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https://github.com/VictoriaMetrics/VictoriaMetrics.git
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5354374b62
- Consistently enumerate stream aggregation outputs in alphabetical order across the source code and docs.
This should simplify future maintenance of the corresponding code and docs.
- Fix the link to `rate_sum()` at `see also` section of `rate_avg()` docs.
- Make more clear the docs for `rate_sum()` and `rate_avg()` outputs.
- Encapsulate output metric suffix inside rateAggrState. This eliminates possible bugs related
to incorrect suffix passing to newRateAggrState().
- Rename rateAggrState.total field to less misleading rateAggrState.increase name, since it calculates
counter increase in the current aggregation window.
- Set rateLastValueState.prevTimestamp on the first sample in time series instead of the second sample.
This makes more clear the code logic.
- Move the code for removing outdated entries at rateAggrState into removeOldEntries() function.
This make the code logic inside rateAggrState.flushState() more clear.
- Do not write output sample with zero value if there are no input series, which could be used
for calculating the rate, e.g. if only a single sample is registered for every input series.
- Do not take into account input series with a single registered sample when calculating rate_avg(),
since this leads to incorrect results.
- Move {rate,total}AggrState.flushState() function to the end of rate.go and total.go files, so they look more similar.
This shuld simplify future mantenance.
Updates https://github.com/VictoriaMetrics/VictoriaMetrics/pull/6243
185 lines
4.9 KiB
Go
185 lines
4.9 KiB
Go
package streamaggr
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import (
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"math"
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"sync"
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"time"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
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)
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// totalAggrState calculates output=total, total_prometheus, increase and increase_prometheus.
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type totalAggrState struct {
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m sync.Map
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suffix string
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// Whether to reset the output value on every flushState call.
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resetTotalOnFlush bool
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// Whether to take into account the first sample in new time series when calculating the output value.
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keepFirstSample bool
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// Time series state is dropped if no new samples are received during stalenessSecs.
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//
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// Aslo, the first sample per each new series is ignored during stalenessSecs even if keepFirstSample is set.
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// see ignoreFirstSampleDeadline for more details.
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stalenessSecs uint64
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// The first sample per each new series is ignored until this unix timestamp deadline in seconds even if keepFirstSample is set.
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// This allows avoiding an initial spike of the output values at startup when new time series
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// cannot be distinguished from already existing series. This is tracked with ignoreFirstSampleDeadline.
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ignoreFirstSampleDeadline uint64
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}
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type totalStateValue struct {
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mu sync.Mutex
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lastValues map[string]totalLastValueState
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total float64
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deleteDeadline uint64
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deleted bool
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}
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type totalLastValueState struct {
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value float64
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timestamp int64
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deleteDeadline uint64
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}
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func newTotalAggrState(stalenessInterval time.Duration, resetTotalOnFlush, keepFirstSample bool) *totalAggrState {
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stalenessSecs := roundDurationToSecs(stalenessInterval)
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ignoreFirstSampleDeadline := fasttime.UnixTimestamp() + stalenessSecs
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suffix := "total"
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if resetTotalOnFlush {
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suffix = "increase"
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}
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if !keepFirstSample {
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suffix += "_prometheus"
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}
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return &totalAggrState{
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suffix: suffix,
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resetTotalOnFlush: resetTotalOnFlush,
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keepFirstSample: keepFirstSample,
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stalenessSecs: stalenessSecs,
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ignoreFirstSampleDeadline: ignoreFirstSampleDeadline,
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}
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}
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func (as *totalAggrState) pushSamples(samples []pushSample) {
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currentTime := fasttime.UnixTimestamp()
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deleteDeadline := currentTime + as.stalenessSecs
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keepFirstSample := as.keepFirstSample && currentTime > as.ignoreFirstSampleDeadline
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for i := range samples {
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s := &samples[i]
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inputKey, outputKey := getInputOutputKey(s.key)
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again:
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v, ok := as.m.Load(outputKey)
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if !ok {
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// The entry is missing in the map. Try creating it.
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v = &totalStateValue{
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lastValues: make(map[string]totalLastValueState),
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}
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outputKey = bytesutil.InternString(outputKey)
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vNew, loaded := as.m.LoadOrStore(outputKey, v)
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if loaded {
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// Use the entry created by a concurrent goroutine.
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v = vNew
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}
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}
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sv := v.(*totalStateValue)
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sv.mu.Lock()
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deleted := sv.deleted
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if !deleted {
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lv, ok := sv.lastValues[inputKey]
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if ok || keepFirstSample {
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if s.timestamp < lv.timestamp {
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// Skip out of order sample
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sv.mu.Unlock()
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continue
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}
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if s.value >= lv.value {
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sv.total += s.value - lv.value
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} else {
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// counter reset
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sv.total += s.value
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}
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}
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lv.value = s.value
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lv.timestamp = s.timestamp
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lv.deleteDeadline = deleteDeadline
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inputKey = bytesutil.InternString(inputKey)
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sv.lastValues[inputKey] = lv
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sv.deleteDeadline = deleteDeadline
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}
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sv.mu.Unlock()
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if deleted {
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// The entry has been deleted by the concurrent call to flushState
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// Try obtaining and updating the entry again.
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goto again
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}
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}
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}
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func (as *totalAggrState) flushState(ctx *flushCtx, resetState bool) {
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currentTime := fasttime.UnixTimestamp()
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currentTimeMsec := int64(currentTime) * 1000
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as.removeOldEntries(ctx, currentTime)
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m := &as.m
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m.Range(func(k, v any) bool {
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sv := v.(*totalStateValue)
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sv.mu.Lock()
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total := sv.total
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if resetState {
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if as.resetTotalOnFlush {
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sv.total = 0
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} else if math.Abs(sv.total) >= (1 << 53) {
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// It is time to reset the entry, since it starts losing float64 precision
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sv.total = 0
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}
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}
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deleted := sv.deleted
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sv.mu.Unlock()
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if !deleted {
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key := k.(string)
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ctx.appendSeries(key, as.suffix, currentTimeMsec, total)
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}
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return true
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})
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}
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func (as *totalAggrState) removeOldEntries(ctx *flushCtx, currentTime uint64) {
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m := &as.m
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var staleInputSamples, staleOutputSamples int
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m.Range(func(k, v any) bool {
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sv := v.(*totalStateValue)
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sv.mu.Lock()
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if currentTime > sv.deleteDeadline {
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// Mark the current entry as deleted
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sv.deleted = true
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staleOutputSamples++
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sv.mu.Unlock()
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m.Delete(k)
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return true
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}
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// Delete outdated entries in sv.lastValues
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lvs := sv.lastValues
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for k1, lv := range lvs {
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if currentTime > lv.deleteDeadline {
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delete(lvs, k1)
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staleInputSamples++
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}
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}
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sv.mu.Unlock()
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return true
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})
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ctx.a.staleInputSamples[as.suffix].Add(staleInputSamples)
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ctx.a.staleOutputSamples[as.suffix].Add(staleOutputSamples)
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}
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