func CheckRecurredTaskBegin(name string) error {
lastRc := NewResultContainer()
err := lastRc.LoadLatest()
if err != nil {
if lastRc == nil {
negativeCheck("internal error")
return err
}
}
lastBegin, err := persistence.GetLastBegin(name)
if err != nil {
negativeCheck("internal error")
return err
}
res := lastRc.Get(name)
if res.IntervalAvg < 1 {
return nil
//no interval data
}
if time.Now().Sub(lastBegin.Time) > (res.IntervalAvg + res.IntervalStdDev) {
msg := `Task "` + name + `" has not recurred in time`
idl.Warn(msg, lastBegin)
negativeCheck(msg)
}
return nil
}
func CheckRecurredTaskEnd(begin logpoint.LogPoint) error {
end, err := persistence.GetEndByStart(begin)
if err == persistence.NXlogpoint {
idl.Warn(`Task "`+begin.Task+`" not finished`, begin)
return nil
}
if err != nil {
negativeCheck("internal error")
return err
}
if end.State != state.OK {
idl.Warn(`Task "`+begin.Task+`" unsuccessful`, end)
}
idl.Debug("task successfully checked", end)
return nil
}
func PushRecurringEnd(task, host, identifier, stateStr, requestBody string) error {
lp := logpoint.LogPoint{
RunId: identifier,
Task: task,
Host: host,
Mode: mode.Recurring,
Priority: priority.Informational,
State: state.Atos(stateStr),
Time: time.Now(),
Raw: requestBody,
}
if lp.State != state.OK {
idl.Warn("Recurring task unsuccessful: "+lp.Task, lp)
}
return persistence.StorePoint(lp)
}
func CheckRecurringFluctuation() error {
lastRc := NewResultContainer()
err := lastRc.LoadLatest()
if err != nil {
if lastRc == nil {
negativeCheck("internal error")
return err
}
}
currentRc, err := GetRecurringResultContainer()
if err != nil {
negativeCheck("internal error")
return err
}
err = currentRc.Store()
currentRc.mu.RLock()
defer currentRc.mu.RUnlock()
lastRc.mu.RLock()
defer lastRc.mu.RUnlock()
warnPre := `Analysis of task "`
warnMid := `" found fluctuation in `
for task, curRes := range currentRc.m {
lastRes, ok := lastRc.m[task]
if !ok {
//new task - no past data
continue
}
avgDiff := int64(math.Abs(float64(curRes.Avg) - float64(lastRes.Avg)))
if avgDiff > int64(lastRes.StdDevQr) {
negativeCheck(warnPre + task + warnMid + "Average")
idl.Warn(warnPre+task+warnMid+"Average", time.Duration(avgDiff), lastRes, curRes)
}
stdDevDiff := int64(math.Abs(float64(curRes.StdDev) - float64(lastRes.StdDev)))
if stdDevDiff > int64(lastRes.StdDevQr) {
negativeCheck(warnPre + task + warnMid + "StandardDeviation")
idl.Warn(warnPre+task+warnMid+"StandardDeviation", time.Duration(stdDevDiff), lastRes, curRes)
}
avgDiffQr := int64(math.Abs(float64(curRes.AvgQr) - float64(lastRes.AvgQr)))
if avgDiffQr > int64(lastRes.StdDevQr) {
negativeCheck(warnPre + task + warnMid + "Average (quartile reduced)")
idl.Warn(warnPre+task+warnMid+"Average (quartile reduced)", time.Duration(avgDiffQr), lastRes, curRes)
}
stdDevQrDiff := int64(math.Abs(float64(curRes.StdDevQr) - float64(lastRes.StdDevQr)))
if stdDevQrDiff > int64(lastRes.StdDevQr) {
negativeCheck(warnPre + task + warnMid + "StandardDeviation (quartile reduced)")
idl.Warn(warnPre+task+warnMid+"StandardDeviation (quartile reduced)", time.Duration(stdDevQrDiff), lastRes, curRes)
}
invAvgDiff := int64(math.Abs(float64(curRes.IntervalAvg) - float64(lastRes.IntervalAvg)))
if invAvgDiff > int64(lastRes.IntervalStdDev) {
negativeCheck(warnPre + task + warnMid + "IntervalAverage")
idl.Warn(warnPre+task+warnMid+"IntervalAverage", time.Duration(invAvgDiff), lastRes, curRes)
}
invStdDevDiff := int64(math.Abs(float64(curRes.IntervalStdDev) - float64(lastRes.IntervalStdDev)))
if invStdDevDiff > int64(lastRes.IntervalStdDev) {
negativeCheck(warnPre + task + warnMid + "IntervalStandardDeviation")
idl.Warn(warnPre+task+warnMid+"IntervalStandardDeviation", time.Duration(invStdDevDiff), lastRes, curRes)
}
}
return err
}
