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https://github.com/rocky-linux/peridot.git
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ad0f7a5305
Upgrade to Go 1.20.5, Hydra v2 SDK, rules-go v0.44.2 (with proper resolves), protobuf v25.3 and mass upgrade of Go dependencies.
596 lines
17 KiB
Go
596 lines
17 KiB
Go
// Copyright 2017, OpenCensus Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package trace
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import (
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"context"
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crand "crypto/rand"
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"encoding/binary"
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"fmt"
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"math/rand"
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"sync"
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"sync/atomic"
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"time"
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"go.opencensus.io/internal"
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"go.opencensus.io/trace/tracestate"
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)
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type tracer struct{}
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var _ Tracer = &tracer{}
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// Span represents a span of a trace. It has an associated SpanContext, and
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// stores data accumulated while the span is active.
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//
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// Ideally users should interact with Spans by calling the functions in this
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// package that take a Context parameter.
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type span struct {
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// data contains information recorded about the span.
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//
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// It will be non-nil if we are exporting the span or recording events for it.
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// Otherwise, data is nil, and the Span is simply a carrier for the
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// SpanContext, so that the trace ID is propagated.
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data *SpanData
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mu sync.Mutex // protects the contents of *data (but not the pointer value.)
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spanContext SpanContext
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// lruAttributes are capped at configured limit. When the capacity is reached an oldest entry
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// is removed to create room for a new entry.
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lruAttributes *lruMap
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// annotations are stored in FIFO queue capped by configured limit.
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annotations *evictedQueue
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// messageEvents are stored in FIFO queue capped by configured limit.
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messageEvents *evictedQueue
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// links are stored in FIFO queue capped by configured limit.
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links *evictedQueue
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// spanStore is the spanStore this span belongs to, if any, otherwise it is nil.
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*spanStore
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endOnce sync.Once
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executionTracerTaskEnd func() // ends the execution tracer span
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}
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// IsRecordingEvents returns true if events are being recorded for this span.
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// Use this check to avoid computing expensive annotations when they will never
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// be used.
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func (s *span) IsRecordingEvents() bool {
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if s == nil {
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return false
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}
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return s.data != nil
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}
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// TraceOptions contains options associated with a trace span.
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type TraceOptions uint32
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// IsSampled returns true if the span will be exported.
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func (sc SpanContext) IsSampled() bool {
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return sc.TraceOptions.IsSampled()
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}
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// setIsSampled sets the TraceOptions bit that determines whether the span will be exported.
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func (sc *SpanContext) setIsSampled(sampled bool) {
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if sampled {
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sc.TraceOptions |= 1
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} else {
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sc.TraceOptions &= ^TraceOptions(1)
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}
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}
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// IsSampled returns true if the span will be exported.
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func (t TraceOptions) IsSampled() bool {
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return t&1 == 1
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}
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// SpanContext contains the state that must propagate across process boundaries.
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//
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// SpanContext is not an implementation of context.Context.
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// TODO: add reference to external Census docs for SpanContext.
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type SpanContext struct {
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TraceID TraceID
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SpanID SpanID
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TraceOptions TraceOptions
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Tracestate *tracestate.Tracestate
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}
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type contextKey struct{}
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// FromContext returns the Span stored in a context, or nil if there isn't one.
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func (t *tracer) FromContext(ctx context.Context) *Span {
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s, _ := ctx.Value(contextKey{}).(*Span)
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return s
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}
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// NewContext returns a new context with the given Span attached.
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func (t *tracer) NewContext(parent context.Context, s *Span) context.Context {
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return context.WithValue(parent, contextKey{}, s)
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}
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// All available span kinds. Span kind must be either one of these values.
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const (
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SpanKindUnspecified = iota
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SpanKindServer
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SpanKindClient
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)
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// StartOptions contains options concerning how a span is started.
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type StartOptions struct {
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// Sampler to consult for this Span. If provided, it is always consulted.
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//
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// If not provided, then the behavior differs based on whether
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// the parent of this Span is remote, local, or there is no parent.
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// In the case of a remote parent or no parent, the
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// default sampler (see Config) will be consulted. Otherwise,
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// when there is a non-remote parent, no new sampling decision will be made:
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// we will preserve the sampling of the parent.
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Sampler Sampler
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// SpanKind represents the kind of a span. If none is set,
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// SpanKindUnspecified is used.
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SpanKind int
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}
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// StartOption apply changes to StartOptions.
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type StartOption func(*StartOptions)
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// WithSpanKind makes new spans to be created with the given kind.
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func WithSpanKind(spanKind int) StartOption {
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return func(o *StartOptions) {
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o.SpanKind = spanKind
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}
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}
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// WithSampler makes new spans to be be created with a custom sampler.
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// Otherwise, the global sampler is used.
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func WithSampler(sampler Sampler) StartOption {
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return func(o *StartOptions) {
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o.Sampler = sampler
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}
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}
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// StartSpan starts a new child span of the current span in the context. If
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// there is no span in the context, creates a new trace and span.
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//
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// Returned context contains the newly created span. You can use it to
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// propagate the returned span in process.
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func (t *tracer) StartSpan(ctx context.Context, name string, o ...StartOption) (context.Context, *Span) {
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var opts StartOptions
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var parent SpanContext
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if p := t.FromContext(ctx); p != nil {
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if ps, ok := p.internal.(*span); ok {
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ps.addChild()
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}
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parent = p.SpanContext()
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}
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for _, op := range o {
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op(&opts)
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}
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span := startSpanInternal(name, parent != SpanContext{}, parent, false, opts)
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ctx, end := startExecutionTracerTask(ctx, name)
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span.executionTracerTaskEnd = end
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extSpan := NewSpan(span)
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return t.NewContext(ctx, extSpan), extSpan
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}
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// StartSpanWithRemoteParent starts a new child span of the span from the given parent.
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//
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// If the incoming context contains a parent, it ignores. StartSpanWithRemoteParent is
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// preferred for cases where the parent is propagated via an incoming request.
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//
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// Returned context contains the newly created span. You can use it to
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// propagate the returned span in process.
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func (t *tracer) StartSpanWithRemoteParent(ctx context.Context, name string, parent SpanContext, o ...StartOption) (context.Context, *Span) {
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var opts StartOptions
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for _, op := range o {
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op(&opts)
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}
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span := startSpanInternal(name, parent != SpanContext{}, parent, true, opts)
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ctx, end := startExecutionTracerTask(ctx, name)
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span.executionTracerTaskEnd = end
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extSpan := NewSpan(span)
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return t.NewContext(ctx, extSpan), extSpan
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}
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func startSpanInternal(name string, hasParent bool, parent SpanContext, remoteParent bool, o StartOptions) *span {
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s := &span{}
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s.spanContext = parent
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cfg := config.Load().(*Config)
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if gen, ok := cfg.IDGenerator.(*defaultIDGenerator); ok {
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// lazy initialization
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gen.init()
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}
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if !hasParent {
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s.spanContext.TraceID = cfg.IDGenerator.NewTraceID()
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}
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s.spanContext.SpanID = cfg.IDGenerator.NewSpanID()
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sampler := cfg.DefaultSampler
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if !hasParent || remoteParent || o.Sampler != nil {
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// If this span is the child of a local span and no Sampler is set in the
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// options, keep the parent's TraceOptions.
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//
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// Otherwise, consult the Sampler in the options if it is non-nil, otherwise
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// the default sampler.
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if o.Sampler != nil {
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sampler = o.Sampler
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}
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s.spanContext.setIsSampled(sampler(SamplingParameters{
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ParentContext: parent,
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TraceID: s.spanContext.TraceID,
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SpanID: s.spanContext.SpanID,
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Name: name,
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HasRemoteParent: remoteParent}).Sample)
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}
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if !internal.LocalSpanStoreEnabled && !s.spanContext.IsSampled() {
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return s
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}
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s.data = &SpanData{
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SpanContext: s.spanContext,
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StartTime: time.Now(),
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SpanKind: o.SpanKind,
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Name: name,
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HasRemoteParent: remoteParent,
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}
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s.lruAttributes = newLruMap(cfg.MaxAttributesPerSpan)
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s.annotations = newEvictedQueue(cfg.MaxAnnotationEventsPerSpan)
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s.messageEvents = newEvictedQueue(cfg.MaxMessageEventsPerSpan)
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s.links = newEvictedQueue(cfg.MaxLinksPerSpan)
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if hasParent {
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s.data.ParentSpanID = parent.SpanID
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}
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if internal.LocalSpanStoreEnabled {
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var ss *spanStore
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ss = spanStoreForNameCreateIfNew(name)
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if ss != nil {
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s.spanStore = ss
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ss.add(s)
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}
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}
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return s
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}
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// End ends the span.
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func (s *span) End() {
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if s == nil {
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return
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}
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if s.executionTracerTaskEnd != nil {
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s.executionTracerTaskEnd()
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}
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if !s.IsRecordingEvents() {
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return
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}
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s.endOnce.Do(func() {
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exp, _ := exporters.Load().(exportersMap)
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mustExport := s.spanContext.IsSampled() && len(exp) > 0
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if s.spanStore != nil || mustExport {
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sd := s.makeSpanData()
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sd.EndTime = internal.MonotonicEndTime(sd.StartTime)
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if s.spanStore != nil {
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s.spanStore.finished(s, sd)
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}
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if mustExport {
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for e := range exp {
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e.ExportSpan(sd)
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}
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}
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}
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})
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}
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// makeSpanData produces a SpanData representing the current state of the Span.
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// It requires that s.data is non-nil.
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func (s *span) makeSpanData() *SpanData {
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var sd SpanData
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s.mu.Lock()
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sd = *s.data
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if s.lruAttributes.len() > 0 {
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sd.Attributes = s.lruAttributesToAttributeMap()
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sd.DroppedAttributeCount = s.lruAttributes.droppedCount
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}
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if len(s.annotations.queue) > 0 {
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sd.Annotations = s.interfaceArrayToAnnotationArray()
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sd.DroppedAnnotationCount = s.annotations.droppedCount
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}
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if len(s.messageEvents.queue) > 0 {
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sd.MessageEvents = s.interfaceArrayToMessageEventArray()
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sd.DroppedMessageEventCount = s.messageEvents.droppedCount
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}
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if len(s.links.queue) > 0 {
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sd.Links = s.interfaceArrayToLinksArray()
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sd.DroppedLinkCount = s.links.droppedCount
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}
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s.mu.Unlock()
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return &sd
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}
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// SpanContext returns the SpanContext of the span.
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func (s *span) SpanContext() SpanContext {
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if s == nil {
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return SpanContext{}
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}
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return s.spanContext
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}
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// SetName sets the name of the span, if it is recording events.
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func (s *span) SetName(name string) {
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if !s.IsRecordingEvents() {
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return
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}
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s.mu.Lock()
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s.data.Name = name
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s.mu.Unlock()
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}
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// SetStatus sets the status of the span, if it is recording events.
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func (s *span) SetStatus(status Status) {
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if !s.IsRecordingEvents() {
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return
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}
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s.mu.Lock()
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s.data.Status = status
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s.mu.Unlock()
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}
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func (s *span) interfaceArrayToLinksArray() []Link {
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linksArr := make([]Link, 0, len(s.links.queue))
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for _, value := range s.links.queue {
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linksArr = append(linksArr, value.(Link))
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}
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return linksArr
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}
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func (s *span) interfaceArrayToMessageEventArray() []MessageEvent {
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messageEventArr := make([]MessageEvent, 0, len(s.messageEvents.queue))
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for _, value := range s.messageEvents.queue {
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messageEventArr = append(messageEventArr, value.(MessageEvent))
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}
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return messageEventArr
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}
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func (s *span) interfaceArrayToAnnotationArray() []Annotation {
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annotationArr := make([]Annotation, 0, len(s.annotations.queue))
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for _, value := range s.annotations.queue {
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annotationArr = append(annotationArr, value.(Annotation))
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}
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return annotationArr
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}
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func (s *span) lruAttributesToAttributeMap() map[string]interface{} {
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attributes := make(map[string]interface{}, s.lruAttributes.len())
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for _, key := range s.lruAttributes.keys() {
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value, ok := s.lruAttributes.get(key)
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if ok {
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keyStr := key.(string)
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attributes[keyStr] = value
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}
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}
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return attributes
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}
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func (s *span) copyToCappedAttributes(attributes []Attribute) {
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for _, a := range attributes {
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s.lruAttributes.add(a.key, a.value)
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}
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}
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func (s *span) addChild() {
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if !s.IsRecordingEvents() {
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return
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}
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s.mu.Lock()
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s.data.ChildSpanCount++
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s.mu.Unlock()
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}
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// AddAttributes sets attributes in the span.
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//
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// Existing attributes whose keys appear in the attributes parameter are overwritten.
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func (s *span) AddAttributes(attributes ...Attribute) {
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if !s.IsRecordingEvents() {
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return
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}
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s.mu.Lock()
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s.copyToCappedAttributes(attributes)
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s.mu.Unlock()
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}
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func (s *span) printStringInternal(attributes []Attribute, str string) {
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now := time.Now()
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var am map[string]interface{}
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if len(attributes) != 0 {
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am = make(map[string]interface{}, len(attributes))
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for _, attr := range attributes {
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am[attr.key] = attr.value
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}
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}
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s.mu.Lock()
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s.annotations.add(Annotation{
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Time: now,
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Message: str,
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Attributes: am,
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})
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s.mu.Unlock()
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}
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// Annotate adds an annotation with attributes.
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// Attributes can be nil.
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func (s *span) Annotate(attributes []Attribute, str string) {
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if !s.IsRecordingEvents() {
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return
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}
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s.printStringInternal(attributes, str)
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}
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// Annotatef adds an annotation with attributes.
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func (s *span) Annotatef(attributes []Attribute, format string, a ...interface{}) {
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if !s.IsRecordingEvents() {
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return
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}
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s.printStringInternal(attributes, fmt.Sprintf(format, a...))
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}
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// AddMessageSendEvent adds a message send event to the span.
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//
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// messageID is an identifier for the message, which is recommended to be
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// unique in this span and the same between the send event and the receive
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// event (this allows to identify a message between the sender and receiver).
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// For example, this could be a sequence id.
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func (s *span) AddMessageSendEvent(messageID, uncompressedByteSize, compressedByteSize int64) {
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if !s.IsRecordingEvents() {
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return
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}
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now := time.Now()
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s.mu.Lock()
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s.messageEvents.add(MessageEvent{
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Time: now,
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EventType: MessageEventTypeSent,
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MessageID: messageID,
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UncompressedByteSize: uncompressedByteSize,
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CompressedByteSize: compressedByteSize,
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})
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s.mu.Unlock()
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}
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// AddMessageReceiveEvent adds a message receive event to the span.
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//
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// messageID is an identifier for the message, which is recommended to be
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// unique in this span and the same between the send event and the receive
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// event (this allows to identify a message between the sender and receiver).
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// For example, this could be a sequence id.
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func (s *span) AddMessageReceiveEvent(messageID, uncompressedByteSize, compressedByteSize int64) {
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if !s.IsRecordingEvents() {
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return
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}
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now := time.Now()
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s.mu.Lock()
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s.messageEvents.add(MessageEvent{
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Time: now,
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EventType: MessageEventTypeRecv,
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MessageID: messageID,
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UncompressedByteSize: uncompressedByteSize,
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CompressedByteSize: compressedByteSize,
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})
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s.mu.Unlock()
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}
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// AddLink adds a link to the span.
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func (s *span) AddLink(l Link) {
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if !s.IsRecordingEvents() {
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return
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}
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s.mu.Lock()
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s.links.add(l)
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s.mu.Unlock()
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}
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func (s *span) String() string {
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if s == nil {
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return "<nil>"
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}
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if s.data == nil {
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return fmt.Sprintf("span %s", s.spanContext.SpanID)
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}
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s.mu.Lock()
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str := fmt.Sprintf("span %s %q", s.spanContext.SpanID, s.data.Name)
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s.mu.Unlock()
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return str
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}
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var config atomic.Value // access atomically
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func init() {
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config.Store(&Config{
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DefaultSampler: ProbabilitySampler(defaultSamplingProbability),
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IDGenerator: &defaultIDGenerator{},
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MaxAttributesPerSpan: DefaultMaxAttributesPerSpan,
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MaxAnnotationEventsPerSpan: DefaultMaxAnnotationEventsPerSpan,
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MaxMessageEventsPerSpan: DefaultMaxMessageEventsPerSpan,
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MaxLinksPerSpan: DefaultMaxLinksPerSpan,
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})
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}
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type defaultIDGenerator struct {
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sync.Mutex
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// Please keep these as the first fields
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// so that these 8 byte fields will be aligned on addresses
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// divisible by 8, on both 32-bit and 64-bit machines when
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// performing atomic increments and accesses.
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// See:
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// * https://github.com/census-instrumentation/opencensus-go/issues/587
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// * https://github.com/census-instrumentation/opencensus-go/issues/865
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// * https://golang.org/pkg/sync/atomic/#pkg-note-BUG
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nextSpanID uint64
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spanIDInc uint64
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traceIDAdd [2]uint64
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traceIDRand *rand.Rand
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initOnce sync.Once
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}
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// init initializes the generator on the first call to avoid consuming entropy
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// unnecessarily.
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func (gen *defaultIDGenerator) init() {
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gen.initOnce.Do(func() {
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// initialize traceID and spanID generators.
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var rngSeed int64
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for _, p := range []interface{}{
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&rngSeed, &gen.traceIDAdd, &gen.nextSpanID, &gen.spanIDInc,
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} {
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binary.Read(crand.Reader, binary.LittleEndian, p)
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}
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gen.traceIDRand = rand.New(rand.NewSource(rngSeed))
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gen.spanIDInc |= 1
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})
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}
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// NewSpanID returns a non-zero span ID from a randomly-chosen sequence.
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func (gen *defaultIDGenerator) NewSpanID() [8]byte {
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var id uint64
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for id == 0 {
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id = atomic.AddUint64(&gen.nextSpanID, gen.spanIDInc)
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}
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var sid [8]byte
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binary.LittleEndian.PutUint64(sid[:], id)
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return sid
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}
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// NewTraceID returns a non-zero trace ID from a randomly-chosen sequence.
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// mu should be held while this function is called.
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func (gen *defaultIDGenerator) NewTraceID() [16]byte {
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var tid [16]byte
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// Construct the trace ID from two outputs of traceIDRand, with a constant
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// added to each half for additional entropy.
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gen.Lock()
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binary.LittleEndian.PutUint64(tid[0:8], gen.traceIDRand.Uint64()+gen.traceIDAdd[0])
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binary.LittleEndian.PutUint64(tid[8:16], gen.traceIDRand.Uint64()+gen.traceIDAdd[1])
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gen.Unlock()
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return tid
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}
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