// 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. package trace // import "go.opentelemetry.io/otel/sdk/trace" import ( "context" "time" "go.opentelemetry.io/otel/trace" "go.opentelemetry.io/otel/sdk/instrumentation" ) type tracer struct { provider *TracerProvider instrumentationLibrary instrumentation.Library } var _ trace.Tracer = &tracer{} // Start starts a Span and returns it along with a context containing it. // // The Span is created with the provided name and as a child of any existing // span context found in the passed context. The created Span will be // configured appropriately by any SpanOption passed. func (tr *tracer) Start(ctx context.Context, name string, options ...trace.SpanStartOption) (context.Context, trace.Span) { config := trace.NewSpanStartConfig(options...) // For local spans created by this SDK, track child span count. if p := trace.SpanFromContext(ctx); p != nil { if sdkSpan, ok := p.(*recordingSpan); ok { sdkSpan.addChild() } } s := tr.newSpan(ctx, name, &config) if rw, ok := s.(ReadWriteSpan); ok && s.IsRecording() { sps, _ := tr.provider.spanProcessors.Load().(spanProcessorStates) for _, sp := range sps { sp.sp.OnStart(ctx, rw) } } if rtt, ok := s.(runtimeTracer); ok { ctx = rtt.runtimeTrace(ctx) } return trace.ContextWithSpan(ctx, s), s } type runtimeTracer interface { // runtimeTrace starts a "runtime/trace".Task for the span and // returns a context containing the task. runtimeTrace(ctx context.Context) context.Context } // newSpan returns a new configured span. func (tr *tracer) newSpan(ctx context.Context, name string, config *trace.SpanConfig) trace.Span { // If told explicitly to make this a new root use a zero value SpanContext // as a parent which contains an invalid trace ID and is not remote. var psc trace.SpanContext if config.NewRoot() { ctx = trace.ContextWithSpanContext(ctx, psc) } else { psc = trace.SpanContextFromContext(ctx) } // If there is a valid parent trace ID, use it to ensure the continuity of // the trace. Always generate a new span ID so other components can rely // on a unique span ID, even if the Span is non-recording. var tid trace.TraceID var sid trace.SpanID if !psc.TraceID().IsValid() { tid, sid = tr.provider.idGenerator.NewIDs(ctx) } else { tid = psc.TraceID() sid = tr.provider.idGenerator.NewSpanID(ctx, tid) } samplingResult := tr.provider.sampler.ShouldSample(SamplingParameters{ ParentContext: ctx, TraceID: tid, Name: name, Kind: config.SpanKind(), Attributes: config.Attributes(), Links: config.Links(), }) scc := trace.SpanContextConfig{ TraceID: tid, SpanID: sid, TraceState: samplingResult.Tracestate, } if isSampled(samplingResult) { scc.TraceFlags = psc.TraceFlags() | trace.FlagsSampled } else { scc.TraceFlags = psc.TraceFlags() &^ trace.FlagsSampled } sc := trace.NewSpanContext(scc) if !isRecording(samplingResult) { return tr.newNonRecordingSpan(sc) } return tr.newRecordingSpan(psc, sc, name, samplingResult, config) } // newRecordingSpan returns a new configured recordingSpan. func (tr *tracer) newRecordingSpan(psc, sc trace.SpanContext, name string, sr SamplingResult, config *trace.SpanConfig) *recordingSpan { startTime := config.Timestamp() if startTime.IsZero() { startTime = time.Now() } s := &recordingSpan{ parent: psc, spanContext: sc, spanKind: trace.ValidateSpanKind(config.SpanKind()), name: name, startTime: startTime, attributes: newAttributesMap(tr.provider.spanLimits.AttributeCountLimit), events: newEvictedQueue(tr.provider.spanLimits.EventCountLimit), links: newEvictedQueue(tr.provider.spanLimits.LinkCountLimit), tracer: tr, spanLimits: tr.provider.spanLimits, resource: tr.provider.resource, instrumentationLibrary: tr.instrumentationLibrary, } for _, l := range config.Links() { s.addLink(l) } s.SetAttributes(sr.Attributes...) s.SetAttributes(config.Attributes()...) return s } // newNonRecordingSpan returns a new configured nonRecordingSpan. func (tr *tracer) newNonRecordingSpan(sc trace.SpanContext) nonRecordingSpan { return nonRecordingSpan{tracer: tr, sc: sc} }