private void StartCounterCollection()
{
var task = Task.Factory.StartNew(async() =>
{
var perfService = new PerfService();
while (true)
{
var results = perfService.GetResults();
Clients.All.newCounters(results);
await Task.Delay(2000);
}
}, TaskCreationOptions.LongRunning);
}
public async Task <bool> SendPing()
{
if (!_isInitialized)
{
return(true);
}
if (_pongCompletionSource != null)
{
if (Logger.IsWarn)
{
Logger.Warn($"Another ping request in process: {P2PSession.RemoteNodeId}");
}
return(true);
}
_pongCompletionSource = new TaskCompletionSource <Packet>();
var pongTask = _pongCompletionSource.Task;
if (Logger.IsTrace)
{
Logger.Trace($"{P2PSession.RemoteNodeId} P2P sending ping on {P2PSession.RemotePort} ({RemoteClientId})");
}
Send(PingMessage.Instance);
P2PSession?.NodeStats.AddNodeStatsEvent(NodeStatsEventType.P2PPingOut);
var pingPerfCalcId = PerfService.StartPerfCalc();
var firstTask = await Task.WhenAny(pongTask, Task.Delay(Timeouts.P2PPing));
_pongCompletionSource = null;
if (firstTask != pongTask)
{
return(false);
}
var latency = PerfService.EndPerfCalc(pingPerfCalcId);
if (latency.HasValue)
{
P2PSession?.NodeStats.AddLatencyCaptureEvent(NodeLatencyStatType.P2PPingPong, latency.Value);
}
return(true);
}
private async Task <BlockHeader[]> SendRequest(GetBlockHeadersMessage message, CancellationToken token)
{
if (Logger.IsTrace)
{
Logger.Trace("Sending headers request:");
Logger.Trace($"Starting blockhash: {message.StartingBlockHash}");
Logger.Trace($"Starting number: {message.StartingBlockNumber}");
Logger.Trace($"Skip: {message.Skip}");
Logger.Trace($"Reverse: {message.Reverse}");
Logger.Trace($"Max headers: {message.MaxHeaders}");
}
var request = new Request <GetBlockHeadersMessage, BlockHeader[]>(message);
_headersRequests.Add(request, token);
var perfCalcId = PerfService.StartPerfCalc();
Send(request.Message);
Task <BlockHeader[]> task = request.CompletionSource.Task;
var firstTask = await Task.WhenAny(task, Task.Delay(Timeouts.Eth62, token));
if (firstTask.IsCanceled)
{
token.ThrowIfCancellationRequested();
}
if (firstTask == task)
{
var latency = PerfService.EndPerfCalc(perfCalcId);
if (latency.HasValue)
{
P2PSession?.NodeStats.AddLatencyCaptureEvent(NodeLatencyStatType.BlockHeaders, latency.Value);
}
return(task.Result);
}
// TODO: work in progress
throw new TimeoutException($"{P2PSession.RemoteNodeId} Request timeout in {nameof(GetBlockHeadersMessage)}");
}
/// <summary>
/// Render method renders the visual tree.
/// </summary>
void ICompositionTarget.Render(bool inResize, DUCE.Channel channel)
{
#if DEBUG_CLR_MEM
bool clrTracingEnabled = false;
if (CLRProfilerControl.ProcessIsUnderCLRProfiler &&
(CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Performance))
{
clrTracingEnabled = true;
++_renderCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_FullRender_{0}", _renderCLRPass);
}
#endif // DEBUG_CLR_MEM
//
// Now we render the scene
//
#if MEDIA_PERFORMANCE_COUNTERS
_frameRateTimer.Begin();
#endif
if (_rootVisual.Value != null)
{
bool etwTracingEnabled = false;
if (EventTrace.IsEnabled(EventTrace.Keyword.KeywordGeneral | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Info))
{
etwTracingEnabled = true;
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientPrecomputeSceneBegin, EventTrace.Keyword.KeywordGraphics | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Info, PerfService.GetPerfElementID(this));
}
#if MEDIA_PERFORMANCE_COUNTERS
_precomputeRateTimer.Begin();
#endif
// precompute is channel agnostic
_rootVisual.Value.Precompute();
#if MEDIA_PERFORMANCE_COUNTERS
_precomputeRateTimer.End();
#endif
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientPrecomputeSceneEnd, EventTrace.Keyword.KeywordGraphics | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Info);
}
#if DEBUG
MediaTrace.RenderPass.Trace("Full Update");
#endif
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(
EventTrace.Event.WClientCompileSceneBegin, EventTrace.Keyword.KeywordGraphics | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Info, PerfService.GetPerfElementID(this));
}
#if MEDIA_PERFORMANCE_COUNTERS
_renderRateTimer.Begin();
#endif
Compile(channel);
#if MEDIA_PERFORMANCE_COUNTERS
_renderRateTimer.End();
#endif
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(
EventTrace.Event.WClientCompileSceneEnd, EventTrace.Keyword.KeywordGraphics | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Info);
}
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled &&
CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Performance)
{
CLRProfilerControl.CLRLogWriteLine("End_FullRender_{0}", _renderCLRPass);
}
#endif // DEBUG_CLR_MEM
#if MEDIA_PERFORMANCE_COUNTERS
_frameRateTimer.End();
System.Console.WriteLine("RENDERING PERFORMANCE DATA");
System.Console.WriteLine("Frame rendering time: " + _frameRateTimer.TimeOfLastPeriod + "ms");
System.Console.WriteLine("Frame precompute time: " + _precomputeRateTimer.TimeOfLastPeriod + "ms");
System.Console.WriteLine("Frame render time: " + _renderRateTimer.TimeOfLastPeriod + "ms");
#endif
}
private static object Load(System.Xaml.XamlReader xamlReader, IXamlObjectWriterFactory writerFactory,
bool skipJournaledProperties, Object rootObject, XamlObjectWriterSettings settings, Uri baseUri)
{
XamlObjectWriter xamlWriter = null;
XamlContextStack <WpfXamlFrame> stack = new XamlContextStack <WpfXamlFrame>(() => new WpfXamlFrame());
int persistId = 1;
settings.AfterBeginInitHandler = delegate(object sender, System.Xaml.XamlObjectEventArgs args)
{
if (EventTrace.IsEnabled(EventTrace.Keyword.KeywordXamlBaml | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Verbose))
{
IXamlLineInfo ixli = xamlReader as IXamlLineInfo;
int lineNumber = -1;
int linePosition = -1;
if (ixli != null && ixli.HasLineInfo)
{
lineNumber = ixli.LineNumber;
linePosition = ixli.LinePosition;
}
EventTrace.EventProvider.TraceEvent(
EventTrace.Event.WClientParseXamlBamlInfo,
EventTrace.Keyword.KeywordXamlBaml | EventTrace.Keyword.KeywordPerf, EventTrace.Level.Verbose,
args.Instance == null ? 0 : PerfService.GetPerfElementID(args.Instance),
lineNumber,
linePosition);
}
UIElement uiElement = args.Instance as UIElement;
if (uiElement != null)
{
uiElement.SetPersistId(persistId++);
}
XamlSourceInfoHelper.SetXamlSourceInfo(args.Instance, args, baseUri);
DependencyObject dObject = args.Instance as DependencyObject;
if (dObject != null && stack.CurrentFrame.XmlnsDictionary != null)
{
XmlnsDictionary dictionary = stack.CurrentFrame.XmlnsDictionary;
dictionary.Seal();
XmlAttributeProperties.SetXmlnsDictionary(dObject, dictionary);
}
stack.CurrentFrame.Instance = args.Instance;
};
if (writerFactory != null)
{
xamlWriter = writerFactory.GetXamlObjectWriter(settings);
}
else
{
xamlWriter = new System.Xaml.XamlObjectWriter(xamlReader.SchemaContext, settings);
}
IXamlLineInfo xamlLineInfo = null;
try
{
//Handle Line Numbers
xamlLineInfo = xamlReader as IXamlLineInfo;
IXamlLineInfoConsumer xamlLineInfoConsumer = xamlWriter as IXamlLineInfoConsumer;
bool shouldPassLineNumberInfo = false;
if ((xamlLineInfo != null && xamlLineInfo.HasLineInfo) &&
(xamlLineInfoConsumer != null && xamlLineInfoConsumer.ShouldProvideLineInfo))
{
shouldPassLineNumberInfo = true;
}
IStyleConnector styleConnector = rootObject as IStyleConnector;
TransformNodes(xamlReader, xamlWriter,
false /*onlyLoadOneNode*/,
skipJournaledProperties,
shouldPassLineNumberInfo, xamlLineInfo, xamlLineInfoConsumer,
stack, styleConnector);
xamlWriter.Close();
return(xamlWriter.Result);
}
catch (Exception e)
{
// Don't wrap critical exceptions or already-wrapped exceptions.
if (MS.Internal.CriticalExceptions.IsCriticalException(e) || !XamlReader.ShouldReWrapException(e, baseUri))
{
throw;
}
XamlReader.RewrapException(e, xamlLineInfo, baseUri);
return(null); // this should never be executed
}
}
/// <summary>
/// Tells ContextLayoutManager to finalize possibly async update.
/// Used before accessing services off Visual.
/// </summary>
//[CodeAnalysis("AptcaMethodsShouldOnlyCallAptcaMethods")] //Tracking
internal void UpdateLayout()
{
VerifyAccess();
//make UpdateLayout to be a NOP if called during UpdateLayout.
if (_isInUpdateLayout ||
_measuresOnStack > 0 ||
_arrangesOnStack > 0 ||
_isDead)
{
return;
}
#if DEBUG_CLR_MEM
bool clrTracingEnabled = false;
// Start over with the Measure and arrange counters for this layout pass
int measureCLRPass = 0;
int arrangeCLRPass = 0;
if (CLRProfilerControl.ProcessIsUnderCLRProfiler)
{
clrTracingEnabled = true;
if (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Performance)
{
++_layoutCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_Layout_{0}", _layoutCLRPass);
}
}
#endif // DEBUG_CLR_MEM
bool etwTracingEnabled = false;
long perfElementID = 0;
const EventTrace.Keyword etwKeywords = EventTrace.Keyword.KeywordLayout | EventTrace.Keyword.KeywordPerf;
if (!_isUpdating && EventTrace.IsEnabled(etwKeywords, EventTrace.Level.Info))
{
etwTracingEnabled = true;
perfElementID = PerfService.GetPerfElementID(this);
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutBegin, etwKeywords, EventTrace.Level.Info,
perfElementID, EventTrace.LayoutSource.LayoutManager);
}
int cnt = 0;
bool gotException = true;
UIElement currentElement = null;
try
{
invalidateTreeIfRecovering();
while (hasDirtiness || _firePostLayoutEvents)
{
if (++cnt > 153)
{
//loop detected. Lets go over to background to let input/user to correct the situation.
//most frequently, we get such a loop as a result of input detecting a mouse in the "bad spot"
//and some event handler oscillating a layout-affecting property depending on hittest result
//of the mouse. Going over to background will not break the loopp but will allow user to
//move the mouse so that it goes out of the "bad spot".
Dispatcher.BeginInvoke(DispatcherPriority.Background, _updateLayoutBackground, this);
currentElement = null;
gotException = false;
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutAbort, etwKeywords, EventTrace.Level.Info, 0, cnt);
}
return;
}
//this flag stops posting update requests to MediaContext - we are already in one
//note that _isInUpdateLayout is close but different - _isInUpdateLayout is reset
//before firing LayoutUpdated so that event handlers could call UpdateLayout but
//still could not cause posting of MediaContext work item. Posting MediaContext workitem
//causes infinite loop in MediaContext.
_isUpdating = true;
_isInUpdateLayout = true;
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Verbose))
{
++measureCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_Measure_{0}_{1}", _layoutCLRPass, measureCLRPass);
}
#endif // DEBUG_CLR_MEM
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientMeasureBegin, etwKeywords, EventTrace.Level.Info, perfElementID);
}
// Disable processing of the queue during blocking operations to prevent unrelated reentrancy.
using (Dispatcher.DisableProcessing())
{
//loop for Measure
//We limit the number of loops here by time - normally, all layout
//calculations should be done by this time, this limit is here for
//emergency, "infinite loop" scenarios - yielding in this case will
//provide user with ability to continue to interact with the app, even though
//it will be sluggish. If we don't yield here, the loop is goign to be a deadly one
//and it will be impossible to save results or even close the window.
int loopCounter = 0;
DateTime loopStartTime = new DateTime(0);
while (true)
{
if (++loopCounter > 153)
{
loopCounter = 0;
//first bunch of iterations is free, then we start count time
//this way, we don't call DateTime.Now in most layout updates
if (loopStartTime.Ticks == 0)
{
loopStartTime = DateTime.UtcNow;
}
else
{
TimeSpan loopDuration = (DateTime.UtcNow - loopStartTime);
if (loopDuration.Milliseconds > 153 * 2) // 153*2 = magic*science
{
//loop detected. Lets go over to background to let input work.
Dispatcher.BeginInvoke(DispatcherPriority.Background, _updateLayoutBackground, this);
currentElement = null;
gotException = false;
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientMeasureAbort, etwKeywords, EventTrace.Level.Info,
loopDuration.Milliseconds, loopCounter);
}
return;
}
}
}
currentElement = MeasureQueue.GetTopMost();
if (currentElement == null)
{
break; //exit if no more Measure candidates
}
currentElement.Measure(currentElement.PreviousConstraint);
//dmitryt,
}
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientMeasureEnd, etwKeywords, EventTrace.Level.Info, loopCounter);
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientArrangeBegin, etwKeywords, EventTrace.Level.Info, perfElementID);
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Verbose))
{
CLRProfilerControl.CLRLogWriteLine("End_Measure_{0}_{1}", _layoutCLRPass, measureCLRPass);
++arrangeCLRPass;
CLRProfilerControl.CLRLogWriteLine("Begin_Arrange_{0}_{1}", _layoutCLRPass, arrangeCLRPass);
}
#endif // DEBUG_CLR_MEM
//loop for Arrange
//if Arrange dirtied the tree go clean it again
//We limit the number of loops here by time - normally, all layout
//calculations should be done by this time, this limit is here for
//emergency, "infinite loop" scenarios - yielding in this case will
//provide user with ability to continue to interact with the app, even though
//it will be sluggish. If we don't yield here, the loop is goign to be a deadly one
//and it will be impossible to save results or even close the window.
loopCounter = 0;
loopStartTime = new DateTime(0);
while (MeasureQueue.IsEmpty)
{
if (++loopCounter > 153)
{
loopCounter = 0;
//first bunch of iterations is free, then we start count time
//this way, we don't call DateTime.Now in most layout updates
if (loopStartTime.Ticks == 0)
{
loopStartTime = DateTime.UtcNow;
}
else
{
TimeSpan loopDuration = (DateTime.UtcNow - loopStartTime);
if (loopDuration.Milliseconds > 153 * 2) // 153*2 = magic*science
{
//loop detected. Lets go over to background to let input work.
Dispatcher.BeginInvoke(DispatcherPriority.Background, _updateLayoutBackground, this);
currentElement = null;
gotException = false;
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientArrangeAbort, etwKeywords, EventTrace.Level.Info,
loopDuration.Milliseconds, loopCounter);
}
return;
}
}
}
currentElement = ArrangeQueue.GetTopMost();
if (currentElement == null)
{
break; //exit if no more Measure candidates
}
Rect finalRect = getProperArrangeRect(currentElement);
currentElement.Arrange(finalRect);
//dmitryt,
}
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientArrangeEnd, etwKeywords, EventTrace.Level.Info, loopCounter);
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Verbose))
{
CLRProfilerControl.CLRLogWriteLine("End_Arrange_{0}_{1}", _layoutCLRPass, arrangeCLRPass);
}
#endif // DEBUG_CLR_MEM
//if Arrange dirtied the tree go clean it again
//it is not neccesary to check ArrangeQueue sicnce we just exited from Arrange loop
if (!MeasureQueue.IsEmpty)
{
continue;
}
//let LayoutUpdated handlers to call UpdateLayout
//note that it means we can get reentrancy into UpdateLayout past this point,
//if any of event handlers call UpdateLayout sync. Need to protect from reentrancy
//in the firing methods below.
_isInUpdateLayout = false;
}
fireSizeChangedEvents();
if (hasDirtiness)
{
continue;
}
fireLayoutUpdateEvent();
if (hasDirtiness)
{
continue;
}
fireAutomationEvents();
if (hasDirtiness)
{
continue;
}
fireSizeChangedEvents(); // if nothing is dirty, one last chance for any size changes to announce.
}
currentElement = null;
gotException = false;
}
finally
{
_isUpdating = false;
_layoutRequestPosted = false;
_isInUpdateLayout = false;
if (gotException)
{
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutException, etwKeywords, EventTrace.Level.Info, PerfService.GetPerfElementID(currentElement));
}
//set indicator
_gotException = true;
_forceLayoutElement = currentElement;
//make attempt to request the subsequent layout calc
//some exception handler schemas use Idle priorities to
//wait until dust settles. Then they correct the issue noted in the exception handler.
//We don't want to attempt to re-do the operation on the priority higher then that.
Dispatcher.BeginInvoke(DispatcherPriority.ApplicationIdle, _updateLayoutBackground, this);
}
}
MS.Internal.Text.TextInterface.Font.ResetFontFaceCache();
MS.Internal.FontCache.BufferCache.Reset();
if (etwTracingEnabled)
{
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientLayoutEnd, etwKeywords, EventTrace.Level.Info);
}
#if DEBUG_CLR_MEM
if (clrTracingEnabled && (CLRProfilerControl.CLRLoggingLevel >= CLRProfilerControl.CLRLogState.Performance))
{
CLRProfilerControl.CLRLogWriteLine("End_Layout_{0}", _layoutCLRPass);
}
#endif // DEBUG_CLR_MEM
}
// Token: 0x0600226A RID: 8810 RVA: 0x000AAE10 File Offset: 0x000A9010
private static object Load(XamlReader xamlReader, IXamlObjectWriterFactory writerFactory, bool skipJournaledProperties, object rootObject, XamlObjectWriterSettings settings, Uri baseUri)
{
XamlContextStack <WpfXamlFrame> stack = new XamlContextStack <WpfXamlFrame>(() => new WpfXamlFrame());
int persistId = 1;
settings.AfterBeginInitHandler = delegate(object sender, XamlObjectEventArgs args)
{
if (EventTrace.IsEnabled(EventTrace.Keyword.KeywordPerf | EventTrace.Keyword.KeywordXamlBaml, EventTrace.Level.Verbose))
{
IXamlLineInfo xamlLineInfo2 = xamlReader as IXamlLineInfo;
int num = -1;
int num2 = -1;
if (xamlLineInfo2 != null && xamlLineInfo2.HasLineInfo)
{
num = xamlLineInfo2.LineNumber;
num2 = xamlLineInfo2.LinePosition;
}
EventTrace.EventProvider.TraceEvent(EventTrace.Event.WClientParseXamlBamlInfo, EventTrace.Keyword.KeywordPerf | EventTrace.Keyword.KeywordXamlBaml, EventTrace.Level.Verbose, new object[]
{
(args.Instance == null) ? 0L : PerfService.GetPerfElementID(args.Instance),
num,
num2
});
}
UIElement uielement = args.Instance as UIElement;
if (uielement != null)
{
UIElement uielement2 = uielement;
int persistId = persistId;
persistId++;
uielement2.SetPersistId(persistId);
}
XamlSourceInfoHelper.SetXamlSourceInfo(args.Instance, args, baseUri);
DependencyObject dependencyObject = args.Instance as DependencyObject;
if (dependencyObject != null && stack.CurrentFrame.XmlnsDictionary != null)
{
XmlnsDictionary xmlnsDictionary = stack.CurrentFrame.XmlnsDictionary;
xmlnsDictionary.Seal();
XmlAttributeProperties.SetXmlnsDictionary(dependencyObject, xmlnsDictionary);
}
stack.CurrentFrame.Instance = args.Instance;
};
XamlObjectWriter xamlObjectWriter;
if (writerFactory != null)
{
xamlObjectWriter = writerFactory.GetXamlObjectWriter(settings);
}
else
{
xamlObjectWriter = new XamlObjectWriter(xamlReader.SchemaContext, settings);
}
IXamlLineInfo xamlLineInfo = null;
object result;
try
{
xamlLineInfo = (xamlReader as IXamlLineInfo);
IXamlLineInfoConsumer xamlLineInfoConsumer = xamlObjectWriter;
bool shouldPassLineNumberInfo = false;
if (xamlLineInfo != null && xamlLineInfo.HasLineInfo && xamlLineInfoConsumer != null && xamlLineInfoConsumer.ShouldProvideLineInfo)
{
shouldPassLineNumberInfo = true;
}
IStyleConnector styleConnector = rootObject as IStyleConnector;
WpfXamlLoader.TransformNodes(xamlReader, xamlObjectWriter, false, skipJournaledProperties, shouldPassLineNumberInfo, xamlLineInfo, xamlLineInfoConsumer, stack, styleConnector);
xamlObjectWriter.Close();
result = xamlObjectWriter.Result;
}
catch (Exception ex)
{
if (CriticalExceptions.IsCriticalException(ex) || !XamlReader.ShouldReWrapException(ex, baseUri))
{
throw;
}
XamlReader.RewrapException(ex, xamlLineInfo, baseUri);
result = null;
}
return(result);
}
