557 lines
18 KiB
Go
557 lines
18 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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"math"
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"net/url"
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"sync"
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"sync/atomic"
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"time"
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"github.com/uber/jaeger-client-go/log"
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"github.com/uber/jaeger-client-go/thrift-gen/sampling"
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"github.com/uber/jaeger-client-go/utils"
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)
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const (
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defaultSamplingServerURL = "http://localhost:5778/sampling"
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defaultSamplingRefreshInterval = time.Minute
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defaultMaxOperations = 2000
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)
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// Sampler decides whether a new trace should be sampled or not.
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type Sampler interface {
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// IsSampled decides whether a trace with given `id` and `operation`
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// should be sampled. This function will also return the tags that
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// can be used to identify the type of sampling that was applied to
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// the root span. Most simple samplers would return two tags,
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// sampler.type and sampler.param, similar to those used in the Configuration
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IsSampled(id TraceID, operation string) (sampled bool, tags []Tag)
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// Close does a clean shutdown of the sampler, stopping any background
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// go-routines it may have started.
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Close()
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// Equal checks if the `other` sampler is functionally equivalent
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// to this sampler.
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// TODO remove this function. This function is used to determine if 2 samplers are equivalent
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// which does not bode well with the adaptive sampler which has to create all the composite samplers
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// for the comparison to occur. This is expensive to do if only one sampler has changed.
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Equal(other Sampler) bool
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}
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// -----------------------
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// ConstSampler is a sampler that always makes the same decision.
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type ConstSampler struct {
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Decision bool
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tags []Tag
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}
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// NewConstSampler creates a ConstSampler.
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func NewConstSampler(sample bool) Sampler {
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tags := []Tag{
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{key: SamplerTypeTagKey, value: SamplerTypeConst},
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{key: SamplerParamTagKey, value: sample},
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}
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return &ConstSampler{Decision: sample, tags: tags}
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}
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// IsSampled implements IsSampled() of Sampler.
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func (s *ConstSampler) IsSampled(id TraceID, operation string) (bool, []Tag) {
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return s.Decision, s.tags
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}
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// Close implements Close() of Sampler.
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func (s *ConstSampler) Close() {
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// nothing to do
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}
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// Equal implements Equal() of Sampler.
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func (s *ConstSampler) Equal(other Sampler) bool {
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if o, ok := other.(*ConstSampler); ok {
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return s.Decision == o.Decision
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}
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return false
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}
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// -----------------------
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// ProbabilisticSampler is a sampler that randomly samples a certain percentage
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// of traces.
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type ProbabilisticSampler struct {
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samplingRate float64
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samplingBoundary uint64
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tags []Tag
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}
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const maxRandomNumber = ^(uint64(1) << 63) // i.e. 0x7fffffffffffffff
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// NewProbabilisticSampler creates a sampler that randomly samples a certain percentage of traces specified by the
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// samplingRate, in the range between 0.0 and 1.0.
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//
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// It relies on the fact that new trace IDs are 63bit random numbers themselves, thus making the sampling decision
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// without generating a new random number, but simply calculating if traceID < (samplingRate * 2^63).
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// TODO remove the error from this function for next major release
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func NewProbabilisticSampler(samplingRate float64) (*ProbabilisticSampler, error) {
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if samplingRate < 0.0 || samplingRate > 1.0 {
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return nil, fmt.Errorf("Sampling Rate must be between 0.0 and 1.0, received %f", samplingRate)
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}
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return newProbabilisticSampler(samplingRate), nil
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}
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func newProbabilisticSampler(samplingRate float64) *ProbabilisticSampler {
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samplingRate = math.Max(0.0, math.Min(samplingRate, 1.0))
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tags := []Tag{
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{key: SamplerTypeTagKey, value: SamplerTypeProbabilistic},
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{key: SamplerParamTagKey, value: samplingRate},
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}
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return &ProbabilisticSampler{
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samplingRate: samplingRate,
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samplingBoundary: uint64(float64(maxRandomNumber) * samplingRate),
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tags: tags,
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}
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}
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// SamplingRate returns the sampling probability this sampled was constructed with.
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func (s *ProbabilisticSampler) SamplingRate() float64 {
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return s.samplingRate
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}
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// IsSampled implements IsSampled() of Sampler.
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func (s *ProbabilisticSampler) IsSampled(id TraceID, operation string) (bool, []Tag) {
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return s.samplingBoundary >= id.Low, s.tags
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}
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// Close implements Close() of Sampler.
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func (s *ProbabilisticSampler) Close() {
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// nothing to do
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}
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// Equal implements Equal() of Sampler.
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func (s *ProbabilisticSampler) Equal(other Sampler) bool {
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if o, ok := other.(*ProbabilisticSampler); ok {
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return s.samplingBoundary == o.samplingBoundary
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}
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return false
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}
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// -----------------------
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type rateLimitingSampler struct {
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maxTracesPerSecond float64
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rateLimiter utils.RateLimiter
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tags []Tag
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}
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// NewRateLimitingSampler creates a sampler that samples at most maxTracesPerSecond. The distribution of sampled
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// traces follows burstiness of the service, i.e. a service with uniformly distributed requests will have those
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// requests sampled uniformly as well, but if requests are bursty, especially sub-second, then a number of
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// sequential requests can be sampled each second.
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func NewRateLimitingSampler(maxTracesPerSecond float64) Sampler {
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tags := []Tag{
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{key: SamplerTypeTagKey, value: SamplerTypeRateLimiting},
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{key: SamplerParamTagKey, value: maxTracesPerSecond},
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}
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return &rateLimitingSampler{
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maxTracesPerSecond: maxTracesPerSecond,
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rateLimiter: utils.NewRateLimiter(maxTracesPerSecond, math.Max(maxTracesPerSecond, 1.0)),
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tags: tags,
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}
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}
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// IsSampled implements IsSampled() of Sampler.
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func (s *rateLimitingSampler) IsSampled(id TraceID, operation string) (bool, []Tag) {
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return s.rateLimiter.CheckCredit(1.0), s.tags
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}
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func (s *rateLimitingSampler) Close() {
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// nothing to do
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}
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func (s *rateLimitingSampler) Equal(other Sampler) bool {
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if o, ok := other.(*rateLimitingSampler); ok {
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return s.maxTracesPerSecond == o.maxTracesPerSecond
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}
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return false
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}
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// -----------------------
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// GuaranteedThroughputProbabilisticSampler is a sampler that leverages both probabilisticSampler and
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// rateLimitingSampler. The rateLimitingSampler is used as a guaranteed lower bound sampler such that
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// every operation is sampled at least once in a time interval defined by the lowerBound. ie a lowerBound
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// of 1.0 / (60 * 10) will sample an operation at least once every 10 minutes.
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//
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// The probabilisticSampler is given higher priority when tags are emitted, ie. if IsSampled() for both
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// samplers return true, the tags for probabilisticSampler will be used.
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type GuaranteedThroughputProbabilisticSampler struct {
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probabilisticSampler *ProbabilisticSampler
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lowerBoundSampler Sampler
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tags []Tag
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samplingRate float64
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lowerBound float64
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}
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// NewGuaranteedThroughputProbabilisticSampler returns a delegating sampler that applies both
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// probabilisticSampler and rateLimitingSampler.
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func NewGuaranteedThroughputProbabilisticSampler(
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lowerBound, samplingRate float64,
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) (*GuaranteedThroughputProbabilisticSampler, error) {
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return newGuaranteedThroughputProbabilisticSampler(lowerBound, samplingRate), nil
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}
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func newGuaranteedThroughputProbabilisticSampler(lowerBound, samplingRate float64) *GuaranteedThroughputProbabilisticSampler {
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s := &GuaranteedThroughputProbabilisticSampler{
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lowerBoundSampler: NewRateLimitingSampler(lowerBound),
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lowerBound: lowerBound,
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}
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s.setProbabilisticSampler(samplingRate)
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return s
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}
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func (s *GuaranteedThroughputProbabilisticSampler) setProbabilisticSampler(samplingRate float64) {
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if s.probabilisticSampler == nil || s.samplingRate != samplingRate {
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s.probabilisticSampler = newProbabilisticSampler(samplingRate)
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s.samplingRate = s.probabilisticSampler.SamplingRate()
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s.tags = []Tag{
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{key: SamplerTypeTagKey, value: SamplerTypeLowerBound},
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{key: SamplerParamTagKey, value: s.samplingRate},
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}
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}
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}
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// IsSampled implements IsSampled() of Sampler.
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func (s *GuaranteedThroughputProbabilisticSampler) IsSampled(id TraceID, operation string) (bool, []Tag) {
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if sampled, tags := s.probabilisticSampler.IsSampled(id, operation); sampled {
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s.lowerBoundSampler.IsSampled(id, operation)
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return true, tags
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}
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sampled, _ := s.lowerBoundSampler.IsSampled(id, operation)
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return sampled, s.tags
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}
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// Close implements Close() of Sampler.
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func (s *GuaranteedThroughputProbabilisticSampler) Close() {
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s.probabilisticSampler.Close()
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s.lowerBoundSampler.Close()
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}
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// Equal implements Equal() of Sampler.
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func (s *GuaranteedThroughputProbabilisticSampler) Equal(other Sampler) bool {
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// NB The Equal() function is expensive and will be removed. See adaptiveSampler.Equal() for
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// more information.
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return false
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}
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// this function should only be called while holding a Write lock
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func (s *GuaranteedThroughputProbabilisticSampler) update(lowerBound, samplingRate float64) {
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s.setProbabilisticSampler(samplingRate)
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if s.lowerBound != lowerBound {
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s.lowerBoundSampler = NewRateLimitingSampler(lowerBound)
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s.lowerBound = lowerBound
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}
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}
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// -----------------------
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type adaptiveSampler struct {
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sync.RWMutex
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samplers map[string]*GuaranteedThroughputProbabilisticSampler
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defaultSampler *ProbabilisticSampler
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lowerBound float64
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maxOperations int
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}
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// NewAdaptiveSampler returns a delegating sampler that applies both probabilisticSampler and
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// rateLimitingSampler via the guaranteedThroughputProbabilisticSampler. This sampler keeps track of all
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// operations and delegates calls to the respective guaranteedThroughputProbabilisticSampler.
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func NewAdaptiveSampler(strategies *sampling.PerOperationSamplingStrategies, maxOperations int) (Sampler, error) {
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return newAdaptiveSampler(strategies, maxOperations), nil
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}
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func newAdaptiveSampler(strategies *sampling.PerOperationSamplingStrategies, maxOperations int) Sampler {
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samplers := make(map[string]*GuaranteedThroughputProbabilisticSampler)
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for _, strategy := range strategies.PerOperationStrategies {
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sampler := newGuaranteedThroughputProbabilisticSampler(
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strategies.DefaultLowerBoundTracesPerSecond,
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strategy.ProbabilisticSampling.SamplingRate,
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)
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samplers[strategy.Operation] = sampler
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}
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return &adaptiveSampler{
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samplers: samplers,
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defaultSampler: newProbabilisticSampler(strategies.DefaultSamplingProbability),
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lowerBound: strategies.DefaultLowerBoundTracesPerSecond,
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maxOperations: maxOperations,
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}
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}
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func (s *adaptiveSampler) IsSampled(id TraceID, operation string) (bool, []Tag) {
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s.RLock()
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sampler, ok := s.samplers[operation]
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if ok {
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defer s.RUnlock()
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return sampler.IsSampled(id, operation)
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}
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s.RUnlock()
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s.Lock()
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defer s.Unlock()
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// Check if sampler has already been created
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sampler, ok = s.samplers[operation]
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if ok {
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return sampler.IsSampled(id, operation)
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}
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// Store only up to maxOperations of unique ops.
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if len(s.samplers) >= s.maxOperations {
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return s.defaultSampler.IsSampled(id, operation)
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}
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newSampler := newGuaranteedThroughputProbabilisticSampler(s.lowerBound, s.defaultSampler.SamplingRate())
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s.samplers[operation] = newSampler
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return newSampler.IsSampled(id, operation)
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}
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func (s *adaptiveSampler) Close() {
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s.Lock()
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defer s.Unlock()
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for _, sampler := range s.samplers {
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sampler.Close()
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}
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s.defaultSampler.Close()
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}
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func (s *adaptiveSampler) Equal(other Sampler) bool {
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// NB The Equal() function is overly expensive for adaptiveSampler since it's composed of multiple
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// samplers which all need to be initialized before this function can be called for a comparison.
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// Therefore, adaptiveSampler uses the update() function to only alter the samplers that need
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// changing. Hence this function always returns false so that the update function can be called.
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// Once the Equal() function is removed from the Sampler API, this will no longer be needed.
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return false
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}
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func (s *adaptiveSampler) update(strategies *sampling.PerOperationSamplingStrategies) {
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s.Lock()
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defer s.Unlock()
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for _, strategy := range strategies.PerOperationStrategies {
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operation := strategy.Operation
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samplingRate := strategy.ProbabilisticSampling.SamplingRate
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lowerBound := strategies.DefaultLowerBoundTracesPerSecond
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if sampler, ok := s.samplers[operation]; ok {
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sampler.update(lowerBound, samplingRate)
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} else {
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sampler := newGuaranteedThroughputProbabilisticSampler(
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lowerBound,
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samplingRate,
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)
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s.samplers[operation] = sampler
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}
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}
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s.lowerBound = strategies.DefaultLowerBoundTracesPerSecond
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if s.defaultSampler.SamplingRate() != strategies.DefaultSamplingProbability {
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s.defaultSampler = newProbabilisticSampler(strategies.DefaultSamplingProbability)
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}
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}
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// -----------------------
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// RemotelyControlledSampler is a delegating sampler that polls a remote server
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// for the appropriate sampling strategy, constructs a corresponding sampler and
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// delegates to it for sampling decisions.
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type RemotelyControlledSampler 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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closed int64 // 0 - not closed, 1 - closed
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sync.RWMutex
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samplerOptions
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serviceName string
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manager sampling.SamplingManager
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doneChan chan *sync.WaitGroup
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}
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type httpSamplingManager struct {
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serverURL string
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}
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func (s *httpSamplingManager) GetSamplingStrategy(serviceName string) (*sampling.SamplingStrategyResponse, error) {
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var out sampling.SamplingStrategyResponse
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v := url.Values{}
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v.Set("service", serviceName)
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if err := utils.GetJSON(s.serverURL+"?"+v.Encode(), &out); err != nil {
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return nil, err
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}
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return &out, nil
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}
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// NewRemotelyControlledSampler creates a sampler that periodically pulls
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// the sampling strategy from an HTTP sampling server (e.g. jaeger-agent).
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func NewRemotelyControlledSampler(
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serviceName string,
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opts ...SamplerOption,
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) *RemotelyControlledSampler {
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options := applySamplerOptions(opts...)
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sampler := &RemotelyControlledSampler{
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samplerOptions: options,
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serviceName: serviceName,
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manager: &httpSamplingManager{serverURL: options.samplingServerURL},
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doneChan: make(chan *sync.WaitGroup),
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}
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go sampler.pollController()
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return sampler
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}
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func applySamplerOptions(opts ...SamplerOption) samplerOptions {
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options := samplerOptions{}
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for _, option := range opts {
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option(&options)
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}
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if options.sampler == nil {
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options.sampler = newProbabilisticSampler(0.001)
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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.maxOperations <= 0 {
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options.maxOperations = defaultMaxOperations
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}
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if options.samplingServerURL == "" {
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options.samplingServerURL = defaultSamplingServerURL
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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.samplingRefreshInterval <= 0 {
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options.samplingRefreshInterval = defaultSamplingRefreshInterval
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}
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return options
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}
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// IsSampled implements IsSampled() of Sampler.
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func (s *RemotelyControlledSampler) IsSampled(id TraceID, operation string) (bool, []Tag) {
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s.RLock()
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defer s.RUnlock()
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return s.sampler.IsSampled(id, operation)
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}
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// Close implements Close() of Sampler.
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func (s *RemotelyControlledSampler) Close() {
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if swapped := atomic.CompareAndSwapInt64(&s.closed, 0, 1); !swapped {
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s.logger.Error("Repeated attempt to close the sampler is ignored")
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return
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}
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var wg sync.WaitGroup
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wg.Add(1)
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s.doneChan <- &wg
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wg.Wait()
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}
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// Equal implements Equal() of Sampler.
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func (s *RemotelyControlledSampler) Equal(other Sampler) bool {
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// NB The Equal() function is expensive and will be removed. See adaptiveSampler.Equal() for
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// more information.
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if o, ok := other.(*RemotelyControlledSampler); ok {
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s.RLock()
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o.RLock()
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defer s.RUnlock()
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defer o.RUnlock()
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return s.sampler.Equal(o.sampler)
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}
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return false
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}
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func (s *RemotelyControlledSampler) pollController() {
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ticker := time.NewTicker(s.samplingRefreshInterval)
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defer ticker.Stop()
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s.pollControllerWithTicker(ticker)
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}
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func (s *RemotelyControlledSampler) pollControllerWithTicker(ticker *time.Ticker) {
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for {
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select {
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case <-ticker.C:
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s.updateSampler()
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case wg := <-s.doneChan:
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wg.Done()
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return
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}
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}
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}
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func (s *RemotelyControlledSampler) getSampler() Sampler {
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s.Lock()
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defer s.Unlock()
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return s.sampler
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}
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|
func (s *RemotelyControlledSampler) setSampler(sampler Sampler) {
|
|
s.Lock()
|
|
defer s.Unlock()
|
|
s.sampler = sampler
|
|
}
|
|
|
|
func (s *RemotelyControlledSampler) updateSampler() {
|
|
res, err := s.manager.GetSamplingStrategy(s.serviceName)
|
|
if err != nil {
|
|
s.metrics.SamplerQueryFailure.Inc(1)
|
|
return
|
|
}
|
|
s.Lock()
|
|
defer s.Unlock()
|
|
|
|
s.metrics.SamplerRetrieved.Inc(1)
|
|
if strategies := res.GetOperationSampling(); strategies != nil {
|
|
s.updateAdaptiveSampler(strategies)
|
|
} else {
|
|
err = s.updateRateLimitingOrProbabilisticSampler(res)
|
|
}
|
|
if err != nil {
|
|
s.metrics.SamplerUpdateFailure.Inc(1)
|
|
s.logger.Infof("Unable to handle sampling strategy response %+v. Got error: %v", res, err)
|
|
return
|
|
}
|
|
s.metrics.SamplerUpdated.Inc(1)
|
|
}
|
|
|
|
// NB: this function should only be called while holding a Write lock
|
|
func (s *RemotelyControlledSampler) updateAdaptiveSampler(strategies *sampling.PerOperationSamplingStrategies) {
|
|
if adaptiveSampler, ok := s.sampler.(*adaptiveSampler); ok {
|
|
adaptiveSampler.update(strategies)
|
|
} else {
|
|
s.sampler = newAdaptiveSampler(strategies, s.maxOperations)
|
|
}
|
|
}
|
|
|
|
// NB: this function should only be called while holding a Write lock
|
|
func (s *RemotelyControlledSampler) updateRateLimitingOrProbabilisticSampler(res *sampling.SamplingStrategyResponse) error {
|
|
var newSampler Sampler
|
|
if probabilistic := res.GetProbabilisticSampling(); probabilistic != nil {
|
|
newSampler = newProbabilisticSampler(probabilistic.SamplingRate)
|
|
} else if rateLimiting := res.GetRateLimitingSampling(); rateLimiting != nil {
|
|
newSampler = NewRateLimitingSampler(float64(rateLimiting.MaxTracesPerSecond))
|
|
} else {
|
|
return fmt.Errorf("Unsupported sampling strategy type %v", res.GetStrategyType())
|
|
}
|
|
if !s.sampler.Equal(newSampler) {
|
|
s.sampler = newSampler
|
|
}
|
|
return nil
|
|
}
|