jaeger

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Published: Feb 17, 2017 License: MIT Imports: 24 Imported by: 0

README

GoDoc Build Status Coverage Status OpenTracing 1.0 Enabled

Jaeger Bindings for Go OpenTracing API

This is a client side library that implements an OpenTracing Tracer, with Zipkin-compatible data model.

Initialization

import (
    "github.com/opentracing/opentracing-go"
    "github.com/uber/jaeger-client-go/config"
)

type AppConfig struct {
    ...
    Tracing config.Configuration
    ...
}

func main() {
    cfg := loadAppConfig() // e.g. from a yaml file

    tracer, closer, err := cfg.Tracing.New("your-service-name", nil)
    // check err
    defer closer.Close()

    opentracing.InitGlobalTracer(tracer)
    ...
}
Metrics & Monitoring

The tracer emits a number of different metrics, defined in metrics.go. The monitoring backend is expected to support tag-based metric names, e.g. instead of statsd-style string names like counters.my-service.jaeger.spans.started.sampled, the metrics are defined by a short name and a collection of key/value tags, for example: name:traces, state:started, sampled:true.

The monitoring backend is represented by the StatsReporter interface. An implementation of that interface should be passed to the New method during tracer initialization:

    stats := // create StatsReporter implementation
    tracer := config.Tracing.New("your-service-name", stats)

By default, a no-op NullStatsReporter is used.

Logging

The tracer can be configured with an optional logger, which will be used to log communication errors, or log spans if a logging reporter option is specified in the configuration. The logging API is abstracted by the Logger interface. A logger instance implementing this interface can be set on the Config object before calling the New method.

Instrumentation for Tracing

Since this tracer is fully compliant with OpenTracing API 1.0, all code instrumentation should only use the API itself, as described in the [opentracing-go] (https://github.com/opentracing/opentracing-go) documentation.

Features

Reporters

A "reporter" is a component receives the finished spans and reports them to somewhere. Under normal circumstances, the Tracer should use the default RemoteReporter, which sends the spans out of process via configurable "transport". For testing purposes, one can use an InMemoryReporter that accumulates spans in a buffer and allows to retrieve them for later verification. Also available are NullReporter, a no-op reporter that does nothing, a LoggingReporter which logs all finished spans using their String() method, and a CompositeReporter that can be used to combine more than one reporter into one, e.g. to attach a logging reporter to the main remote reporter.

Span Reporting Transports

The remote reporter uses "transports" to actually send the spans out of process. Currently two supported transports are Thrift over UDP and Thrift over TChannel. More transports will be added in the future.

The only data format currently used is Zipkin Thrift 1.x span format, which allows easy integration of the tracer with Zipkin backend.

Sampling

The tracer does not record all spans, but only those that have the sampling bit set in the flags. When a new trace is started and a new unique ID is generated, a sampling decision is made whether this trace should be sampled. The sampling decision is propagated to all downstream calls via the flags field of the trace context. The following samplers are available:

  1. RemotelyControlledSampler uses one of the other simpler samplers and periodically updates it by polling an external server. This allows dynamic control of the sampling strategies.
  2. ConstSampler always makes the same sampling decision for all trace IDs. it can be configured to either sample all traces, or to sample none.
  3. ProbabilisticSampler uses a fixed sampling rate as a probability for a given trace to be sampled. The actual decision is made by comparing the trace ID with a random number multiplied by the sampling rate.
  4. RateLimitingSampler can be used to allow only a certain fixed number of traces to be sampled per second.
Baggage Injection

The OpenTracing spec allows for baggage, which are key value pairs that are added to the span context and propagated throughout the trace. An external process can inject baggage by setting the special HTTP Header jaeger-baggage on a request

curl -H "jaeger-baggage: key1=value1, key2=value2" http://myhost.com

Baggage can also be programatically set inside your service by doing the following

span.SetBaggageItem("key", "value")
Debug Traces (Forced Sampling)
Programmatically

The OpenTracing API defines a sampling.priority standard tag that can be used to affect the sampling of a span and its children:

import (
    "github.com/opentracing/opentracing-go"
    "github.com/opentracing/opentracing-go/ext"
)

span := opentracing.SpanFromContext(ctx)
ext.SamplingPriority.Set(span, 1)    
Via HTTP Headers

Jaeger Tracer also understands a special HTTP Header jaeger-debug-id, which can be set in the incoming request, e.g.

curl -H "jaeger-debug-id: some-correlation-id" http://myhost.com

When Jaeger sees this header in the request that otherwise has no tracing context, it ensures that the new trace started for this request will be sampled in the "debug" mode (meaning it should survive all downsampling that might happen in the collection pipeline), and the root span will have a tag as if this statement was executed:

span.SetTag("jaeger-debug-id", "some-correlation-id")

This allows using Jaeger UI to find the trace by this tag.

Zipkin HTTP B3 compatible header propagation

Jaeger Tracer supports Zipkin B3 Propagation HTTP headers, which are used by a lot of Zipkin tracers. This means that you can use Jaeger in conjunction with e.g. these OpenZipkin tracers.

However it is not the default propagation format, see here how to set it up.

License

The MIT License.

Documentation

Overview

Package jaeger implements an OpenTracing (http://opentracing.io) Tracer. It is currently using Zipkin-compatible data model and can be directly itegrated with Zipkin backend (http://zipkin.io).

For integration instructions please refer to the README:

https://github.com/uber/jaeger-client-go/blob/master/README.md

Index

Constants

View Source
const (
	// JaegerClientVersion is the version of the client library reported as Span tag.
	JaegerClientVersion = "Go-2.1.0"

	// JaegerClientVersionTagKey is the name of the tag used to report client version.
	JaegerClientVersionTagKey = "jaeger.version"

	// JaegerDebugHeader is the name of HTTP header or a TextMap carrier key which,
	// if found in the carrier, forces the trace to be sampled as "debug" trace.
	// The value of the header is recorded as the tag on the root span, so that the
	// trace can be found in the UI using this value as a correlation ID.
	JaegerDebugHeader = "jaeger-debug-id"

	// JaegerBaggageHeader is the name of the HTTP header that is used to submit baggage.
	// It differs from TraceBaggageHeaderPrefix in that it can be used only in cases where
	// a root span does not exist.
	JaegerBaggageHeader = "jaeger-baggage"

	// TracerHostnameTagKey used to report host name of the process.
	TracerHostnameTagKey = "jaeger.hostname"

	// SamplerTypeTagKey reports which sampler was used on the root span.
	SamplerTypeTagKey = "sampler.type"

	// SamplerParamTagKey reports the parameter of the sampler, like sampling probability.
	SamplerParamTagKey = "sampler.param"

	// TracerStateHeaderName is the http header name used to propagate tracing context.
	// This must be in lower-case to avoid mismatches when decoding incoming headers.
	TracerStateHeaderName = "uber-trace-id"

	// TraceBaggageHeaderPrefix is the prefix for http headers used to propagate baggage.
	// This must be in lower-case to avoid mismatches when decoding incoming headers.
	TraceBaggageHeaderPrefix = "uberctx-"

	// SamplerTypeConst is the type of sampler that always makes the same decision.
	SamplerTypeConst = "const"

	// SamplerTypeRemote is the type of sampler that polls Jaeger agent for sampling strategy.
	SamplerTypeRemote = "remote"

	// SamplerTypeProbabilistic is the type of sampler that samples traces
	// with a certain fixed probability.
	SamplerTypeProbabilistic = "probabilistic"

	// SamplerTypeRateLimiting is the type of sampler that samples
	// only up to a fixed number of traces per second.
	SamplerTypeRateLimiting = "ratelimiting"

	// SamplerTypeLowerBound is the type of sampler that samples
	// only up to a fixed number of traces per second.
	SamplerTypeLowerBound = "lowerbound"
)
View Source
const SpanContextFormat formatKey = iota

SpanContextFormat is a constant used as OpenTracing Format. Requires *SpanContext as carrier. This format is intended for interop with TChannel or other Zipkin-like tracers.

View Source
const ZipkinSpanFormat = "zipkin-span-format"

ZipkinSpanFormat is an OpenTracing carrier format constant

Variables

View Source
var NullLogger = &nullLogger{}

NullLogger is implementation of the Logger interface that delegates to default `log` package

View Source
var ReporterOptions reporterOptions

ReporterOptions is a factory for all available ReporterOption's

View Source
var SamplerOptions samplerOptions

SamplerOptions is a factory for all available SamplerOption's

View Source
var StdLogger = &stdLogger{}

StdLogger is implementation of the Logger interface that delegates to default `log` package

View Source
var TracerOptions tracerOptions

TracerOptions is a factory for all available TracerOption's

Functions

func NewTracer

func NewTracer(
	serviceName string,
	sampler Sampler,
	reporter Reporter,
	options ...TracerOption,
) (opentracing.Tracer, io.Closer)

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.

Types

type ConstSampler

type ConstSampler struct {
	Decision bool
	// contains filtered or unexported fields
}

ConstSampler is a sampler that always makes the same decision.

func (*ConstSampler) Close

func (s *ConstSampler) Close()

Close implements Close() of Sampler.

func (*ConstSampler) Equal

func (s *ConstSampler) Equal(other Sampler) bool

Equal implements Equal() of Sampler.

func (*ConstSampler) IsSampled

func (s *ConstSampler) IsSampled(id TraceID, operation string) (bool, []Tag)

IsSampled implements IsSampled() of Sampler.

type ExtractableZipkinSpan

type ExtractableZipkinSpan interface {
	TraceID() uint64
	SpanID() uint64
	ParentID() uint64
	Flags() byte
}

ExtractableZipkinSpan is a type of Carrier used for integration with Zipkin-aware RPC frameworks (like TChannel). It does not support baggage, only trace IDs.

type Extractor

type Extractor interface {
	// Extract decodes a SpanContext instance from the given `carrier`,
	// or (nil, opentracing.ErrSpanContextNotFound) if no context could
	// be found in the `carrier`.
	Extract(carrier interface{}) (SpanContext, error)
}

Extractor is responsible for extracting SpanContext instances from a format-specific "carrier" object. Typically the extraction will take place on the server side of an RPC boundary, but message queues and other IPC mechanisms are also reasonable places to use an Extractor.

type GuaranteedThroughputProbabilisticSampler

type GuaranteedThroughputProbabilisticSampler struct {
	// contains filtered or unexported fields
}

GuaranteedThroughputProbabilisticSampler is a sampler that leverages both probabilisticSampler and rateLimitingSampler. The rateLimitingSampler is used as a guaranteed lower bound sampler such that every operation is sampled at least once in a time interval defined by the lowerBound. ie a lowerBound of 1.0 / (60 * 10) will sample an operation at least once every 10 minutes.

The probabilisticSampler is given higher priority when tags are emitted, ie. if IsSampled() for both samplers return true, the tags for probabilisticSampler will be used.

func NewGuaranteedThroughputProbabilisticSampler

func NewGuaranteedThroughputProbabilisticSampler(
	lowerBound, samplingRate float64,
) (*GuaranteedThroughputProbabilisticSampler, error)

NewGuaranteedThroughputProbabilisticSampler returns a delegating sampler that applies both probabilisticSampler and rateLimitingSampler.

func (*GuaranteedThroughputProbabilisticSampler) Close

Close implements Close() of Sampler.

func (*GuaranteedThroughputProbabilisticSampler) Equal

Equal implements Equal() of Sampler.

func (*GuaranteedThroughputProbabilisticSampler) IsSampled

func (s *GuaranteedThroughputProbabilisticSampler) IsSampled(id TraceID, operation string) (bool, []Tag)

IsSampled implements IsSampled() of Sampler.

type InMemoryReporter

type InMemoryReporter struct {
	// contains filtered or unexported fields
}

InMemoryReporter is used for testing, and simply collects spans in memory.

func NewInMemoryReporter

func NewInMemoryReporter() *InMemoryReporter

NewInMemoryReporter creates a reporter that stores spans in memory. NOTE: the Tracer should be created with options.PoolSpans = false.

func (*InMemoryReporter) Close

func (r *InMemoryReporter) Close()

Close implements Close() method of Reporter by doing nothing.

func (*InMemoryReporter) GetSpans

func (r *InMemoryReporter) GetSpans() []opentracing.Span

GetSpans returns accumulated spans as a copy of the buffer.

func (*InMemoryReporter) Report

func (r *InMemoryReporter) Report(span *span)

Report implements Report() method of Reporter by storing the span in the buffer.

func (*InMemoryReporter) Reset

func (r *InMemoryReporter) Reset()

Reset clears all accumulated spans.

func (*InMemoryReporter) SpansSubmitted

func (r *InMemoryReporter) SpansSubmitted() int

SpansSubmitted returns the number of spans accumulated in the buffer.

type InjectableZipkinSpan

type InjectableZipkinSpan interface {
	SetTraceID(traceID uint64)
	SetSpanID(spanID uint64)
	SetParentID(parentID uint64)
	SetFlags(flags byte)
}

InjectableZipkinSpan is a type of Carrier used for integration with Zipkin-aware RPC frameworks (like TChannel). It does not support baggage, only trace IDs.

type Injector

type Injector interface {
	// Inject takes `SpanContext` and injects it into `carrier`. The actual type
	// of `carrier` depends on the `format` passed to `Tracer.Inject()`.
	//
	// Implementations may return opentracing.ErrInvalidCarrier or any other
	// implementation-specific error if injection fails.
	Inject(ctx SpanContext, carrier interface{}) error
}

Injector is responsible for injecting SpanContext instances in a manner suitable for propagation via a format-specific "carrier" object. Typically the injection will take place across an RPC boundary, but message queues and other IPC mechanisms are also reasonable places to use an Injector.

type Logger

type Logger interface {
	// Error logs a message at error priority
	Error(msg string)

	// Infof logs a message at info priority
	Infof(msg string, args ...interface{})
}

Logger provides an abstract interface for logging from Reporters. Applications can provide their own implementation of this interface to adapt reporters logging to whatever logging library they prefer (stdlib log, logrus, go-logging, etc).

type Metrics

type Metrics struct {
	// Number of traces started by this tracer as sampled
	TracesStartedSampled metrics.Counter `metric:"traces" tags:"state=started,sampled=y"`

	// Number of traces started by this tracer as not sampled
	TracesStartedNotSampled metrics.Counter `metric:"traces" tags:"state=started,sampled=n"`

	// Number of externally started sampled traces this tracer joined
	TracesJoinedSampled metrics.Counter `metric:"traces" tags:"state=joined,sampled=y"`

	// Number of externally started not-sampled traces this tracer joined
	TracesJoinedNotSampled metrics.Counter `metric:"traces" tags:"state=joined,sampled=n"`

	// Number of sampled spans started by this tracer
	SpansStarted metrics.Counter `metric:"spans" tags:"group=lifecycle,state=started"`

	// Number of sampled spans finished by this tracer
	SpansFinished metrics.Counter `metric:"spans" tags:"group=lifecycle,state=finished"`

	// Number of sampled spans started by this tracer
	SpansSampled metrics.Counter `metric:"spans" tags:"group=sampling,sampled=y"`

	// Number of not-sampled spans started by this tracer
	SpansNotSampled metrics.Counter `metric:"spans" tags:"group=sampling,sampled=n"`

	// Number of errors decoding tracing context
	DecodingErrors metrics.Counter `metric:"decoding-errors"`

	// Number of spans successfully reported
	ReporterSuccess metrics.Counter `metric:"reporter-spans" tags:"state=success"`

	// Number of spans in failed attempts to report
	ReporterFailure metrics.Counter `metric:"reporter-spans" tags:"state=failure"`

	// Number of spans dropped due to internal queue overflow
	ReporterDropped metrics.Counter `metric:"reporter-spans" tags:"state=dropped"`

	// Current number of spans in the reporter queue
	ReporterQueueLength metrics.Gauge `metric:"reporter-queue"`

	// Number of times the Sampler succeeded to retrieve sampling strategy
	SamplerRetrieved metrics.Counter `metric:"sampler" tags:"state=retrieved"`

	// Number of times the Sampler succeeded to retrieve and update sampling strategy
	SamplerUpdated metrics.Counter `metric:"sampler" tags:"state=updated"`

	// Number of times the Sampler failed to update sampling strategy
	SamplerUpdateFailure metrics.Counter `metric:"sampler" tags:"state=failure,phase=updating"`

	// Number of times the Sampler failed to retrieve sampling strategy
	SamplerQueryFailure metrics.Counter `metric:"sampler" tags:"state=failure,phase=query"`

	// Number of times the Sampler failed to parse retrieved sampling strategy
	SamplerParsingFailure metrics.Counter `metric:"sampler" tags:"state=failure,phase=parsing"`
}

Metrics is a container of all stats emitted by Jaeger tracer.

func NewMetrics

func NewMetrics(factory metrics.Factory, globalTags map[string]string) *Metrics

NewMetrics creates a new Metrics struct and initializes it.

func NewNullMetrics

func NewNullMetrics() *Metrics

NewNullMetrics creates a new Metrics struct that won't report any metrics.

type ProbabilisticSampler

type ProbabilisticSampler struct {
	// contains filtered or unexported fields
}

ProbabilisticSampler is a sampler that randomly samples a certain percentage of traces.

func NewProbabilisticSampler

func NewProbabilisticSampler(samplingRate float64) (*ProbabilisticSampler, error)

NewProbabilisticSampler creates a sampler that randomly samples a certain percentage of traces specified by the samplingRate, in the range between 0.0 and 1.0.

It relies on the fact that new trace IDs are 63bit random numbers themselves, thus making the sampling decision without generating a new random number, but simply calculating if traceID < (samplingRate * 2^63).

func (*ProbabilisticSampler) Close

func (s *ProbabilisticSampler) Close()

Close implements Close() of Sampler.

func (*ProbabilisticSampler) Equal

func (s *ProbabilisticSampler) Equal(other Sampler) bool

Equal implements Equal() of Sampler.

func (*ProbabilisticSampler) IsSampled

func (s *ProbabilisticSampler) IsSampled(id TraceID, operation string) (bool, []Tag)

IsSampled implements IsSampled() of Sampler.

func (*ProbabilisticSampler) SamplingRate

func (s *ProbabilisticSampler) SamplingRate() float64

SamplingRate returns the sampling probability this sampled was constructed with.

type RemotelyControlledSampler

type RemotelyControlledSampler struct {
	sync.RWMutex
	// contains filtered or unexported fields
}

RemotelyControlledSampler is a delegating sampler that polls a remote server for the appropriate sampling strategy, constructs a corresponding sampler and delegates to it for sampling decisions.

func NewRemotelyControlledSampler

func NewRemotelyControlledSampler(
	serviceName string,
	opts ...SamplerOption,
) *RemotelyControlledSampler

NewRemotelyControlledSampler creates a sampler that periodically pulls the sampling strategy from an HTTP sampling server (e.g. jaeger-agent).

func (*RemotelyControlledSampler) Close

func (s *RemotelyControlledSampler) Close()

Close implements Close() of Sampler.

func (*RemotelyControlledSampler) Equal

func (s *RemotelyControlledSampler) Equal(other Sampler) bool

Equal implements Equal() of Sampler.

func (RemotelyControlledSampler) InitialSampler

func (RemotelyControlledSampler) InitialSampler(sampler Sampler) SamplerOption

InitialSampler creates a SamplerOption that sets the initial sampler to use before a remote sampler is created and used.

func (*RemotelyControlledSampler) IsSampled

func (s *RemotelyControlledSampler) IsSampled(id TraceID, operation string) (bool, []Tag)

IsSampled implements IsSampled() of Sampler.

func (RemotelyControlledSampler) Logger

func (RemotelyControlledSampler) Logger(logger Logger) SamplerOption

Logger creates a SamplerOption that sets the logger used by the sampler.

func (RemotelyControlledSampler) MaxOperations

func (RemotelyControlledSampler) MaxOperations(maxOperations int) SamplerOption

MaxOperations creates a SamplerOption that sets the maximum number of operations the sampler will keep track of.

func (RemotelyControlledSampler) Metrics

func (RemotelyControlledSampler) Metrics(m *Metrics) SamplerOption

Metrics creates a SamplerOption that initializes Metrics on the sampler, which is used to emit statistics.

func (RemotelyControlledSampler) SamplingRefreshInterval

func (RemotelyControlledSampler) SamplingRefreshInterval(samplingRefreshInterval time.Duration) SamplerOption

SamplingRefreshInterval creates a SamplerOption that sets how often the sampler will poll local agent for the appropriate sampling strategy.

func (RemotelyControlledSampler) SamplingServerURL

func (RemotelyControlledSampler) SamplingServerURL(samplingServerURL string) SamplerOption

SamplingServerURL creates a SamplerOption that sets the sampling server url of the local agent that contains the sampling strategies.

type Reporter

type Reporter interface {
	// Report submits a new span to collectors, possibly asynchronously and/or with buffering.
	Report(span *span)

	// Close does a clean shutdown of the reporter, flushing any traces that may be buffered in memory.
	Close()
}

Reporter is called by the tracer when a span is completed to report the span to the tracing collector.

func NewCompositeReporter

func NewCompositeReporter(reporters ...Reporter) Reporter

NewCompositeReporter creates a reporter that ignores all reported spans.

func NewLoggingReporter

func NewLoggingReporter(logger Logger) Reporter

NewLoggingReporter creates a reporter that logs all reported spans to provided logger.

func NewNullReporter

func NewNullReporter() Reporter

NewNullReporter creates a no-op reporter that ignores all reported spans.

func NewRemoteReporter

func NewRemoteReporter(sender transport.Transport, opts ...ReporterOption) Reporter

NewRemoteReporter creates a new reporter that sends spans out of process by means of Sender

type ReporterOption

type ReporterOption func(c *reporterOptions)

ReporterOption is a function that sets some option on the reporter.

type Sampler

type Sampler interface {
	// IsSampled decides whether a trace with given `id` and `operation`
	// should be sampled. This function will also return the tags that
	// can be used to identify the type of sampling that was applied to
	// the root span. Most simple samplers would return two tags,
	// sampler.type and sampler.param, similar to those used in the Configuration
	IsSampled(id TraceID, operation string) (sampled bool, tags []Tag)

	// Close does a clean shutdown of the sampler, stopping any background
	// go-routines it may have started.
	Close()

	// Equal checks if the `other` sampler is functionally equivalent
	// to this sampler.
	// TODO remove this function. This function is used to determine if 2 samplers are equivalent
	// which does not bode well with the adaptive sampler which has to create all the composite samplers
	// for the comparison to occur. This is expensive to do if only one sampler has changed.
	Equal(other Sampler) bool
}

Sampler decides whether a new trace should be sampled or not.

func NewAdaptiveSampler

func NewAdaptiveSampler(strategies *sampling.PerOperationSamplingStrategies, maxOperations int) (Sampler, error)

NewAdaptiveSampler adaptiveSampler is a delegating sampler that applies both probabilisticSampler and rateLimitingSampler via the guaranteedThroughputProbabilisticSampler. This sampler keeps track of all operations and delegates calls to the respective guaranteedThroughputProbabilisticSampler.

func NewConstSampler

func NewConstSampler(sample bool) Sampler

NewConstSampler creates a ConstSampler.

func NewRateLimitingSampler

func NewRateLimitingSampler(maxTracesPerSecond float64) Sampler

NewRateLimitingSampler creates a sampler that samples at most maxTracesPerSecond. The distribution of sampled traces follows burstiness of the service, i.e. a service with uniformly distributed requests will have those requests sampled uniformly as well, but if requests are bursty, especially sub-second, then a number of sequential requests can be sampled each second.

type SamplerOption

type SamplerOption func(options *samplerOptions)

SamplerOption is a function that sets some option on the sampler

type SpanContext

type SpanContext struct {
	// contains filtered or unexported fields
}

SpanContext represents propagated span identity and state

func ContextFromString

func ContextFromString(value string) (SpanContext, error)

ContextFromString reconstructs the Context encoded in a string

func NewSpanContext

func NewSpanContext(traceID TraceID, spanID, parentID SpanID, sampled bool, baggage map[string]string) SpanContext

NewSpanContext creates a new instance of SpanContext

func (*SpanContext) CopyFrom

func (c *SpanContext) CopyFrom(ctx *SpanContext)

CopyFrom copies data from ctx into this context, including span identity and baggage. TODO This is only used by interop.go. Remove once TChannel Go supports OpenTracing.

func (SpanContext) ForeachBaggageItem

func (c SpanContext) ForeachBaggageItem(handler func(k, v string) bool)

ForeachBaggageItem implements ForeachBaggageItem() of opentracing.SpanContext

func (SpanContext) IsDebug

func (c SpanContext) IsDebug() bool

IsDebug indicates whether sampling was explicitly requested by the service.

func (SpanContext) IsSampled

func (c SpanContext) IsSampled() bool

IsSampled returns whether this trace was chosen for permanent storage by the sampling mechanism of the tracer.

func (SpanContext) IsValid added in v1.4.1

func (c SpanContext) IsValid() bool

IsValid indicates whether this context actually represents a valid trace.

func (SpanContext) ParentID

func (c SpanContext) ParentID() SpanID

ParentID returns the parent span ID of this span context

func (SpanContext) SpanID

func (c SpanContext) SpanID() SpanID

SpanID returns the span ID of this span context

func (SpanContext) String

func (c SpanContext) String() string

func (SpanContext) TraceID

func (c SpanContext) TraceID() TraceID

TraceID returns the trace ID of this span context

func (SpanContext) WithBaggageItem

func (c SpanContext) WithBaggageItem(key, value string) SpanContext

WithBaggageItem creates a new context with an extra baggage item.

type SpanID

type SpanID uint64

SpanID represents unique 64bit identifier of a span

func SpanIDFromString

func SpanIDFromString(s string) (SpanID, error)

SpanIDFromString creates a SpanID from a hexadecimal string

func (SpanID) String

func (s SpanID) String() string

type Tag

type Tag struct {
	// contains filtered or unexported fields
}

Tag a simple key value wrapper

type TraceID

type TraceID struct {
	High, Low uint64
}

TraceID represents unique 128bit identifier of a trace

func TraceIDFromString

func TraceIDFromString(s string) (TraceID, error)

TraceIDFromString creates a TraceID from a hexadecimal string

func (TraceID) IsValid

func (t TraceID) IsValid() bool

IsValid checks if the trace ID is valid, i.e. not zero.

func (TraceID) String

func (t TraceID) String() string

type TracerOption

type TracerOption func(tracer *tracer)

TracerOption is a function that sets some option on the tracer

Directories

Path Synopsis
log
thrift/tracetest
Package tracetest is generated code used to make or handle TChannel calls using Thrift.
Package tracetest is generated code used to make or handle TChannel calls using Thrift.
internal
log
zap
thrift-gen
Package transport defines various transports that can be used with RemoteReporter to send spans out of process.
Package transport defines various transports that can be used with RemoteReporter to send spans out of process.
udp
zipkin
Package zipkin provides various Transports that can be used with RemoteReporter for submitting traces to Zipkin backend.
Package zipkin provides various Transports that can be used with RemoteReporter for submitting traces to Zipkin backend.
Package zipkin comprises Zipkin functionality for Zipkin compatiblity.
Package zipkin comprises Zipkin functionality for Zipkin compatiblity.

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