// Copyright 2020 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. package expfmt import ( "bufio" "bytes" "fmt" "io" "math" "strconv" "strings" "google.golang.org/protobuf/types/known/timestamppb" "github.com/prometheus/common/model" dto "github.com/prometheus/client_model/go" ) type encoderOption struct { withCreatedLines bool } type EncoderOption func(*encoderOption) // WithCreatedLines is an EncoderOption that configures the OpenMetrics encoder // to include _created lines (See // https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#counter-1). // Created timestamps can improve the accuracy of series reset detection, but // come with a bandwidth cost. // // At the time of writing, created timestamp ingestion is still experimental in // Prometheus and need to be enabled with the feature-flag // `--feature-flag=created-timestamp-zero-ingestion`, and breaking changes are // still possible. Therefore, it is recommended to use this feature with caution. func WithCreatedLines() EncoderOption { return func(t *encoderOption) { t.withCreatedLines = true } } // MetricFamilyToOpenMetrics converts a MetricFamily proto message into the // OpenMetrics text format and writes the resulting lines to 'out'. It returns // the number of bytes written and any error encountered. The output will have // the same order as the input, no further sorting is performed. Furthermore, // this function assumes the input is already sanitized and does not perform any // sanity checks. If the input contains duplicate metrics or invalid metric or // label names, the conversion will result in invalid text format output. // // If metric names conform to the legacy validation pattern, they will be placed // outside the brackets in the traditional way, like `foo{}`. If the metric name // fails the legacy validation check, it will be placed quoted inside the // brackets: `{"foo"}`. As stated above, the input is assumed to be santized and // no error will be thrown in this case. // // Similar to metric names, if label names conform to the legacy validation // pattern, they will be unquoted as normal, like `foo{bar="baz"}`. If the label // name fails the legacy validation check, it will be quoted: // `foo{"bar"="baz"}`. As stated above, the input is assumed to be santized and // no error will be thrown in this case. // // This function fulfills the type 'expfmt.encoder'. // // Note that OpenMetrics requires a final `# EOF` line. Since this function acts // on individual metric families, it is the responsibility of the caller to // append this line to 'out' once all metric families have been written. // Conveniently, this can be done by calling FinalizeOpenMetrics. // // The output should be fully OpenMetrics compliant. However, there are a few // missing features and peculiarities to avoid complications when switching from // Prometheus to OpenMetrics or vice versa: // // - Counters are expected to have the `_total` suffix in their metric name. In // the output, the suffix will be truncated from the `# TYPE` and `# HELP` // line. A counter with a missing `_total` suffix is not an error. However, // its type will be set to `unknown` in that case to avoid invalid OpenMetrics // output. // // - No support for the following (optional) features: `# UNIT` line, info type, // stateset type, gaugehistogram type. // // - The size of exemplar labels is not checked (i.e. it's possible to create // exemplars that are larger than allowed by the OpenMetrics specification). // // - The value of Counters is not checked. (OpenMetrics doesn't allow counters // with a `NaN` value.) func MetricFamilyToOpenMetrics(out io.Writer, in *dto.MetricFamily, options ...EncoderOption) (written int, err error) { toOM := encoderOption{} for _, option := range options { option(&toOM) } name := in.GetName() if name == "" { return 0, fmt.Errorf("MetricFamily has no name: %s", in) } // Try the interface upgrade. If it doesn't work, we'll use a // bufio.Writer from the sync.Pool. w, ok := out.(enhancedWriter) if !ok { b := bufPool.Get().(*bufio.Writer) b.Reset(out) w = b defer func() { bErr := b.Flush() if err == nil { err = bErr } bufPool.Put(b) }() } var ( n int metricType = in.GetType() shortName = name ) if metricType == dto.MetricType_COUNTER && strings.HasSuffix(shortName, "_total") { shortName = name[:len(name)-6] } // Comments, first HELP, then TYPE. if in.Help != nil { n, err = w.WriteString("# HELP ") written += n if err != nil { return } n, err = writeName(w, shortName) written += n if err != nil { return } err = w.WriteByte(' ') written++ if err != nil { return } n, err = writeEscapedString(w, *in.Help, true) written += n if err != nil { return } err = w.WriteByte('\n') written++ if err != nil { return } } n, err = w.WriteString("# TYPE ") written += n if err != nil { return } n, err = writeName(w, shortName) written += n if err != nil { return } switch metricType { case dto.MetricType_COUNTER: if strings.HasSuffix(name, "_total") { n, err = w.WriteString(" counter\n") } else { n, err = w.WriteString(" unknown\n") } case dto.MetricType_GAUGE: n, err = w.WriteString(" gauge\n") case dto.MetricType_SUMMARY: n, err = w.WriteString(" summary\n") case dto.MetricType_UNTYPED: n, err = w.WriteString(" unknown\n") case dto.MetricType_HISTOGRAM: n, err = w.WriteString(" histogram\n") default: return written, fmt.Errorf("unknown metric type %s", metricType.String()) } written += n if err != nil { return } var createdTsBytesWritten int // Finally the samples, one line for each. for _, metric := range in.Metric { switch metricType { case dto.MetricType_COUNTER: if metric.Counter == nil { return written, fmt.Errorf( "expected counter in metric %s %s", name, metric, ) } // Note that we have ensured above that either the name // ends on `_total` or that the rendered type is // `unknown`. Therefore, no `_total` must be added here. n, err = writeOpenMetricsSample( w, name, "", metric, "", 0, metric.Counter.GetValue(), 0, false, metric.Counter.Exemplar, ) if toOM.withCreatedLines && metric.Counter.CreatedTimestamp != nil { createdTsBytesWritten, err = writeOpenMetricsCreated(w, name, "_total", metric, "", 0, metric.Counter.GetCreatedTimestamp()) n += createdTsBytesWritten } case dto.MetricType_GAUGE: if metric.Gauge == nil { return written, fmt.Errorf( "expected gauge in metric %s %s", name, metric, ) } n, err = writeOpenMetricsSample( w, name, "", metric, "", 0, metric.Gauge.GetValue(), 0, false, nil, ) case dto.MetricType_UNTYPED: if metric.Untyped == nil { return written, fmt.Errorf( "expected untyped in metric %s %s", name, metric, ) } n, err = writeOpenMetricsSample( w, name, "", metric, "", 0, metric.Untyped.GetValue(), 0, false, nil, ) case dto.MetricType_SUMMARY: if metric.Summary == nil { return written, fmt.Errorf( "expected summary in metric %s %s", name, metric, ) } for _, q := range metric.Summary.Quantile { n, err = writeOpenMetricsSample( w, name, "", metric, model.QuantileLabel, q.GetQuantile(), q.GetValue(), 0, false, nil, ) written += n if err != nil { return } } n, err = writeOpenMetricsSample( w, name, "_sum", metric, "", 0, metric.Summary.GetSampleSum(), 0, false, nil, ) written += n if err != nil { return } n, err = writeOpenMetricsSample( w, name, "_count", metric, "", 0, 0, metric.Summary.GetSampleCount(), true, nil, ) if toOM.withCreatedLines && metric.Summary.CreatedTimestamp != nil { createdTsBytesWritten, err = writeOpenMetricsCreated(w, name, "", metric, "", 0, metric.Summary.GetCreatedTimestamp()) n += createdTsBytesWritten } case dto.MetricType_HISTOGRAM: if metric.Histogram == nil { return written, fmt.Errorf( "expected histogram in metric %s %s", name, metric, ) } infSeen := false for _, b := range metric.Histogram.Bucket { n, err = writeOpenMetricsSample( w, name, "_bucket", metric, model.BucketLabel, b.GetUpperBound(), 0, b.GetCumulativeCount(), true, b.Exemplar, ) written += n if err != nil { return } if math.IsInf(b.GetUpperBound(), +1) { infSeen = true } } if !infSeen { n, err = writeOpenMetricsSample( w, name, "_bucket", metric, model.BucketLabel, math.Inf(+1), 0, metric.Histogram.GetSampleCount(), true, nil, ) written += n if err != nil { return } } n, err = writeOpenMetricsSample( w, name, "_sum", metric, "", 0, metric.Histogram.GetSampleSum(), 0, false, nil, ) written += n if err != nil { return } n, err = writeOpenMetricsSample( w, name, "_count", metric, "", 0, 0, metric.Histogram.GetSampleCount(), true, nil, ) if toOM.withCreatedLines && metric.Histogram.CreatedTimestamp != nil { createdTsBytesWritten, err = writeOpenMetricsCreated(w, name, "", metric, "", 0, metric.Histogram.GetCreatedTimestamp()) n += createdTsBytesWritten } default: return written, fmt.Errorf( "unexpected type in metric %s %s", name, metric, ) } written += n if err != nil { return } } return } // FinalizeOpenMetrics writes the final `# EOF\n` line required by OpenMetrics. func FinalizeOpenMetrics(w io.Writer) (written int, err error) { return w.Write([]byte("# EOF\n")) } // writeOpenMetricsSample writes a single sample in OpenMetrics text format to // w, given the metric name, the metric proto message itself, optionally an // additional label name with a float64 value (use empty string as label name if // not required), the value (optionally as float64 or uint64, determined by // useIntValue), and optionally an exemplar (use nil if not required). The // function returns the number of bytes written and any error encountered. func writeOpenMetricsSample( w enhancedWriter, name, suffix string, metric *dto.Metric, additionalLabelName string, additionalLabelValue float64, floatValue float64, intValue uint64, useIntValue bool, exemplar *dto.Exemplar, ) (int, error) { written := 0 n, err := writeOpenMetricsNameAndLabelPairs( w, name+suffix, metric.Label, additionalLabelName, additionalLabelValue, ) written += n if err != nil { return written, err } err = w.WriteByte(' ') written++ if err != nil { return written, err } if useIntValue { n, err = writeUint(w, intValue) } else { n, err = writeOpenMetricsFloat(w, floatValue) } written += n if err != nil { return written, err } if metric.TimestampMs != nil { err = w.WriteByte(' ') written++ if err != nil { return written, err } // TODO(beorn7): Format this directly without converting to a float first. n, err = writeOpenMetricsFloat(w, float64(*metric.TimestampMs)/1000) written += n if err != nil { return written, err } } if exemplar != nil && len(exemplar.Label) > 0 { n, err = writeExemplar(w, exemplar) written += n if err != nil { return written, err } } err = w.WriteByte('\n') written++ if err != nil { return written, err } return written, nil } // writeOpenMetricsNameAndLabelPairs works like writeOpenMetricsSample but // formats the float in OpenMetrics style. func writeOpenMetricsNameAndLabelPairs( w enhancedWriter, name string, in []*dto.LabelPair, additionalLabelName string, additionalLabelValue float64, ) (int, error) { var ( written int separator byte = '{' metricInsideBraces = false ) if name != "" { // If the name does not pass the legacy validity check, we must put the // metric name inside the braces, quoted. if !model.IsValidLegacyMetricName(model.LabelValue(name)) { metricInsideBraces = true err := w.WriteByte(separator) written++ if err != nil { return written, err } separator = ',' } n, err := writeName(w, name) written += n if err != nil { return written, err } } if len(in) == 0 && additionalLabelName == "" { if metricInsideBraces { err := w.WriteByte('}') written++ if err != nil { return written, err } } return written, nil } for _, lp := range in { err := w.WriteByte(separator) written++ if err != nil { return written, err } n, err := writeName(w, lp.GetName()) written += n if err != nil { return written, err } n, err = w.WriteString(`="`) written += n if err != nil { return written, err } n, err = writeEscapedString(w, lp.GetValue(), true) written += n if err != nil { return written, err } err = w.WriteByte('"') written++ if err != nil { return written, err } separator = ',' } if additionalLabelName != "" { err := w.WriteByte(separator) written++ if err != nil { return written, err } n, err := w.WriteString(additionalLabelName) written += n if err != nil { return written, err } n, err = w.WriteString(`="`) written += n if err != nil { return written, err } n, err = writeOpenMetricsFloat(w, additionalLabelValue) written += n if err != nil { return written, err } err = w.WriteByte('"') written++ if err != nil { return written, err } } err := w.WriteByte('}') written++ if err != nil { return written, err } return written, nil } // writeOpenMetricsCreated writes the created timestamp for a single time series // following OpenMetrics text format to w, given the metric name, the metric proto // message itself, optionally a suffix to be removed, e.g. '_total' for counters, // an additional label name with a float64 value (use empty string as label name if // not required) and the timestamp that represents the created timestamp. // The function returns the number of bytes written and any error encountered. func writeOpenMetricsCreated(w enhancedWriter, name, suffixToTrim string, metric *dto.Metric, additionalLabelName string, additionalLabelValue float64, createdTimestamp *timestamppb.Timestamp, ) (int, error) { written := 0 n, err := writeOpenMetricsNameAndLabelPairs( w, strings.TrimSuffix(name, suffixToTrim)+"_created", metric.Label, additionalLabelName, additionalLabelValue, ) written += n if err != nil { return written, err } err = w.WriteByte(' ') written++ if err != nil { return written, err } // TODO(beorn7): Format this directly from components of ts to // avoid overflow/underflow and precision issues of the float // conversion. n, err = writeOpenMetricsFloat(w, float64(createdTimestamp.AsTime().UnixNano())/1e9) written += n if err != nil { return written, err } err = w.WriteByte('\n') written++ if err != nil { return written, err } return written, nil } // writeExemplar writes the provided exemplar in OpenMetrics format to w. The // function returns the number of bytes written and any error encountered. func writeExemplar(w enhancedWriter, e *dto.Exemplar) (int, error) { written := 0 n, err := w.WriteString(" # ") written += n if err != nil { return written, err } n, err = writeOpenMetricsNameAndLabelPairs(w, "", e.Label, "", 0) written += n if err != nil { return written, err } err = w.WriteByte(' ') written++ if err != nil { return written, err } n, err = writeOpenMetricsFloat(w, e.GetValue()) written += n if err != nil { return written, err } if e.Timestamp != nil { err = w.WriteByte(' ') written++ if err != nil { return written, err } err = (*e).Timestamp.CheckValid() if err != nil { return written, err } ts := (*e).Timestamp.AsTime() // TODO(beorn7): Format this directly from components of ts to // avoid overflow/underflow and precision issues of the float // conversion. n, err = writeOpenMetricsFloat(w, float64(ts.UnixNano())/1e9) written += n if err != nil { return written, err } } return written, nil } // writeOpenMetricsFloat works like writeFloat but appends ".0" if the resulting // number would otherwise contain neither a "." nor an "e". func writeOpenMetricsFloat(w enhancedWriter, f float64) (int, error) { switch { case f == 1: return w.WriteString("1.0") case f == 0: return w.WriteString("0.0") case f == -1: return w.WriteString("-1.0") case math.IsNaN(f): return w.WriteString("NaN") case math.IsInf(f, +1): return w.WriteString("+Inf") case math.IsInf(f, -1): return w.WriteString("-Inf") default: bp := numBufPool.Get().(*[]byte) *bp = strconv.AppendFloat((*bp)[:0], f, 'g', -1, 64) if !bytes.ContainsAny(*bp, "e.") { *bp = append(*bp, '.', '0') } written, err := w.Write(*bp) numBufPool.Put(bp) return written, err } } // writeUint is like writeInt just for uint64. func writeUint(w enhancedWriter, u uint64) (int, error) { bp := numBufPool.Get().(*[]byte) *bp = strconv.AppendUint((*bp)[:0], u, 10) written, err := w.Write(*bp) numBufPool.Put(bp) return written, err }