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// Copyright The OpenTelemetry Authors
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// SPDX-License-Identifier: Apache-2.0
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package trace // import "go.opentelemetry.io/otel/sdk/trace"
import (
"context"
"fmt"
"reflect"
"runtime"
rt "runtime/trace"
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"slices"
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"strings"
"sync"
"time"
"unicode/utf8"
"go.opentelemetry.io/otel/attribute"
"go.opentelemetry.io/otel/codes"
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"go.opentelemetry.io/otel/internal/global"
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"go.opentelemetry.io/otel/sdk/instrumentation"
"go.opentelemetry.io/otel/sdk/resource"
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semconv "go.opentelemetry.io/otel/semconv/v1.26.0"
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"go.opentelemetry.io/otel/trace"
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"go.opentelemetry.io/otel/trace/embedded"
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)
// ReadOnlySpan allows reading information from the data structure underlying a
// trace.Span. It is used in places where reading information from a span is
// necessary but changing the span isn't necessary or allowed.
//
// Warning: methods may be added to this interface in minor releases.
type ReadOnlySpan interface {
// Name returns the name of the span.
Name ( ) string
// SpanContext returns the unique SpanContext that identifies the span.
SpanContext ( ) trace . SpanContext
// Parent returns the unique SpanContext that identifies the parent of the
// span if one exists. If the span has no parent the returned SpanContext
// will be invalid.
Parent ( ) trace . SpanContext
// SpanKind returns the role the span plays in a Trace.
SpanKind ( ) trace . SpanKind
// StartTime returns the time the span started recording.
StartTime ( ) time . Time
// EndTime returns the time the span stopped recording. It will be zero if
// the span has not ended.
EndTime ( ) time . Time
// Attributes returns the defining attributes of the span.
// The order of the returned attributes is not guaranteed to be stable across invocations.
Attributes ( ) [ ] attribute . KeyValue
// Links returns all the links the span has to other spans.
Links ( ) [ ] Link
// Events returns all the events that occurred within in the spans
// lifetime.
Events ( ) [ ] Event
// Status returns the spans status.
Status ( ) Status
// InstrumentationScope returns information about the instrumentation
// scope that created the span.
InstrumentationScope ( ) instrumentation . Scope
// InstrumentationLibrary returns information about the instrumentation
// library that created the span.
// Deprecated: please use InstrumentationScope instead.
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InstrumentationLibrary ( ) instrumentation . Library //nolint:staticcheck // This method needs to be define for backwards compatibility
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// Resource returns information about the entity that produced the span.
Resource ( ) * resource . Resource
// DroppedAttributes returns the number of attributes dropped by the span
// due to limits being reached.
DroppedAttributes ( ) int
// DroppedLinks returns the number of links dropped by the span due to
// limits being reached.
DroppedLinks ( ) int
// DroppedEvents returns the number of events dropped by the span due to
// limits being reached.
DroppedEvents ( ) int
// ChildSpanCount returns the count of spans that consider the span a
// direct parent.
ChildSpanCount ( ) int
// A private method to prevent users implementing the
// interface and so future additions to it will not
// violate compatibility.
private ( )
}
// ReadWriteSpan exposes the same methods as trace.Span and in addition allows
// reading information from the underlying data structure.
// This interface exposes the union of the methods of trace.Span (which is a
// "write-only" span) and ReadOnlySpan. New methods for writing or reading span
// information should be added under trace.Span or ReadOnlySpan, respectively.
//
// Warning: methods may be added to this interface in minor releases.
type ReadWriteSpan interface {
trace . Span
ReadOnlySpan
}
// recordingSpan is an implementation of the OpenTelemetry Span API
// representing the individual component of a trace that is sampled.
type recordingSpan struct {
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embedded . Span
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// mu protects the contents of this span.
mu sync . Mutex
// parent holds the parent span of this span as a trace.SpanContext.
parent trace . SpanContext
// spanKind represents the kind of this span as a trace.SpanKind.
spanKind trace . SpanKind
// name is the name of this span.
name string
// startTime is the time at which this span was started.
startTime time . Time
// endTime is the time at which this span was ended. It contains the zero
// value of time.Time until the span is ended.
endTime time . Time
// status is the status of this span.
status Status
// childSpanCount holds the number of child spans created for this span.
childSpanCount int
// spanContext holds the SpanContext of this span.
spanContext trace . SpanContext
// attributes is a collection of user provided key/values. The collection
// is constrained by a configurable maximum held by the parent
// TracerProvider. When additional attributes are added after this maximum
// is reached these attributes the user is attempting to add are dropped.
// This dropped number of attributes is tracked and reported in the
// ReadOnlySpan exported when the span ends.
attributes [ ] attribute . KeyValue
droppedAttributes int
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logDropAttrsOnce sync . Once
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// events are stored in FIFO queue capped by configured limit.
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events evictedQueue [ Event ]
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// links are stored in FIFO queue capped by configured limit.
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links evictedQueue [ Link ]
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// executionTracerTaskEnd ends the execution tracer span.
executionTracerTaskEnd func ( )
// tracer is the SDK tracer that created this span.
tracer * tracer
}
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var (
_ ReadWriteSpan = ( * recordingSpan ) ( nil )
_ runtimeTracer = ( * recordingSpan ) ( nil )
)
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// SpanContext returns the SpanContext of this span.
func ( s * recordingSpan ) SpanContext ( ) trace . SpanContext {
if s == nil {
return trace . SpanContext { }
}
return s . spanContext
}
// IsRecording returns if this span is being recorded. If this span has ended
// this will return false.
func ( s * recordingSpan ) IsRecording ( ) bool {
if s == nil {
return false
}
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . endTime . IsZero ( )
}
// SetStatus sets the status of the Span in the form of a code and a
// description, overriding previous values set. The description is only
// included in the set status when the code is for an error. If this span is
// not being recorded than this method does nothing.
func ( s * recordingSpan ) SetStatus ( code codes . Code , description string ) {
if ! s . IsRecording ( ) {
return
}
s . mu . Lock ( )
defer s . mu . Unlock ( )
if s . status . Code > code {
return
}
status := Status { Code : code }
if code == codes . Error {
status . Description = description
}
s . status = status
}
// SetAttributes sets attributes of this span.
//
// If a key from attributes already exists the value associated with that key
// will be overwritten with the value contained in attributes.
//
// If this span is not being recorded than this method does nothing.
//
// If adding attributes to the span would exceed the maximum amount of
// attributes the span is configured to have, the last added attributes will
// be dropped.
func ( s * recordingSpan ) SetAttributes ( attributes ... attribute . KeyValue ) {
if ! s . IsRecording ( ) {
return
}
s . mu . Lock ( )
defer s . mu . Unlock ( )
limit := s . tracer . provider . spanLimits . AttributeCountLimit
if limit == 0 {
// No attributes allowed.
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s . addDroppedAttr ( len ( attributes ) )
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return
}
// If adding these attributes could exceed the capacity of s perform a
// de-duplication and truncation while adding to avoid over allocation.
if limit > 0 && len ( s . attributes ) + len ( attributes ) > limit {
s . addOverCapAttrs ( limit , attributes )
return
}
// Otherwise, add without deduplication. When attributes are read they
// will be deduplicated, optimizing the operation.
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s . attributes = slices . Grow ( s . attributes , len ( s . attributes ) + len ( attributes ) )
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for _ , a := range attributes {
if ! a . Valid ( ) {
// Drop all invalid attributes.
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s . addDroppedAttr ( 1 )
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continue
}
a = truncateAttr ( s . tracer . provider . spanLimits . AttributeValueLengthLimit , a )
s . attributes = append ( s . attributes , a )
}
}
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// Declared as a var so tests can override.
var logDropAttrs = func ( ) {
global . Warn ( "limit reached: dropping trace Span attributes" )
}
// addDroppedAttr adds incr to the count of dropped attributes.
//
// The first, and only the first, time this method is called a warning will be
// logged.
//
// This method assumes s.mu.Lock is held by the caller.
func ( s * recordingSpan ) addDroppedAttr ( incr int ) {
s . droppedAttributes += incr
s . logDropAttrsOnce . Do ( logDropAttrs )
}
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// addOverCapAttrs adds the attributes attrs to the span s while
// de-duplicating the attributes of s and attrs and dropping attributes that
// exceed the limit.
//
// This method assumes s.mu.Lock is held by the caller.
//
// This method should only be called when there is a possibility that adding
// attrs to s will exceed the limit. Otherwise, attrs should be added to s
// without checking for duplicates and all retrieval methods of the attributes
// for s will de-duplicate as needed.
//
// This method assumes limit is a value > 0. The argument should be validated
// by the caller.
func ( s * recordingSpan ) addOverCapAttrs ( limit int , attrs [ ] attribute . KeyValue ) {
// In order to not allocate more capacity to s.attributes than needed,
// prune and truncate this addition of attributes while adding.
// Do not set a capacity when creating this map. Benchmark testing has
// showed this to only add unused memory allocations in general use.
exists := make ( map [ attribute . Key ] int )
s . dedupeAttrsFromRecord ( & exists )
// Now that s.attributes is deduplicated, adding unique attributes up to
// the capacity of s will not over allocate s.attributes.
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sum := len ( attrs ) + len ( s . attributes )
s . attributes = slices . Grow ( s . attributes , min ( sum , limit ) )
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for _ , a := range attrs {
if ! a . Valid ( ) {
// Drop all invalid attributes.
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s . addDroppedAttr ( 1 )
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continue
}
if idx , ok := exists [ a . Key ] ; ok {
// Perform all updates before dropping, even when at capacity.
s . attributes [ idx ] = a
continue
}
if len ( s . attributes ) >= limit {
// Do not just drop all of the remaining attributes, make sure
// updates are checked and performed.
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s . addDroppedAttr ( 1 )
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} else {
a = truncateAttr ( s . tracer . provider . spanLimits . AttributeValueLengthLimit , a )
s . attributes = append ( s . attributes , a )
exists [ a . Key ] = len ( s . attributes ) - 1
}
}
}
// truncateAttr returns a truncated version of attr. Only string and string
// slice attribute values are truncated. String values are truncated to at
// most a length of limit. Each string slice value is truncated in this fashion
// (the slice length itself is unaffected).
//
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// No truncation is performed for a negative limit.
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func truncateAttr ( limit int , attr attribute . KeyValue ) attribute . KeyValue {
if limit < 0 {
return attr
}
switch attr . Value . Type ( ) {
case attribute . STRING :
if v := attr . Value . AsString ( ) ; len ( v ) > limit {
return attr . Key . String ( safeTruncate ( v , limit ) )
}
case attribute . STRINGSLICE :
v := attr . Value . AsStringSlice ( )
for i := range v {
if len ( v [ i ] ) > limit {
v [ i ] = safeTruncate ( v [ i ] , limit )
}
}
return attr . Key . StringSlice ( v )
}
return attr
}
// safeTruncate truncates the string and guarantees valid UTF-8 is returned.
func safeTruncate ( input string , limit int ) string {
if trunc , ok := safeTruncateValidUTF8 ( input , limit ) ; ok {
return trunc
}
trunc , _ := safeTruncateValidUTF8 ( strings . ToValidUTF8 ( input , "" ) , limit )
return trunc
}
// safeTruncateValidUTF8 returns a copy of the input string safely truncated to
// limit. The truncation is ensured to occur at the bounds of complete UTF-8
// characters. If invalid encoding of UTF-8 is encountered, input is returned
// with false, otherwise, the truncated input will be returned with true.
func safeTruncateValidUTF8 ( input string , limit int ) ( string , bool ) {
for cnt := 0 ; cnt <= limit ; {
r , size := utf8 . DecodeRuneInString ( input [ cnt : ] )
if r == utf8 . RuneError {
return input , false
}
if cnt + size > limit {
return input [ : cnt ] , true
}
cnt += size
}
return input , true
}
// End ends the span. This method does nothing if the span is already ended or
// is not being recorded.
//
// The only SpanOption currently supported is WithTimestamp which will set the
// end time for a Span's life-cycle.
//
// If this method is called while panicking an error event is added to the
// Span before ending it and the panic is continued.
func ( s * recordingSpan ) End ( options ... trace . SpanEndOption ) {
// Do not start by checking if the span is being recorded which requires
// acquiring a lock. Make a minimal check that the span is not nil.
if s == nil {
return
}
// Store the end time as soon as possible to avoid artificially increasing
// the span's duration in case some operation below takes a while.
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et := monotonicEndTime ( s . startTime )
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// Do relative expensive check now that we have an end time and see if we
// need to do any more processing.
if ! s . IsRecording ( ) {
return
}
config := trace . NewSpanEndConfig ( options ... )
if recovered := recover ( ) ; recovered != nil {
// Record but don't stop the panic.
defer panic ( recovered )
opts := [ ] trace . EventOption {
trace . WithAttributes (
semconv . ExceptionType ( typeStr ( recovered ) ) ,
semconv . ExceptionMessage ( fmt . Sprint ( recovered ) ) ,
) ,
}
if config . StackTrace ( ) {
opts = append ( opts , trace . WithAttributes (
semconv . ExceptionStacktrace ( recordStackTrace ( ) ) ,
) )
}
s . addEvent ( semconv . ExceptionEventName , opts ... )
}
if s . e xecutionTracerTaskEnd != nil {
s . executionTracerTaskEnd ( )
}
s . mu . Lock ( )
// Setting endTime to non-zero marks the span as ended and not recording.
if config . Timestamp ( ) . IsZero ( ) {
s . endTime = et
} else {
s . endTime = config . Timestamp ( )
}
s . mu . Unlock ( )
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sps := s . tracer . provider . getSpanProcessors ( )
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if len ( sps ) == 0 {
return
}
snap := s . snapshot ( )
for _ , sp := range sps {
sp . sp . OnEnd ( snap )
}
}
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// monotonicEndTime returns the end time at present but offset from start,
// monotonically.
//
// The monotonic clock is used in subtractions hence the duration since start
// added back to start gives end as a monotonic time. See
// https://golang.org/pkg/time/#hdr-Monotonic_Clocks
func monotonicEndTime ( start time . Time ) time . Time {
return start . Add ( time . Since ( start ) )
}
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// RecordError will record err as a span event for this span. An additional call to
// SetStatus is required if the Status of the Span should be set to Error, this method
// does not change the Span status. If this span is not being recorded or err is nil
// than this method does nothing.
func ( s * recordingSpan ) RecordError ( err error , opts ... trace . EventOption ) {
if s == nil || err == nil || ! s . IsRecording ( ) {
return
}
opts = append ( opts , trace . WithAttributes (
semconv . ExceptionType ( typeStr ( err ) ) ,
semconv . ExceptionMessage ( err . Error ( ) ) ,
) )
c := trace . NewEventConfig ( opts ... )
if c . StackTrace ( ) {
opts = append ( opts , trace . WithAttributes (
semconv . ExceptionStacktrace ( recordStackTrace ( ) ) ,
) )
}
s . addEvent ( semconv . ExceptionEventName , opts ... )
}
func typeStr ( i interface { } ) string {
t := reflect . TypeOf ( i )
if t . PkgPath ( ) == "" && t . Name ( ) == "" {
// Likely a builtin type.
return t . String ( )
}
return fmt . Sprintf ( "%s.%s" , t . PkgPath ( ) , t . Name ( ) )
}
func recordStackTrace ( ) string {
stackTrace := make ( [ ] byte , 2048 )
n := runtime . Stack ( stackTrace , false )
return string ( stackTrace [ 0 : n ] )
}
// AddEvent adds an event with the provided name and options. If this span is
// not being recorded than this method does nothing.
func ( s * recordingSpan ) AddEvent ( name string , o ... trace . EventOption ) {
if ! s . IsRecording ( ) {
return
}
s . addEvent ( name , o ... )
}
func ( s * recordingSpan ) addEvent ( name string , o ... trace . EventOption ) {
c := trace . NewEventConfig ( o ... )
e := Event { Name : name , Attributes : c . Attributes ( ) , Time : c . Timestamp ( ) }
// Discard attributes over limit.
limit := s . tracer . provider . spanLimits . AttributePerEventCountLimit
if limit == 0 {
// Drop all attributes.
e . DroppedAttributeCount = len ( e . Attributes )
e . Attributes = nil
} else if limit > 0 && len ( e . Attributes ) > limit {
// Drop over capacity.
e . DroppedAttributeCount = len ( e . Attributes ) - limit
e . Attributes = e . Attributes [ : limit ]
}
s . mu . Lock ( )
s . events . add ( e )
s . mu . Unlock ( )
}
// SetName sets the name of this span. If this span is not being recorded than
// this method does nothing.
func ( s * recordingSpan ) SetName ( name string ) {
if ! s . IsRecording ( ) {
return
}
s . mu . Lock ( )
defer s . mu . Unlock ( )
s . name = name
}
// Name returns the name of this span.
func ( s * recordingSpan ) Name ( ) string {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . name
}
// Name returns the SpanContext of this span's parent span.
func ( s * recordingSpan ) Parent ( ) trace . SpanContext {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . parent
}
// SpanKind returns the SpanKind of this span.
func ( s * recordingSpan ) SpanKind ( ) trace . SpanKind {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . spanKind
}
// StartTime returns the time this span started.
func ( s * recordingSpan ) StartTime ( ) time . Time {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . startTime
}
// EndTime returns the time this span ended. For spans that have not yet
// ended, the returned value will be the zero value of time.Time.
func ( s * recordingSpan ) EndTime ( ) time . Time {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . endTime
}
// Attributes returns the attributes of this span.
//
// The order of the returned attributes is not guaranteed to be stable.
func ( s * recordingSpan ) Attributes ( ) [ ] attribute . KeyValue {
s . mu . Lock ( )
defer s . mu . Unlock ( )
s . dedupeAttrs ( )
return s . attributes
}
// dedupeAttrs deduplicates the attributes of s to fit capacity.
//
// This method assumes s.mu.Lock is held by the caller.
func ( s * recordingSpan ) dedupeAttrs ( ) {
// Do not set a capacity when creating this map. Benchmark testing has
// showed this to only add unused memory allocations in general use.
exists := make ( map [ attribute . Key ] int )
s . dedupeAttrsFromRecord ( & exists )
}
// dedupeAttrsFromRecord deduplicates the attributes of s to fit capacity
// using record as the record of unique attribute keys to their index.
//
// This method assumes s.mu.Lock is held by the caller.
func ( s * recordingSpan ) dedupeAttrsFromRecord ( record * map [ attribute . Key ] int ) {
// Use the fact that slices share the same backing array.
unique := s . attributes [ : 0 ]
for _ , a := range s . attributes {
if idx , ok := ( * record ) [ a . Key ] ; ok {
unique [ idx ] = a
} else {
unique = append ( unique , a )
( * record ) [ a . Key ] = len ( unique ) - 1
}
}
// s.attributes have element types of attribute.KeyValue. These types are
// not pointers and they themselves do not contain pointer fields,
// therefore the duplicate values do not need to be zeroed for them to be
// garbage collected.
s . attributes = unique
}
// Links returns the links of this span.
func ( s * recordingSpan ) Links ( ) [ ] Link {
s . mu . Lock ( )
defer s . mu . Unlock ( )
if len ( s . links . queue ) == 0 {
return [ ] Link { }
}
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return s . links . copy ( )
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}
// Events returns the events of this span.
func ( s * recordingSpan ) Events ( ) [ ] Event {
s . mu . Lock ( )
defer s . mu . Unlock ( )
if len ( s . events . queue ) == 0 {
return [ ] Event { }
}
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return s . events . copy ( )
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}
// Status returns the status of this span.
func ( s * recordingSpan ) Status ( ) Status {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . status
}
// InstrumentationScope returns the instrumentation.Scope associated with
// the Tracer that created this span.
func ( s * recordingSpan ) InstrumentationScope ( ) instrumentation . Scope {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . tracer . instrumentationScope
}
// InstrumentationLibrary returns the instrumentation.Library associated with
// the Tracer that created this span.
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func ( s * recordingSpan ) InstrumentationLibrary ( ) instrumentation . Library { //nolint:staticcheck // This method needs to be define for backwards compatibility
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s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . tracer . instrumentationScope
}
// Resource returns the Resource associated with the Tracer that created this
// span.
func ( s * recordingSpan ) Resource ( ) * resource . Resource {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . tracer . provider . resource
}
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func ( s * recordingSpan ) AddLink ( link trace . Link ) {
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if ! s . IsRecording ( ) {
return
}
if ! link . SpanContext . IsValid ( ) && len ( link . Attributes ) == 0 &&
link . SpanContext . TraceState ( ) . Len ( ) == 0 {
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return
}
l := Link { SpanContext : link . SpanContext , Attributes : link . Attributes }
// Discard attributes over limit.
limit := s . tracer . provider . spanLimits . AttributePerLinkCountLimit
if limit == 0 {
// Drop all attributes.
l . DroppedAttributeCount = len ( l . Attributes )
l . Attributes = nil
} else if limit > 0 && len ( l . Attributes ) > limit {
l . DroppedAttributeCount = len ( l . Attributes ) - limit
l . Attributes = l . Attributes [ : limit ]
}
s . mu . Lock ( )
s . links . add ( l )
s . mu . Unlock ( )
}
// DroppedAttributes returns the number of attributes dropped by the span
// due to limits being reached.
func ( s * recordingSpan ) DroppedAttributes ( ) int {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . droppedAttributes
}
// DroppedLinks returns the number of links dropped by the span due to limits
// being reached.
func ( s * recordingSpan ) DroppedLinks ( ) int {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . links . droppedCount
}
// DroppedEvents returns the number of events dropped by the span due to
// limits being reached.
func ( s * recordingSpan ) DroppedEvents ( ) int {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . events . droppedCount
}
// ChildSpanCount returns the count of spans that consider the span a
// direct parent.
func ( s * recordingSpan ) ChildSpanCount ( ) int {
s . mu . Lock ( )
defer s . mu . Unlock ( )
return s . childSpanCount
}
// TracerProvider returns a trace.TracerProvider that can be used to generate
// additional Spans on the same telemetry pipeline as the current Span.
func ( s * recordingSpan ) TracerProvider ( ) trace . TracerProvider {
return s . tracer . provider
}
// snapshot creates a read-only copy of the current state of the span.
func ( s * recordingSpan ) snapshot ( ) ReadOnlySpan {
var sd snapshot
s . mu . Lock ( )
defer s . mu . Unlock ( )
sd . endTime = s . endTime
sd . instrumentationScope = s . tracer . instrumentationScope
sd . name = s . name
sd . parent = s . parent
sd . resource = s . tracer . provider . resource
sd . spanContext = s . spanContext
sd . spanKind = s . spanKind
sd . startTime = s . startTime
sd . status = s . status
sd . childSpanCount = s . childSpanCount
if len ( s . attributes ) > 0 {
s . dedupeAttrs ( )
sd . attributes = s . attributes
}
sd . droppedAttributeCount = s . droppedAttributes
if len ( s . events . queue ) > 0 {
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sd . events = s . events . copy ( )
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sd . droppedEventCount = s . events . droppedCount
}
if len ( s . links . queue ) > 0 {
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sd . links = s . links . copy ( )
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sd . droppedLinkCount = s . links . droppedCount
}
return & sd
}
func ( s * recordingSpan ) addChild ( ) {
if ! s . IsRecording ( ) {
return
}
s . mu . Lock ( )
s . childSpanCount ++
s . mu . Unlock ( )
}
func ( * recordingSpan ) private ( ) { }
// runtimeTrace starts a "runtime/trace".Task for the span and returns a
// context containing the task.
func ( s * recordingSpan ) runtimeTrace ( ctx context . Context ) context . Context {
if ! rt . IsEnabled ( ) {
// Avoid additional overhead if runtime/trace is not enabled.
return ctx
}
nctx , task := rt . NewTask ( ctx , s . name )
s . mu . Lock ( )
s . executionTracerTaskEnd = task . End
s . mu . Unlock ( )
return nctx
}
// nonRecordingSpan is a minimal implementation of the OpenTelemetry Span API
// that wraps a SpanContext. It performs no operations other than to return
// the wrapped SpanContext or TracerProvider that created it.
type nonRecordingSpan struct {
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embedded . Span
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// tracer is the SDK tracer that created this span.
tracer * tracer
sc trace . SpanContext
}
var _ trace . Span = nonRecordingSpan { }
// SpanContext returns the wrapped SpanContext.
func ( s nonRecordingSpan ) SpanContext ( ) trace . SpanContext { return s . sc }
// IsRecording always returns false.
func ( nonRecordingSpan ) IsRecording ( ) bool { return false }
// SetStatus does nothing.
func ( nonRecordingSpan ) SetStatus ( codes . Code , string ) { }
// SetError does nothing.
func ( nonRecordingSpan ) SetError ( bool ) { }
// SetAttributes does nothing.
func ( nonRecordingSpan ) SetAttributes ( ... attribute . KeyValue ) { }
// End does nothing.
func ( nonRecordingSpan ) End ( ... trace . SpanEndOption ) { }
// RecordError does nothing.
func ( nonRecordingSpan ) RecordError ( error , ... trace . EventOption ) { }
// AddEvent does nothing.
func ( nonRecordingSpan ) AddEvent ( string , ... trace . EventOption ) { }
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// AddLink does nothing.
func ( nonRecordingSpan ) AddLink ( trace . Link ) { }
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// SetName does nothing.
func ( nonRecordingSpan ) SetName ( string ) { }
// TracerProvider returns the trace.TracerProvider that provided the Tracer
// that created this span.
func ( s nonRecordingSpan ) TracerProvider ( ) trace . TracerProvider { return s . tracer . provider }
func isRecording ( s SamplingResult ) bool {
return s . Decision == RecordOnly || s . Decision == RecordAndSample
}
func isSampled ( s SamplingResult ) bool {
return s . Decision == RecordAndSample
}
// Status is the classified state of a Span.
type Status struct {
// Code is an identifier of a Spans state classification.
Code codes . Code
// Description is a user hint about why that status was set. It is only
// applicable when Code is Error.
Description string
}