package main import ( "github.com/beorn7/perks/histogram" "github.com/beorn7/perks/quantile" "math" "sync" "time" ) var quantiles = []float64{0.50, 0.75, 0.90, 0.95, 0.99, 0.999, 0.9999} var quantilesTarget = map[float64]float64{ 0.50: 0.01, 0.75: 0.01, 0.90: 0.001, 0.95: 0.001, 0.99: 0.001, 0.999: 0.0001, 0.9999: 0.00001, } type Stats struct { count int64 sum float64 sumSq float64 min float64 max float64 } func (s *Stats) Update(v float64) { s.count++ s.sum += v s.sumSq += v * v if v < s.min || s.count == 1 { s.min = v } if v > s.max || s.count == 1 { s.max = v } } func (s *Stats) Stddev() float64 { num := (float64(s.count) * s.sumSq) - math.Pow(s.sum, 2) div := float64(s.count * (s.count - 1)) if div == 0 { return 0 } return math.Sqrt(num / div) } func (s *Stats) Mean() float64 { if s.count == 0 { return 0 } return s.sum / float64(s.count) } func (s *Stats) Reset() { s.count = 0 s.sum = 0 s.sumSq = 0 s.min = 0 s.max = 0 } type StreamReport struct { lock sync.Mutex latencyStats *Stats rpsStats *Stats latencyQuantile *quantile.Stream latencyHistogram *histogram.Histogram codes map[string]int64 errors map[string]int64 latencyWithinSec *Stats rpsWithinSec float64 noDateWithinSec bool readBytes int64 writeBytes int64 doneChan chan struct{} } func NewStreamReport() *StreamReport { return &StreamReport{ latencyQuantile: quantile.NewTargeted(quantilesTarget), latencyHistogram: histogram.New(8), codes: make(map[string]int64, 1), errors: make(map[string]int64, 1), doneChan: make(chan struct{}, 1), latencyStats: &Stats{}, rpsStats: &Stats{}, latencyWithinSec: &Stats{}, } } func (s *StreamReport) insert(v float64) { s.latencyQuantile.Insert(v) s.latencyHistogram.Insert(v) s.latencyStats.Update(v) } func (s *StreamReport) Collect(records <-chan *ReportRecord) { latencyWithinSecTemp := &Stats{} go func() { ticker := time.NewTicker(time.Second) lastCount := int64(0) lastTime := startTime for { select { case <-ticker.C: s.lock.Lock() dc := s.latencyStats.count - lastCount if dc > 0 { rps := float64(dc) / time.Since(lastTime).Seconds() s.rpsStats.Update(rps) lastCount = s.latencyStats.count lastTime = time.Now() *s.latencyWithinSec = *latencyWithinSecTemp s.rpsWithinSec = rps latencyWithinSecTemp.Reset() s.noDateWithinSec = false } else { s.noDateWithinSec = true } s.lock.Unlock() case <-s.doneChan: return } } }() for { r, ok := <-records if !ok { close(s.doneChan) break } s.lock.Lock() latencyWithinSecTemp.Update(float64(r.cost)) s.insert(float64(r.cost)) if r.code != "" { s.codes[r.code] ++ } if r.error != "" { s.errors[r.error] ++ } s.readBytes = r.readBytes s.writeBytes = r.writeBytes s.lock.Unlock() recordPool.Put(r) } } type SnapshotReport struct { Elapsed time.Duration Count int64 Codes map[string]int64 Errors map[string]int64 RPS float64 ReadThroughput float64 WriteThroughput float64 Stats *struct { Min time.Duration Mean time.Duration StdDev time.Duration Max time.Duration } RpsStats *struct { Min float64 Mean float64 StdDev float64 Max float64 } Percentiles []*struct { Percentile float64 Latency time.Duration } Histograms []*struct { Mean time.Duration Count int } } func (s *StreamReport) Snapshot() *SnapshotReport { s.lock.Lock() rs := &SnapshotReport{ Elapsed: time.Since(startTime), Count: s.latencyStats.count, Stats: &struct { Min time.Duration Mean time.Duration StdDev time.Duration Max time.Duration }{time.Duration(s.latencyStats.min), time.Duration(s.latencyStats.Mean()), time.Duration(s.latencyStats.Stddev()), time.Duration(s.latencyStats.max)}, } if s.rpsStats.count > 0 { rs.RpsStats = &struct { Min float64 Mean float64 StdDev float64 Max float64 }{s.rpsStats.min, s.rpsStats.Mean(), s.rpsStats.Stddev(), s.rpsStats.max} } elapseInSec := rs.Elapsed.Seconds() rs.RPS = float64(rs.Count) / elapseInSec rs.ReadThroughput = float64(s.readBytes) / 1024.0 / 1024.0 / elapseInSec rs.WriteThroughput = float64(s.writeBytes) / 1024.0 / 1024.0 / elapseInSec rs.Codes = make(map[string]int64, len(s.codes)) for k, v := range s.codes { rs.Codes[k] = v } rs.Errors = make(map[string]int64, len(s.errors)) for k, v := range s.errors { rs.Errors[k] = v } rs.Percentiles = make([]*struct { Percentile float64 Latency time.Duration }, len(quantiles)) for i, p := range quantiles { rs.Percentiles[i] = &struct { Percentile float64 Latency time.Duration }{p, time.Duration(s.latencyQuantile.Query(p))} } hisBins := s.latencyHistogram.Bins() rs.Histograms = make([]*struct { Mean time.Duration Count int }, len(hisBins)) for i, b := range hisBins { rs.Histograms[i] = &struct { Mean time.Duration Count int }{time.Duration(b.Mean()), b.Count} } s.lock.Unlock() return rs } func (s *StreamReport) Done() <-chan struct{} { return s.doneChan } type ChartsReport struct { RPS float64 Latency Stats } func (s *StreamReport) Charts() *ChartsReport { s.lock.Lock() var cr *ChartsReport if s.noDateWithinSec { cr = nil } else { cr = &ChartsReport{ RPS: s.rpsWithinSec, Latency: *s.latencyWithinSec, } } s.lock.Unlock() return cr }