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ad4f514e66
* Add OTLP Ingestion endpoint We copy files from the otel-collector-contrib. See the README in `storage/remote/otlptranslator/README.md`. This supersedes: https://github.com/prometheus/prometheus/pull/11965 Signed-off-by: gouthamve <gouthamve@gmail.com> * Return a 200 OK It is what the OTEL Golang SDK expect :( https://github.com/open-telemetry/opentelemetry-go/issues/4363 Signed-off-by: Goutham <gouthamve@gmail.com> --------- Signed-off-by: gouthamve <gouthamve@gmail.com> Signed-off-by: Goutham <gouthamve@gmail.com>
560 lines
18 KiB
Go
560 lines
18 KiB
Go
// DO NOT EDIT. COPIED AS-IS. SEE README.md
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// Copyright The OpenTelemetry Authors
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// SPDX-License-Identifier: Apache-2.0
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package prometheusremotewrite // import "github.com/prometheus/prometheus/storage/remote/otlptranslator/prometheusremotewrite"
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import (
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"encoding/hex"
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"fmt"
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"log"
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"math"
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"sort"
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"strconv"
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"strings"
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"time"
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"unicode/utf8"
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"github.com/prometheus/common/model"
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"github.com/prometheus/prometheus/model/timestamp"
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"github.com/prometheus/prometheus/model/value"
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"github.com/prometheus/prometheus/prompb"
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"go.opentelemetry.io/collector/pdata/pcommon"
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"go.opentelemetry.io/collector/pdata/pmetric"
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conventions "go.opentelemetry.io/collector/semconv/v1.6.1"
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prometheustranslator "github.com/prometheus/prometheus/storage/remote/otlptranslator/prometheus"
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)
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const (
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nameStr = "__name__"
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sumStr = "_sum"
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countStr = "_count"
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bucketStr = "_bucket"
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leStr = "le"
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quantileStr = "quantile"
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pInfStr = "+Inf"
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createdSuffix = "_created"
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// maxExemplarRunes is the maximum number of UTF-8 exemplar characters
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// according to the prometheus specification
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// https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#exemplars
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maxExemplarRunes = 128
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// Trace and Span id keys are defined as part of the spec:
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// https://github.com/open-telemetry/opentelemetry-specification/blob/main/specification%2Fmetrics%2Fdatamodel.md#exemplars-2
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traceIDKey = "trace_id"
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spanIDKey = "span_id"
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infoType = "info"
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targetMetricName = "target_info"
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)
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type bucketBoundsData struct {
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sig string
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bound float64
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}
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// byBucketBoundsData enables the usage of sort.Sort() with a slice of bucket bounds
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type byBucketBoundsData []bucketBoundsData
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func (m byBucketBoundsData) Len() int { return len(m) }
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func (m byBucketBoundsData) Less(i, j int) bool { return m[i].bound < m[j].bound }
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func (m byBucketBoundsData) Swap(i, j int) { m[i], m[j] = m[j], m[i] }
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// ByLabelName enables the usage of sort.Sort() with a slice of labels
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type ByLabelName []prompb.Label
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func (a ByLabelName) Len() int { return len(a) }
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func (a ByLabelName) Less(i, j int) bool { return a[i].Name < a[j].Name }
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func (a ByLabelName) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
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// addSample finds a TimeSeries in tsMap that corresponds to the label set labels, and add sample to the TimeSeries; it
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// creates a new TimeSeries in the map if not found and returns the time series signature.
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// tsMap will be unmodified if either labels or sample is nil, but can still be modified if the exemplar is nil.
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func addSample(tsMap map[string]*prompb.TimeSeries, sample *prompb.Sample, labels []prompb.Label,
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datatype string) string {
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if sample == nil || labels == nil || tsMap == nil {
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return ""
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}
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sig := timeSeriesSignature(datatype, &labels)
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ts, ok := tsMap[sig]
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if ok {
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ts.Samples = append(ts.Samples, *sample)
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} else {
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newTs := &prompb.TimeSeries{
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Labels: labels,
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Samples: []prompb.Sample{*sample},
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}
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tsMap[sig] = newTs
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}
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return sig
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}
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// addExemplars finds a bucket bound that corresponds to the exemplars value and add the exemplar to the specific sig;
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// we only add exemplars if samples are presents
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// tsMap is unmodified if either of its parameters is nil and samples are nil.
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func addExemplars(tsMap map[string]*prompb.TimeSeries, exemplars []prompb.Exemplar, bucketBoundsData []bucketBoundsData) {
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if tsMap == nil || bucketBoundsData == nil || exemplars == nil {
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return
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}
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sort.Sort(byBucketBoundsData(bucketBoundsData))
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for _, exemplar := range exemplars {
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addExemplar(tsMap, bucketBoundsData, exemplar)
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}
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}
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func addExemplar(tsMap map[string]*prompb.TimeSeries, bucketBounds []bucketBoundsData, exemplar prompb.Exemplar) {
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for _, bucketBound := range bucketBounds {
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sig := bucketBound.sig
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bound := bucketBound.bound
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_, ok := tsMap[sig]
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if ok {
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if tsMap[sig].Samples != nil {
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if exemplar.Value <= bound {
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tsMap[sig].Exemplars = append(tsMap[sig].Exemplars, exemplar)
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return
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}
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}
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}
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}
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}
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// timeSeries return a string signature in the form of:
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//
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// TYPE-label1-value1- ... -labelN-valueN
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//
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// the label slice should not contain duplicate label names; this method sorts the slice by label name before creating
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// the signature.
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func timeSeriesSignature(datatype string, labels *[]prompb.Label) string {
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b := strings.Builder{}
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b.WriteString(datatype)
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sort.Sort(ByLabelName(*labels))
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for _, lb := range *labels {
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b.WriteString("-")
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b.WriteString(lb.GetName())
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b.WriteString("-")
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b.WriteString(lb.GetValue())
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}
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return b.String()
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}
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// createAttributes creates a slice of Cortex Label with OTLP attributes and pairs of string values.
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// Unpaired string value is ignored. String pairs overwrites OTLP labels if collision happens, and the overwrite is
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// logged. Resultant label names are sanitized.
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func createAttributes(resource pcommon.Resource, attributes pcommon.Map, externalLabels map[string]string, extras ...string) []prompb.Label {
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// map ensures no duplicate label name
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l := map[string]prompb.Label{}
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// Ensure attributes are sorted by key for consistent merging of keys which
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// collide when sanitized.
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labels := make([]prompb.Label, 0, attributes.Len())
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attributes.Range(func(key string, value pcommon.Value) bool {
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labels = append(labels, prompb.Label{Name: key, Value: value.AsString()})
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return true
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})
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sort.Stable(ByLabelName(labels))
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for _, label := range labels {
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var finalKey = prometheustranslator.NormalizeLabel(label.Name)
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if existingLabel, alreadyExists := l[finalKey]; alreadyExists {
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existingLabel.Value = existingLabel.Value + ";" + label.Value
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l[finalKey] = existingLabel
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} else {
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l[finalKey] = prompb.Label{
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Name: finalKey,
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Value: label.Value,
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}
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}
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}
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// Map service.name + service.namespace to job
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if serviceName, ok := resource.Attributes().Get(conventions.AttributeServiceName); ok {
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val := serviceName.AsString()
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if serviceNamespace, ok := resource.Attributes().Get(conventions.AttributeServiceNamespace); ok {
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val = fmt.Sprintf("%s/%s", serviceNamespace.AsString(), val)
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}
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l[model.JobLabel] = prompb.Label{
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Name: model.JobLabel,
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Value: val,
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}
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}
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// Map service.instance.id to instance
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if instance, ok := resource.Attributes().Get(conventions.AttributeServiceInstanceID); ok {
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l[model.InstanceLabel] = prompb.Label{
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Name: model.InstanceLabel,
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Value: instance.AsString(),
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}
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}
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for key, value := range externalLabels {
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// External labels have already been sanitized
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if _, alreadyExists := l[key]; alreadyExists {
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// Skip external labels if they are overridden by metric attributes
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continue
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}
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l[key] = prompb.Label{
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Name: key,
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Value: value,
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}
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}
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for i := 0; i < len(extras); i += 2 {
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if i+1 >= len(extras) {
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break
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}
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_, found := l[extras[i]]
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if found {
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log.Println("label " + extras[i] + " is overwritten. Check if Prometheus reserved labels are used.")
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}
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// internal labels should be maintained
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name := extras[i]
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if !(len(name) > 4 && name[:2] == "__" && name[len(name)-2:] == "__") {
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name = prometheustranslator.NormalizeLabel(name)
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}
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l[name] = prompb.Label{
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Name: name,
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Value: extras[i+1],
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}
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}
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s := make([]prompb.Label, 0, len(l))
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for _, lb := range l {
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s = append(s, lb)
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}
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return s
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}
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// isValidAggregationTemporality checks whether an OTel metric has a valid
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// aggregation temporality for conversion to a Prometheus metric.
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func isValidAggregationTemporality(metric pmetric.Metric) bool {
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switch metric.Type() {
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case pmetric.MetricTypeGauge, pmetric.MetricTypeSummary:
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return true
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case pmetric.MetricTypeSum:
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return metric.Sum().AggregationTemporality() == pmetric.AggregationTemporalityCumulative
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case pmetric.MetricTypeHistogram:
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return metric.Histogram().AggregationTemporality() == pmetric.AggregationTemporalityCumulative
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case pmetric.MetricTypeExponentialHistogram:
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return metric.ExponentialHistogram().AggregationTemporality() == pmetric.AggregationTemporalityCumulative
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}
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return false
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}
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// addSingleHistogramDataPoint converts pt to 2 + min(len(ExplicitBounds), len(BucketCount)) + 1 samples. It
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// ignore extra buckets if len(ExplicitBounds) > len(BucketCounts)
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func addSingleHistogramDataPoint(pt pmetric.HistogramDataPoint, resource pcommon.Resource, metric pmetric.Metric, settings Settings, tsMap map[string]*prompb.TimeSeries) {
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timestamp := convertTimeStamp(pt.Timestamp())
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// sum, count, and buckets of the histogram should append suffix to baseName
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baseName := prometheustranslator.BuildPromCompliantName(metric, settings.Namespace)
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// If the sum is unset, it indicates the _sum metric point should be
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// omitted
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if pt.HasSum() {
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// treat sum as a sample in an individual TimeSeries
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sum := &prompb.Sample{
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Value: pt.Sum(),
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Timestamp: timestamp,
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}
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if pt.Flags().NoRecordedValue() {
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sum.Value = math.Float64frombits(value.StaleNaN)
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}
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sumlabels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName+sumStr)
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addSample(tsMap, sum, sumlabels, metric.Type().String())
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}
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// treat count as a sample in an individual TimeSeries
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count := &prompb.Sample{
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Value: float64(pt.Count()),
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Timestamp: timestamp,
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}
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if pt.Flags().NoRecordedValue() {
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count.Value = math.Float64frombits(value.StaleNaN)
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}
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countlabels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName+countStr)
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addSample(tsMap, count, countlabels, metric.Type().String())
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// cumulative count for conversion to cumulative histogram
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var cumulativeCount uint64
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promExemplars := getPromExemplars[pmetric.HistogramDataPoint](pt)
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var bucketBounds []bucketBoundsData
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// process each bound, based on histograms proto definition, # of buckets = # of explicit bounds + 1
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for i := 0; i < pt.ExplicitBounds().Len() && i < pt.BucketCounts().Len(); i++ {
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bound := pt.ExplicitBounds().At(i)
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cumulativeCount += pt.BucketCounts().At(i)
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bucket := &prompb.Sample{
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Value: float64(cumulativeCount),
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Timestamp: timestamp,
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}
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if pt.Flags().NoRecordedValue() {
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bucket.Value = math.Float64frombits(value.StaleNaN)
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}
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boundStr := strconv.FormatFloat(bound, 'f', -1, 64)
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labels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName+bucketStr, leStr, boundStr)
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sig := addSample(tsMap, bucket, labels, metric.Type().String())
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bucketBounds = append(bucketBounds, bucketBoundsData{sig: sig, bound: bound})
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}
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// add le=+Inf bucket
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infBucket := &prompb.Sample{
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Timestamp: timestamp,
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}
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if pt.Flags().NoRecordedValue() {
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infBucket.Value = math.Float64frombits(value.StaleNaN)
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} else {
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infBucket.Value = float64(pt.Count())
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}
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infLabels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName+bucketStr, leStr, pInfStr)
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sig := addSample(tsMap, infBucket, infLabels, metric.Type().String())
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bucketBounds = append(bucketBounds, bucketBoundsData{sig: sig, bound: math.Inf(1)})
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addExemplars(tsMap, promExemplars, bucketBounds)
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// add _created time series if needed
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startTimestamp := pt.StartTimestamp()
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if settings.ExportCreatedMetric && startTimestamp != 0 {
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createdLabels := createAttributes(
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resource,
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pt.Attributes(),
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settings.ExternalLabels,
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nameStr,
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baseName+createdSuffix,
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)
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addCreatedTimeSeriesIfNeeded(tsMap, createdLabels, startTimestamp, metric.Type().String())
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}
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}
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type exemplarType interface {
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pmetric.ExponentialHistogramDataPoint | pmetric.HistogramDataPoint | pmetric.NumberDataPoint
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Exemplars() pmetric.ExemplarSlice
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}
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func getPromExemplars[T exemplarType](pt T) []prompb.Exemplar {
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var promExemplars []prompb.Exemplar
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for i := 0; i < pt.Exemplars().Len(); i++ {
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exemplar := pt.Exemplars().At(i)
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exemplarRunes := 0
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promExemplar := &prompb.Exemplar{
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Value: exemplar.DoubleValue(),
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Timestamp: timestamp.FromTime(exemplar.Timestamp().AsTime()),
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}
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if traceID := exemplar.TraceID(); !traceID.IsEmpty() {
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val := hex.EncodeToString(traceID[:])
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exemplarRunes += utf8.RuneCountInString(traceIDKey) + utf8.RuneCountInString(val)
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promLabel := prompb.Label{
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Name: traceIDKey,
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Value: val,
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}
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promExemplar.Labels = append(promExemplar.Labels, promLabel)
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}
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if spanID := exemplar.SpanID(); !spanID.IsEmpty() {
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val := hex.EncodeToString(spanID[:])
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exemplarRunes += utf8.RuneCountInString(spanIDKey) + utf8.RuneCountInString(val)
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promLabel := prompb.Label{
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Name: spanIDKey,
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Value: val,
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}
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promExemplar.Labels = append(promExemplar.Labels, promLabel)
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}
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var labelsFromAttributes []prompb.Label
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exemplar.FilteredAttributes().Range(func(key string, value pcommon.Value) bool {
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val := value.AsString()
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exemplarRunes += utf8.RuneCountInString(key) + utf8.RuneCountInString(val)
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promLabel := prompb.Label{
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Name: key,
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Value: val,
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}
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labelsFromAttributes = append(labelsFromAttributes, promLabel)
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return true
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})
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if exemplarRunes <= maxExemplarRunes {
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// only append filtered attributes if it does not cause exemplar
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// labels to exceed the max number of runes
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promExemplar.Labels = append(promExemplar.Labels, labelsFromAttributes...)
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}
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promExemplars = append(promExemplars, *promExemplar)
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}
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return promExemplars
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}
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// mostRecentTimestampInMetric returns the latest timestamp in a batch of metrics
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func mostRecentTimestampInMetric(metric pmetric.Metric) pcommon.Timestamp {
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var ts pcommon.Timestamp
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// handle individual metric based on type
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switch metric.Type() {
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case pmetric.MetricTypeGauge:
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dataPoints := metric.Gauge().DataPoints()
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for x := 0; x < dataPoints.Len(); x++ {
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ts = maxTimestamp(ts, dataPoints.At(x).Timestamp())
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}
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case pmetric.MetricTypeSum:
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dataPoints := metric.Sum().DataPoints()
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for x := 0; x < dataPoints.Len(); x++ {
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ts = maxTimestamp(ts, dataPoints.At(x).Timestamp())
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}
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case pmetric.MetricTypeHistogram:
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dataPoints := metric.Histogram().DataPoints()
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for x := 0; x < dataPoints.Len(); x++ {
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ts = maxTimestamp(ts, dataPoints.At(x).Timestamp())
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}
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case pmetric.MetricTypeExponentialHistogram:
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dataPoints := metric.ExponentialHistogram().DataPoints()
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for x := 0; x < dataPoints.Len(); x++ {
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ts = maxTimestamp(ts, dataPoints.At(x).Timestamp())
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}
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case pmetric.MetricTypeSummary:
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dataPoints := metric.Summary().DataPoints()
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for x := 0; x < dataPoints.Len(); x++ {
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ts = maxTimestamp(ts, dataPoints.At(x).Timestamp())
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}
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}
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return ts
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}
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func maxTimestamp(a, b pcommon.Timestamp) pcommon.Timestamp {
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if a > b {
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return a
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}
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return b
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}
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// addSingleSummaryDataPoint converts pt to len(QuantileValues) + 2 samples.
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func addSingleSummaryDataPoint(pt pmetric.SummaryDataPoint, resource pcommon.Resource, metric pmetric.Metric, settings Settings,
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tsMap map[string]*prompb.TimeSeries) {
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timestamp := convertTimeStamp(pt.Timestamp())
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// sum and count of the summary should append suffix to baseName
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baseName := prometheustranslator.BuildPromCompliantName(metric, settings.Namespace)
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// treat sum as a sample in an individual TimeSeries
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sum := &prompb.Sample{
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Value: pt.Sum(),
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Timestamp: timestamp,
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}
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if pt.Flags().NoRecordedValue() {
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sum.Value = math.Float64frombits(value.StaleNaN)
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}
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sumlabels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName+sumStr)
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addSample(tsMap, sum, sumlabels, metric.Type().String())
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// treat count as a sample in an individual TimeSeries
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count := &prompb.Sample{
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Value: float64(pt.Count()),
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Timestamp: timestamp,
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}
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if pt.Flags().NoRecordedValue() {
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count.Value = math.Float64frombits(value.StaleNaN)
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}
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countlabels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName+countStr)
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addSample(tsMap, count, countlabels, metric.Type().String())
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// process each percentile/quantile
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for i := 0; i < pt.QuantileValues().Len(); i++ {
|
|
qt := pt.QuantileValues().At(i)
|
|
quantile := &prompb.Sample{
|
|
Value: qt.Value(),
|
|
Timestamp: timestamp,
|
|
}
|
|
if pt.Flags().NoRecordedValue() {
|
|
quantile.Value = math.Float64frombits(value.StaleNaN)
|
|
}
|
|
percentileStr := strconv.FormatFloat(qt.Quantile(), 'f', -1, 64)
|
|
qtlabels := createAttributes(resource, pt.Attributes(), settings.ExternalLabels, nameStr, baseName, quantileStr, percentileStr)
|
|
addSample(tsMap, quantile, qtlabels, metric.Type().String())
|
|
}
|
|
|
|
// add _created time series if needed
|
|
startTimestamp := pt.StartTimestamp()
|
|
if settings.ExportCreatedMetric && startTimestamp != 0 {
|
|
createdLabels := createAttributes(
|
|
resource,
|
|
pt.Attributes(),
|
|
settings.ExternalLabels,
|
|
nameStr,
|
|
baseName+createdSuffix,
|
|
)
|
|
addCreatedTimeSeriesIfNeeded(tsMap, createdLabels, startTimestamp, metric.Type().String())
|
|
}
|
|
}
|
|
|
|
// addCreatedTimeSeriesIfNeeded adds {name}_created time series with a single
|
|
// sample. If the series exists, then new samples won't be added.
|
|
func addCreatedTimeSeriesIfNeeded(
|
|
series map[string]*prompb.TimeSeries,
|
|
labels []prompb.Label,
|
|
startTimestamp pcommon.Timestamp,
|
|
metricType string,
|
|
) {
|
|
sig := timeSeriesSignature(metricType, &labels)
|
|
if _, ok := series[sig]; !ok {
|
|
series[sig] = &prompb.TimeSeries{
|
|
Labels: labels,
|
|
Samples: []prompb.Sample{
|
|
{ // convert ns to ms
|
|
Value: float64(convertTimeStamp(startTimestamp)),
|
|
},
|
|
},
|
|
}
|
|
}
|
|
}
|
|
|
|
// addResourceTargetInfo converts the resource to the target info metric
|
|
func addResourceTargetInfo(resource pcommon.Resource, settings Settings, timestamp pcommon.Timestamp, tsMap map[string]*prompb.TimeSeries) {
|
|
if settings.DisableTargetInfo {
|
|
return
|
|
}
|
|
// Use resource attributes (other than those used for job+instance) as the
|
|
// metric labels for the target info metric
|
|
attributes := pcommon.NewMap()
|
|
resource.Attributes().CopyTo(attributes)
|
|
attributes.RemoveIf(func(k string, _ pcommon.Value) bool {
|
|
switch k {
|
|
case conventions.AttributeServiceName, conventions.AttributeServiceNamespace, conventions.AttributeServiceInstanceID:
|
|
// Remove resource attributes used for job + instance
|
|
return true
|
|
default:
|
|
return false
|
|
}
|
|
})
|
|
if attributes.Len() == 0 {
|
|
// If we only have job + instance, then target_info isn't useful, so don't add it.
|
|
return
|
|
}
|
|
// create parameters for addSample
|
|
name := targetMetricName
|
|
if len(settings.Namespace) > 0 {
|
|
name = settings.Namespace + "_" + name
|
|
}
|
|
labels := createAttributes(resource, attributes, settings.ExternalLabels, nameStr, name)
|
|
sample := &prompb.Sample{
|
|
Value: float64(1),
|
|
// convert ns to ms
|
|
Timestamp: convertTimeStamp(timestamp),
|
|
}
|
|
addSample(tsMap, sample, labels, infoType)
|
|
}
|
|
|
|
// convertTimeStamp converts OTLP timestamp in ns to timestamp in ms
|
|
func convertTimeStamp(timestamp pcommon.Timestamp) int64 {
|
|
return timestamp.AsTime().UnixNano() / (int64(time.Millisecond) / int64(time.Nanosecond))
|
|
}
|