private StackSourceCallStackIndex GetStack(TraceEvent event_)
{
// Console.WriteLine("Getting Stack for sample at {0:f4}", sample.TimeStampRelativeMSec);
int ret = (int)event_.CallStackIndex();
if (ret == (int)CallStackIndex.Invalid)
{
var thread = event_.Thread();
if (thread == null)
{
return(StackSourceCallStackIndex.Invalid);
}
// If the event is a sample profile, or page fault we can make a one element stack with the EIP in the event
CodeAddressIndex codeAddrIdx = CodeAddressIndex.Invalid;
var asSampleProfile = event_ as SampledProfileTraceData;
if (asSampleProfile != null)
{
codeAddrIdx = asSampleProfile.IntructionPointerCodeAddressIndex();
}
else
{
var asPageFault = event_ as MemoryHardFaultTraceData;
if (asPageFault != null)
{
codeAddrIdx = asSampleProfile.IntructionPointerCodeAddressIndex();
}
}
if (codeAddrIdx != CodeAddressIndex.Invalid)
{
// Encode the code address for the given thread.
int pseudoStackIndex = GetPseudoStack(thread.ThreadIndex, codeAddrIdx);
// Psuedostacks happen after all the others.
if (0 <= pseudoStackIndex)
{
ret = m_log.CallStacks.Count + 2 * m_log.Threads.Count + m_log.Processes.Count + pseudoStackIndex;
}
}
// If we have run out of pseudo-stacks, we encode the stack as being at the thread.
if (ret == (int)CallStackIndex.Invalid)
{
ret = m_log.CallStacks.Count + (int)thread.ThreadIndex;
}
}
else
{
// We expect the thread we get when looking at the CallStack to match the thread of the event.
Debug.Assert(m_log.CallStacks.Thread((CallStackIndex)ret).ThreadID == event_.ThreadID);
Debug.Assert(event_.Thread().Process.ProcessID == event_.ProcessID);
}
ret = ret + (int)StackSourceCallStackIndex.Start;
return((StackSourceCallStackIndex)ret);
}
/// <summary>
/// Convert the TraceEvent callStack 'callStackIdx' into a StackSourceCallStack. 'callStackIdx is
/// assumed to be related to the traceEvent 'data'. 'data' is used to determine the process and thread
/// of the stack. (TODO data may not be needed anymore as callStackIndexes do encode their thread (and thus process)).
/// </summary>
public StackSourceCallStackIndex GetCallStack(CallStackIndex callStackIndex, TraceEvent data)
{
// This only happens if only have ONLY the thread and process (no addressses)
// TODO do we care about this case? Should we remove?
var thread = data.Thread();
StackSourceCallStackIndex topOfStack;
if (thread == null)
{
var process = data.Process();
if (process != null)
{
topOfStack = GetCallStackForProcess(process);
}
else
{
topOfStack = StackSourceCallStackIndex.Invalid;
}
}
else
{
topOfStack = GetCallStackForThread(thread);
}
return(GetCallStack(callStackIndex, topOfStack, m_callStackMap));
}
private StackSourceCallStackIndex GetStack(TraceEvent event_)
{
// Console.WriteLine("Getting Stack for sample at {0:f4}", sample.TimeStampRelativeMSec);
var ret = (int)event_.CallStackIndex();
if (ret == (int)CallStackIndex.Invalid)
{
var thread = event_.Thread();
if (thread == null)
{
return(StackSourceCallStackIndex.Invalid);
}
// If the event is a sample profile, or page fault we can make a one element stack with the EIP in the event
CodeAddressIndex codeAddrIdx = CodeAddressIndex.Invalid;
var asSampleProfile = event_ as SampledProfileTraceData;
if (asSampleProfile != null)
{
codeAddrIdx = asSampleProfile.IntructionPointerCodeAddressIndex();
}
else
{
var asPageFault = event_ as PageFaultHardFaultTraceData;
if (asPageFault != null)
{
codeAddrIdx = asSampleProfile.IntructionPointerCodeAddressIndex();
}
}
if (codeAddrIdx != CodeAddressIndex.Invalid)
{
// Encode the code address for the given thread.
int pseudoStackIndex = GetPseudoStack(thread.ThreadIndex, codeAddrIdx);
if (pseudoStackIndex < 0)
{
return(StackSourceCallStackIndex.Start);
}
// Psuedostacks happen after all the others.
ret = m_log.CallStacks.MaxCallStackIndex + 2 * m_log.Threads.MaxThreadIndex + m_log.Processes.MaxProcessIndex + pseudoStackIndex;
}
else
{
// Otherwise we encode the stack as being at the thread.
ret = m_log.CallStacks.MaxCallStackIndex + (int)thread.ThreadIndex;
}
}
ret = ret + (int)StackSourceCallStackIndex.Start;
return((StackSourceCallStackIndex)ret);
}
/// <summary>
/// This can actually be called with any event that has a stack. Basically it will log a CPU sample whose
/// size is the time between the last such call and the current one.
/// </summary>
private void OnSampledProfile(TraceEvent data)
{
TraceThread thread = data.Thread();
if (thread != null)
{
StackSourceCallStackIndex stackIndex = GetCallStack(data, thread);
bool onCPU = (data is ClrThreadSampleTraceData) ? ((ClrThreadSampleTraceData)data).Type == ClrThreadSampleType.Managed : true;
m_threadState[(int)thread.ThreadIndex].LogThreadStack(data.TimeStampRelativeMSec, stackIndex, thread, this, onCPU);
}
else
{
Debug.WriteLine("Warning, no thread at " + data.TimeStampRelativeMSec.ToString("f3"));
}
}
// Note that this always returns a stack, since we know the thread and process.
public StackSourceCallStackIndex GetCallStack(CallStackIndex callStackIndex, TraceEvent data)
{
if (callStackIndex == CallStackIndex.Invalid)
{
if (data == null)
{
return(StackSourceCallStackIndex.Invalid);
}
var thread = data.Thread();
if (thread == null)
{
return(StackSourceCallStackIndex.Invalid);
}
return(GetCallStackForThread(thread));
}
var idx = (int)StackSourceCallStackIndex.Start + (int)callStackIndex;
return((StackSourceCallStackIndex)idx);
}
// THis is for the TaskWaitEnd. We want to have a stack event if 'data' does not have one, we lose the fact that
// ANYTHING happened on this thread. Thus we log the stack of the activity so that data does not need a stack.
private void OnTaskUnblock(TraceEvent data)
{
if (m_activityComputer == null)
{
return;
}
TraceThread thread = data.Thread();
if (thread != null)
{
TraceActivity activity = m_activityComputer.GetCurrentActivity(thread);
StackSourceCallStackIndex stackIndex = m_activityComputer.GetCallStackForActivity(m_outputStackSource, activity, GetTopFramesForActivityComputerCase(data, data.Thread()));
m_threadState[(int)thread.ThreadIndex].LogThreadStack(data.TimeStampRelativeMSec, stackIndex, thread, this, onCPU: true);
}
else
{
Debug.WriteLine("Warning, no thread at " + data.TimeStampRelativeMSec.ToString("f3"));
}
}
internal void OnClrEvent(TraceEvent data)
{
TraceEventID eventID = data.ID;
HeapEvents heapEvent = HeapEvents.Unknown;
// TODO don't use IDs but use individual callbacks.
const TraceEventID GCStartEventID = (TraceEventID)1;
const TraceEventID GCStopEventID = (TraceEventID)2;
const TraceEventID GCRestartEEStopEventID = (TraceEventID)3;
const TraceEventID GCHeapStatsEventID = (TraceEventID)4;
const TraceEventID GCCreateSegmentEventID = (TraceEventID)5;
const TraceEventID GCFreeSegmentEventID = (TraceEventID)6;
const TraceEventID GCRestartEEStartEventID = (TraceEventID)7;
const TraceEventID GCSuspendEEStopEventID = (TraceEventID)8;
const TraceEventID GCSuspendEEStartEventID = (TraceEventID)9;
const TraceEventID GCAllocationTickEventID = (TraceEventID)10;
const TraceEventID GCCreateConcurrentThreadEventID = (TraceEventID)11;
const TraceEventID GCTerminateConcurrentThreadEventID = (TraceEventID)12;
const TraceEventID GCFinalizersStopEventID = (TraceEventID)13;
const TraceEventID GCFinalizersStartEventID = (TraceEventID)14;
const TraceEventID ContentionStartEventID = (TraceEventID)81;
const TraceEventID ContentionStopEventID = (TraceEventID)91;
switch (eventID)
{
case GCStartEventID:
{
var mdata = data as Microsoft.Diagnostics.Tracing.Parsers.Clr.GCStartTraceData;
if (mdata != null)
{
GcEventExtra extra = GetGcEventExtra(mdata.Count);
extra.GCStartIndex = data.EventIndex;
extra.GCStartThread = data.Thread();
}
}
heapEvent = HeapEvents.GCStart;
break;
case GCStopEventID:
heapEvent = HeapEvents.GCEnd;
break;
case GCRestartEEStartEventID:
heapEvent = HeapEvents.GCRestartEEBegin;
break;
case GCRestartEEStopEventID:
heapEvent = HeapEvents.GCRestartEEEnd;
break;
case GCHeapStatsEventID:
heapEvent = HeapEvents.GCHeapStats;
break;
case GCCreateSegmentEventID:
heapEvent = HeapEvents.GCCreateSegment;
break;
case GCFreeSegmentEventID:
heapEvent = HeapEvents.GCFreeSegment;
break;
case GCSuspendEEStartEventID:
heapEvent = HeapEvents.GCSuspendEEBegin;
break;
case GCSuspendEEStopEventID:
heapEvent = HeapEvents.GCSuspendEEEnd;
break;
case GCAllocationTickEventID:
heapEvent = HeapEvents.GCAllocationTick;
{
GCAllocationTickTraceData mdata = data as GCAllocationTickTraceData;
AllocationTick(mdata, mdata.AllocationKind == GCAllocationKind.Large, mdata.GetAllocAmount(ref seenBadAlloc) / OneMBD);
}
break;
case GCCreateConcurrentThreadEventID:
heapEvent = HeapEvents.GCCreateConcurrentThread;
break;
case GCTerminateConcurrentThreadEventID:
heapEvent = HeapEvents.GCTerminateConcurrentThread;
break;
case GCFinalizersStartEventID:
heapEvent = HeapEvents.GCFinalizersBegin;
break;
case GCFinalizersStopEventID:
heapEvent = HeapEvents.GCFinalizersEnd;
break;
case ContentionStartEventID:
heapEvent = HeapEvents.ContentionStart;
break;
case ContentionStopEventID:
heapEvent = HeapEvents.ContentionStop;
break;
default:
break;
}
if (heapEvent != HeapEvents.Unknown)
{
ThreadMemoryInfo thread = GetThread(data.ThreadID);
thread.AddEvent(heapEvent, data.TimeStampRelativeMSec);
}
}
/// <summary>
/// Get the call stack for 'data' Note that you thread must be data.Thread(). We pass it just to save the lookup.
/// </summary>
private StackSourceCallStackIndex GetCallStack(TraceEvent data, TraceThread thread)
{
Debug.Assert(data.Thread() == thread);
return(m_activityComputer.GetCallStack(m_outputStackSource, data, GetTopFramesForActivityComputerCase(data, thread)));
}
internal ETWEventRecord(ETWEventSource source, TraceEvent data, Dictionary <string, int> columnOrder, int nonRestFields, double durationMSec)
: base(nonRestFields)
{
m_source = source;
m_name = data.ProviderName + "/" + data.EventName;
m_processName = data.ProcessName;
if (!m_processName.StartsWith("("))
{
m_processName += " (" + data.ProcessID + ")";
}
m_timeStampRelativeMSec = data.TimeStampRelativeMSec;
m_idx = data.EventIndex;
// Compute the data column
var restString = new StringBuilder();
// Deal with the special HasStack, ThreadID and ActivityID, DataLength fields;
var hasStack = data.CallStackIndex() != CallStackIndex.Invalid;
if (hasStack)
{
AddField("HasStack", hasStack.ToString(), columnOrder, restString);
}
var asCSwitch = data as CSwitchTraceData;
if (asCSwitch != null)
{
AddField("HasBlockingStack", (asCSwitch.BlockingStack() != CallStackIndex.Invalid).ToString(), columnOrder, restString);
}
AddField("ThreadID", data.ThreadID.ToString("n0"), columnOrder, restString);
AddField("ProcessorNumber", data.ProcessorNumber.ToString(), columnOrder, restString);
if (0 < durationMSec)
{
AddField("DURATION_MSEC", durationMSec.ToString("n3"), columnOrder, restString);
}
var payloadNames = data.PayloadNames;
if (payloadNames.Length == 0 && data.EventDataLength != 0)
{
// WPP events look classic and use the EventID as their discriminator
if (data.IsClassicProvider && data.ID != 0)
{
AddField("EventID", ((int)data.ID).ToString(), columnOrder, restString);
}
AddField("DataLength", data.EventDataLength.ToString(), columnOrder, restString);
}
try
{
for (int i = 0; i < payloadNames.Length; i++)
{
AddField(payloadNames[i], data.PayloadString(i), columnOrder, restString);
}
}
catch (Exception e)
{
AddField("ErrorParsingFields", e.Message, columnOrder, restString);
}
var message = data.FormattedMessage;
if (message != null)
{
AddField("FormattedMessage", message, columnOrder, restString);
}
if (source.m_needsComputers)
{
TraceThread thread = data.Thread();
if (thread != null)
{
TraceActivity activity = source.m_activityComputer.GetCurrentActivity(thread);
if (activity != null)
{
string id = activity.ID;
if (Math.Abs(activity.StartTimeRelativeMSec - m_timeStampRelativeMSec) < .0005)
{
id = "^" + id; // Indicates it is at the start of the task.
}
AddField("ActivityInfo", id, columnOrder, restString);
}
var startStopActivity = source.m_startStopActivityComputer.GetCurrentStartStopActivity(thread, data);
if (startStopActivity != null)
{
string name = startStopActivity.Name;
string parentName = "$";
if (startStopActivity.Creator != null)
{
parentName = startStopActivity.Creator.Name;
}
AddField("StartStopActivity", name + "/P=" + parentName, columnOrder, restString);
}
}
}
// We pass 0 as the process ID for creating the activityID because we want uniform syntax.
if (data.ActivityID != Guid.Empty)
{
AddField("ActivityID", StartStopActivityComputer.ActivityPathString(data.ActivityID), columnOrder, restString);
}
Guid relatedActivityID = data.RelatedActivityID;
if (relatedActivityID != Guid.Empty)
{
AddField("RelatedActivityID", StartStopActivityComputer.ActivityPathString(data.RelatedActivityID), columnOrder, restString);
}
if (data.ContainerID != null)
{
AddField("ContainerID", data.ContainerID, columnOrder, restString);
}
m_asText = restString.ToString();
}
