func parseMetrics(data string, knownMetrics map[string][]string, output *Metrics, unknownMetrics sets.String) error { dec := expfmt.NewDecoder(strings.NewReader(data), expfmt.FmtText) decoder := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{}, } for { var v model.Vector if err := decoder.Decode(&v); err != nil { if err == io.EOF { // Expected loop termination condition. return nil } glog.Warningf("Invalid Decode. Skipping.") continue } for _, metric := range v { name := string(metric.Metric[model.MetricNameLabel]) _, isCommonMetric := CommonMetrics[name] _, isKnownMetric := knownMetrics[name] if isKnownMetric || isCommonMetric { (*output)[name] = append((*output)[name], metric) } else { if unknownMetrics != nil { unknownMetrics.Insert(name) } } } } }
// parseMetrics takes the text format for prometheus metrics, and converts // them into our Metrics object. func (c *Metrics) parseMetrics(data string) error { dec := expfmt.NewDecoder(strings.NewReader(data), expfmt.FmtText) decoder := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{}, } for { var v model.Vector if err := decoder.Decode(&v); err != nil { if err == io.EOF { // Expected loop termination condition. return nil } return fmt.Errorf("Invalid decode: %v", err) } for _, metric := range v { switch name := string(metric.Metric[model.MetricNameLabel]); name { case "node_collector_evictions_number": c.NodeEvictions = int64(metric.Value) case "process_start_time_seconds": c.CreateTime = int64(metric.Value) } } } }
func (g *Prometheus) gatherURL(url string, acc telegraf.Accumulator) error { resp, err := client.Get(url) if err != nil { return fmt.Errorf("error making HTTP request to %s: %s", url, err) } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return fmt.Errorf("%s returned HTTP status %s", url, resp.Status) } format := expfmt.ResponseFormat(resp.Header) decoder := expfmt.NewDecoder(resp.Body, format) options := &expfmt.DecodeOptions{ Timestamp: model.Now(), } sampleDecoder := &expfmt.SampleDecoder{ Dec: decoder, Opts: options, } for { var samples model.Vector err := sampleDecoder.Decode(&samples) if err == io.EOF { break } else if err != nil { return fmt.Errorf("error getting processing samples for %s: %s", url, err) } for _, sample := range samples { tags := make(map[string]string) for key, value := range sample.Metric { if key == model.MetricNameLabel { continue } tags[string(key)] = string(value) } acc.Add("prometheus_"+string(sample.Metric[model.MetricNameLabel]), float64(sample.Value), tags) } } return nil }
func (collector *PrometheusCollector) GetSpec() []v1.MetricSpec { response, err := collector.httpClient.Get(collector.configFile.Endpoint.URL) if err != nil { return nil } defer response.Body.Close() if response.StatusCode != http.StatusOK { return nil } dec := expfmt.NewDecoder(response.Body, expfmt.ResponseFormat(response.Header)) var specs []v1.MetricSpec for { d := rawmodel.MetricFamily{} if err = dec.Decode(&d); err != nil { break } name := d.GetName() if len(name) == 0 { continue } // If metrics to collect is specified, skip any metrics not in the list to collect. if _, ok := collector.metricsSet[name]; collector.metricsSet != nil && !ok { continue } spec := v1.MetricSpec{ Name: name, Type: metricType(d.GetType()), Format: v1.FloatType, } specs = append(specs, spec) } if err != nil && err != io.EOF { return nil } return specs }
func (s *targetScraper) scrape(ctx context.Context, ts time.Time) (model.Samples, error) { req, err := http.NewRequest("GET", s.URL().String(), nil) if err != nil { return nil, err } req.Header.Add("Accept", acceptHeader) resp, err := ctxhttp.Do(ctx, s.client, req) if err != nil { return nil, err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return nil, fmt.Errorf("server returned HTTP status %s", resp.Status) } var ( allSamples = make(model.Samples, 0, 200) decSamples = make(model.Vector, 0, 50) ) sdec := expfmt.SampleDecoder{ Dec: expfmt.NewDecoder(resp.Body, expfmt.ResponseFormat(resp.Header)), Opts: &expfmt.DecodeOptions{ Timestamp: model.TimeFromUnixNano(ts.UnixNano()), }, } for { if err = sdec.Decode(&decSamples); err != nil { break } allSamples = append(allSamples, decSamples...) decSamples = decSamples[:0] } if err == io.EOF { // Set err to nil since it is used in the scrape health recording. err = nil } return allSamples, err }
// extractMetricSamples parses the prometheus metric samples from the input string. func extractMetricSamples(metricsBlob string) ([]*model.Sample, error) { dec := expfmt.NewDecoder(strings.NewReader(metricsBlob), expfmt.FmtText) decoder := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{}, } var samples []*model.Sample for { var v model.Vector if err := decoder.Decode(&v); err != nil { if err == io.EOF { // Expected loop termination condition. return samples, nil } return nil, err } samples = append(samples, v...) } }
func parseMetrics(data string, output *Metrics) error { dec := expfmt.NewDecoder(strings.NewReader(data), expfmt.FmtText) decoder := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{}, } for { var v model.Vector if err := decoder.Decode(&v); err != nil { if err == io.EOF { // Expected loop termination condition. return nil } glog.Warningf("Invalid Decode. Skipping.") continue } for _, metric := range v { name := string(metric.Metric[model.MetricNameLabel]) (*output)[name] = append((*output)[name], metric) } } }
func (t *Target) scrape(appender storage.SampleAppender) (err error) { start := time.Now() baseLabels := t.BaseLabels() defer func(appender storage.SampleAppender) { t.status.setLastError(err) recordScrapeHealth(appender, start, baseLabels, t.status.Health(), time.Since(start)) }(appender) t.RLock() // The relabelAppender has to be inside the label-modifying appenders // so the relabeling rules are applied to the correct label set. if len(t.metricRelabelConfigs) > 0 { appender = relabelAppender{ app: appender, relabelings: t.metricRelabelConfigs, } } if t.honorLabels { appender = honorLabelsAppender{ app: appender, labels: baseLabels, } } else { appender = ruleLabelsAppender{ app: appender, labels: baseLabels, } } httpClient := t.httpClient t.RUnlock() req, err := http.NewRequest("GET", t.URL().String(), nil) if err != nil { return err } req.Header.Add("Accept", acceptHeader) resp, err := httpClient.Do(req) if err != nil { return err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return fmt.Errorf("server returned HTTP status %s", resp.Status) } dec := expfmt.NewDecoder(resp.Body, expfmt.ResponseFormat(resp.Header)) sdec := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{ Timestamp: model.TimeFromUnixNano(start.UnixNano()), }, } t.ingestedSamples = make(chan model.Vector, ingestedSamplesCap) go func() { for { // TODO(fabxc): Change the SampleAppender interface to return an error // so we can proceed based on the status and don't leak goroutines trying // to append a single sample after dropping all the other ones. // // This will also allow use to reuse this vector and save allocations. var samples model.Vector if err = sdec.Decode(&samples); err != nil { break } if err = t.ingest(samples); err != nil { break } } close(t.ingestedSamples) }() for samples := range t.ingestedSamples { for _, s := range samples { appender.Append(s) } } if err == io.EOF { return nil } return err }
func (t *Target) scrape(appender storage.SampleAppender) error { var ( err error start = time.Now() ) defer func(appender storage.SampleAppender) { t.report(appender, start, time.Since(start), err) }(appender) t.RLock() appender = t.wrapAppender(appender) client := t.httpClient t.RUnlock() req, err := http.NewRequest("GET", t.URL().String(), nil) if err != nil { return err } req.Header.Add("Accept", acceptHeader) ctx, _ := context.WithTimeout(context.Background(), t.timeout()) resp, err := ctxhttp.Do(ctx, client, req) if err != nil { return err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return fmt.Errorf("server returned HTTP status %s", resp.Status) } dec := expfmt.NewDecoder(resp.Body, expfmt.ResponseFormat(resp.Header)) sdec := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{ Timestamp: model.TimeFromUnixNano(start.UnixNano()), }, } var ( samples model.Vector numOutOfOrder int logger = log.With("target", t.InstanceIdentifier()) ) for { if err = sdec.Decode(&samples); err != nil { break } for _, s := range samples { err := appender.Append(s) if err != nil { if err == local.ErrOutOfOrderSample { numOutOfOrder++ } else { logger.With("sample", s).Warnf("Error inserting sample: %s", err) } } } } if numOutOfOrder > 0 { logger.With("numDropped", numOutOfOrder).Warn("Error on ingesting out-of-order samples") } if err == io.EOF { // Set err to nil since it is used in the scrape health recording. err = nil } return err }
func (t *Target) scrape(sampleAppender storage.SampleAppender) (err error) { start := time.Now() baseLabels := t.BaseLabels() t.RLock() var ( honorLabels = t.honorLabels httpClient = t.httpClient metricRelabelConfigs = t.metricRelabelConfigs ) t.RUnlock() defer func() { t.status.setLastError(err) recordScrapeHealth(sampleAppender, start, baseLabels, t.status.Health(), time.Since(start)) }() req, err := http.NewRequest("GET", t.URL().String(), nil) if err != nil { panic(err) } req.Header.Add("Accept", acceptHeader) resp, err := httpClient.Do(req) if err != nil { return err } if resp.StatusCode != http.StatusOK { return fmt.Errorf("server returned HTTP status %s", resp.Status) } dec, err := expfmt.NewDecoder(resp.Body, resp.Header) if err != nil { return err } defer resp.Body.Close() sdec := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{ Timestamp: model.TimeFromUnixNano(start.UnixNano()), }, } t.ingestedSamples = make(chan model.Vector, ingestedSamplesCap) go func() { for { // TODO(fabxc): Changex the SampleAppender interface to return an error // so we can proceed based on the status and don't leak goroutines trying // to append a single sample after dropping all the other ones. // // This will also allow use to reuse this vector and save allocations. var samples model.Vector if err = sdec.Decode(&samples); err != nil { break } if err = t.ingest(samples); err != nil { break } } close(t.ingestedSamples) }() for samples := range t.ingestedSamples { for _, s := range samples { if honorLabels { // Merge the metric with the baseLabels for labels not already set in the // metric. This also considers labels explicitly set to the empty string. for ln, lv := range baseLabels { if _, ok := s.Metric[ln]; !ok { s.Metric[ln] = lv } } } else { // Merge the ingested metric with the base label set. On a collision the // value of the label is stored in a label prefixed with the exported prefix. for ln, lv := range baseLabels { if v, ok := s.Metric[ln]; ok && v != "" { s.Metric[model.ExportedLabelPrefix+ln] = v } s.Metric[ln] = lv } } // Avoid the copy in Relabel if there are no configs. if len(metricRelabelConfigs) > 0 { labels, err := Relabel(model.LabelSet(s.Metric), metricRelabelConfigs...) if err != nil { log.Errorf("Error while relabeling metric %s of instance %s: %s", s.Metric, req.URL, err) continue } // Check if the timeseries was dropped. if labels == nil { continue } s.Metric = model.Metric(labels) } sampleAppender.Append(s) } } if err == io.EOF { return nil } return err }
func (t *Target) scrape(appender storage.SampleAppender) (err error) { start := time.Now() baseLabels := t.BaseLabels() defer func(appender storage.SampleAppender) { t.status.setLastError(err) recordScrapeHealth(appender, start, baseLabels, t.status.Health(), time.Since(start)) }(appender) t.RLock() // The relabelAppender has to be inside the label-modifying appenders // so the relabeling rules are applied to the correct label set. if len(t.metricRelabelConfigs) > 0 { appender = relabelAppender{ SampleAppender: appender, relabelings: t.metricRelabelConfigs, } } if t.honorLabels { appender = honorLabelsAppender{ SampleAppender: appender, labels: baseLabels, } } else { appender = ruleLabelsAppender{ SampleAppender: appender, labels: baseLabels, } } httpClient := t.httpClient t.RUnlock() req, err := http.NewRequest("GET", t.URL().String(), nil) if err != nil { return err } req.Header.Add("Accept", acceptHeader) resp, err := httpClient.Do(req) if err != nil { return err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return fmt.Errorf("server returned HTTP status %s", resp.Status) } dec := expfmt.NewDecoder(resp.Body, expfmt.ResponseFormat(resp.Header)) sdec := expfmt.SampleDecoder{ Dec: dec, Opts: &expfmt.DecodeOptions{ Timestamp: model.TimeFromUnixNano(start.UnixNano()), }, } var ( samples model.Vector numOutOfOrder int logger = log.With("target", t.InstanceIdentifier()) ) for { if err = sdec.Decode(&samples); err != nil { break } for _, s := range samples { err := appender.Append(s) if err != nil { if err == local.ErrOutOfOrderSample { numOutOfOrder++ } else { logger.With("sample", s).Warnf("Error inserting sample: %s", err) } } } } if numOutOfOrder > 0 { logger.With("numDropped", numOutOfOrder).Warn("Error on ingesting out-of-order samples") } if err == io.EOF { return nil } return err }
// Returns collected metrics and the next collection time of the collector func (collector *PrometheusCollector) Collect(metrics map[string][]v1.MetricVal) (time.Time, map[string][]v1.MetricVal, error) { currentTime := time.Now() nextCollectionTime := currentTime.Add(time.Duration(collector.pollingFrequency)) uri := collector.configFile.Endpoint.URL response, err := collector.httpClient.Get(uri) if err != nil { return nextCollectionTime, nil, err } defer response.Body.Close() if response.StatusCode != http.StatusOK { return nextCollectionTime, nil, fmt.Errorf("server returned HTTP status %s", response.Status) } sdec := expfmt.SampleDecoder{ Dec: expfmt.NewDecoder(response.Body, expfmt.ResponseFormat(response.Header)), Opts: &expfmt.DecodeOptions{ Timestamp: model.TimeFromUnixNano(currentTime.UnixNano()), }, } var ( // 50 is chosen as a reasonable guesstimate at a number of metrics we can // expect from virtually any endpoint to try to save allocations. decSamples = make(model.Vector, 0, 50) newMetrics = make(map[string][]v1.MetricVal) ) for { if err = sdec.Decode(&decSamples); err != nil { break } for _, sample := range decSamples { metName := string(sample.Metric[model.MetricNameLabel]) if len(metName) == 0 { continue } // If metrics to collect is specified, skip any metrics not in the list to collect. if _, ok := collector.metricsSet[metName]; collector.metricsSet != nil && !ok { continue } // TODO Handle multiple labels nicer. Prometheus metrics can have multiple // labels, cadvisor only accepts a single string for the metric label. label := prometheusLabelSetToCadvisorLabel(sample.Metric) metric := v1.MetricVal{ FloatValue: float64(sample.Value), Timestamp: sample.Timestamp.Time(), Label: label, } newMetrics[metName] = append(newMetrics[metName], metric) if len(newMetrics) > collector.metricCountLimit { return nextCollectionTime, nil, fmt.Errorf("too many metrics to collect") } } decSamples = decSamples[:0] } if err != nil && err != io.EOF { return nextCollectionTime, nil, err } for key, val := range newMetrics { metrics[key] = append(metrics[key], val...) } return nextCollectionTime, metrics, nil }