package streamaggr import ( "strings" "sync" "github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime" ) // minAggrState calculates output=min, e.g. the minimum value over input samples. type minAggrState struct { m sync.Map } type minStateValue struct { mu sync.Mutex min float64 deleted bool } func newMinAggrState() *minAggrState { return &minAggrState{} } func (as *minAggrState) pushSamples(samples []pushSample) { for i := range samples { s := &samples[i] outputKey := getOutputKey(s.key) again: v, ok := as.m.Load(outputKey) if !ok { // The entry is missing in the map. Try creating it. v = &minStateValue{ min: s.value, } outputKey = strings.Clone(outputKey) vNew, loaded := as.m.LoadOrStore(outputKey, v) if !loaded { // The new entry has been successfully created. continue } // Use the entry created by a concurrent goroutine. v = vNew } sv := v.(*minStateValue) sv.mu.Lock() deleted := sv.deleted if !deleted { if s.value < sv.min { sv.min = s.value } } sv.mu.Unlock() if deleted { // The entry has been deleted by the concurrent call to flushState // Try obtaining and updating the entry again. goto again } } } func (as *minAggrState) flushState(ctx *flushCtx) { currentTimeMsec := int64(fasttime.UnixTimestamp()) * 1000 m := &as.m m.Range(func(k, v interface{}) bool { // Atomically delete the entry from the map, so new entry is created for the next flush. m.Delete(k) sv := v.(*minStateValue) sv.mu.Lock() min := sv.min // Mark the entry as deleted, so it won't be updated anymore by concurrent pushSample() calls. sv.deleted = true sv.mu.Unlock() key := k.(string) ctx.appendSeries(key, "min", currentTimeMsec, min) return true }) }