumentationLibrary: &commonpb.InstrumentationLibrary{
Name: "counting-lib",
Version: "v2",
},
Metrics: []*metricpb.Metric{
{
Name: "int64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
{
InstrumentationLibrary: &commonpb.InstrumentationLibrary{
Name: "summing-lib",
},
SchemaUrl: "schurl",
Metrics: []*metricpb.Metric{
{
Name: "int64-count",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: true,
AggregationTemporality: metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
},
)
}
func TestStatelessAggregationTemporality(t *testing.T) {
type testcase struct {
name string
instrumentKind sdkapi.InstrumentKind
aggTemporality metricpb.AggregationTemporality
monotonic bool
}
for _, k := range []testcase{
{"counter", sdkapi.CounterInstrumentKind, metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_DELTA, true},
{"updowncounter", sdkapi.UpDownCounterInstrumentKind, metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_DELTA, false},
{"counterobserver", sdkapi.CounterObserverInstrumentKind, metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE, true},
{"updowncounterobserver", sdkapi.UpDownCounterObserverInstrumentKind, metricpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE, false},
} {
t.Run(k.name, func(t *testing.T) {
runMetricExportTests(
t,
[]otlpmetric.Option{
otlpmetric.WithMetricAggregationTemporalitySelector(
aggregation.StatelessTemporalitySelector(),
),
},
testerAResource,
[]testRecord{
record(
"instrument",
k.instrumentKind,
number.Int64Kind,
append(baseKeyValues, cpuKey.Int(1)),
testLibName,
),
},
[]*metricpb.ResourceMetrics{
{
Resource: testerAResourcePb,
InstrumentationLibraryMetrics: []*metricpb.InstrumentationLibraryMetrics{
{
Metrics: []*metricpb.Metric{
{
Name: "instrument",
Data: &metricpb.Metric_Sum{
Sum: &metricpb.Sum{
IsMonotonic: k.monotonic,
AggregationTemporality: k.aggTemporality,
DataPoints: []*metricpb.NumberDataPoint{
{
Value: &metricpb.NumberDataPoint_AsInt{AsInt: 11},
Attributes: cpu1Labels,
StartTimeUnixNano: startTime(),
TimeUnixNano: pointTime(),
},
},
},
},
},
},
},
},
},
},
)
})
}
}
func runMetricExportTests(t *testing.T, opts []otlpmetric.Option, res *resource.Resource, records []testRecord, expected []*metricpb.ResourceMetrics) {
exp, driver := newExporter(t, opts...)
libraryRecs := map[instrumentation.Library][]export.Record{}
for _, r := range records {
lcopy := make([]attribute.KeyValue, len(r.labels))
copy(lcopy, r.labels)
desc := metrictest.NewDescriptor(r.name, r.iKind, r.nKind)
labs := attribute.NewSet(lcopy...)
var agg, ckpt aggregator.Aggregator
if r.iKind.Adding() {
sums := sum.New(2)
agg, ckpt = &sums[0], &sums[1]
} else {
histos := histogram.New(2, &desc, histogram.WithExplicitBoundaries(testHistogramBoundaries))
agg, ckpt = &histos[0], &histos[1]
}
ctx := context.Background()
if r.iKind.Synchronous() {
// For synchronous instruments, perform two updates: 1 and 10
switch r.nKind {
case number.Int64Kind:
require.NoError(t, agg.Update(ctx, number.NewInt64Number(1), &desc))
require.NoError(t, agg.Update(ctx, number.NewInt64Number(10), &desc))
case number.Float64Kind:
require.NoError(t, agg.Update(ctx, number.NewFloat64Number(1), &desc))
require.NoError(t, agg.Update(ctx, number.NewFloat64Number(10), &desc))
default:
t.Fatalf("invalid number kind: %v", r.nKind)
}
} else {
// For asynchronous instruments, perform a single update: 11
switch r.nKind {
case number.Int64Kind:
require.NoError(t, agg.Update(ctx, number.NewInt64Number(11), &desc))
case number.Float64Kind:
require.NoError(t, agg.Update(ctx, number.NewFloat64Number(11), &desc))
default:
t.Fatalf("invalid number kind: %v", r.nKind)
}
}
require.NoError(t, agg.SynchronizedMove(ckpt, &desc))
meterCfg := metric.NewMeterConfig(r.meterOpts...)
lib := instrumentation.Library{
Name: r.meterName,
Version: meterCfg.InstrumentationVersion(),
SchemaURL: meterCfg.SchemaURL(),
}
libraryRecs[lib] = append(libraryRecs[lib], export.NewRecord(&desc, &labs, ckpt.Aggregation(), intervalStart, intervalEnd))
}
assert.NoError(t, exp.Export(context.Background(), res, processortest.MultiInstrumentationLibraryReader(libraryRecs)))
// assert.ElementsMatch does not equate nested slices of different order,
// therefore this requires the top level slice to be broken down.
// Build a map of Resource/InstrumentationLibrary pairs to Metrics, from
// that validate the metric elements match for all expected pairs. Finally,
// make we saw all expected pairs.
keyFor := func(ilm *metricpb.InstrumentationLibraryMetrics) string {
return fmt.Sprintf("%s/%s/%s", ilm.GetInstrumentationLibrary().GetName(), ilm.GetInstrumentationLibrary().GetVersion(), ilm.GetSchemaUrl())
}
got := map[string][]*metricpb.Metric{}
for _, rm := range driver.rm {
for _, ilm := range rm.InstrumentationLibraryMetrics {
k := keyFor(ilm)
got[k] = append(got[k], ilm.GetMetrics()...)
}
}
seen := map[string]struct{}{}
for _, rm := range expected {
for _, ilm := range rm.InstrumentationLibraryMetrics {
k := keyFor(ilm)
seen[k] = struct{}{}
g, ok := got[k]
if !ok {
t.Errorf("missing metrics for:\n\tInstrumentationLibrary: %q\n", k)
continue
}
if !assert.Len(t, g, len(ilm.GetMetrics())) {
continue
}
for i, expected := range ilm.GetMetrics() {
assert.Equal(t, "", cmp.Diff(expected, g[i], protocmp.Transform()))
}
}
}
for k := range got {
if _, ok := seen[k]; !ok {
t.Errorf("did not expect metrics for:\n\tInstrumentationLibrary: %s\n", k)
}
}
}
func TestEmptyMetricExport(t *testing.T) {
exp, driver := newExporter(t)
for _, test := range []struct {
records []export.Record
want []*metricpb.ResourceMetrics
}{
{
[]export.Record(nil),
[]*metricpb.ResourceMetrics(nil),
},
{
[]export.Record{},
[]*metricpb.ResourceMetrics(nil),
},
} {
driver.Reset()
require.NoError(t, exp.Export(context.Background(), resource.Empty(), processortest.MultiInstrumentationLibraryReader(map[instrumentation.Library][]export.Record{
{
Name: testLibName,
}: test.records,
})))
assert.Equal(t, test.want, driver.rm)
}
}
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