// Copyright 2024 The Prometheus 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. // Provenance-includes-location: https://github.com/open-telemetry/opentelemetry-collector-contrib/blob/95e8f8fdc2a9dc87230406c9a3cf02be4fd68bea/pkg/translator/prometheusremotewrite/histograms.go // Provenance-includes-license: Apache-2.0 // Provenance-includes-copyright: Copyright The OpenTelemetry Authors. package prometheusremotewrite import ( "fmt" "math" "github.com/prometheus/common/model" "go.opentelemetry.io/collector/pdata/pcommon" "go.opentelemetry.io/collector/pdata/pmetric" "github.com/prometheus/prometheus/model/value" "github.com/prometheus/prometheus/prompb" ) const defaultZeroThreshold = 1e-128 // addExponentialHistogramDataPoints adds OTel exponential histogram data points to the corresponding time series // as native histogram samples. func (c *PrometheusConverter) addExponentialHistogramDataPoints(dataPoints pmetric.ExponentialHistogramDataPointSlice, resource pcommon.Resource, settings Settings, promName string) error { for x := 0; x < dataPoints.Len(); x++ { pt := dataPoints.At(x) histogram, err := exponentialToNativeHistogram(pt) if err != nil { return err } lbls := createAttributes( resource, pt.Attributes(), settings.ExternalLabels, nil, true, model.MetricNameLabel, promName, ) ts, _ := c.getOrCreateTimeSeries(lbls) ts.Histograms = append(ts.Histograms, histogram) exemplars := getPromExemplars[pmetric.ExponentialHistogramDataPoint](pt) ts.Exemplars = append(ts.Exemplars, exemplars...) } return nil } // exponentialToNativeHistogram translates OTel Exponential Histogram data point // to Prometheus Native Histogram. func exponentialToNativeHistogram(p pmetric.ExponentialHistogramDataPoint) (prompb.Histogram, error) { scale := p.Scale() if scale < -4 { return prompb.Histogram{}, fmt.Errorf("cannot convert exponential to native histogram."+ " Scale must be >= -4, was %d", scale) } var scaleDown int32 if scale > 8 { scaleDown = scale - 8 scale = 8 } pSpans, pDeltas := convertBucketsLayout(p.Positive(), scaleDown) nSpans, nDeltas := convertBucketsLayout(p.Negative(), scaleDown) h := prompb.Histogram{ // The counter reset detection must be compatible with Prometheus to // safely set ResetHint to NO. This is not ensured currently. // Sending a sample that triggers counter reset but with ResetHint==NO // would lead to Prometheus panic as it does not double check the hint. // Thus we're explicitly saying UNKNOWN here, which is always safe. // TODO: using created time stamp should be accurate, but we // need to know here if it was used for the detection. // Ref: https://github.com/open-telemetry/opentelemetry-collector-contrib/pull/28663#issuecomment-1810577303 // Counter reset detection in Prometheus: https://github.com/prometheus/prometheus/blob/f997c72f294c0f18ca13fa06d51889af04135195/tsdb/chunkenc/histogram.go#L232 ResetHint: prompb.Histogram_UNKNOWN, Schema: scale, ZeroCount: &prompb.Histogram_ZeroCountInt{ZeroCountInt: p.ZeroCount()}, // TODO use zero_threshold, if set, see // https://github.com/open-telemetry/opentelemetry-proto/pull/441 ZeroThreshold: defaultZeroThreshold, PositiveSpans: pSpans, PositiveDeltas: pDeltas, NegativeSpans: nSpans, NegativeDeltas: nDeltas, Timestamp: convertTimeStamp(p.Timestamp()), } if p.Flags().NoRecordedValue() { h.Sum = math.Float64frombits(value.StaleNaN) h.Count = &prompb.Histogram_CountInt{CountInt: value.StaleNaN} } else { if p.HasSum() { h.Sum = p.Sum() } h.Count = &prompb.Histogram_CountInt{CountInt: p.Count()} } return h, nil } // convertBucketsLayout translates OTel Exponential Histogram dense buckets // representation to Prometheus Native Histogram sparse bucket representation. // // The translation logic is taken from the client_golang `histogram.go#makeBuckets` // function, see `makeBuckets` https://github.com/prometheus/client_golang/blob/main/prometheus/histogram.go // The bucket indexes conversion was adjusted, since OTel exp. histogram bucket // index 0 corresponds to the range (1, base] while Prometheus bucket index 0 // to the range (base 1]. // // scaleDown is the factor by which the buckets are scaled down. In other words 2^scaleDown buckets will be merged into one. func convertBucketsLayout(buckets pmetric.ExponentialHistogramDataPointBuckets, scaleDown int32) ([]prompb.BucketSpan, []int64) { bucketCounts := buckets.BucketCounts() if bucketCounts.Len() == 0 { return nil, nil } var ( spans []prompb.BucketSpan deltas []int64 count int64 prevCount int64 ) appendDelta := func(count int64) { spans[len(spans)-1].Length++ deltas = append(deltas, count-prevCount) prevCount = count } // Let the compiler figure out that this is const during this function by // moving it into a local variable. numBuckets := bucketCounts.Len() // The offset is scaled and adjusted by 1 as described above. bucketIdx := buckets.Offset()>>scaleDown + 1 spans = append(spans, prompb.BucketSpan{ Offset: bucketIdx, Length: 0, }) for i := 0; i < numBuckets; i++ { // The offset is scaled and adjusted by 1 as described above. nextBucketIdx := (int32(i)+buckets.Offset())>>scaleDown + 1 if bucketIdx == nextBucketIdx { // We have not collected enough buckets to merge yet. count += int64(bucketCounts.At(i)) continue } if count == 0 { count = int64(bucketCounts.At(i)) continue } gap := nextBucketIdx - bucketIdx - 1 if gap > 2 { // We have to create a new span, because we have found a gap // of more than two buckets. The constant 2 is copied from the logic in // https://github.com/prometheus/client_golang/blob/27f0506d6ebbb117b6b697d0552ee5be2502c5f2/prometheus/histogram.go#L1296 spans = append(spans, prompb.BucketSpan{ Offset: gap, Length: 0, }) } else { // We have found a small gap (or no gap at all). // Insert empty buckets as needed. for j := int32(0); j < gap; j++ { appendDelta(0) } } appendDelta(count) count = int64(bucketCounts.At(i)) bucketIdx = nextBucketIdx } // Need to use the last item's index. The offset is scaled and adjusted by 1 as described above. gap := (int32(numBuckets)+buckets.Offset()-1)>>scaleDown + 1 - bucketIdx if gap > 2 { // We have to create a new span, because we have found a gap // of more than two buckets. The constant 2 is copied from the logic in // https://github.com/prometheus/client_golang/blob/27f0506d6ebbb117b6b697d0552ee5be2502c5f2/prometheus/histogram.go#L1296 spans = append(spans, prompb.BucketSpan{ Offset: gap, Length: 0, }) } else { // We have found a small gap (or no gap at all). // Insert empty buckets as needed. for j := int32(0); j < gap; j++ { appendDelta(0) } } appendDelta(count) return spans, deltas }