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prometheus/prompb/codec.go

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6.6 KiB

// Copyright 2024 Prometheus Team
// 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 prompb
import (
"strings"
"github.com/prometheus/common/model"
"github.com/prometheus/prometheus/model/exemplar"
"github.com/prometheus/prometheus/model/histogram"
"github.com/prometheus/prometheus/model/labels"
)
// NOTE(bwplotka): This file's code is tested in /prompb/rwcommon.
// ToLabels return model labels.Labels from timeseries' remote labels.
func (m TimeSeries) ToLabels(b *labels.ScratchBuilder, _ []string) labels.Labels {
return labelProtosToLabels(b, m.GetLabels())
}
// ToLabels return model labels.Labels from timeseries' remote labels.
func (m ChunkedSeries) ToLabels(b *labels.ScratchBuilder, _ []string) labels.Labels {
return labelProtosToLabels(b, m.GetLabels())
}
func labelProtosToLabels(b *labels.ScratchBuilder, labelPairs []Label) labels.Labels {
b.Reset()
for _, l := range labelPairs {
b.Add(l.Name, l.Value)
}
b.Sort()
return b.Labels()
}
// FromLabels transforms labels into prompb labels. The buffer slice
// will be used to avoid allocations if it is big enough to store the labels.
func FromLabels(lbls labels.Labels, buf []Label) []Label {
result := buf[:0]
lbls.Range(func(l labels.Label) {
result = append(result, Label{
Name: l.Name,
Value: l.Value,
})
})
return result
}
// FromMetadataType transforms a Prometheus metricType into prompb metricType. Since the former is a string we need to transform it to an enum.
func FromMetadataType(t model.MetricType) MetricMetadata_MetricType {
mt := strings.ToUpper(string(t))
v, ok := MetricMetadata_MetricType_value[mt]
if !ok {
return MetricMetadata_UNKNOWN
}
return MetricMetadata_MetricType(v)
}
// IsFloatHistogram returns true if the histogram is float.
func (h Histogram) IsFloatHistogram() bool {
_, ok := h.GetCount().(*Histogram_CountFloat)
return ok
}
// ToIntHistogram returns integer Prometheus histogram from the remote implementation
// of integer histogram. If it's a float histogram, the method returns nil.
func (h Histogram) ToIntHistogram() *histogram.Histogram {
if h.IsFloatHistogram() {
return nil
}
return &histogram.Histogram{
CounterResetHint: histogram.CounterResetHint(h.ResetHint),
Schema: h.Schema,
ZeroThreshold: h.ZeroThreshold,
ZeroCount: h.GetZeroCountInt(),
Count: h.GetCountInt(),
Sum: h.Sum,
PositiveSpans: spansProtoToSpans(h.GetPositiveSpans()),
PositiveBuckets: h.GetPositiveDeltas(),
NegativeSpans: spansProtoToSpans(h.GetNegativeSpans()),
NegativeBuckets: h.GetNegativeDeltas(),
}
}
// ToFloatHistogram returns float Prometheus histogram from the remote implementation
// of float histogram. If the underlying implementation is an integer histogram, a
// conversion is performed.
func (h Histogram) ToFloatHistogram() *histogram.FloatHistogram {
if h.IsFloatHistogram() {
return &histogram.FloatHistogram{
CounterResetHint: histogram.CounterResetHint(h.ResetHint),
Schema: h.Schema,
ZeroThreshold: h.ZeroThreshold,
ZeroCount: h.GetZeroCountFloat(),
Count: h.GetCountFloat(),
Sum: h.Sum,
PositiveSpans: spansProtoToSpans(h.GetPositiveSpans()),
PositiveBuckets: h.GetPositiveCounts(),
NegativeSpans: spansProtoToSpans(h.GetNegativeSpans()),
NegativeBuckets: h.GetNegativeCounts(),
}
}
// Conversion from integer histogram.
return &histogram.FloatHistogram{
CounterResetHint: histogram.CounterResetHint(h.ResetHint),
Schema: h.Schema,
ZeroThreshold: h.ZeroThreshold,
ZeroCount: float64(h.GetZeroCountInt()),
Count: float64(h.GetCountInt()),
Sum: h.Sum,
PositiveSpans: spansProtoToSpans(h.GetPositiveSpans()),
PositiveBuckets: deltasToCounts(h.GetPositiveDeltas()),
NegativeSpans: spansProtoToSpans(h.GetNegativeSpans()),
NegativeBuckets: deltasToCounts(h.GetNegativeDeltas()),
}
}
func spansProtoToSpans(s []BucketSpan) []histogram.Span {
spans := make([]histogram.Span, len(s))
for i := 0; i < len(s); i++ {
spans[i] = histogram.Span{Offset: s[i].Offset, Length: s[i].Length}
}
return spans
}
func deltasToCounts(deltas []int64) []float64 {
counts := make([]float64, len(deltas))
var cur float64
for i, d := range deltas {
cur += float64(d)
counts[i] = cur
}
return counts
}
// FromIntHistogram returns remote Histogram from the integer Histogram.
func FromIntHistogram(timestamp int64, h *histogram.Histogram) Histogram {
return Histogram{
Count: &Histogram_CountInt{CountInt: h.Count},
Sum: h.Sum,
Schema: h.Schema,
ZeroThreshold: h.ZeroThreshold,
ZeroCount: &Histogram_ZeroCountInt{ZeroCountInt: h.ZeroCount},
NegativeSpans: spansToSpansProto(h.NegativeSpans),
NegativeDeltas: h.NegativeBuckets,
PositiveSpans: spansToSpansProto(h.PositiveSpans),
PositiveDeltas: h.PositiveBuckets,
ResetHint: Histogram_ResetHint(h.CounterResetHint),
Timestamp: timestamp,
}
}
// FromFloatHistogram returns remote Histogram from the float Histogram.
func FromFloatHistogram(timestamp int64, fh *histogram.FloatHistogram) Histogram {
return Histogram{
Count: &Histogram_CountFloat{CountFloat: fh.Count},
Sum: fh.Sum,
Schema: fh.Schema,
ZeroThreshold: fh.ZeroThreshold,
ZeroCount: &Histogram_ZeroCountFloat{ZeroCountFloat: fh.ZeroCount},
NegativeSpans: spansToSpansProto(fh.NegativeSpans),
NegativeCounts: fh.NegativeBuckets,
PositiveSpans: spansToSpansProto(fh.PositiveSpans),
PositiveCounts: fh.PositiveBuckets,
ResetHint: Histogram_ResetHint(fh.CounterResetHint),
Timestamp: timestamp,
}
}
func spansToSpansProto(s []histogram.Span) []BucketSpan {
spans := make([]BucketSpan, len(s))
for i := 0; i < len(s); i++ {
spans[i] = BucketSpan{Offset: s[i].Offset, Length: s[i].Length}
}
return spans
}
// ToExemplar converts remote exemplar to model exemplar.
func (m Exemplar) ToExemplar(b *labels.ScratchBuilder, _ []string) exemplar.Exemplar {
timestamp := m.Timestamp
return exemplar.Exemplar{
Labels: labelProtosToLabels(b, m.GetLabels()),
Value: m.Value,
Ts: timestamp,
HasTs: timestamp != 0,
}
}