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kratos/pkg/net/trace/jaeger/span.go

346 lines
8.7 KiB

package jaeger
import (
"sync"
"sync/atomic"
"time"
"github.com/opentracing/opentracing-go"
"github.com/opentracing/opentracing-go/log"
)
// Span implements opentracing.Span
type Span struct {
// referenceCounter used to increase the lifetime of
// the object before return it into the pool.
referenceCounter int32
serviceName string
sync.RWMutex
// TODO: (breaking change) change to use a pointer
context SpanContext
// The name of the "operation" this span is an instance of.
// Known as a "span name" in some implementations.
operationName string
// firstInProcess, if true, indicates that this span is the root of the (sub)tree
// of spans in the current process. In other words it's true for the root spans,
// and the ingress spans when the process joins another trace.
firstInProcess bool
// startTime is the timestamp indicating when the span began, with microseconds precision.
startTime time.Time
// duration returns duration of the span with microseconds precision.
// Zero value means duration is unknown.
duration time.Duration
// tags attached to this span
tags []Tag
// The span's "micro-log"
logs []opentracing.LogRecord
// The number of logs dropped because of MaxLogsPerSpan.
numDroppedLogs int
// references for this span
references []Reference
}
// Tag is a simple key value wrapper.
// TODO (breaking change) deprecate in the next major release, use opentracing.Tag instead.
type Tag struct {
key string
value interface{}
}
// NewTag creates a new Tag.
// TODO (breaking change) deprecate in the next major release, use opentracing.Tag instead.
func NewTag(key string, value interface{}) Tag {
return Tag{key: key, value: value}
}
// SetOperationName sets or changes the operation name.
func (s *Span) SetOperationName(operationName string) opentracing.Span {
s.Lock()
s.operationName = operationName
s.Unlock()
return s
}
// SetTag implements SetTag() of opentracing.Span
func (s *Span) SetTag(key string, value interface{}) opentracing.Span {
return s.setTagInternal(key, value, true)
}
func (s *Span) setTagInternal(key string, value interface{}, lock bool) opentracing.Span {
if lock {
s.Lock()
defer s.Unlock()
}
s.appendTagNoLocking(key, value)
return s
}
// SpanContext returns span context
func (s *Span) SpanContext() SpanContext {
s.Lock()
defer s.Unlock()
return s.context
}
// StartTime returns span start time
func (s *Span) StartTime() time.Time {
s.Lock()
defer s.Unlock()
return s.startTime
}
// Duration returns span duration
func (s *Span) Duration() time.Duration {
s.Lock()
defer s.Unlock()
return s.duration
}
// Tags returns tags for span
func (s *Span) Tags() opentracing.Tags {
s.Lock()
defer s.Unlock()
var result = make(opentracing.Tags, len(s.tags))
for _, tag := range s.tags {
result[tag.key] = tag.value
}
return result
}
// Logs returns micro logs for span
func (s *Span) Logs() []opentracing.LogRecord {
s.Lock()
defer s.Unlock()
logs := append([]opentracing.LogRecord(nil), s.logs...)
if s.numDroppedLogs != 0 {
fixLogs(logs, s.numDroppedLogs)
}
return logs
}
// References returns references for this span
func (s *Span) References() []opentracing.SpanReference {
s.Lock()
defer s.Unlock()
if s.references == nil || len(s.references) == 0 {
return nil
}
result := make([]opentracing.SpanReference, len(s.references))
for i, r := range s.references {
result[i] = opentracing.SpanReference{Type: r.Type, ReferencedContext: r.Context}
}
return result
}
func (s *Span) appendTagNoLocking(key string, value interface{}) {
s.tags = append(s.tags, Tag{key: key, value: value})
}
// LogFields implements opentracing.Span API
func (s *Span) LogFields(fields ...log.Field) {
s.Lock()
defer s.Unlock()
if !s.context.IsSampled() {
return
}
s.logFieldsNoLocking(fields...)
}
// this function should only be called while holding a Write lock
func (s *Span) logFieldsNoLocking(fields ...log.Field) {
lr := opentracing.LogRecord{
Fields: fields,
Timestamp: time.Now(),
}
s.appendLogNoLocking(lr)
}
// LogKV implements opentracing.Span API
func (s *Span) LogKV(alternatingKeyValues ...interface{}) {
s.RLock()
sampled := s.context.IsSampled()
s.RUnlock()
if !sampled {
return
}
fields, err := log.InterleavedKVToFields(alternatingKeyValues...)
if err != nil {
s.LogFields(log.Error(err), log.String("function", "LogKV"))
return
}
s.LogFields(fields...)
}
// LogEvent implements opentracing.Span API
func (s *Span) LogEvent(event string) {
s.Log(opentracing.LogData{Event: event})
}
// LogEventWithPayload implements opentracing.Span API
func (s *Span) LogEventWithPayload(event string, payload interface{}) {
s.Log(opentracing.LogData{Event: event, Payload: payload})
}
// Log implements opentracing.Span API
func (s *Span) Log(ld opentracing.LogData) {
s.Lock()
defer s.Unlock()
if s.context.IsSampled() {
s.appendLogNoLocking(ld.ToLogRecord())
}
}
// this function should only be called while holding a Write lock
func (s *Span) appendLogNoLocking(lr opentracing.LogRecord) {
maxLogs := 100
// We have too many logs. We don't touch the first numOld logs; we treat the
// rest as a circular buffer and overwrite the oldest log among those.
numOld := (maxLogs - 1) / 2
numNew := maxLogs - numOld
s.logs[numOld+s.numDroppedLogs%numNew] = lr
s.numDroppedLogs++
}
// rotateLogBuffer rotates the records in the buffer: records 0 to pos-1 move at
// the end (i.e. pos circular left shifts).
func rotateLogBuffer(buf []opentracing.LogRecord, pos int) {
// This algorithm is described in:
// http://www.cplusplus.com/reference/algorithm/rotate
for first, middle, next := 0, pos, pos; first != middle; {
buf[first], buf[next] = buf[next], buf[first]
first++
next++
if next == len(buf) {
next = middle
} else if first == middle {
middle = next
}
}
}
func fixLogs(logs []opentracing.LogRecord, numDroppedLogs int) {
// We dropped some log events, which means that we used part of Logs as a
// circular buffer (see appendLog). De-circularize it.
numOld := (len(logs) - 1) / 2
numNew := len(logs) - numOld
rotateLogBuffer(logs[numOld:], numDroppedLogs%numNew)
// Replace the log in the middle (the oldest "new" log) with information
// about the dropped logs. This means that we are effectively dropping one
// more "new" log.
numDropped := numDroppedLogs + 1
logs[numOld] = opentracing.LogRecord{
// Keep the timestamp of the last dropped event.
Timestamp: logs[numOld].Timestamp,
Fields: []log.Field{
log.String("event", "dropped Span logs"),
log.Int("dropped_log_count", numDropped),
log.String("component", "jaeger-client"),
},
}
}
func (s *Span) fixLogsIfDropped() {
if s.numDroppedLogs == 0 {
return
}
fixLogs(s.logs, s.numDroppedLogs)
s.numDroppedLogs = 0
}
// SetBaggageItem implements SetBaggageItem() of opentracing.SpanContext
func (s *Span) SetBaggageItem(key, value string) opentracing.Span {
s.context.baggage[key] = value
return s
}
// BaggageItem implements BaggageItem() of opentracing.SpanContext
func (s *Span) BaggageItem(key string) string {
s.RLock()
defer s.RUnlock()
return s.context.baggage[key]
}
// Finish implements opentracing.Span API
// After finishing the Span object it returns back to the allocator unless the reporter retains it again,
// so after that, the Span object should no longer be used because it won't be valid anymore.
func (s *Span) Finish() {
s.FinishWithOptions(opentracing.FinishOptions{})
}
// FinishWithOptions implements opentracing.Span API
func (s *Span) FinishWithOptions(options opentracing.FinishOptions) {
}
// Context implements opentracing.Span API
func (s *Span) Context() opentracing.SpanContext {
s.Lock()
defer s.Unlock()
return s.context
}
// Tracer implements opentracing.Span API
func (s *Span) Tracer() opentracing.Tracer {
return nil
}
func (s *Span) String() string {
s.RLock()
defer s.RUnlock()
return s.context.String()
}
// OperationName allows retrieving current operation name.
func (s *Span) OperationName() string {
s.RLock()
defer s.RUnlock()
return s.operationName
}
// Retain increases object counter to increase the lifetime of the object
func (s *Span) Retain() *Span {
atomic.AddInt32(&s.referenceCounter, 1)
return s
}
// Release decrements object counter and return to the
// allocator manager when counter will below zero
func (s *Span) Release() {
}
// reset span state and release unused data
func (s *Span) reset() {
s.firstInProcess = false
s.context = emptyContext
s.operationName = ""
s.startTime = time.Time{}
s.duration = 0
atomic.StoreInt32(&s.referenceCounter, 0)
// Note: To reuse memory we can save the pointers on the heap
s.tags = s.tags[:0]
s.logs = s.logs[:0]
s.numDroppedLogs = 0
s.references = s.references[:0]
}
func (s *Span) ServiceName() string {
return s.serviceName
}