// Package tracer contains Datadog's core tracing client. It is used to trace // requests as they flow across web servers, databases and microservices, giving // developers visibility into bottlenecks and troublesome requests. To start the // tracer, simply call the start method along with an optional set of options. // By default, the trace agent is considered to be found at "localhost:8126". In a // setup where this would be different (let's say 127.0.0.1:1234), we could do: // tracer.Start(tracer.WithAgentAddr("127.0.0.1:1234")) // defer tracer.Stop() // // The tracing client can perform trace sampling. While the trace agent // already samples traces to reduce bandwidth usage, client sampling reduces // performance overhead. To make use of it, the package comes with a ready-to-use // rate sampler that can be passed to the tracer. To use it and keep only 30% of the // requests, one would do: // s := tracer.NewRateSampler(0.3) // tracer.Start(tracer.WithSampler(s)) // // All spans created by the tracer contain a context hereby referred to as the span // context. Note that this is different from Go's context. The span context is used // to package essential information from a span, which is needed when creating child // spans that inherit from it. Thus, a child span is created from a span's span context. // The span context can originate from within the same process, but also a // different process or even a different machine in the case of distributed tracing. // // To make use of distributed tracing, a span's context may be injected via a carrier // into a transport (HTTP, RPC, etc.) to be extracted on the other end and used to // create spans that are direct descendants of it. A couple of carrier interfaces // which should cover most of the use-case scenarios are readily provided, such as // HTTPCarrier and TextMapCarrier. Users are free to create their own, which will work // with our propagation algorithm as long as they implement the TextMapReader and TextMapWriter // interfaces. An example alternate implementation is the MDCarrier in our gRPC integration. // // As an example, injecting a span's context into an HTTP request would look like this: // req, err := http.NewRequest("GET", "http://example.com", nil) // // ... // err := tracer.Inject(span.Context(), tracer.HTTPHeadersCarrier(req.Header)) // // ... // http.DefaultClient.Do(req) // Then, on the server side, to continue the trace one would do: // sctx, err := tracer.Extract(tracer.HTTPHeadersCarrier(req.Header)) // // ... // span := tracer.StartSpan("child.span", tracer.ChildOf(sctx)) // In the same manner, any means can be used as a carrier to inject a context into a transport. Go's // context can also be used as a means to transport spans within the same process. The methods // StartSpanFromContext, ContextWithSpan and SpanFromContext exist for this reason. // // Some libraries and frameworks are supported out-of-the-box by using one // of our integrations. You can see a list of supported integrations here: // https://godoc.org/gopkg.in/DataDog/dd-trace-go.v1/contrib package tracer // import "gopkg.in/DataDog/dd-trace-go.v1/ddtrace/tracer"