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20dbb128d9
Per Julien's feedback on #10369, we're choosing to be consistent with data types inside the stats structure (ints) rather than with the points format that is part of the normal query responses (strings). We have this option because this data cannot be NaN/Inf. Signed-off-by: Andrew Bloomgarden <blmgrdn@amazon.com>
333 lines
8.5 KiB
Go
333 lines
8.5 KiB
Go
// 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 int `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: int64(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 int
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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 []int
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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([]int, 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, samples int) {
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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 int64, samples int) {
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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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