public DiagnosticsEventPipeProcessor(
PipeMode mode,
ILoggerFactory loggerFactory = null, // PipeMode = Logs
LogLevel logsLevel = LogLevel.Debug, // PipeMode = Logs
IEnumerable <ICountersLogger> metricLoggers = null, // PipeMode = Metrics
int metricIntervalSeconds = 10, // PipeMode = Metrics
CounterFilter metricFilter = null, // PipeMode = Metrics
MemoryGraph gcGraph = null, // PipeMode = GCDump
MonitoringSourceConfiguration configuration = null, // PipeMode = Nettrace
Func <Stream, CancellationToken, Task> onStreamAvailable = null, // PipeMode = Nettrace
Func <string, CancellationToken, Task> processInfoCallback = null // PipeMode = ProcessInfo
)
{
_metricLoggers = metricLoggers ?? Enumerable.Empty <ICountersLogger>();
_mode = mode;
_loggerFactory = loggerFactory;
_gcGraph = gcGraph;
_metricIntervalSeconds = metricIntervalSeconds;
_logsLevel = logsLevel;
_processInfoCallback = processInfoCallback;
_userConfig = configuration;
_onStreamAvailable = onStreamAvailable;
_processInfoCallback = processInfoCallback;
_counterFilter = metricFilter;
_sessionStarted = new TaskCompletionSource <bool>(TaskCreationOptions.RunContinuationsAsynchronously);
}
public DiagnosticsEventPipeProcessor(
MonitoringSourceConfiguration configuration,
Func <EventPipeEventSource, Func <Task>, CancellationToken, Task> onEventSourceAvailable
)
{
_configuration = configuration ?? throw new ArgumentNullException(nameof(configuration));
_onEventSourceAvailable = onEventSourceAvailable ?? throw new ArgumentNullException(nameof(onEventSourceAvailable));
_sessionStarted = new TaskCompletionSource <bool>(TaskCreationOptions.RunContinuationsAsynchronously);
}
public DiagnosticsMonitor(MonitoringSourceConfiguration sourceConfig)
{
_sourceConfig = sourceConfig;
_stopProcessingSource = new TaskCompletionSource <object>(TaskCreationOptions.RunContinuationsAsynchronously);
}
public async Task Process(DiagnosticsClient client, TimeSpan duration, CancellationToken token)
{
//No need to guard against reentrancy here, since the calling pipeline does this already.
IDisposable registration = token.Register(() => _sessionStarted.TrySetCanceled());
await await Task.Factory.StartNew(async() =>
{
EventPipeEventSource source = null;
DiagnosticsMonitor monitor = null;
Task handleEventsTask = Task.CompletedTask;
try
{
MonitoringSourceConfiguration config = null;
if (_mode == PipeMode.Logs)
{
config = new LoggingSourceConfiguration(_logsLevel);
}
else if (_mode == PipeMode.Metrics)
{
config = new MetricSourceConfiguration(_metricIntervalSeconds, _counterFilter.GetProviders());
}
else if (_mode == PipeMode.GCDump)
{
config = new GCDumpSourceConfiguration();
}
else if (_mode == PipeMode.ProcessInfo)
{
config = new SampleProfilerConfiguration();
}
else if (_mode == PipeMode.Nettrace)
{
config = _userConfig;
}
monitor = new DiagnosticsMonitor(config);
// Allows the event handling routines to stop processing before the duration expires.
Func <Task> stopFunc = () => Task.Run(() => { monitor.StopProcessing(); });
Stream sessionStream = await monitor.ProcessEvents(client, duration, token);
if (_mode == PipeMode.Nettrace)
{
if (!_sessionStarted.TrySetResult(true))
{
token.ThrowIfCancellationRequested();
}
lock (_lock)
{
//Save the stop function for later, so that we can stop a trace later.
_stopFunc = stopFunc;
}
await _onStreamAvailable(sessionStream, token);
return;
}
source = new EventPipeEventSource(sessionStream);
if (_mode == PipeMode.Metrics)
{
// Metrics
HandleEventCounters(source);
}
else if (_mode == PipeMode.Logs)
{
// Logging
HandleLoggingEvents(source);
}
else if (_mode == PipeMode.GCDump)
{
// GC
handleEventsTask = HandleGCEvents(source, stopFunc, token);
}
else if (_mode == PipeMode.ProcessInfo)
{
// ProcessInfo
handleEventsTask = HandleProcessInfo(source, stopFunc, token);
}
lock (_lock)
{
_eventPipeSession = source;
_stopFunc = stopFunc;
}
registration.Dispose();
if (!_sessionStarted.TrySetResult(true))
{
token.ThrowIfCancellationRequested();
}
source.Process();
token.ThrowIfCancellationRequested();
}
catch (DiagnosticsClientException ex)
{
throw new InvalidOperationException("Failed to start the event pipe session", ex);
}
finally
{
ExecuteCounterLoggerAction((metricLogger) => metricLogger.PipelineStopped());
registration.Dispose();
EventPipeEventSource session = null;
lock (_lock)
{
session = _eventPipeSession;
_eventPipeSession = null;
}
session?.Dispose();
if (monitor != null)
{
await monitor.DisposeAsync();
}
}
// Await the task returned by the event handling method AFTER the EventPipeEventSource is disposed.
// The EventPipeEventSource will only raise the Completed event when it is disposed. So if this task
// is waiting for the Completed event to be raised, it will never complete until after EventPipeEventSource
// is diposed.
await handleEventsTask;
}, token, TaskCreationOptions.LongRunning, TaskScheduler.Default);
}
public EventPipeStreamProvider(MonitoringSourceConfiguration sourceConfig)
{
_sourceConfig = sourceConfig;
_stopProcessingSource = new TaskCompletionSource <object>(TaskCreationOptions.RunContinuationsAsynchronously);
}
