traefik/vendor/gopkg.in/DataDog/dd-trace-go.v1/ddtrace/ddtrace.go
2019-06-12 02:54:03 +02:00

121 lines
5.2 KiB
Go

// Package ddtrace contains the interfaces that specify the implementations of Datadog's
// tracing library, as well as a set of sub-packages containing various implementations:
// our native implementation ("tracer"), a wrapper that can be used with Opentracing
// ("opentracer") and a mock tracer to be used for testing ("mocktracer"). Additionally,
// package "ext" provides a set of tag names and values specific to Datadog's APM product.
//
// To get started, visit the documentation for any of the packages you'd like to begin
// with by accessing the subdirectories of this package: https://godoc.org/gopkg.in/DataDog/dd-trace-go.v1/ddtrace#pkg-subdirectories.
package ddtrace // import "gopkg.in/DataDog/dd-trace-go.v1/ddtrace"
import "time"
// Tracer specifies an implementation of the Datadog tracer which allows starting
// and propagating spans. The official implementation if exposed as functions
// within the "tracer" package.
type Tracer interface {
// StartSpan starts a span with the given operation name and options.
StartSpan(operationName string, opts ...StartSpanOption) Span
// Extract extracts a span context from a given carrier. Note that baggage item
// keys will always be lower-cased to maintain consistency. It is impossible to
// maintain the original casing due to MIME header canonicalization standards.
Extract(carrier interface{}) (SpanContext, error)
// Inject injects a span context into the given carrier.
Inject(context SpanContext, carrier interface{}) error
// Stop stops the active tracer and sets the global tracer to a no-op. Calls to
// Stop should be idempotent.
Stop()
}
// Span represents a chunk of computation time. Spans have names, durations,
// timestamps and other metadata. A Tracer is used to create hierarchies of
// spans in a request, buffer and submit them to the server.
type Span interface {
// SetTag sets a key/value pair as metadata on the span.
SetTag(key string, value interface{})
// SetOperationName sets the operation name for this span. An operation name should be
// a representative name for a group of spans (e.g. "grpc.server" or "http.request").
SetOperationName(operationName string)
// BaggageItem returns the baggage item held by the given key.
BaggageItem(key string) string
// SetBaggageItem sets a new baggage item at the given key. The baggage
// item should propagate to all descendant spans, both in- and cross-process.
SetBaggageItem(key, val string)
// Finish finishes the current span with the given options. Finish calls should be idempotent.
Finish(opts ...FinishOption)
// Context returns the SpanContext of this Span.
Context() SpanContext
}
// SpanContext represents a span state that can propagate to descendant spans
// and across process boundaries. It contains all the information needed to
// spawn a direct descendant of the span that it belongs to. It can be used
// to create distributed tracing by propagating it using the provided interfaces.
type SpanContext interface {
// SpanID returns the span ID that this context is carrying.
SpanID() uint64
// TraceID returns the trace ID that this context is carrying.
TraceID() uint64
// ForeachBaggageItem provides an iterator over the key/value pairs set as
// baggage within this context. Iteration stops when the handler returns
// false.
ForeachBaggageItem(handler func(k, v string) bool)
}
// StartSpanOption is a configuration option that can be used with a Tracer's StartSpan method.
type StartSpanOption func(cfg *StartSpanConfig)
// FinishOption is a configuration option that can be used with a Span's Finish method.
type FinishOption func(cfg *FinishConfig)
// FinishConfig holds the configuration for finishing a span. It is usually passed around by
// reference to one or more FinishOption functions which shape it into its final form.
type FinishConfig struct {
// FinishTime represents the time that should be set as finishing time for the
// span. Implementations should use the current time when FinishTime.IsZero().
FinishTime time.Time
// Error holds an optional error that should be set on the span before
// finishing.
Error error
// NoDebugStack will prevent any set errors from generating an attached stack trace tag.
NoDebugStack bool
// StackFrames specifies the number of stack frames to be attached in spans that finish with errors.
StackFrames uint
// SkipStackFrames specifies the offset at which to start reporting stack frames from the stack.
SkipStackFrames uint
}
// StartSpanConfig holds the configuration for starting a new span. It is usually passed
// around by reference to one or more StartSpanOption functions which shape it into its
// final form.
type StartSpanConfig struct {
// Parent holds the SpanContext that should be used as a parent for the
// new span. If nil, implementations should return a root span.
Parent SpanContext
// StartTime holds the time that should be used as the start time of the span.
// Implementations should use the current time when StartTime.IsZero().
StartTime time.Time
// Tags holds a set of key/value pairs that should be set as metadata on the
// new span.
Tags map[string]interface{}
// Force-set the SpanID, rather than use a random number. If no Parent SpanContext is present,
// then this will also set the TraceID to the same value.
SpanID uint64
}