prometheus/vendor/github.com/uber/jaeger-client-go/tracer.go

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// Copyright (c) 2017-2018 Uber Technologies, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package jaeger
import (
"fmt"
"io"
"math/rand"
"os"
"reflect"
"strconv"
"sync"
"time"
"github.com/opentracing/opentracing-go"
"github.com/opentracing/opentracing-go/ext"
"github.com/uber/jaeger-client-go/internal/baggage"
"github.com/uber/jaeger-client-go/internal/throttler"
"github.com/uber/jaeger-client-go/log"
"github.com/uber/jaeger-client-go/utils"
)
// Tracer implements opentracing.Tracer.
type Tracer struct {
serviceName string
hostIPv4 uint32 // this is for zipkin endpoint conversion
sampler SamplerV2
reporter Reporter
metrics Metrics
logger log.DebugLogger
timeNow func() time.Time
randomNumber func() uint64
options struct {
gen128Bit bool // whether to generate 128bit trace IDs
zipkinSharedRPCSpan bool
highTraceIDGenerator func() uint64 // custom high trace ID generator
maxTagValueLength int
noDebugFlagOnForcedSampling bool
maxLogsPerSpan int
// more options to come
}
// allocator of Span objects
spanAllocator SpanAllocator
injectors map[interface{}]Injector
extractors map[interface{}]Extractor
observer compositeObserver
tags []Tag
process Process
baggageRestrictionManager baggage.RestrictionManager
baggageSetter *baggageSetter
debugThrottler throttler.Throttler
}
// NewTracer creates Tracer implementation that reports tracing to Jaeger.
// The returned io.Closer can be used in shutdown hooks to ensure that the internal
// queue of the Reporter is drained and all buffered spans are submitted to collectors.
// TODO (breaking change) return *Tracer only, without closer.
func NewTracer(
serviceName string,
sampler Sampler,
reporter Reporter,
options ...TracerOption,
) (opentracing.Tracer, io.Closer) {
t := &Tracer{
serviceName: serviceName,
sampler: samplerV1toV2(sampler),
reporter: reporter,
injectors: make(map[interface{}]Injector),
extractors: make(map[interface{}]Extractor),
metrics: *NewNullMetrics(),
spanAllocator: simpleSpanAllocator{},
}
for _, option := range options {
option(t)
}
// register default injectors/extractors unless they are already provided via options
textPropagator := NewTextMapPropagator(getDefaultHeadersConfig(), t.metrics)
t.addCodec(opentracing.TextMap, textPropagator, textPropagator)
httpHeaderPropagator := NewHTTPHeaderPropagator(getDefaultHeadersConfig(), t.metrics)
t.addCodec(opentracing.HTTPHeaders, httpHeaderPropagator, httpHeaderPropagator)
binaryPropagator := NewBinaryPropagator(t)
t.addCodec(opentracing.Binary, binaryPropagator, binaryPropagator)
// TODO remove after TChannel supports OpenTracing
interopPropagator := &jaegerTraceContextPropagator{tracer: t}
t.addCodec(SpanContextFormat, interopPropagator, interopPropagator)
zipkinPropagator := &zipkinPropagator{tracer: t}
t.addCodec(ZipkinSpanFormat, zipkinPropagator, zipkinPropagator)
if t.baggageRestrictionManager != nil {
t.baggageSetter = newBaggageSetter(t.baggageRestrictionManager, &t.metrics)
} else {
t.baggageSetter = newBaggageSetter(baggage.NewDefaultRestrictionManager(0), &t.metrics)
}
if t.debugThrottler == nil {
t.debugThrottler = throttler.DefaultThrottler{}
}
if t.randomNumber == nil {
seedGenerator := utils.NewRand(time.Now().UnixNano())
pool := sync.Pool{
New: func() interface{} {
return rand.NewSource(seedGenerator.Int63())
},
}
t.randomNumber = func() uint64 {
generator := pool.Get().(rand.Source)
number := uint64(generator.Int63())
pool.Put(generator)
return number
}
}
if t.timeNow == nil {
t.timeNow = time.Now
}
if t.logger == nil {
t.logger = log.NullLogger
}
// Set tracer-level tags
t.tags = append(t.tags, Tag{key: JaegerClientVersionTagKey, value: JaegerClientVersion})
if hostname, err := os.Hostname(); err == nil {
t.tags = append(t.tags, Tag{key: TracerHostnameTagKey, value: hostname})
}
if ipval, ok := t.getTag(TracerIPTagKey); ok {
ipv4, err := utils.ParseIPToUint32(ipval.(string))
if err != nil {
t.hostIPv4 = 0
t.logger.Error("Unable to convert the externally provided ip to uint32: " + err.Error())
} else {
t.hostIPv4 = ipv4
}
} else if ip, err := utils.HostIP(); err == nil {
t.tags = append(t.tags, Tag{key: TracerIPTagKey, value: ip.String()})
t.hostIPv4 = utils.PackIPAsUint32(ip)
} else {
t.logger.Error("Unable to determine this host's IP address: " + err.Error())
}
if t.options.gen128Bit {
if t.options.highTraceIDGenerator == nil {
t.options.highTraceIDGenerator = t.randomNumber
}
} else if t.options.highTraceIDGenerator != nil {
t.logger.Error("Overriding high trace ID generator but not generating " +
"128 bit trace IDs, consider enabling the \"Gen128Bit\" option")
}
if t.options.maxTagValueLength == 0 {
t.options.maxTagValueLength = DefaultMaxTagValueLength
}
t.process = Process{
Service: serviceName,
UUID: strconv.FormatUint(t.randomNumber(), 16),
Tags: t.tags,
}
if throttler, ok := t.debugThrottler.(ProcessSetter); ok {
throttler.SetProcess(t.process)
}
return t, t
}
// addCodec adds registers injector and extractor for given propagation format if not already defined.
func (t *Tracer) addCodec(format interface{}, injector Injector, extractor Extractor) {
if _, ok := t.injectors[format]; !ok {
t.injectors[format] = injector
}
if _, ok := t.extractors[format]; !ok {
t.extractors[format] = extractor
}
}
// StartSpan implements StartSpan() method of opentracing.Tracer.
func (t *Tracer) StartSpan(
operationName string,
options ...opentracing.StartSpanOption,
) opentracing.Span {
sso := opentracing.StartSpanOptions{}
for _, o := range options {
o.Apply(&sso)
}
return t.startSpanWithOptions(operationName, sso)
}
func (t *Tracer) startSpanWithOptions(
operationName string,
options opentracing.StartSpanOptions,
) opentracing.Span {
if options.StartTime.IsZero() {
options.StartTime = t.timeNow()
}
// Predicate whether the given span context is an empty reference
// or may be used as parent / debug ID / baggage items source
isEmptyReference := func(ctx SpanContext) bool {
return !ctx.IsValid() && !ctx.isDebugIDContainerOnly() && len(ctx.baggage) == 0
}
var references []Reference
var parent SpanContext
var hasParent bool // need this because `parent` is a value, not reference
var ctx SpanContext
var isSelfRef bool
for _, ref := range options.References {
ctxRef, ok := ref.ReferencedContext.(SpanContext)
if !ok {
t.logger.Error(fmt.Sprintf(
"Reference contains invalid type of SpanReference: %s",
reflect.ValueOf(ref.ReferencedContext)))
continue
}
if isEmptyReference(ctxRef) {
continue
}
if ref.Type == selfRefType {
isSelfRef = true
ctx = ctxRef
continue
}
if ctxRef.IsValid() {
// we don't want empty context that contains only debug-id or baggage
references = append(references, Reference{Type: ref.Type, Context: ctxRef})
}
if !hasParent {
parent = ctxRef
hasParent = ref.Type == opentracing.ChildOfRef
}
}
if !hasParent && !isEmptyReference(parent) {
// If ChildOfRef wasn't found but a FollowFromRef exists, use the context from
// the FollowFromRef as the parent
hasParent = true
}
rpcServer := false
if v, ok := options.Tags[ext.SpanKindRPCServer.Key]; ok {
rpcServer = (v == ext.SpanKindRPCServerEnum || v == string(ext.SpanKindRPCServerEnum))
}
var internalTags []Tag
newTrace := false
if !isSelfRef {
if !hasParent || !parent.IsValid() {
newTrace = true
ctx.traceID.Low = t.randomID()
if t.options.gen128Bit {
ctx.traceID.High = t.options.highTraceIDGenerator()
}
ctx.spanID = SpanID(ctx.traceID.Low)
ctx.parentID = 0
ctx.samplingState = &samplingState{
localRootSpan: ctx.spanID,
}
if hasParent && parent.isDebugIDContainerOnly() && t.isDebugAllowed(operationName) {
ctx.samplingState.setDebugAndSampled()
internalTags = append(internalTags, Tag{key: JaegerDebugHeader, value: parent.debugID})
}
} else {
ctx.traceID = parent.traceID
if rpcServer && t.options.zipkinSharedRPCSpan {
// Support Zipkin's one-span-per-RPC model
ctx.spanID = parent.spanID
ctx.parentID = parent.parentID
} else {
ctx.spanID = SpanID(t.randomID())
ctx.parentID = parent.spanID
}
ctx.samplingState = parent.samplingState
if parent.remote {
ctx.samplingState.setFinal()
ctx.samplingState.localRootSpan = ctx.spanID
}
}
if hasParent {
// copy baggage items
if l := len(parent.baggage); l > 0 {
ctx.baggage = make(map[string]string, len(parent.baggage))
for k, v := range parent.baggage {
ctx.baggage[k] = v
}
}
}
}
sp := t.newSpan()
sp.context = ctx
sp.tracer = t
sp.operationName = operationName
sp.startTime = options.StartTime
sp.duration = 0
sp.references = references
sp.firstInProcess = rpcServer || sp.context.parentID == 0
if !sp.isSamplingFinalized() {
decision := t.sampler.OnCreateSpan(sp)
sp.applySamplingDecision(decision, false)
}
sp.observer = t.observer.OnStartSpan(sp, operationName, options)
if tagsTotalLength := len(options.Tags) + len(internalTags); tagsTotalLength > 0 {
if sp.tags == nil || cap(sp.tags) < tagsTotalLength {
sp.tags = make([]Tag, 0, tagsTotalLength)
}
sp.tags = append(sp.tags, internalTags...)
for k, v := range options.Tags {
sp.setTagInternal(k, v, false)
}
}
t.emitNewSpanMetrics(sp, newTrace)
return sp
}
// Inject implements Inject() method of opentracing.Tracer
func (t *Tracer) Inject(ctx opentracing.SpanContext, format interface{}, carrier interface{}) error {
c, ok := ctx.(SpanContext)
if !ok {
return opentracing.ErrInvalidSpanContext
}
if injector, ok := t.injectors[format]; ok {
return injector.Inject(c, carrier)
}
return opentracing.ErrUnsupportedFormat
}
// Extract implements Extract() method of opentracing.Tracer
func (t *Tracer) Extract(
format interface{},
carrier interface{},
) (opentracing.SpanContext, error) {
if extractor, ok := t.extractors[format]; ok {
spanCtx, err := extractor.Extract(carrier)
if err != nil {
return nil, err // ensure returned spanCtx is nil
}
spanCtx.remote = true
return spanCtx, nil
}
return nil, opentracing.ErrUnsupportedFormat
}
// Close releases all resources used by the Tracer and flushes any remaining buffered spans.
func (t *Tracer) Close() error {
t.logger.Debugf("closing tracer")
t.reporter.Close()
t.sampler.Close()
if mgr, ok := t.baggageRestrictionManager.(io.Closer); ok {
_ = mgr.Close()
}
if throttler, ok := t.debugThrottler.(io.Closer); ok {
_ = throttler.Close()
}
return nil
}
// Tags returns a slice of tracer-level tags.
func (t *Tracer) Tags() []opentracing.Tag {
tags := make([]opentracing.Tag, len(t.tags))
for i, tag := range t.tags {
tags[i] = opentracing.Tag{Key: tag.key, Value: tag.value}
}
return tags
}
// getTag returns the value of specific tag, if not exists, return nil.
// TODO only used by tests, move there.
func (t *Tracer) getTag(key string) (interface{}, bool) {
for _, tag := range t.tags {
if tag.key == key {
return tag.value, true
}
}
return nil, false
}
// newSpan returns an instance of a clean Span object.
// If options.PoolSpans is true, the spans are retrieved from an object pool.
func (t *Tracer) newSpan() *Span {
return t.spanAllocator.Get()
}
// emitNewSpanMetrics generates metrics on the number of started spans and traces.
// newTrace param: we cannot simply check for parentID==0 because in Zipkin model the
// server-side RPC span has the exact same trace/span/parent IDs as the
// calling client-side span, but obviously the server side span is
// no longer a root span of the trace.
func (t *Tracer) emitNewSpanMetrics(sp *Span, newTrace bool) {
if !sp.isSamplingFinalized() {
t.metrics.SpansStartedDelayedSampling.Inc(1)
if newTrace {
t.metrics.TracesStartedDelayedSampling.Inc(1)
}
// joining a trace is not possible, because sampling decision inherited from upstream is final
} else if sp.context.IsSampled() {
t.metrics.SpansStartedSampled.Inc(1)
if newTrace {
t.metrics.TracesStartedSampled.Inc(1)
} else if sp.firstInProcess {
t.metrics.TracesJoinedSampled.Inc(1)
}
} else {
t.metrics.SpansStartedNotSampled.Inc(1)
if newTrace {
t.metrics.TracesStartedNotSampled.Inc(1)
} else if sp.firstInProcess {
t.metrics.TracesJoinedNotSampled.Inc(1)
}
}
}
func (t *Tracer) reportSpan(sp *Span) {
if !sp.isSamplingFinalized() {
t.metrics.SpansFinishedDelayedSampling.Inc(1)
} else if sp.context.IsSampled() {
t.metrics.SpansFinishedSampled.Inc(1)
} else {
t.metrics.SpansFinishedNotSampled.Inc(1)
}
// Note: if the reporter is processing Span asynchronously then it needs to Retain() the span,
// and then Release() it when no longer needed.
// Otherwise, the span may be reused for another trace and its data may be overwritten.
if sp.context.IsSampled() {
t.reporter.Report(sp)
}
sp.Release()
}
// randomID generates a random trace/span ID, using tracer.random() generator.
// It never returns 0.
func (t *Tracer) randomID() uint64 {
val := t.randomNumber()
for val == 0 {
val = t.randomNumber()
}
return val
}
// (NB) span must hold the lock before making this call
func (t *Tracer) setBaggage(sp *Span, key, value string) {
t.baggageSetter.setBaggage(sp, key, value)
}
// (NB) span must hold the lock before making this call
func (t *Tracer) isDebugAllowed(operation string) bool {
return t.debugThrottler.IsAllowed(operation)
}
// Sampler returns the sampler given to the tracer at creation.
func (t *Tracer) Sampler() SamplerV2 {
return t.sampler
}
// SelfRef creates an opentracing compliant SpanReference from a jaeger
// SpanContext. This is a factory function in order to encapsulate jaeger specific
// types.
func SelfRef(ctx SpanContext) opentracing.SpanReference {
return opentracing.SpanReference{
Type: selfRefType,
ReferencedContext: ctx,
}
}