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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
#ifndef __EVENTPIPE_H__
#define __EVENTPIPE_H__
#ifdef FEATURE_PERFTRACING
#include "common.h"
class CrstStatic;
class CrawlFrame;
class EventPipeConfiguration;
class EventPipeEvent;
class EventPipeEventInstance;
class EventPipeFile;
class EventPipeJsonFile;
class EventPipeBuffer;
class EventPipeBufferManager;
class EventPipeEventSource;
class EventPipeProvider;
class MethodDesc;
class SampleProfilerEventInstance;
struct EventPipeProviderConfiguration;
class EventPipeSession;
// Define the event pipe callback to match the ETW callback signature.
typedef void (*EventPipeCallback)(
LPCGUID SourceID,
ULONG IsEnabled,
UCHAR Level,
ULONGLONG MatchAnyKeywords,
ULONGLONG MatchAllKeywords,
void *FilterData,
void *CallbackContext);
struct EventData
{
public:
UINT64 Ptr;
unsigned int Size;
unsigned int Reserved;
};
class EventPipeEventPayload
{
private:
BYTE *m_pData;
EventData *m_pEventData;
unsigned int m_eventDataCount;
unsigned int m_size;
bool m_allocatedData;
// If the data is stored only as an array of EventData objects, create a flat buffer and copy into it
void Flatten();
public:
// Build this payload with a flat buffer inside
EventPipeEventPayload(BYTE *pData, unsigned int length);
// Build this payload to contain an array of EventData objects
EventPipeEventPayload(EventData *pEventData, unsigned int eventDataCount);
// If a buffer was allocated internally, delete it
~EventPipeEventPayload();
// Copy the data (whether flat or array of objects) into a flat buffer at pDst
// Assumes that pDst points to an appropriatly sized buffer
void CopyData(BYTE *pDst);
// Get the flat formatted data in this payload
// This method will allocate a buffer if it does not already contain flattened data
// This method will return NULL on OOM if a buffer needed to be allocated
BYTE* GetFlatData();
// Return true is the data is stored in a flat buffer
bool IsFlattened() const
{
LIMITED_METHOD_CONTRACT;
return m_pData != NULL;
}
// The the size of buffer needed to contain the stored data
unsigned int GetSize() const
{
LIMITED_METHOD_CONTRACT;
return m_size;
}
EventData* GetEventDataArray() const
{
LIMITED_METHOD_CONTRACT;
return m_pEventData;
}
};
class StackContents
{
private:
const static unsigned int MAX_STACK_DEPTH = 100;
// Array of IP values from a stack crawl.
// Top of stack is at index 0.
UINT_PTR m_stackFrames[MAX_STACK_DEPTH];
#ifdef _DEBUG
// Parallel array of MethodDesc pointers.
// Used for debug-only stack printing.
MethodDesc* m_methods[MAX_STACK_DEPTH];
#endif // _DEBUG
// The next available slot in StackFrames.
unsigned int m_nextAvailableFrame;
public:
StackContents()
{
LIMITED_METHOD_CONTRACT;
Reset();
}
void CopyTo(StackContents *pDest)
{
LIMITED_METHOD_CONTRACT;
_ASSERTE(pDest != NULL);
memcpy_s(pDest->m_stackFrames, MAX_STACK_DEPTH * sizeof(UINT_PTR), m_stackFrames, sizeof(UINT_PTR) * m_nextAvailableFrame);
#ifdef _DEBUG
memcpy_s(pDest->m_methods, MAX_STACK_DEPTH * sizeof(MethodDesc*), m_methods, sizeof(MethodDesc*) * m_nextAvailableFrame);
#endif
pDest->m_nextAvailableFrame = m_nextAvailableFrame;
}
void Reset()
{
LIMITED_METHOD_CONTRACT;
m_nextAvailableFrame = 0;
}
bool IsEmpty()
{
LIMITED_METHOD_CONTRACT;
return (m_nextAvailableFrame == 0);
}
unsigned int GetLength()
{
LIMITED_METHOD_CONTRACT;
return m_nextAvailableFrame;
}
UINT_PTR GetIP(unsigned int frameIndex)
{
LIMITED_METHOD_CONTRACT;
_ASSERTE(frameIndex < MAX_STACK_DEPTH);
if (frameIndex >= MAX_STACK_DEPTH)
{
return 0;
}
return m_stackFrames[frameIndex];
}
#ifdef _DEBUG
MethodDesc* GetMethod(unsigned int frameIndex)
{
LIMITED_METHOD_CONTRACT;
_ASSERTE(frameIndex < MAX_STACK_DEPTH);
if (frameIndex >= MAX_STACK_DEPTH)
{
return NULL;
}
return m_methods[frameIndex];
}
#endif // _DEBUG
void Append(UINT_PTR controlPC, MethodDesc *pMethod)
{
LIMITED_METHOD_CONTRACT;
if(m_nextAvailableFrame < MAX_STACK_DEPTH)
{
m_stackFrames[m_nextAvailableFrame] = controlPC;
#ifdef _DEBUG
m_methods[m_nextAvailableFrame] = pMethod;
#endif
m_nextAvailableFrame++;
}
}
BYTE* GetPointer() const
{
LIMITED_METHOD_CONTRACT;
return (BYTE*)m_stackFrames;
}
unsigned int GetSize() const
{
LIMITED_METHOD_CONTRACT;
return (m_nextAvailableFrame * sizeof(UINT_PTR));
}
};
typedef UINT64 EventPipeSessionID;
class EventPipe
{
// Declare friends.
friend class EventPipeConfiguration;
friend class EventPipeFile;
friend class EventPipeProvider;
friend class EventPipeBufferManager;
friend class SampleProfiler;
public:
// Initialize the event pipe.
static void Initialize();
// Shutdown the event pipe.
static void Shutdown();
// Enable tracing from the start-up path based on COMPLUS variable.
static void EnableOnStartup();
// Enable tracing via the event pipe.
static EventPipeSessionID Enable(
LPCWSTR strOutputPath,
unsigned int circularBufferSizeInMB,
EventPipeProviderConfiguration *pProviders,
int numProviders);
// Disable tracing via the event pipe.
static void Disable(EventPipeSessionID id);
// Get the session for the specified session ID.
static EventPipeSession* GetSession(EventPipeSessionID id);
// Specifies whether or not the event pipe is enabled.
static bool Enabled();
// Create a provider.
static EventPipeProvider* CreateProvider(const SString &providerName, EventPipeCallback pCallbackFunction = NULL, void *pCallbackData = NULL);
// Get a provider.
static EventPipeProvider* GetProvider(const SString &providerName);
// Delete a provider.
static void DeleteProvider(EventPipeProvider *pProvider);
// Write out an event from a flat buffer.
// Data is written as a serialized blob matching the ETW serialization conventions.
static void WriteEvent(EventPipeEvent &event, BYTE *pData, unsigned int length, LPCGUID pActivityId = NULL, LPCGUID pRelatedActivityId = NULL);
// Write out an event from an EventData array.
// Data is written as a serialized blob matching the ETW serialization conventions.
static void WriteEvent(EventPipeEvent &event, EventData *pEventData, unsigned int eventDataCount, LPCGUID pActivityId = NULL, LPCGUID pRelatedActivityId = NULL);
// Write out a sample profile event.
static void WriteSampleProfileEvent(Thread *pSamplingThread, EventPipeEvent *pEvent, Thread *pTargetThread, StackContents &stackContents, BYTE *pData = NULL, unsigned int length = 0);
// Get the managed call stack for the current thread.
static bool WalkManagedStackForCurrentThread(StackContents &stackContents);
// Get the managed call stack for the specified thread.
static bool WalkManagedStackForThread(Thread *pThread, StackContents &stackContents);
// Save the command line for the current process.
static void SaveCommandLine(LPCWSTR pwzAssemblyPath, int argc, LPCWSTR *argv);
// Get next event.
static EventPipeEventInstance* GetNextEvent();
protected:
// The counterpart to WriteEvent which after the payload is constructed
static void WriteEventInternal(EventPipeEvent &event, EventPipeEventPayload &payload, LPCGUID pActivityId = NULL, LPCGUID pRelatedActivityId = NULL);
private:
// Enable the specified EventPipe session.
static EventPipeSessionID Enable(LPCWSTR strOutputPath, EventPipeSession *pSession);
// Get the EnableOnStartup configuration from environment.
static void GetConfigurationFromEnvironment(SString &outputPath, EventPipeSession *pSession);
// Callback function for the stack walker. For each frame walked, this callback is invoked.
static StackWalkAction StackWalkCallback(CrawlFrame *pCf, StackContents *pData);
// Get the configuration object.
// This is called directly by the EventPipeProvider constructor to register the new provider.
static EventPipeConfiguration* GetConfiguration();
// Get the event pipe configuration lock.
static CrstStatic* GetLock();
static CrstStatic s_configCrst;
static bool s_tracingInitialized;
static EventPipeConfiguration *s_pConfig;
static EventPipeSession *s_pSession;
static EventPipeBufferManager *s_pBufferManager;
static EventPipeFile *s_pFile;
static EventPipeEventSource *s_pEventSource;
static LPCWSTR s_pCommandLine;
#ifdef _DEBUG
static EventPipeFile *s_pSyncFile;
static EventPipeJsonFile *s_pJsonFile;
#endif // _DEBUG
};
struct EventPipeProviderConfiguration
{
private:
LPCWSTR m_pProviderName;
UINT64 m_keywords;
UINT32 m_loggingLevel;
public:
EventPipeProviderConfiguration()
{
LIMITED_METHOD_CONTRACT;
m_pProviderName = NULL;
m_keywords = NULL;
m_loggingLevel = 0;
}
EventPipeProviderConfiguration(
LPCWSTR pProviderName,
UINT64 keywords,
UINT32 loggingLevel)
{
LIMITED_METHOD_CONTRACT;
m_pProviderName = pProviderName;
m_keywords = keywords;
m_loggingLevel = loggingLevel;
}
LPCWSTR GetProviderName() const
{
LIMITED_METHOD_CONTRACT;
return m_pProviderName;
}
UINT64 GetKeywords() const
{
LIMITED_METHOD_CONTRACT;
return m_keywords;
}
UINT32 GetLevel() const
{
LIMITED_METHOD_CONTRACT;
return m_loggingLevel;
}
};
class EventPipeInternal
{
private:
enum class ActivityControlCode
{
EVENT_ACTIVITY_CONTROL_GET_ID = 1,
EVENT_ACTIVITY_CONTROL_SET_ID = 2,
EVENT_ACTIVITY_CONTROL_CREATE_ID = 3,
EVENT_ACTIVITY_CONTROL_GET_SET_ID = 4,
EVENT_ACTIVITY_CONTROL_CREATE_SET_ID = 5
};
struct EventPipeEventInstanceData
{
public:
void *ProviderID;
unsigned int EventID;
unsigned int ThreadID;
LARGE_INTEGER TimeStamp;
GUID ActivityId;
GUID RelatedActivityId;
const BYTE *Payload;
unsigned int PayloadLength;
};
struct EventPipeSessionInfo
{
public:
FILETIME StartTimeAsUTCFileTime;
LARGE_INTEGER StartTimeStamp;
LARGE_INTEGER TimeStampFrequency;
};
public:
static UINT64 QCALLTYPE Enable(
__in_z LPCWSTR outputFile,
UINT32 circularBufferSizeInMB,
INT64 profilerSamplingRateInNanoseconds,
EventPipeProviderConfiguration *pProviders,
INT32 numProviders);
static void QCALLTYPE Disable(UINT64 sessionID);
static bool QCALLTYPE GetSessionInfo(UINT64 sessionID, EventPipeSessionInfo *pSessionInfo);
static INT_PTR QCALLTYPE CreateProvider(
__in_z LPCWSTR providerName,
EventPipeCallback pCallbackFunc);
static INT_PTR QCALLTYPE DefineEvent(
INT_PTR provHandle,
UINT32 eventID,
__int64 keywords,
UINT32 eventVersion,
UINT32 level,
void *pMetadata,
UINT32 metadataLength);
static INT_PTR QCALLTYPE GetProvider(
__in_z LPCWSTR providerName);
static void QCALLTYPE DeleteProvider(
INT_PTR provHandle);
static int QCALLTYPE EventActivityIdControl(
uint controlCode,
GUID *pActivityId);
static void QCALLTYPE WriteEvent(
INT_PTR eventHandle,
UINT32 eventID,
void *pData,
UINT32 length,
LPCGUID pActivityId, LPCGUID pRelatedActivityId);
static void QCALLTYPE WriteEventData(
INT_PTR eventHandle,
UINT32 eventID,
EventData *pEventData,
UINT32 eventDataCount,
LPCGUID pActivityId, LPCGUID pRelatedActivityId);
static bool QCALLTYPE GetNextEvent(
EventPipeEventInstanceData *pInstance);
};
#endif // FEATURE_PERFTRACING
#endif // __EVENTPIPE_H__
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