Esempio n. 1
0
func (s *ManagerTestSuite) TestBegan(t *check.C) {
	var began time.Time

	// between intervals
	began = ticker.Began(300, 1388577750)
	t.Check(began.Unix(), check.Equals, int64(1388577600))

	// 1s before next interval
	began = ticker.Began(300, 1388577899)
	t.Check(began.Unix(), check.Equals, int64(1388577600))

	// at interval
	began = ticker.Began(300, 1388577900)
	t.Check(began.Unix(), check.Equals, int64(1388577900))
}
Esempio n. 2
0
// @goroutine[1]
func (m *Manager) run(config Config) {
	defer func() {
		if m.sync.IsGraceful() {
			m.status.Update("qan-log-parser", "Stopped")
		} else {
			m.status.Update("qan-log-parser", "Crashed")
		}
		m.sync.Done()
	}()

	m.status.Update("qan-log-parser", "Starting")

	// If time to next interval is more than 1 minute, then start first
	// interval now.  This means first interval will have partial results.
	t := m.clock.ETA(m.tickChan)
	if t > 60 {
		began := ticker.Began(config.Interval, uint(time.Now().UTC().Unix()))
		m.logger.Info("First interval began at", began)
		m.tickChan <- began
	} else {
		m.logger.Info(fmt.Sprintf("First interval begins in %.1f seconds", t))
	}

	intervalChan := m.iter.IntervalChan()
	lastTs := time.Time{}

	for {
		m.logger.Debug("run:wait")

		m.workersMux.RLock()
		runningWorkers := len(m.workers)
		m.workersMux.RUnlock()
		m.status.Update("qan-log-parser", fmt.Sprintf("Idle (%d of %d running)", runningWorkers, config.MaxWorkers))

		select {
		case interval := <-intervalChan:
			m.logger.Debug(fmt.Sprintf("run:interval:%d", interval.Number))

			m.workersMux.RLock()
			runningWorkers := len(m.workers)
			m.workersMux.RUnlock()
			m.logger.Debug(fmt.Sprintf("%d workers running", runningWorkers))
			if runningWorkers >= config.MaxWorkers {
				m.logger.Warn("All workers busy, interval dropped")
				continue
			}

			if interval.EndOffset >= config.MaxSlowLogSize {
				m.logger.Info("Rotating slow log")
				if err := m.rotateSlowLog(config, interval); err != nil {
					m.logger.Error(err)
				}
			}

			m.status.Update("qan-log-parser", "Running worker")
			job := &Job{
				Id:             fmt.Sprintf("%d", interval.Number),
				SlowLogFile:    interval.Filename,
				StartOffset:    interval.StartOffset,
				EndOffset:      interval.EndOffset,
				RunTime:        time.Duration(config.WorkerRunTime) * time.Second,
				ExampleQueries: config.ExampleQueries,
			}
			w := m.workerFactory.Make(fmt.Sprintf("qan-worker-%d", interval.Number))

			m.workersMux.Lock()
			m.workers[w] = interval
			m.workersMux.Unlock()

			// Run a worker to parse this slice of the slow log.
			go func(interval *Interval) {
				m.logger.Debug(fmt.Sprintf("run:interval:%d:start", interval.Number))
				defer func() {
					m.logger.Debug(fmt.Sprintf("run:interval:%d:done", interval.Number))
					if err := recover(); err != nil {
						// Worker caused panic.  Log it as error because this shouldn't happen.
						m.logger.Error(fmt.Sprintf("Lost interval %s: %s", interval, err))
					}
					m.workerDoneChan <- w
				}()

				t0 := time.Now()
				result, err := w.Run(job)
				t1 := time.Now()
				if err != nil {
					m.logger.Error(err)
					return
				}
				if result == nil {
					m.logger.Error("Nil result", fmt.Sprintf("+%v", job))
					return
				}
				result.RunTime = t1.Sub(t0).Seconds()

				report := MakeReport(config.ServiceInstance, interval, result, config)
				if err := m.spool.Write("qan", report); err != nil {
					m.logger.Warn("Lost report:", err)
				}
			}(interval)
		case worker := <-m.workerDoneChan:
			m.logger.Debug("run:worker:done")
			m.status.Update("qan-log-parser", "Reaping worker")

			m.workersMux.Lock()
			interval := m.workers[worker]
			delete(m.workers, worker)
			m.workersMux.Unlock()

			if interval.StartTime.After(lastTs) {
				t0 := interval.StartTime.Format("2006-01-02 15:04:05")
				t1 := interval.StopTime.Format("15:04:05 MST")
				m.status.Update("qan-last-interval", fmt.Sprintf("%s to %s", t0, t1))
				lastTs = interval.StartTime
			}

			for file, cnt := range m.oldSlowLogs {
				if cnt == 1 {
					m.status.Update("qan-log-parser", "Removing old slow log "+file)
					if err := os.Remove(file); err != nil {
						m.logger.Warn(err)
					} else {
						delete(m.oldSlowLogs, file)
						m.logger.Info("Removed " + file)
					}
				} else {
					m.oldSlowLogs[file] = cnt - 1
				}
			}
		case <-m.sync.StopChan:
			m.logger.Debug("run:stop")
			m.sync.Graceful()
			return
		}
	}
}
Esempio n. 3
0
func (a *RealAnalyzer) run() {
	a.logger.Debug("run:call")
	defer a.logger.Debug("run:return")

	mysqlConfigured := false
	go a.configureMySQL(a.config.Start, 0) // try forever

	defer func() {
		a.logger.Info("Stopping")

		a.status.Update(a.name, "Stopping worker")
		a.worker.Stop()

		a.status.Update(a.name, "Stopping interval iter")
		a.iter.Stop()

		if !mysqlConfigured {
			a.status.Update(a.name, "Stopping MySQL config")
			a.configureMySQLSync.Stop()
			a.configureMySQLSync.Wait()
		}

		a.status.Update(a.name, "Stopping QAN on MySQL")
		a.configureMySQL(a.config.Stop, 1) // try once

		if err := recover(); err != nil {
			a.logger.Error("QAN crashed: ", err)
			a.status.Update(a.name, "Crashed")
		} else {
			a.status.Update(a.name, "Stopped")
			a.logger.Info("Stopped")
		}

		a.runSync.Done()
	}()

	workerRunning := false
	lastTs := time.Time{}
	currentInterval := &Interval{}
	for {
		a.logger.Debug("run:idle")
		if mysqlConfigured {
			if workerRunning {
				a.status.Update(a.name, "Running")
			} else {
				a.status.Update(a.name, "Idle")
			}
		} else {
			a.status.Update(a.name, "Trying to configure MySQL")
		}

		select {
		case interval := <-a.iter.IntervalChan():
			if !mysqlConfigured {
				a.logger.Debug(fmt.Sprintf("run:interval:%d:skip (mysql not configured)", interval.Number))
				continue
			}

			if workerRunning {
				a.logger.Warn(fmt.Sprintf("Skipping interval '%s' because interval '%s' is still being parsed",
					interval, currentInterval))
				continue
			}

			a.status.Update(a.name, fmt.Sprintf("Starting interval '%s'", interval))
			a.logger.Debug(fmt.Sprintf("run:interval:%s", interval))
			currentInterval = interval

			// Run the worker, timing it, make a report from its results, spool
			// the report. When done the interval is returned on workerDoneChan.
			go a.runWorker(interval)
			workerRunning = true
		case interval := <-a.workerDoneChan:
			a.logger.Debug("run:worker:done")
			a.status.Update(a.name, fmt.Sprintf("Cleaning up after interval '%s'", interval))
			workerRunning = false

			if interval.StartTime.After(lastTs) {
				t0 := interval.StartTime.Format("2006-01-02 15:04:05")
				if a.config.CollectFrom == "slowlog" {
					t1 := interval.StopTime.Format("15:04:05 MST")
					a.status.Update(a.name+"-last-interval", fmt.Sprintf("%s to %s", t0, t1))
				} else {
					a.status.Update(a.name+"-last-interval", fmt.Sprintf("%s", t0))
				}
				lastTs = interval.StartTime
			}
		case mysqlConfigured = <-a.mysqlConfiguredChan:
			a.logger.Debug("run:mysql:configured")
			// Start the IntervalIter once MySQL has been configured.
			// This avoids no data or partial data, e.g. slow log verbosity
			// not set yet.
			a.iter.Start()

			// If the next interval is more than 1 minute in the future,
			// simulate a clock tick now to start the iter early. For example,
			// if the interval is 5m and it's currently 01:00, the next interval
			// starts in 4m and stops in 9m, so data won't be reported for about
			// 10m. Instead, tick now so start interval=01:00 and end interval
			// =05:00 and data is reported in about 6m.
			tickChan := a.iter.TickChan()
			t := a.clock.ETA(tickChan)
			if t > 60 {
				began := ticker.Began(a.config.Interval, uint(time.Now().UTC().Unix()))
				a.logger.Info("First interval began at", began)
				tickChan <- began
			} else {
				a.logger.Info(fmt.Sprintf("First interval begins in %.1f seconds", t))
			}
		case <-a.restartChan:
			a.logger.Debug("run:mysql:restart")
			// If MySQL is not configured, then configureMySQL() should already
			// be running, trying to configure it. Else, we need to run
			// configureMySQL again.
			if mysqlConfigured {
				mysqlConfigured = false
				a.iter.Stop()
				go a.configureMySQL(a.config.Start, 0) // try forever
			}
		case <-a.runSync.StopChan:
			a.logger.Debug("run:stop")
			return
		}
	}
}