// Copyright The OpenTelemetry 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. //go:build go1.18 // +build go1.18 package internal // import "go.opentelemetry.io/otel/bridge/opencensus/opencensusmetric/internal" import ( "errors" "fmt" ocmetricdata "go.opencensus.io/metric/metricdata" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/metric/unit" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) var ( errConversion = errors.New("converting from OpenCensus to OpenTelemetry") errAggregationType = errors.New("unsupported OpenCensus aggregation type") errMismatchedValueTypes = errors.New("wrong value type for data point") errNumberDataPoint = errors.New("converting a number data point") errHistogramDataPoint = errors.New("converting a histogram data point") errNegativeDistributionCount = errors.New("distribution count is negative") errNegativeBucketCount = errors.New("distribution bucket count is negative") errMismatchedAttributeKeyValues = errors.New("mismatched number of attribute keys and values") ) // ConvertMetrics converts metric data from OpenCensus to OpenTelemetry. func ConvertMetrics(ocmetrics []*ocmetricdata.Metric) ([]metricdata.Metrics, error) { otelMetrics := make([]metricdata.Metrics, 0, len(ocmetrics)) var errInfo []string for _, ocm := range ocmetrics { if ocm == nil { continue } agg, err := convertAggregation(ocm) if err != nil { errInfo = append(errInfo, err.Error()) continue } otelMetrics = append(otelMetrics, metricdata.Metrics{ Name: ocm.Descriptor.Name, Description: ocm.Descriptor.Description, Unit: convertUnit(ocm.Descriptor.Unit), Data: agg, }) } var aggregatedError error if len(errInfo) > 0 { aggregatedError = fmt.Errorf("%w: %q", errConversion, errInfo) } return otelMetrics, aggregatedError } // convertAggregation produces an aggregation based on the OpenCensus Metric. func convertAggregation(metric *ocmetricdata.Metric) (metricdata.Aggregation, error) { labelKeys := metric.Descriptor.LabelKeys switch metric.Descriptor.Type { case ocmetricdata.TypeGaugeInt64: return convertGauge[int64](labelKeys, metric.TimeSeries) case ocmetricdata.TypeGaugeFloat64: return convertGauge[float64](labelKeys, metric.TimeSeries) case ocmetricdata.TypeCumulativeInt64: return convertSum[int64](labelKeys, metric.TimeSeries) case ocmetricdata.TypeCumulativeFloat64: return convertSum[float64](labelKeys, metric.TimeSeries) case ocmetricdata.TypeCumulativeDistribution: return convertHistogram(labelKeys, metric.TimeSeries) // TODO: Support summaries, once it is in the OTel data types. } return nil, fmt.Errorf("%w: %q", errAggregationType, metric.Descriptor.Type) } // convertGauge converts an OpenCensus gauge to an OpenTelemetry gauge aggregation. func convertGauge[N int64 | float64](labelKeys []ocmetricdata.LabelKey, ts []*ocmetricdata.TimeSeries) (metricdata.Gauge[N], error) { points, err := convertNumberDataPoints[N](labelKeys, ts) return metricdata.Gauge[N]{DataPoints: points}, err } // convertSum converts an OpenCensus cumulative to an OpenTelemetry sum aggregation. func convertSum[N int64 | float64](labelKeys []ocmetricdata.LabelKey, ts []*ocmetricdata.TimeSeries) (metricdata.Sum[N], error) { points, err := convertNumberDataPoints[N](labelKeys, ts) // OpenCensus sums are always Cumulative return metricdata.Sum[N]{DataPoints: points, Temporality: metricdata.CumulativeTemporality}, err } // convertNumberDataPoints converts OpenCensus TimeSeries to OpenTelemetry DataPoints. func convertNumberDataPoints[N int64 | float64](labelKeys []ocmetricdata.LabelKey, ts []*ocmetricdata.TimeSeries) ([]metricdata.DataPoint[N], error) { var points []metricdata.DataPoint[N] var errInfo []string for _, t := range ts { attrs, err := convertAttrs(labelKeys, t.LabelValues) if err != nil { errInfo = append(errInfo, err.Error()) continue } for _, p := range t.Points { v, ok := p.Value.(N) if !ok { errInfo = append(errInfo, fmt.Sprintf("%v: %q", errMismatchedValueTypes, p.Value)) continue } points = append(points, metricdata.DataPoint[N]{ Attributes: attrs, StartTime: t.StartTime, Time: p.Time, Value: v, }) } } var aggregatedError error if len(errInfo) > 0 { aggregatedError = fmt.Errorf("%w: %v", errNumberDataPoint, errInfo) } return points, aggregatedError } // convertHistogram converts OpenCensus Distribution timeseries to an // OpenTelemetry Histogram aggregation. func convertHistogram(labelKeys []ocmetricdata.LabelKey, ts []*ocmetricdata.TimeSeries) (metricdata.Histogram, error) { points := make([]metricdata.HistogramDataPoint, 0, len(ts)) var errInfo []string for _, t := range ts { attrs, err := convertAttrs(labelKeys, t.LabelValues) if err != nil { errInfo = append(errInfo, err.Error()) continue } for _, p := range t.Points { dist, ok := p.Value.(*ocmetricdata.Distribution) if !ok { errInfo = append(errInfo, fmt.Sprintf("%v: %d", errMismatchedValueTypes, p.Value)) continue } bucketCounts, err := convertBucketCounts(dist.Buckets) if err != nil { errInfo = append(errInfo, err.Error()) continue } if dist.Count < 0 { errInfo = append(errInfo, fmt.Sprintf("%v: %d", errNegativeDistributionCount, dist.Count)) continue } // TODO: handle exemplars points = append(points, metricdata.HistogramDataPoint{ Attributes: attrs, StartTime: t.StartTime, Time: p.Time, Count: uint64(dist.Count), Sum: dist.Sum, Bounds: dist.BucketOptions.Bounds, BucketCounts: bucketCounts, }) } } var aggregatedError error if len(errInfo) > 0 { aggregatedError = fmt.Errorf("%w: %v", errHistogramDataPoint, errInfo) } return metricdata.Histogram{DataPoints: points, Temporality: metricdata.CumulativeTemporality}, aggregatedError } // convertBucketCounts converts from OpenCensus bucket counts to slice of uint64. func convertBucketCounts(buckets []ocmetricdata.Bucket) ([]uint64, error) { bucketCounts := make([]uint64, len(buckets)) for i, bucket := range buckets { if bucket.Count < 0 { return nil, fmt.Errorf("%w: %q", errNegativeBucketCount, bucket.Count) } bucketCounts[i] = uint64(bucket.Count) } return bucketCounts, nil } // convertAttrs converts from OpenCensus attribute keys and values to an // OpenTelemetry attribute Set. func convertAttrs(keys []ocmetricdata.LabelKey, values []ocmetricdata.LabelValue) (attribute.Set, error) { if len(keys) != len(values) { return attribute.NewSet(), fmt.Errorf("%w: keys(%q) values(%q)", errMismatchedAttributeKeyValues, len(keys), len(values)) } attrs := []attribute.KeyValue{} for i, lv := range values { if !lv.Present { continue } attrs = append(attrs, attribute.KeyValue{ Key: attribute.Key(keys[i].Key), Value: attribute.StringValue(lv.Value), }) } return attribute.NewSet(attrs...), nil } // convertUnit converts from the OpenCensus unit to OpenTelemetry unit. func convertUnit(u ocmetricdata.Unit) unit.Unit { switch u { case ocmetricdata.UnitDimensionless: return unit.Dimensionless case ocmetricdata.UnitBytes: return unit.Bytes case ocmetricdata.UnitMilliseconds: return unit.Milliseconds } return unit.Unit(string(u)) }