public void TaskWaitBegin( int OriginatingTaskSchedulerID, int OriginatingTaskID, // PFX_COMMON_EVENT_HEADER int TaskID, TaskWaitBehavior Behavior, int ContinueWithTaskID) { if (IsEnabled() && IsEnabled(EventLevel.Informational, Keywords.TaskTransfer | Keywords.Tasks)) { unsafe { EventData *eventPayload = stackalloc EventData[5]; eventPayload[0].Size = sizeof(int); eventPayload[0].DataPointer = ((IntPtr)(&OriginatingTaskSchedulerID)); eventPayload[1].Size = sizeof(int); eventPayload[1].DataPointer = ((IntPtr)(&OriginatingTaskID)); eventPayload[2].Size = sizeof(int); eventPayload[2].DataPointer = ((IntPtr)(&TaskID)); eventPayload[3].Size = sizeof(int); eventPayload[3].DataPointer = ((IntPtr)(&Behavior)); eventPayload[4].Size = sizeof(int); eventPayload[4].DataPointer = ((IntPtr)(&ContinueWithTaskID)); if (TasksSetActivityIds) { Guid childActivityId = CreateGuidForTaskID(TaskID); WriteEventWithRelatedActivityIdCore(TASKWAITBEGIN_ID, &childActivityId, 5, eventPayload); } else { WriteEventCore(TASKWAITBEGIN_ID, 5, eventPayload); } } } }
public void TaskWaitBegin( int OriginatingTaskSchedulerID, int OriginatingTaskID, // PFX_COMMON_EVENT_HEADER int TaskID, TaskWaitBehavior Behavior) { if (IsEnabled(EventLevel.Verbose, ALL_KEYWORDS)) { // WriteEvent(TASKWAITBEGIN_ID, OriginatingTaskSchedulerID, OriginatingTaskID, TaskID, Behavior); // There is no explicit WriteEvent() overload matching this event's fields. // Therefore calling WriteEvent() would hit the "params" overload, which leads to // an object allocation every time this event is fired. To prevent that problem we will // call WriteEventCore(), which works with a stack based EventData array populated with the event fields unsafe { EventData* eventPayload = stackalloc EventData[4]; eventPayload[0].Size = sizeof(int); eventPayload[0].DataPointer = ((IntPtr)(&OriginatingTaskSchedulerID)); eventPayload[1].Size = sizeof(int); eventPayload[1].DataPointer = ((IntPtr)(&OriginatingTaskID)); eventPayload[2].Size = sizeof(int); eventPayload[2].DataPointer = ((IntPtr)(&TaskID)); eventPayload[3].Size = sizeof(int); eventPayload[3].DataPointer = ((IntPtr)(&Behavior)); WriteEventCore(TASKWAITBEGIN_ID, 4, eventPayload); } } }
public void TaskWaitBegin( int OriginatingTaskSchedulerID, int OriginatingTaskID, // PFX_COMMON_EVENT_HEADER int TaskID, TaskWaitBehavior Behavior, int ContinueWithTaskID, int appDomain) { if (IsEnabled() && IsEnabled(EventLevel.Informational, Keywords.TaskTransfer|Keywords.Tasks)) { unsafe { EventData* eventPayload = stackalloc EventData[5]; eventPayload[0].Size = sizeof(int); eventPayload[0].DataPointer = ((IntPtr)(&OriginatingTaskSchedulerID)); eventPayload[1].Size = sizeof(int); eventPayload[1].DataPointer = ((IntPtr)(&OriginatingTaskID)); eventPayload[2].Size = sizeof(int); eventPayload[2].DataPointer = ((IntPtr)(&TaskID)); eventPayload[3].Size = sizeof(int); eventPayload[3].DataPointer = ((IntPtr)(&Behavior)); eventPayload[4].Size = sizeof(int); eventPayload[4].DataPointer = ((IntPtr)(&ContinueWithTaskID)); if (TasksSetActivityIds) { Guid childActivityId = CreateGuidForTaskID(TaskID); WriteEventWithRelatedActivityIdCore(TASKWAITBEGIN_ID, &childActivityId, 5, eventPayload); } else WriteEventCore(TASKWAITBEGIN_ID, 5, eventPayload); } } }
public void TaskWaitBegin(int i, int i1, int id, TaskWaitBehavior synchronous, int i2, int getDomainId) { }