290 lines
8.5 KiB
Go
290 lines
8.5 KiB
Go
// Copyright (c) 2017 Uber Technologies, Inc.
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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 jaeger
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import (
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"fmt"
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"sync"
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"sync/atomic"
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"time"
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"github.com/opentracing/opentracing-go"
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"github.com/uber/jaeger-client-go/log"
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)
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// Reporter is called by the tracer when a span is completed to report the span to the tracing collector.
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type Reporter interface {
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// Report submits a new span to collectors, possibly asynchronously and/or with buffering.
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Report(span *Span)
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// Close does a clean shutdown of the reporter, flushing any traces that may be buffered in memory.
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Close()
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}
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// ------------------------------
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type nullReporter struct{}
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// NewNullReporter creates a no-op reporter that ignores all reported spans.
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func NewNullReporter() Reporter {
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return &nullReporter{}
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}
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// Report implements Report() method of Reporter by doing nothing.
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func (r *nullReporter) Report(span *Span) {
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// no-op
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}
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// Close implements Close() method of Reporter by doing nothing.
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func (r *nullReporter) Close() {
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// no-op
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}
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// ------------------------------
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type loggingReporter struct {
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logger Logger
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}
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// NewLoggingReporter creates a reporter that logs all reported spans to provided logger.
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func NewLoggingReporter(logger Logger) Reporter {
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return &loggingReporter{logger}
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}
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// Report implements Report() method of Reporter by logging the span to the logger.
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func (r *loggingReporter) Report(span *Span) {
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r.logger.Infof("Reporting span %+v", span)
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}
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// Close implements Close() method of Reporter by doing nothing.
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func (r *loggingReporter) Close() {
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// no-op
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}
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// ------------------------------
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// InMemoryReporter is used for testing, and simply collects spans in memory.
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type InMemoryReporter struct {
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spans []opentracing.Span
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lock sync.Mutex
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}
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// NewInMemoryReporter creates a reporter that stores spans in memory.
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// NOTE: the Tracer should be created with options.PoolSpans = false.
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func NewInMemoryReporter() *InMemoryReporter {
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return &InMemoryReporter{
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spans: make([]opentracing.Span, 0, 10),
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}
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}
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// Report implements Report() method of Reporter by storing the span in the buffer.
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func (r *InMemoryReporter) Report(span *Span) {
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r.lock.Lock()
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r.spans = append(r.spans, span)
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r.lock.Unlock()
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}
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// Close implements Close() method of Reporter by doing nothing.
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func (r *InMemoryReporter) Close() {
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// no-op
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}
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// SpansSubmitted returns the number of spans accumulated in the buffer.
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func (r *InMemoryReporter) SpansSubmitted() int {
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r.lock.Lock()
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defer r.lock.Unlock()
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return len(r.spans)
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}
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// GetSpans returns accumulated spans as a copy of the buffer.
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func (r *InMemoryReporter) GetSpans() []opentracing.Span {
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r.lock.Lock()
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defer r.lock.Unlock()
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copied := make([]opentracing.Span, len(r.spans))
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copy(copied, r.spans)
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return copied
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}
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// Reset clears all accumulated spans.
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func (r *InMemoryReporter) Reset() {
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r.lock.Lock()
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defer r.lock.Unlock()
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r.spans = nil
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}
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// ------------------------------
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type compositeReporter struct {
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reporters []Reporter
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}
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// NewCompositeReporter creates a reporter that ignores all reported spans.
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func NewCompositeReporter(reporters ...Reporter) Reporter {
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return &compositeReporter{reporters: reporters}
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}
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// Report implements Report() method of Reporter by delegating to each underlying reporter.
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func (r *compositeReporter) Report(span *Span) {
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for _, reporter := range r.reporters {
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reporter.Report(span)
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}
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}
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// Close implements Close() method of Reporter by closing each underlying reporter.
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func (r *compositeReporter) Close() {
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for _, reporter := range r.reporters {
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reporter.Close()
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}
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}
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// ------------- REMOTE REPORTER -----------------
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type reporterQueueItemType int
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const (
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defaultQueueSize = 100
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defaultBufferFlushInterval = 1 * time.Second
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reporterQueueItemSpan reporterQueueItemType = iota
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reporterQueueItemClose
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)
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type reporterQueueItem struct {
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itemType reporterQueueItemType
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span *Span
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close *sync.WaitGroup
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}
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type remoteReporter struct {
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// These fields must be first in the struct because `sync/atomic` expects 64-bit alignment.
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// Cf. https://github.com/uber/jaeger-client-go/issues/155, https://goo.gl/zW7dgq
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queueLength int64
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closed int64 // 0 - not closed, 1 - closed
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reporterOptions
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sender Transport
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queue chan reporterQueueItem
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}
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// NewRemoteReporter creates a new reporter that sends spans out of process by means of Sender.
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// Calls to Report(Span) return immediately (side effect: if internal buffer is full the span is dropped).
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// Periodically the transport buffer is flushed even if it hasn't reached max packet size.
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// Calls to Close() block until all spans reported prior to the call to Close are flushed.
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func NewRemoteReporter(sender Transport, opts ...ReporterOption) Reporter {
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options := reporterOptions{}
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for _, option := range opts {
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option(&options)
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}
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if options.bufferFlushInterval <= 0 {
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options.bufferFlushInterval = defaultBufferFlushInterval
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}
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if options.logger == nil {
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options.logger = log.NullLogger
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}
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if options.metrics == nil {
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options.metrics = NewNullMetrics()
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}
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if options.queueSize <= 0 {
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options.queueSize = defaultQueueSize
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}
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reporter := &remoteReporter{
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reporterOptions: options,
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sender: sender,
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queue: make(chan reporterQueueItem, options.queueSize),
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}
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go reporter.processQueue()
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return reporter
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}
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// Report implements Report() method of Reporter.
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// It passes the span to a background go-routine for submission to Jaeger backend.
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// If the internal queue is full, the span is dropped and metrics.ReporterDropped counter is incremented.
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// If Report() is called after the reporter has been Close()-ed, the additional spans will not be
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// sent to the backend, but the metrics.ReporterDropped counter may not reflect them correctly,
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// because some of them may still be successfully added to the queue.
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func (r *remoteReporter) Report(span *Span) {
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select {
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case r.queue <- reporterQueueItem{itemType: reporterQueueItemSpan, span: span}:
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atomic.AddInt64(&r.queueLength, 1)
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default:
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r.metrics.ReporterDropped.Inc(1)
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}
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}
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// Close implements Close() method of Reporter by waiting for the queue to be drained.
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func (r *remoteReporter) Close() {
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if swapped := atomic.CompareAndSwapInt64(&r.closed, 0, 1); !swapped {
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r.logger.Error("Repeated attempt to close the reporter is ignored")
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return
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}
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r.sendCloseEvent()
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r.sender.Close()
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}
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func (r *remoteReporter) sendCloseEvent() {
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wg := &sync.WaitGroup{}
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wg.Add(1)
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item := reporterQueueItem{itemType: reporterQueueItemClose, close: wg}
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r.queue <- item // if the queue is full we will block until there is space
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atomic.AddInt64(&r.queueLength, 1)
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wg.Wait()
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}
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// processQueue reads spans from the queue, converts them to Thrift, and stores them in an internal buffer.
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// When the buffer length reaches batchSize, it is flushed by submitting the accumulated spans to Jaeger.
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// Buffer also gets flushed automatically every batchFlushInterval seconds, just in case the tracer stopped
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// reporting new spans.
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func (r *remoteReporter) processQueue() {
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// flush causes the Sender to flush its accumulated spans and clear the buffer
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flush := func() {
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if flushed, err := r.sender.Flush(); err != nil {
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r.metrics.ReporterFailure.Inc(int64(flushed))
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r.logger.Error(fmt.Sprintf("error when flushing the buffer: %s", err.Error()))
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} else if flushed > 0 {
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r.metrics.ReporterSuccess.Inc(int64(flushed))
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}
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}
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timer := time.NewTicker(r.bufferFlushInterval)
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for {
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select {
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case <-timer.C:
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flush()
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case item := <-r.queue:
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atomic.AddInt64(&r.queueLength, -1)
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switch item.itemType {
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case reporterQueueItemSpan:
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span := item.span
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if flushed, err := r.sender.Append(span); err != nil {
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r.metrics.ReporterFailure.Inc(int64(flushed))
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r.logger.Error(fmt.Sprintf("error reporting span %q: %s", span.OperationName(), err.Error()))
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} else if flushed > 0 {
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r.metrics.ReporterSuccess.Inc(int64(flushed))
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// to reduce the number of gauge stats, we only emit queue length on flush
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r.metrics.ReporterQueueLength.Update(atomic.LoadInt64(&r.queueLength))
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}
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case reporterQueueItemClose:
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timer.Stop()
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flush()
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item.close.Done()
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return
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}
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}
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}
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}
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