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exporter.go
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exporter.go
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// Copyright The OpenTelemetry Authors
// SPDX-License-Identifier: Apache-2.0
package stdoutmetric // import "go.opentelemetry.io/otel/exporters/stdout/stdoutmetric"
import (
"context"
"errors"
"fmt"
"sync"
"sync/atomic"
"go.opentelemetry.io/otel/internal/global"
"go.opentelemetry.io/otel/sdk/metric"
"go.opentelemetry.io/otel/sdk/metric/metricdata"
)
// exporter is an OpenTelemetry metric exporter.
type exporter struct {
encVal atomic.Value // encoderHolder
shutdownOnce sync.Once
temporalitySelector metric.TemporalitySelector
aggregationSelector metric.AggregationSelector
redactTimestamps bool
}
// New returns a configured metric exporter.
//
// If no options are passed, the default exporter returned will use a JSON
// encoder with tab indentations that output to STDOUT.
func New(options ...Option) (metric.Exporter, error) {
cfg := newConfig(options...)
exp := &exporter{
temporalitySelector: cfg.temporalitySelector,
aggregationSelector: cfg.aggregationSelector,
redactTimestamps: cfg.redactTimestamps,
}
exp.encVal.Store(*cfg.encoder)
return exp, nil
}
func (e *exporter) Temporality(k metric.InstrumentKind) metricdata.Temporality {
return e.temporalitySelector(k)
}
func (e *exporter) Aggregation(k metric.InstrumentKind) metric.Aggregation {
return e.aggregationSelector(k)
}
func (e *exporter) Export(ctx context.Context, data *metricdata.ResourceMetrics) error {
if err := ctx.Err(); err != nil {
return err
}
if e.redactTimestamps {
redactTimestamps(data)
}
global.Debug("STDOUT exporter export", "Data", data)
return e.encVal.Load().(encoderHolder).Encode(data)
}
func (e *exporter) ForceFlush(context.Context) error {
// exporter holds no state, nothing to flush.
return nil
}
func (e *exporter) Shutdown(context.Context) error {
e.shutdownOnce.Do(func() {
e.encVal.Store(encoderHolder{
encoder: shutdownEncoder{},
})
})
return nil
}
func (e *exporter) MarshalLog() interface{} {
return struct{ Type string }{Type: "STDOUT"}
}
func redactTimestamps(orig *metricdata.ResourceMetrics) {
for i, sm := range orig.ScopeMetrics {
metrics := sm.Metrics
for j, m := range metrics {
data := m.Data
orig.ScopeMetrics[i].Metrics[j].Data = redactAggregationTimestamps(data)
}
}
}
var errUnknownAggType = errors.New("unknown aggregation type")
func redactAggregationTimestamps(orig metricdata.Aggregation) metricdata.Aggregation {
switch a := orig.(type) {
case metricdata.Sum[float64]:
return metricdata.Sum[float64]{
Temporality: a.Temporality,
DataPoints: redactDataPointTimestamps(a.DataPoints),
IsMonotonic: a.IsMonotonic,
}
case metricdata.Sum[int64]:
return metricdata.Sum[int64]{
Temporality: a.Temporality,
DataPoints: redactDataPointTimestamps(a.DataPoints),
IsMonotonic: a.IsMonotonic,
}
case metricdata.Gauge[float64]:
return metricdata.Gauge[float64]{
DataPoints: redactDataPointTimestamps(a.DataPoints),
}
case metricdata.Gauge[int64]:
return metricdata.Gauge[int64]{
DataPoints: redactDataPointTimestamps(a.DataPoints),
}
case metricdata.Histogram[int64]:
return metricdata.Histogram[int64]{
Temporality: a.Temporality,
DataPoints: redactHistogramTimestamps(a.DataPoints),
}
case metricdata.Histogram[float64]:
return metricdata.Histogram[float64]{
Temporality: a.Temporality,
DataPoints: redactHistogramTimestamps(a.DataPoints),
}
default:
global.Error(errUnknownAggType, fmt.Sprintf("%T", a))
return orig
}
}
func redactHistogramTimestamps[T int64 | float64](hdp []metricdata.HistogramDataPoint[T]) []metricdata.HistogramDataPoint[T] {
out := make([]metricdata.HistogramDataPoint[T], len(hdp))
for i, dp := range hdp {
out[i] = metricdata.HistogramDataPoint[T]{
Attributes: dp.Attributes,
Count: dp.Count,
Sum: dp.Sum,
Bounds: dp.Bounds,
BucketCounts: dp.BucketCounts,
Min: dp.Min,
Max: dp.Max,
}
}
return out
}
func redactDataPointTimestamps[T int64 | float64](sdp []metricdata.DataPoint[T]) []metricdata.DataPoint[T] {
out := make([]metricdata.DataPoint[T], len(sdp))
for i, dp := range sdp {
out[i] = metricdata.DataPoint[T]{
Attributes: dp.Attributes,
Value: dp.Value,
}
}
return out
}