package instana import ( bt "github.com/opentracing/basictracer-go" opentracing "github.com/opentracing/opentracing-go" ) // Tracer extends the opentracing.Tracer interface type Tracer interface { opentracing.Tracer // Options gets the Options used in New() or NewWithOptions(). Options() TracerOptions } // TracerOptions allows creating a customized Tracer via NewWithOptions. The object // must not be updated when there is an active tracer using it. type TracerOptions struct { // ShouldSample is a function which is called when creating a new Span and // determines whether that Span is sampled. The randomized TraceID is supplied // to allow deterministic sampling decisions to be made across different nodes. // For example, // // func(traceID uint64) { return traceID % 64 == 0 } // // samples every 64th trace on average. ShouldSample func(traceID int64) bool // TrimUnsampledSpans turns potentially expensive operations on unsampled // Spans into no-ops. More precisely, tags and log events are silently // discarded. If NewSpanEventListener is set, the callbacks will still fire. TrimUnsampledSpans bool // Recorder receives Spans which have been finished. Recorder SpanRecorder // NewSpanEventListener can be used to enhance the tracer by effectively // attaching external code to trace events. See NetTraceIntegrator for a // practical example, and event.go for the list of possible events. NewSpanEventListener func() func(bt.SpanEvent) // DropAllLogs turns log events on all Spans into no-ops. // If NewSpanEventListener is set, the callbacks will still fire. DropAllLogs bool // MaxLogsPerSpan limits the number of Logs in a span (if set to a nonzero // value). If a span has more logs than this value, logs are dropped as // necessary (and replaced with a log describing how many were dropped). // // About half of the MaxLogPerSpan logs kept are the oldest logs, and about // half are the newest logs. // // If NewSpanEventListener is set, the callbacks will still fire for all log // events. This value is ignored if DropAllLogs is true. MaxLogsPerSpan int // DebugAssertSingleGoroutine internally records the ID of the goroutine // creating each Span and verifies that no operation is carried out on // it on a different goroutine. // Provided strictly for development purposes. // Passing Spans between goroutine without proper synchronization often // results in use-after-Finish() errors. For a simple example, consider the // following pseudocode: // // func (s *Server) Handle(req http.Request) error { // sp := s.StartSpan("server") // defer sp.Finish() // wait := s.queueProcessing(opentracing.ContextWithSpan(context.Background(), sp), req) // select { // case resp := <-wait: // return resp.Error // case <-time.After(10*time.Second): // sp.LogEvent("timed out waiting for processing") // return ErrTimedOut // } // } // // This looks reasonable at first, but a request which spends more than ten // seconds in the queue is abandoned by the main goroutine and its trace // finished, leading to use-after-finish when the request is finally // processed. Note also that even joining on to a finished Span via // StartSpanWithOptions constitutes an illegal operation. // // Code bases which do not require (or decide they do not want) Spans to // be passed across goroutine boundaries can run with this flag enabled in // tests to increase their chances of spotting wrong-doers. DebugAssertSingleGoroutine bool // DebugAssertUseAfterFinish is provided strictly for development purposes. // When set, it attempts to exacerbate issues emanating from use of Spans // after calling Finish by running additional assertions. DebugAssertUseAfterFinish bool // EnableSpanPool enables the use of a pool, so that the tracer reuses spans // after Finish has been called on it. Adds a slight performance gain as it // reduces allocations. However, if you have any use-after-finish race // conditions the code may panic. EnableSpanPool bool }