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luet/vendor/go.opencensus.io/trace/trace_api.go
Itxaka 4adc0dc9b9
Use goreleaser to build and release (#244) 
Instead of using gox on one side and an action to release, we can merge
them together with goreleaser which will build for extra targets (arm,
mips if needed in the future) and it also takes care of creating
checksums, a source archive, and a changelog and creating a release with
all the artifacts.

All binaries should respect the old naming convention, so any scripts
out there should still work.

Signed-off-by: Itxaka <igarcia@suse.com>
2021-08-11 08:30:55 +02:00

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// Copyright 2020, OpenCensus 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 (
"context"
)
// DefaultTracer is the tracer used when package-level exported functions are invoked.
var DefaultTracer Tracer = &tracer{}
// Tracer can start spans and access context functions.
type Tracer interface {
// StartSpan starts a new child span of the current span in the context. If
// there is no span in the context, creates a new trace and span.
//
// Returned context contains the newly created span. You can use it to
// propagate the returned span in process.
StartSpan(ctx context.Context, name string, o ...StartOption) (context.Context, *Span)
// StartSpanWithRemoteParent starts a new child span of the span from the given parent.
//
// If the incoming context contains a parent, it ignores. StartSpanWithRemoteParent is
// preferred for cases where the parent is propagated via an incoming request.
//
// Returned context contains the newly created span. You can use it to
// propagate the returned span in process.
StartSpanWithRemoteParent(ctx context.Context, name string, parent SpanContext, o ...StartOption) (context.Context, *Span)
// FromContext returns the Span stored in a context, or nil if there isn't one.
FromContext(ctx context.Context) *Span
// NewContext returns a new context with the given Span attached.
NewContext(parent context.Context, s *Span) context.Context
}
// StartSpan starts a new child span of the current span in the context. If
// there is no span in the context, creates a new trace and span.
//
// Returned context contains the newly created span. You can use it to
// propagate the returned span in process.
func StartSpan(ctx context.Context, name string, o ...StartOption) (context.Context, *Span) {
return DefaultTracer.StartSpan(ctx, name, o...)
}
// StartSpanWithRemoteParent starts a new child span of the span from the given parent.
//
// If the incoming context contains a parent, it ignores. StartSpanWithRemoteParent is
// preferred for cases where the parent is propagated via an incoming request.
//
// Returned context contains the newly created span. You can use it to
// propagate the returned span in process.
func StartSpanWithRemoteParent(ctx context.Context, name string, parent SpanContext, o ...StartOption) (context.Context, *Span) {
return DefaultTracer.StartSpanWithRemoteParent(ctx, name, parent, o...)
}
// FromContext returns the Span stored in a context, or a Span that is not
// recording events if there isn't one.
func FromContext(ctx context.Context) *Span {
return DefaultTracer.FromContext(ctx)
}
// NewContext returns a new context with the given Span attached.
func NewContext(parent context.Context, s *Span) context.Context {
return DefaultTracer.NewContext(parent, s)
}
// SpanInterface represents a span of a trace. It has an associated SpanContext, and
// stores data accumulated while the span is active.
//
// Ideally users should interact with Spans by calling the functions in this
// package that take a Context parameter.
type SpanInterface interface {
// IsRecordingEvents returns true if events are being recorded for this span.
// Use this check to avoid computing expensive annotations when they will never
// be used.
IsRecordingEvents() bool
// End ends the span.
End()
// SpanContext returns the SpanContext of the span.
SpanContext() SpanContext
// SetName sets the name of the span, if it is recording events.
SetName(name string)
// SetStatus sets the status of the span, if it is recording events.
SetStatus(status Status)
// AddAttributes sets attributes in the span.
//
// Existing attributes whose keys appear in the attributes parameter are overwritten.
AddAttributes(attributes ...Attribute)
// Annotate adds an annotation with attributes.
// Attributes can be nil.
Annotate(attributes []Attribute, str string)
// Annotatef adds an annotation with attributes.
Annotatef(attributes []Attribute, format string, a ...interface{})
// AddMessageSendEvent adds a message send event to the span.
//
// messageID is an identifier for the message, which is recommended to be
// unique in this span and the same between the send event and the receive
// event (this allows to identify a message between the sender and receiver).
// For example, this could be a sequence id.
AddMessageSendEvent(messageID, uncompressedByteSize, compressedByteSize int64)
// AddMessageReceiveEvent adds a message receive event to the span.
//
// messageID is an identifier for the message, which is recommended to be
// unique in this span and the same between the send event and the receive
// event (this allows to identify a message between the sender and receiver).
// For example, this could be a sequence id.
AddMessageReceiveEvent(messageID, uncompressedByteSize, compressedByteSize int64)
// AddLink adds a link to the span.
AddLink(l Link)
// String prints a string representation of a span.
String() string
}
// NewSpan is a convenience function for creating a *Span out of a *span
func NewSpan(s SpanInterface) *Span {
return &Span{internal: s}
}
// Span is a struct wrapper around the SpanInt interface, which allows correctly handling
// nil spans, while also allowing the SpanInterface implementation to be swapped out.
type Span struct {
internal SpanInterface
}
// Internal returns the underlying implementation of the Span
func (s *Span) Internal() SpanInterface {
return s.internal
}
// IsRecordingEvents returns true if events are being recorded for this span.
// Use this check to avoid computing expensive annotations when they will never
// be used.
func (s *Span) IsRecordingEvents() bool {
if s == nil {
return false
}
return s.internal.IsRecordingEvents()
}
// End ends the span.
func (s *Span) End() {
if s == nil {
return
}
s.internal.End()
}
// SpanContext returns the SpanContext of the span.
func (s *Span) SpanContext() SpanContext {
if s == nil {
return SpanContext{}
}
return s.internal.SpanContext()
}
// SetName sets the name of the span, if it is recording events.
func (s *Span) SetName(name string) {
if !s.IsRecordingEvents() {
return
}
s.internal.SetName(name)
}
// SetStatus sets the status of the span, if it is recording events.
func (s *Span) SetStatus(status Status) {
if !s.IsRecordingEvents() {
return
}
s.internal.SetStatus(status)
}
// AddAttributes sets attributes in the span.
//
// Existing attributes whose keys appear in the attributes parameter are overwritten.
func (s *Span) AddAttributes(attributes ...Attribute) {
if !s.IsRecordingEvents() {
return
}
s.internal.AddAttributes(attributes...)
}
// Annotate adds an annotation with attributes.
// Attributes can be nil.
func (s *Span) Annotate(attributes []Attribute, str string) {
if !s.IsRecordingEvents() {
return
}
s.internal.Annotate(attributes, str)
}
// Annotatef adds an annotation with attributes.
func (s *Span) Annotatef(attributes []Attribute, format string, a ...interface{}) {
if !s.IsRecordingEvents() {
return
}
s.internal.Annotatef(attributes, format, a...)
}
// AddMessageSendEvent adds a message send event to the span.
//
// messageID is an identifier for the message, which is recommended to be
// unique in this span and the same between the send event and the receive
// event (this allows to identify a message between the sender and receiver).
// For example, this could be a sequence id.
func (s *Span) AddMessageSendEvent(messageID, uncompressedByteSize, compressedByteSize int64) {
if !s.IsRecordingEvents() {
return
}
s.internal.AddMessageSendEvent(messageID, uncompressedByteSize, compressedByteSize)
}
// AddMessageReceiveEvent adds a message receive event to the span.
//
// messageID is an identifier for the message, which is recommended to be
// unique in this span and the same between the send event and the receive
// event (this allows to identify a message between the sender and receiver).
// For example, this could be a sequence id.
func (s *Span) AddMessageReceiveEvent(messageID, uncompressedByteSize, compressedByteSize int64) {
if !s.IsRecordingEvents() {
return
}
s.internal.AddMessageReceiveEvent(messageID, uncompressedByteSize, compressedByteSize)
}
// AddLink adds a link to the span.
func (s *Span) AddLink(l Link) {
if !s.IsRecordingEvents() {
return
}
s.internal.AddLink(l)
}
// String prints a string representation of a span.
func (s *Span) String() string {
if s == nil {
return "<nil>"
}
return s.internal.String()
}
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