擷取事件中繼資料
下列範例示範如何使用追蹤資料協助程式函式來擷取每個事件的中繼資料。 另請參閱 TdhQueryProviderFieldInformation 和 TdhEnumerateProviderFieldInformation 函式隨附的範例。
//Turns the DEFINE_GUID for EventTraceGuid into a const.
#define INITGUID
#include <windows.h>
#include <stdio.h>
#include <comdef.h>
#include <guiddef.h>
#include <wbemidl.h>
#include <wmistr.h>
#include <evntrace.h>
#include <tdh.h>
#pragma comment(lib, "tdh.lib")
#define LOGFILE_PATH L"<FULLPATHTOTHELOGFILE.etl>"
static const GUID GUID_NULL =
{ 0x00000000, 0x0000, 0x0000, { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 } };
// Strings that represent the source of the event metadata.
WCHAR* pSource[] = {L"XML instrumentation manifest", L"WMI MOF class", L"WPP TMF file"};
// Handle to the trace file that you opened.
TRACEHANDLE g_hTrace = 0;
// Prototypes
void WINAPI ProcessEvent(PEVENT_RECORD pEvent);
DWORD GetEventInformation(PEVENT_RECORD pEvent, PTRACE_EVENT_INFO & pInfo);
DWORD PrintPropertyMetadata(TRACE_EVENT_INFO* pInfo, DWORD i, USHORT indent);
void wmain(void)
{
ULONG status = ERROR_SUCCESS;
EVENT_TRACE_LOGFILE trace;
TRACE_LOGFILE_HEADER* pHeader = &trace.LogfileHeader;
// Identify the log file from which you want to consume events
// and the callbacks used to process the events and buffers.
ZeroMemory(&trace, sizeof(EVENT_TRACE_LOGFILE));
trace.LogFileName = (LPWSTR) LOGFILE_PATH;
trace.EventRecordCallback = (PEVENT_RECORD_CALLBACK) (ProcessEvent);
trace.ProcessTraceMode = PROCESS_TRACE_MODE_EVENT_RECORD;
g_hTrace = OpenTrace(&trace);
if (INVALID_PROCESSTRACE_HANDLE == g_hTrace)
{
wprintf(L"OpenTrace failed with %lu\n", GetLastError());
goto cleanup;
}
status = ProcessTrace(&g_hTrace, 1, 0, 0);
if (status != ERROR_SUCCESS && status != ERROR_CANCELLED)
{
wprintf(L"ProcessTrace failed with %lu\n", status);
goto cleanup;
}
cleanup:
if (INVALID_PROCESSTRACE_HANDLE != g_hTrace)
{
status = CloseTrace(g_hTrace);
}
}
VOID WINAPI ProcessEvent(PEVENT_RECORD pEvent)
{
DWORD status = ERROR_SUCCESS;
HRESULT hr = S_OK;
PTRACE_EVENT_INFO pInfo = NULL;
LPWSTR pStringGuid = NULL;
// Skips the event if it is the event trace header. Log files contain this event
// but real-time sessions do not. The event contains the same information as
// the EVENT_TRACE_LOGFILE.LogfileHeader member that you can access when you open
// the trace.
if (IsEqualGUID(pEvent->EventHeader.ProviderId, EventTraceGuid) &&
pEvent->EventHeader.EventDescriptor.Opcode == EVENT_TRACE_TYPE_INFO)
{
; // Skip this event.
}
else
{
// Process the event. This example does not process the event data but
// instead prints the metadata that describes each event.
status = GetEventInformation(pEvent, pInfo);
if (ERROR_SUCCESS != status)
{
wprintf(L"GetEventInformation failed with %lu\n", status);
goto cleanup;
}
wprintf(L"Decoding source: %s\n", pSource[pInfo->DecodingSource]);
if (DecodingSourceWPP == pInfo->DecodingSource)
{
// This example is not rendering WPP metadata.
goto cleanup;
}
if (pInfo->ProviderNameOffset > 0)
{
wprintf(L"Provider name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->ProviderNameOffset));
}
hr = StringFromCLSID(pInfo->ProviderGuid, &pStringGuid);
if (FAILED(hr))
{
wprintf(L"StringFromCLSID(ProviderGuid) failed with 0x%x\n", hr);
status = hr;
goto cleanup;
}
wprintf(L"\nProvider GUID: %s\n", pStringGuid);
CoTaskMemFree(pStringGuid);
pStringGuid = NULL;
if (!IsEqualGUID(pInfo->EventGuid, GUID_NULL))
{
hr = StringFromCLSID(pInfo->EventGuid, &pStringGuid);
if (FAILED(hr))
{
wprintf(L"StringFromCLSID(EventGuid) failed with 0x%x\n", hr);
status = hr;
goto cleanup;
}
wprintf(L"\nEvent GUID: %s\n", pStringGuid);
CoTaskMemFree(pStringGuid);
pStringGuid = NULL;
}
if (DecodingSourceXMLFile == pInfo->DecodingSource)
{
wprintf(L"Event ID: %hu\n", pInfo->EventDescriptor.Id);
}
wprintf(L"Version: %d\n", pInfo->EventDescriptor.Version);
if (pInfo->ChannelNameOffset > 0)
{
wprintf(L"Channel name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->ChannelNameOffset));
}
if (pInfo->LevelNameOffset > 0)
{
wprintf(L"Level name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->LevelNameOffset));
}
else
{
wprintf(L"Level: %hu\n", pInfo->EventDescriptor.Level);
}
if (DecodingSourceXMLFile == pInfo->DecodingSource)
{
if (pInfo->OpcodeNameOffset > 0)
{
wprintf(L"Opcode name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->OpcodeNameOffset));
}
}
else
{
wprintf(L"Type: %hu\n", pInfo->EventDescriptor.Opcode);
}
if (DecodingSourceXMLFile == pInfo->DecodingSource)
{
if (pInfo->TaskNameOffset > 0)
{
wprintf(L"Task name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->TaskNameOffset));
}
}
else
{
wprintf(L"Task: %hu\n", pInfo->EventDescriptor.Task);
}
wprintf(L"Keyword mask: 0x%x\n", pInfo->EventDescriptor.Keyword);
if (pInfo->KeywordsNameOffset)
{
LPWSTR pKeyword = (LPWSTR)((PBYTE)(pInfo) + pInfo->KeywordsNameOffset);
for (; *pKeyword != 0; pKeyword += (wcslen(pKeyword) + 1))
wprintf(L" Keyword name: %s\n", pKeyword);
}
if (pInfo->EventMessageOffset > 0)
{
wprintf(L"Event message: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->EventMessageOffset));
}
if (pInfo->ActivityIDNameOffset > 0)
{
wprintf(L"Activity ID name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->ActivityIDNameOffset));
}
if (pInfo->RelatedActivityIDNameOffset > 0)
{
wprintf(L"Related activity ID name: %s\n", (LPWSTR)((PBYTE)(pInfo) + pInfo->RelatedActivityIDNameOffset));
}
wprintf(L"Number of top-level properties: %lu\n", pInfo->TopLevelPropertyCount);
wprintf(L"Total number of properties: %lu\n", pInfo->PropertyCount);
// Print the metadata for all the top-level properties. Metadata for all the
// top-level properties come before structure member properties in the
// property information array.
if (pInfo->TopLevelPropertyCount > 0)
{
wprintf(L"\nThe following are the user data properties defined for this event:\n");
for (USHORT i = 0; i < pInfo->TopLevelPropertyCount; i++)
{
status = PrintPropertyMetadata(pInfo, i, 0);
if (ERROR_SUCCESS != status)
{
wprintf(L"Printing metadata for top-level properties failed.\n");
goto cleanup;
}
}
}
else
{
wprintf(L"\nThe event does not define any user data properties.\n");
}
wprintf(L"\n");
}
cleanup:
if (pInfo)
{
free(pInfo);
}
if (ERROR_SUCCESS != status)
{
CloseTrace(g_hTrace);
}
}
DWORD GetEventInformation(PEVENT_RECORD pEvent, PTRACE_EVENT_INFO & pInfo)
{
DWORD status = ERROR_SUCCESS;
DWORD BufferSize = 0;
// Retrieve the required buffer size for the event metadata.
status = TdhGetEventInformation(pEvent, 0, NULL, pInfo, &BufferSize);
if (ERROR_INSUFFICIENT_BUFFER == status)
{
pInfo = (TRACE_EVENT_INFO*) malloc(BufferSize);
if (pInfo == NULL)
{
wprintf(L"Failed to allocate memory for event info (size=%lu).\n", BufferSize);
status = ERROR_OUTOFMEMORY;
goto cleanup;
}
// Retrieve the event metadata.
status = TdhGetEventInformation(pEvent, 0, NULL, pInfo, &BufferSize);
}
if (ERROR_SUCCESS != status)
{
wprintf(L"TdhGetEventInformation failed with 0x%x.\n", status);
}
cleanup:
return status;
}
// Print the metadata for each property.
DWORD PrintPropertyMetadata(TRACE_EVENT_INFO* pinfo, DWORD i, USHORT indent)
{
DWORD status = ERROR_SUCCESS;
DWORD j = 0;
DWORD lastMember = 0; // Last member of a structure
// Print property name.
wprintf(L"%*s%s", indent, L"", (LPWSTR)((PBYTE)(pinfo) + pinfo->EventPropertyInfoArray[i].NameOffset));
// If the property is an array, the property can define the array size or it can
// point to another property whose value defines the array size. The PropertyParamCount
// flag tells you where the array size is defined.
if ((pinfo->EventPropertyInfoArray[i].Flags & PropertyParamCount) == PropertyParamCount)
{
j = pinfo->EventPropertyInfoArray[i].countPropertyIndex;
wprintf(L" (array size is defined by %s)", (LPWSTR)((PBYTE)(pinfo) + pinfo->EventPropertyInfoArray[j].NameOffset));
}
else
{
if (pinfo->EventPropertyInfoArray[i].count > 1)
wprintf(L" (array size is %lu)", pinfo->EventPropertyInfoArray[i].count);
}
// If the property is a buffer, the property can define the buffer size or it can
// point to another property whose value defines the buffer size. The PropertyParamLength
// flag tells you where the buffer size is defined.
if ((pinfo->EventPropertyInfoArray[i].Flags & PropertyParamLength) == PropertyParamLength)
{
j = pinfo->EventPropertyInfoArray[i].lengthPropertyIndex;
wprintf(L" (size is defined by %s)", (LPWSTR)((PBYTE)(pinfo) + pinfo->EventPropertyInfoArray[j].NameOffset));
}
else
{
// Variable length properties such as structures and some strings do not have
// length definitions.
if (pinfo->EventPropertyInfoArray[i].length > 0)
wprintf(L" (size is %lu bytes)", pinfo->EventPropertyInfoArray[i].length);
else
wprintf(L" (size is unknown)");
}
wprintf(L"\n");
// If the property is a structure, print the members of the structure.
if ((pinfo->EventPropertyInfoArray[i].Flags & PropertyStruct) == PropertyStruct)
{
wprintf(L"%*s(The property is a structure and has the following %hu members:)\n", 4, L"",
pinfo->EventPropertyInfoArray[i].structType.NumOfStructMembers);
lastMember = pinfo->EventPropertyInfoArray[i].structType.StructStartIndex +
pinfo->EventPropertyInfoArray[i].structType.NumOfStructMembers;
for (j = pinfo->EventPropertyInfoArray[i].structType.StructStartIndex; j < lastMember; j++)
{
PrintPropertyMetadata(pinfo, j, 4);
}
}
else
{
// You can use InType to determine the data type of the member and OutType
// to determine the output format of the data.
if (pinfo->EventPropertyInfoArray[i].nonStructType.MapNameOffset)
{
// You can pass the name to the TdhGetEventMapInformation function to
// retrieve metadata about the value map.
wprintf(L"%*s(Map attribute name is %s)\n", indent, L"",
(PWCHAR)((PBYTE)(pinfo) + pinfo->EventPropertyInfoArray[i].nonStructType.MapNameOffset));
}
}
return status;
}