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333 lines
8.5 KiB
333 lines
8.5 KiB
// Copyright 2013 The Prometheus Authors
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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 stats
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import (
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"context"
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"encoding/json"
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"fmt"
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"github.com/prometheus/client_golang/prometheus"
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"go.opentelemetry.io/otel"
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"go.opentelemetry.io/otel/trace"
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)
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// QueryTiming identifies the code area or functionality in which time is spent
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// during a query.
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type QueryTiming int
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// Query timings.
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const (
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EvalTotalTime QueryTiming = iota
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ResultSortTime
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QueryPreparationTime
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InnerEvalTime
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ExecQueueTime
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ExecTotalTime
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)
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// Return a string representation of a QueryTiming identifier.
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func (s QueryTiming) String() string {
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switch s {
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case EvalTotalTime:
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return "Eval total time"
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case ResultSortTime:
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return "Result sorting time"
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case QueryPreparationTime:
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return "Query preparation time"
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case InnerEvalTime:
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return "Inner eval time"
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case ExecQueueTime:
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return "Exec queue wait time"
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case ExecTotalTime:
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return "Exec total time"
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default:
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return "Unknown query timing"
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}
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}
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// SpanOperation returns a string representation of a QueryTiming span operation.
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func (s QueryTiming) SpanOperation() string {
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switch s {
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case EvalTotalTime:
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return "promqlEval"
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case ResultSortTime:
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return "promqlSort"
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case QueryPreparationTime:
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return "promqlPrepare"
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case InnerEvalTime:
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return "promqlInnerEval"
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case ExecQueueTime:
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return "promqlExecQueue"
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case ExecTotalTime:
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return "promqlExec"
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default:
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return "Unknown query timing"
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}
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}
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// stepStat represents a single statistic for a given step timestamp.
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type stepStat struct {
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T int64
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V int64
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}
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func (s stepStat) String() string {
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return fmt.Sprintf("%v @[%v]", s.V, s.T)
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}
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// MarshalJSON implements json.Marshaler.
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func (s stepStat) MarshalJSON() ([]byte, error) {
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return json.Marshal([...]interface{}{float64(s.T) / 1000, s.V})
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}
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// queryTimings with all query timers mapped to durations.
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type queryTimings struct {
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EvalTotalTime float64 `json:"evalTotalTime"`
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ResultSortTime float64 `json:"resultSortTime"`
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QueryPreparationTime float64 `json:"queryPreparationTime"`
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InnerEvalTime float64 `json:"innerEvalTime"`
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ExecQueueTime float64 `json:"execQueueTime"`
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ExecTotalTime float64 `json:"execTotalTime"`
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}
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type querySamples struct {
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TotalQueryableSamplesPerStep []stepStat `json:"totalQueryableSamplesPerStep,omitempty"`
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TotalQueryableSamples int64 `json:"totalQueryableSamples"`
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PeakSamples int `json:"peakSamples"`
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}
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// BuiltinStats holds the statistics that Prometheus's core gathers.
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type BuiltinStats struct {
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Timings queryTimings `json:"timings,omitempty"`
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Samples *querySamples `json:"samples,omitempty"`
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}
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// QueryStats holds BuiltinStats and any other stats the particular
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// implementation wants to collect.
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type QueryStats interface {
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Builtin() BuiltinStats
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}
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func (s *BuiltinStats) Builtin() BuiltinStats {
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return *s
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}
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// NewQueryStats makes a QueryStats struct with all QueryTimings found in the
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// given TimerGroup.
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func NewQueryStats(s *Statistics) QueryStats {
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var (
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qt queryTimings
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samples *querySamples
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tg = s.Timers
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sp = s.Samples
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)
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for s, timer := range tg.TimerGroup.timers {
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switch s {
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case EvalTotalTime:
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qt.EvalTotalTime = timer.Duration()
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case ResultSortTime:
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qt.ResultSortTime = timer.Duration()
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case QueryPreparationTime:
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qt.QueryPreparationTime = timer.Duration()
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case InnerEvalTime:
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qt.InnerEvalTime = timer.Duration()
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case ExecQueueTime:
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qt.ExecQueueTime = timer.Duration()
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case ExecTotalTime:
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qt.ExecTotalTime = timer.Duration()
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}
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}
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if sp != nil {
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samples = &querySamples{
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TotalQueryableSamples: sp.TotalSamples,
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PeakSamples: sp.PeakSamples,
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}
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samples.TotalQueryableSamplesPerStep = sp.totalSamplesPerStepPoints()
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}
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qs := BuiltinStats{Timings: qt, Samples: samples}
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return &qs
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}
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func (qs *QuerySamples) TotalSamplesPerStepMap() *TotalSamplesPerStep {
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if !qs.EnablePerStepStats {
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return nil
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}
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ts := TotalSamplesPerStep{}
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for _, s := range qs.totalSamplesPerStepPoints() {
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ts[s.T] = int(s.V)
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}
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return &ts
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}
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func (qs *QuerySamples) totalSamplesPerStepPoints() []stepStat {
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if !qs.EnablePerStepStats {
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return nil
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}
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ts := make([]stepStat, len(qs.TotalSamplesPerStep))
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for i, c := range qs.TotalSamplesPerStep {
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ts[i] = stepStat{T: qs.startTimestamp + int64(i)*qs.interval, V: c}
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}
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return ts
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}
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// SpanTimer unifies tracing and timing, to reduce repetition.
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type SpanTimer struct {
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timer *Timer
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observers []prometheus.Observer
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span trace.Span
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}
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func NewSpanTimer(ctx context.Context, operation string, timer *Timer, observers ...prometheus.Observer) (*SpanTimer, context.Context) {
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ctx, span := otel.Tracer("").Start(ctx, operation)
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timer.Start()
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return &SpanTimer{
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timer: timer,
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observers: observers,
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span: span,
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}, ctx
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}
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func (s *SpanTimer) Finish() {
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s.timer.Stop()
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s.span.End()
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for _, obs := range s.observers {
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obs.Observe(s.timer.ElapsedTime().Seconds())
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}
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}
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type Statistics struct {
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Timers *QueryTimers
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Samples *QuerySamples
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}
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type QueryTimers struct {
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*TimerGroup
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}
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type TotalSamplesPerStep map[int64]int
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type QuerySamples struct {
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// PeakSamples represent the highest count of samples considered
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// while evaluating a query. It corresponds to the peak value of
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// currentSamples, which is in turn compared against the MaxSamples
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// configured in the engine.
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PeakSamples int
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// TotalSamples represents the total number of samples scanned
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// while evaluating a query.
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TotalSamples int64
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// TotalSamplesPerStep represents the total number of samples scanned
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// per step while evaluating a query. Each step should be identical to the
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// TotalSamples when a step is run as an instant query, which means
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// we intentionally do not account for optimizations that happen inside the
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// range query engine that reduce the actual work that happens.
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TotalSamplesPerStep []int64
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EnablePerStepStats bool
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startTimestamp int64
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interval int64
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}
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type Stats struct {
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TimerStats *QueryTimers
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SampleStats *QuerySamples
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}
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func (qs *QuerySamples) InitStepTracking(start, end, interval int64) {
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if !qs.EnablePerStepStats {
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return
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}
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numSteps := int((end-start)/interval) + 1
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qs.TotalSamplesPerStep = make([]int64, numSteps)
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qs.startTimestamp = start
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qs.interval = interval
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}
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// IncrementSamplesAtStep increments the total samples count. Use this if you know the step index.
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func (qs *QuerySamples) IncrementSamplesAtStep(i int, samples int64) {
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if qs == nil {
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return
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}
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qs.TotalSamples += samples
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if qs.TotalSamplesPerStep != nil {
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qs.TotalSamplesPerStep[i] += samples
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}
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}
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// IncrementSamplesAtTimestamp increments the total samples count. Use this if you only have the corresponding step
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// timestamp.
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func (qs *QuerySamples) IncrementSamplesAtTimestamp(t, samples int64) {
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if qs == nil {
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return
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}
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qs.TotalSamples += samples
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if qs.TotalSamplesPerStep != nil {
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i := int((t - qs.startTimestamp) / qs.interval)
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qs.TotalSamplesPerStep[i] += samples
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}
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}
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// UpdatePeak updates the peak number of samples considered in
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// the evaluation of a query as used with the MaxSamples limit.
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func (qs *QuerySamples) UpdatePeak(samples int) {
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if qs == nil {
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return
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}
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if samples > qs.PeakSamples {
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qs.PeakSamples = samples
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}
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}
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// UpdatePeakFromSubquery updates the peak number of samples considered
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// in a query from its evaluation of a subquery.
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func (qs *QuerySamples) UpdatePeakFromSubquery(other *QuerySamples) {
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if qs == nil || other == nil {
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return
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}
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if other.PeakSamples > qs.PeakSamples {
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qs.PeakSamples = other.PeakSamples
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}
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}
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func NewQueryTimers() *QueryTimers {
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return &QueryTimers{NewTimerGroup()}
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}
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func NewQuerySamples(enablePerStepStats bool) *QuerySamples {
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qs := QuerySamples{EnablePerStepStats: enablePerStepStats}
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return &qs
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}
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func (qs *QuerySamples) NewChild() *QuerySamples {
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return NewQuerySamples(false)
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}
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func (qs *QueryTimers) GetSpanTimer(ctx context.Context, qt QueryTiming, observers ...prometheus.Observer) (*SpanTimer, context.Context) {
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return NewSpanTimer(ctx, qt.SpanOperation(), qs.TimerGroup.GetTimer(qt), observers...)
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}
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