package telemetry import ( "errors" "fmt" goMetrics "github.com/armon/go-metrics" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/sdk/metric/metricdata" cpb "go.opentelemetry.io/proto/otlp/common/v1" mpb "go.opentelemetry.io/proto/otlp/metrics/v1" rpb "go.opentelemetry.io/proto/otlp/resource/v1" ) var ( aggregationErr = errors.New("unsupported aggregation") temporalityErr = errors.New("unsupported temporality") ) // isEmpty verifies if the given OTLP protobuf metrics contains metric data. // isEmpty returns true if no ScopeMetrics exist or all metrics within ScopeMetrics are empty. func isEmpty(rm *mpb.ResourceMetrics) bool { // No ScopeMetrics if len(rm.ScopeMetrics) == 0 { return true } // If any inner metrics contain data, return false. for _, v := range rm.ScopeMetrics { if len(v.Metrics) != 0 { return false } } // All inner metrics are empty. return true } // TransformOTLP returns an OTLP ResourceMetrics generated from OTEL metrics. If rm // contains invalid ScopeMetrics, an error will be returned along with an OTLP // ResourceMetrics that contains partial OTLP ScopeMetrics. func transformOTLP(rm *metricdata.ResourceMetrics) *mpb.ResourceMetrics { sms := scopeMetricsToPB(rm.ScopeMetrics) return &mpb.ResourceMetrics{ Resource: &rpb.Resource{ Attributes: attributesToPB(rm.Resource.Iter()), }, ScopeMetrics: sms, } } // scopeMetrics returns a slice of OTLP ScopeMetrics. func scopeMetricsToPB(scopeMetrics []metricdata.ScopeMetrics) []*mpb.ScopeMetrics { out := make([]*mpb.ScopeMetrics, 0, len(scopeMetrics)) for _, sm := range scopeMetrics { ms := metricsToPB(sm.Metrics) out = append(out, &mpb.ScopeMetrics{ Scope: &cpb.InstrumentationScope{ Name: sm.Scope.Name, Version: sm.Scope.Version, }, Metrics: ms, }) } return out } // metrics returns a slice of OTLP Metric generated from OTEL metrics sdk ones. func metricsToPB(metrics []metricdata.Metrics) []*mpb.Metric { out := make([]*mpb.Metric, 0, len(metrics)) for _, m := range metrics { o, err := metricTypeToPB(m) if err != nil { goMetrics.IncrCounter(internalMetricTransformFailure, 1) continue } out = append(out, o) } return out } // metricType identifies the instrument type and converts it to OTLP format. // only float64 values are accepted since the go metrics sink only receives float64 values. func metricTypeToPB(m metricdata.Metrics) (*mpb.Metric, error) { out := &mpb.Metric{ Name: m.Name, Description: m.Description, Unit: m.Unit, } switch a := m.Data.(type) { case metricdata.Gauge[float64]: out.Data = &mpb.Metric_Gauge{ Gauge: &mpb.Gauge{ DataPoints: dataPointsToPB(a.DataPoints), }, } case metricdata.Sum[float64]: if a.Temporality != metricdata.CumulativeTemporality { return out, fmt.Errorf("error: %w: %T", temporalityErr, a) } out.Data = &mpb.Metric_Sum{ Sum: &mpb.Sum{ AggregationTemporality: mpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE, IsMonotonic: a.IsMonotonic, DataPoints: dataPointsToPB(a.DataPoints), }, } case metricdata.Histogram[float64]: if a.Temporality != metricdata.CumulativeTemporality { return out, fmt.Errorf("error: %w: %T", temporalityErr, a) } out.Data = &mpb.Metric_Histogram{ Histogram: &mpb.Histogram{ AggregationTemporality: mpb.AggregationTemporality_AGGREGATION_TEMPORALITY_CUMULATIVE, DataPoints: histogramDataPointsToPB(a.DataPoints), }, } default: return out, fmt.Errorf("error: %w: %T", aggregationErr, a) } return out, nil } // DataPoints returns a slice of OTLP NumberDataPoint generated from OTEL metrics sdk ones. func dataPointsToPB(dataPoints []metricdata.DataPoint[float64]) []*mpb.NumberDataPoint { out := make([]*mpb.NumberDataPoint, 0, len(dataPoints)) for _, dp := range dataPoints { ndp := &mpb.NumberDataPoint{ Attributes: attributesToPB(dp.Attributes.Iter()), StartTimeUnixNano: uint64(dp.StartTime.UnixNano()), TimeUnixNano: uint64(dp.Time.UnixNano()), } ndp.Value = &mpb.NumberDataPoint_AsDouble{ AsDouble: dp.Value, } out = append(out, ndp) } return out } // HistogramDataPoints returns a slice of OTLP HistogramDataPoint from OTEL metrics sdk ones. func histogramDataPointsToPB(dataPoints []metricdata.HistogramDataPoint[float64]) []*mpb.HistogramDataPoint { out := make([]*mpb.HistogramDataPoint, 0, len(dataPoints)) for _, dp := range dataPoints { sum := dp.Sum hdp := &mpb.HistogramDataPoint{ Attributes: attributesToPB(dp.Attributes.Iter()), StartTimeUnixNano: uint64(dp.StartTime.UnixNano()), TimeUnixNano: uint64(dp.Time.UnixNano()), Count: dp.Count, Sum: &sum, BucketCounts: dp.BucketCounts, ExplicitBounds: dp.Bounds, } if v, ok := dp.Min.Value(); ok { hdp.Min = &v } if v, ok := dp.Max.Value(); ok { hdp.Max = &v } out = append(out, hdp) } return out } // attributes transforms items of an attribute iterator into OTLP key-values. // Currently, labels are only key-value pairs. func attributesToPB(iter attribute.Iterator) []*cpb.KeyValue { l := iter.Len() if iter.Len() == 0 { return nil } out := make([]*cpb.KeyValue, 0, l) for iter.Next() { kv := iter.Attribute() av := &cpb.AnyValue{ Value: &cpb.AnyValue_StringValue{ StringValue: kv.Value.AsString(), }, } out = append(out, &cpb.KeyValue{Key: string(kv.Key), Value: av}) } return out }