public void TryGetEventPairDuration_recognizes_start_events_that_will_be_discarded()
{
var startEvent1 = CreateEventWrittenEventArgs(EventIdStart, DateTime.UtcNow, payload: 1L);
Assert.That(_eventPairTimer.TryGetDuration(startEvent1, out var duration), Is.EqualTo(DurationResult.Start));
Assert.That(duration, Is.EqualTo(TimeSpan.Zero));
}
public void ProcessEvent(EventWrittenEventArgs e)
{
switch (_eventPairTimerConnections.TryGetDuration(e, out var duration1))
{
case DurationResult.Start:
ConnectionStart?.Invoke(Events.ConnectionStartEvent.Instance);
break;
case DurationResult.FinalWithDuration:
ConnectionStop?.InvokeManyTimes(_samplingRate.SampleEvery, Events.ConnectionStopEvent.GetFrom(duration1));
break;
default:
break;
}
switch (_eventPairTimerRequests.TryGetDuration(e, out var duration2))
{
case DurationResult.Start:
ConnectionStart?.Invoke(Events.ConnectionStartEvent.Instance);
break;
case DurationResult.FinalWithDuration:
ConnectionStop?.InvokeManyTimes(_samplingRate.SampleEvery, Events.ConnectionStopEvent.GetFrom(duration2));
break;
default:
break;
}
if (e.EventId == EventIdConnectionStart)
{
ConnectionStart?.Invoke(Events.ConnectionStartEvent.ParseFrom(e));
return;
}
if (e.EventId == EventIdConnectionStop)
{
ConnectionStop?.Invoke(Events.ConnectionStopEvent.ParseFrom(e));
return;
}
if (e.EventId == EventIdRequestStart)
{
RequestStart?.Invoke(Events.RequestStartEvent.ParseFrom(e));
return;
}
if (e.EventId == EventIdRequestStop)
{
RequestStop?.Invoke(Events.RequestStopEvent.ParseFrom(e));
return;
}
if (e.EventId == EventIdConnectionRejected)
{
ConnectionRejected?.Invoke(Events.ConnectionRejectedEvent.ParseFrom(e));
return;
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
if (_eventPairTimer.TryGetDuration(e, out var duration) == DurationResult.FinalWithDuration)
{
ContentionTotal.Inc(_samplingRate.SampleEvery);
ContentionSecondsTotal.Inc(duration.TotalSeconds * _samplingRate.SampleEvery);
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
if (_eventPairTimer.TryGetDuration(e, out var duration) != DurationResult.FinalWithDuration)
{
return;
}
_metrics.Provider.Timer.Instance(DotNetRuntimeMetricsRegistry.Timers.ScheduleDelay).Record(duration.Ticks * 100, TimeUnit.Nanoseconds);
}
public void ProcessEvent(EventWrittenEventArgs e)
{
if (_eventPairTimer.TryGetDuration(e, out var duration) == DurationResult.FinalWithDuration)
{
// dynamic methods are of special interest to us- only a certain number of JIT'd dynamic methods
// will be cached. Frequent use of dynamic can cause methods to be evicted from the cache and re-JIT'd
var methodFlags = (uint)e.Payload[5];
var dynamicLabelValue = (methodFlags & 0x1) == 0x1 ? LabelValueTrue : LabelValueFalse;
MethodsJittedTotal.Labels(dynamicLabelValue).Inc(_samplingRate.SampleEvery);
MethodsJittedSecondsTotal.Labels(dynamicLabelValue).Inc(duration.TotalSeconds * _samplingRate.SampleEvery);
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
switch (_eventPairTimer.TryGetDuration(e, out var duration))
{
case DurationResult.Start:
ContentionStart?.Invoke(Events.ContentionStartEvent.Instance);
return;
case DurationResult.FinalWithDuration:
ContentionEnd?.InvokeManyTimes(_samplingRate.SampleEvery, Events.ContentionEndEvent.GetFrom(duration));
return;
default:
return;
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
switch (_eventPairTimer.TryGetDuration(e, out var duration))
{
case DurationResult.Start:
ContentionTotal.Inc();
return;
case DurationResult.FinalWithDuration:
ContentionSecondsTotal.Inc(duration.TotalSeconds * _samplingRate.SampleEvery);
return;
default:
return;
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
switch (_eventPairTimer.TryGetDuration(e, out var duration))
{
case DurationResult.Start:
ScheduledCount.Inc();
return;
case DurationResult.FinalWithDuration:
ScheduleDelay.Observe(duration.TotalSeconds, _samplingRate.SampleEvery);
return;
default:
return;
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
if (e.EventId == EventIdAllocTick)
{
AllocationTick?.Invoke(Events.AllocationTickEvent.ParseFrom(e));
return;
}
if (e.EventId == EventIdHeapStats)
{
HeapStats?.Invoke(Events.HeapStatsEvent.ParseFrom(e));
return;
}
// flags representing the "Garbage Collection" + "Preparation for garbage collection" pause reasons
const uint suspendGcReasons = 0x1 | 0x6;
if (e.EventId == EventIdSuspendEEStart && ((uint)e.Payload[0] & suspendGcReasons) == 0)
{
// Execution engine is pausing for a reason other than GC, discard event.
return;
}
if (_gcPauseEventTimer.TryGetDuration(e, out var pauseDuration) == DurationResult.FinalWithDuration)
{
PauseComplete?.Invoke(Events.PauseCompleteEvent.GetFrom(pauseDuration));
return;
}
if (e.EventId == EventIdGcStart)
{
CollectionStart?.Invoke(Events.CollectionStartEvent.ParseFrom(e));
}
if (_gcEventTimer.TryGetDuration(e, out var gcDuration, out var gcData) == DurationResult.FinalWithDuration)
{
CollectionComplete?.Invoke(Events.CollectionCompleteEvent.GetFrom(gcData.Generation, gcData.Type, gcDuration));
}
}
public void ProcessEvent(EventWrittenEventArgs e)
{
if (_eventPairTimer.TryGetDuration(e, out var duration) == DurationResult.FinalWithDuration)
{
// dynamic methods are of special interest to us- only a certain number of JIT'd dynamic methods
// will be cached. Frequent use of dynamic can cause methods to be evicted from the cache and re-JIT'd
var methodFlags = (uint)e.Payload[5];
var dynamicLabelValue = (methodFlags & 0x1) == 0x1 ? LabelValueTrue : LabelValueFalse;
_metrics.Provider.Timer.Instance(DotNetRuntimeMetricsRegistry.Timers.MethodsJittedMilliSecondsTotal,
new MetricTags(DynamicLabel, dynamicLabelValue)).Record(duration.Ticks * 100, TimeUnit.Nanoseconds);
_metrics.Provider.Timer.Instance(DotNetRuntimeMetricsRegistry.Timers.MethodsJittedMilliSecondsTotal)
.Record(duration.Ticks * 100, TimeUnit.Nanoseconds);
var methodsJittedMsTotalCounter = _metrics.Provider.Timer.Instance(DotNetRuntimeMetricsRegistry.Timers.MethodsJittedMilliSecondsTotal);
_jitCpuProcessTotalCpuTimer.Calculate();
_metrics.Measure.Gauge.SetValue(DotNetRuntimeMetricsRegistry.Gauges.CpuRatio,
() => new RatioGauge(
() => methodsJittedMsTotalCounter.GetValueOrDefault().Histogram.LastValue,
() => _jitCpuProcessTotalCpuTimer.ProcessTimeUsed.Ticks * 100.0));
}
}
public void TryGetEventPairDuration_ignores_events_that_its_not_configured_to_look_for()
{
var nonMonitoredEvent = CreateEventWrittenEventArgs(3);
Assert.That(_eventPairTimer.TryGetDuration(nonMonitoredEvent, out var duration), Is.EqualTo(DurationResult.Unrecognized));
Assert.That(duration, Is.EqualTo(TimeSpan.Zero));
}
