24e8161262
- add base structure - unify the proto metrics creation and propagation - implement arp and openvpn - refactor to meet the prom exporter standart - add instance label to the metrics - refactor the call chain - add gateway, unbound_dns and openvpn implementations - add gateway stuff - structure refactor; mod clean; cron implementation - implement cron in the collector; refactor utils in the opnsense package refactor names and implement option functions to disable collectorInstances add GH action workflows Create codeql.yml - clean fix stuff
428 lines
11 KiB
Go
428 lines
11 KiB
Go
// Copyright 2015 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package expfmt
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import (
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"fmt"
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"io"
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"math"
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"mime"
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"net/http"
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dto "github.com/prometheus/client_model/go"
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"github.com/matttproud/golang_protobuf_extensions/pbutil"
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"github.com/prometheus/common/model"
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)
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// Decoder types decode an input stream into metric families.
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type Decoder interface {
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Decode(*dto.MetricFamily) error
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}
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// DecodeOptions contains options used by the Decoder and in sample extraction.
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type DecodeOptions struct {
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// Timestamp is added to each value from the stream that has no explicit timestamp set.
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Timestamp model.Time
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}
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// ResponseFormat extracts the correct format from a HTTP response header.
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// If no matching format can be found FormatUnknown is returned.
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func ResponseFormat(h http.Header) Format {
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ct := h.Get(hdrContentType)
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mediatype, params, err := mime.ParseMediaType(ct)
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if err != nil {
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return FmtUnknown
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}
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const textType = "text/plain"
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switch mediatype {
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case ProtoType:
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if p, ok := params["proto"]; ok && p != ProtoProtocol {
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return FmtUnknown
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}
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if e, ok := params["encoding"]; ok && e != "delimited" {
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return FmtUnknown
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}
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return FmtProtoDelim
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case textType:
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if v, ok := params["version"]; ok && v != TextVersion {
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return FmtUnknown
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}
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return FmtText
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}
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return FmtUnknown
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}
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// NewDecoder returns a new decoder based on the given input format.
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// If the input format does not imply otherwise, a text format decoder is returned.
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func NewDecoder(r io.Reader, format Format) Decoder {
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switch format {
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case FmtProtoDelim:
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return &protoDecoder{r: r}
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}
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return &textDecoder{r: r}
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}
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// protoDecoder implements the Decoder interface for protocol buffers.
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type protoDecoder struct {
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r io.Reader
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}
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// Decode implements the Decoder interface.
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func (d *protoDecoder) Decode(v *dto.MetricFamily) error {
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_, err := pbutil.ReadDelimited(d.r, v)
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if err != nil {
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return err
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}
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if !model.IsValidMetricName(model.LabelValue(v.GetName())) {
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return fmt.Errorf("invalid metric name %q", v.GetName())
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}
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for _, m := range v.GetMetric() {
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if m == nil {
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continue
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}
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for _, l := range m.GetLabel() {
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if l == nil {
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continue
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}
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if !model.LabelValue(l.GetValue()).IsValid() {
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return fmt.Errorf("invalid label value %q", l.GetValue())
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}
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if !model.LabelName(l.GetName()).IsValid() {
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return fmt.Errorf("invalid label name %q", l.GetName())
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}
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}
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}
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return nil
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}
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// textDecoder implements the Decoder interface for the text protocol.
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type textDecoder struct {
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r io.Reader
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fams map[string]*dto.MetricFamily
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err error
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}
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// Decode implements the Decoder interface.
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func (d *textDecoder) Decode(v *dto.MetricFamily) error {
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if d.err == nil {
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// Read all metrics in one shot.
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var p TextParser
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d.fams, d.err = p.TextToMetricFamilies(d.r)
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// If we don't get an error, store io.EOF for the end.
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if d.err == nil {
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d.err = io.EOF
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}
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}
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// Pick off one MetricFamily per Decode until there's nothing left.
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for key, fam := range d.fams {
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v.Name = fam.Name
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v.Help = fam.Help
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v.Type = fam.Type
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v.Metric = fam.Metric
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delete(d.fams, key)
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return nil
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}
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return d.err
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}
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// SampleDecoder wraps a Decoder to extract samples from the metric families
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// decoded by the wrapped Decoder.
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type SampleDecoder struct {
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Dec Decoder
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Opts *DecodeOptions
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f dto.MetricFamily
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}
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// Decode calls the Decode method of the wrapped Decoder and then extracts the
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// samples from the decoded MetricFamily into the provided model.Vector.
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func (sd *SampleDecoder) Decode(s *model.Vector) error {
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err := sd.Dec.Decode(&sd.f)
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if err != nil {
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return err
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}
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*s, err = extractSamples(&sd.f, sd.Opts)
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return err
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}
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// ExtractSamples builds a slice of samples from the provided metric
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// families. If an error occurs during sample extraction, it continues to
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// extract from the remaining metric families. The returned error is the last
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// error that has occurred.
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func ExtractSamples(o *DecodeOptions, fams ...*dto.MetricFamily) (model.Vector, error) {
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var (
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all model.Vector
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lastErr error
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)
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for _, f := range fams {
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some, err := extractSamples(f, o)
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if err != nil {
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lastErr = err
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continue
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}
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all = append(all, some...)
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}
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return all, lastErr
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}
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func extractSamples(f *dto.MetricFamily, o *DecodeOptions) (model.Vector, error) {
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switch f.GetType() {
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case dto.MetricType_COUNTER:
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return extractCounter(o, f), nil
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case dto.MetricType_GAUGE:
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return extractGauge(o, f), nil
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case dto.MetricType_SUMMARY:
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return extractSummary(o, f), nil
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case dto.MetricType_UNTYPED:
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return extractUntyped(o, f), nil
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case dto.MetricType_HISTOGRAM:
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return extractHistogram(o, f), nil
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}
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return nil, fmt.Errorf("expfmt.extractSamples: unknown metric family type %v", f.GetType())
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}
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func extractCounter(o *DecodeOptions, f *dto.MetricFamily) model.Vector {
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samples := make(model.Vector, 0, len(f.Metric))
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for _, m := range f.Metric {
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if m.Counter == nil {
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continue
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}
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lset := make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName())
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smpl := &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Counter.GetValue()),
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}
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if m.TimestampMs != nil {
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smpl.Timestamp = model.TimeFromUnixNano(*m.TimestampMs * 1000000)
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} else {
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smpl.Timestamp = o.Timestamp
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}
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samples = append(samples, smpl)
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}
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return samples
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}
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func extractGauge(o *DecodeOptions, f *dto.MetricFamily) model.Vector {
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samples := make(model.Vector, 0, len(f.Metric))
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for _, m := range f.Metric {
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if m.Gauge == nil {
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continue
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}
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lset := make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName())
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smpl := &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Gauge.GetValue()),
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}
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if m.TimestampMs != nil {
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smpl.Timestamp = model.TimeFromUnixNano(*m.TimestampMs * 1000000)
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} else {
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smpl.Timestamp = o.Timestamp
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}
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samples = append(samples, smpl)
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}
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return samples
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}
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func extractUntyped(o *DecodeOptions, f *dto.MetricFamily) model.Vector {
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samples := make(model.Vector, 0, len(f.Metric))
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for _, m := range f.Metric {
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if m.Untyped == nil {
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continue
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}
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lset := make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName())
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smpl := &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Untyped.GetValue()),
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}
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if m.TimestampMs != nil {
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smpl.Timestamp = model.TimeFromUnixNano(*m.TimestampMs * 1000000)
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} else {
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smpl.Timestamp = o.Timestamp
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}
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samples = append(samples, smpl)
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}
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return samples
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}
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func extractSummary(o *DecodeOptions, f *dto.MetricFamily) model.Vector {
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samples := make(model.Vector, 0, len(f.Metric))
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for _, m := range f.Metric {
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if m.Summary == nil {
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continue
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}
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timestamp := o.Timestamp
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if m.TimestampMs != nil {
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timestamp = model.TimeFromUnixNano(*m.TimestampMs * 1000000)
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}
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for _, q := range m.Summary.Quantile {
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lset := make(model.LabelSet, len(m.Label)+2)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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// BUG(matt): Update other names to "quantile".
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lset[model.LabelName(model.QuantileLabel)] = model.LabelValue(fmt.Sprint(q.GetQuantile()))
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName())
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samples = append(samples, &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(q.GetValue()),
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Timestamp: timestamp,
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})
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}
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lset := make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName() + "_sum")
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samples = append(samples, &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Summary.GetSampleSum()),
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Timestamp: timestamp,
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})
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lset = make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName() + "_count")
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samples = append(samples, &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Summary.GetSampleCount()),
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Timestamp: timestamp,
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})
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}
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return samples
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}
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func extractHistogram(o *DecodeOptions, f *dto.MetricFamily) model.Vector {
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samples := make(model.Vector, 0, len(f.Metric))
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for _, m := range f.Metric {
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if m.Histogram == nil {
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continue
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}
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timestamp := o.Timestamp
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if m.TimestampMs != nil {
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timestamp = model.TimeFromUnixNano(*m.TimestampMs * 1000000)
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}
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infSeen := false
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for _, q := range m.Histogram.Bucket {
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lset := make(model.LabelSet, len(m.Label)+2)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.LabelName(model.BucketLabel)] = model.LabelValue(fmt.Sprint(q.GetUpperBound()))
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName() + "_bucket")
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if math.IsInf(q.GetUpperBound(), +1) {
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infSeen = true
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}
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samples = append(samples, &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(q.GetCumulativeCount()),
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Timestamp: timestamp,
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})
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}
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lset := make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName() + "_sum")
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samples = append(samples, &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Histogram.GetSampleSum()),
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Timestamp: timestamp,
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})
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lset = make(model.LabelSet, len(m.Label)+1)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName() + "_count")
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count := &model.Sample{
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Metric: model.Metric(lset),
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Value: model.SampleValue(m.Histogram.GetSampleCount()),
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Timestamp: timestamp,
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}
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samples = append(samples, count)
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if !infSeen {
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// Append an infinity bucket sample.
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lset := make(model.LabelSet, len(m.Label)+2)
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for _, p := range m.Label {
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lset[model.LabelName(p.GetName())] = model.LabelValue(p.GetValue())
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}
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lset[model.LabelName(model.BucketLabel)] = model.LabelValue("+Inf")
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lset[model.MetricNameLabel] = model.LabelValue(f.GetName() + "_bucket")
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samples = append(samples, &model.Sample{
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Metric: model.Metric(lset),
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Value: count.Value,
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Timestamp: timestamp,
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})
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}
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}
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return samples
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}
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