Leaked source code of windows server 2003
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/*++
Copyright (c) 1997-2000 Microsoft Corporation
Module Name:
traceformat.c
Abstract:
Formats trace entries into messages based on the original sample trace
consumer program (tracedmp).
Author:
Jee Fung Pang (jeepang) 03-Dec-1997
Revision History:
Ian Service (ianserv) 1999 - converted to message formatting
--*/
#ifdef __cplusplus
extern "C"{
#endif
#define UNICODE
#define _UNICODE
#include <stdlib.h>
#include <stdio.h>
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include <shellapi.h>
#include <tchar.h>
#include <wmistr.h>
#include <initguid.h>
#include <evntrace.h>
#define POBJECT_ATTRIBUTES PVOID
#include <ntwmi.h>
#include "traceprt.h"
#define DUMP_FILE_NAME _T("FmtFile.txt")
#define SUMMARY_FILE_NAME _T("FmtSum.txt")
#define DEFAULT_LOGFILE_NAME _T("C:\\Logfile.Etl")
FILE* DumpFile = NULL;
FILE* SummaryFile = NULL;
BOOL fDebugDisplay = FALSE ;
BOOL fDisplayOnly = FALSE ;
BOOL fSummaryOnly = FALSE ;
BOOL fNoSummary = FALSE ;
BOOL fVerbose = FALSE ;
BOOL fFixUp = FALSE ;
BOOL fODSOutput = FALSE ;
BOOL fTMFSpecified = FALSE ;
BOOL fCSVMode = FALSE ;
BOOL fNoCSVHeader = TRUE ;
BOOL fCSVHeader = FALSE ;
#define SIZESUMMARYBLOCK 16384
TCHAR SummaryBlock[SIZESUMMARYBLOCK];
#define TRACE_FORMAT_SEARCH_PATH L"TRACE_FORMAT_SEARCH_PATH"
LPTSTR TraceFormatSearchPath = NULL;
static FILETIME lastTime ;
static ULONG TotalBuffersRead = 0;
static ULONG TotalEventsLost = 0;
static ULONG TotalEventCount = 0;
static ULONG TimerResolution = 10;
static ULONG BufferWrap = 0 ;
__int64 ElapseTime;
PLIST_ENTRY EventListHead = NULL;
void
DumpMofList();
void
PrintMofInfo();
BOOL
CheckFile(
LPTSTR fileName
);
ULONG
BufferCallback(
PEVENT_TRACE_LOGFILE pLog
);
void
AddMofFromWbem(
LPTSTR EventGuid,
LPTSTR PropName,
DWORD PropType
);
void
DumpEvent(
PEVENT_TRACE pEvent
);
PEVENT_TRACE_LOGFILE EvmFile[MAXLOGFILES];
ULONG LogFileCount = 0;
ULONG UserMode = FALSE; // TODO: Pick this up from the stream itself.
TCHAR * szTraceMask = NULL;
void DisplayVersionInfo();
int
__cdecl main (argc, argv)
int argc;
char **argv;
{
TCHAR GuidFileName[MAXSTR];
TCHAR DumpFileName[MAXSTR];
TCHAR SummaryFileName[MAXSTR];
LPTSTR *commandLine;
LPTSTR *targv, *cmdargv;
PEVENT_TRACE_LOGFILE pLogFile;
ULONG Action = 0;
ULONG Status;
ULONG GuidCount = 0;
ULONG i, j;
int targc;
TRACEHANDLE HandleArray[MAXLOGFILES];
if ((cmdargv = CommandLineToArgvW(
GetCommandLineW(),
&argc
)) == NULL)
{
return (GetLastError());
}
targv = cmdargv;
_tcscpy(DumpFileName, DUMP_FILE_NAME);
_tcscpy(SummaryFileName, SUMMARY_FILE_NAME);
// By default look for Define.guid in the image location
if ((Status = GetModuleFileName(NULL, GuidFileName, MAXSTR)) == MAXSTR) {
GuidFileName[MAXSTR-1] = _T('\0');
}
if( Status != 0 ){
TCHAR drive[10];
TCHAR path[MAXSTR];
TCHAR file[MAXSTR];
TCHAR ext[MAXSTR];
_tsplitpath( GuidFileName, drive, path, file, ext );
_tcscpy(ext, GUID_EXT );
_tcscpy(file, GUID_FILE );
_tmakepath( GuidFileName, drive, path, file, ext );
}else{
_tcscpy( GuidFileName, GUID_FILE );
_tcscat( GuidFileName, _T(".") );
_tcscat( GuidFileName, GUID_EXT );
}
while (--argc > 0) {
++targv;
if (**targv == '-' || **targv == '/') { // argument found
if( **targv == '/' ){
**targv = '-';
}
if (targv[0][1] == 'h' || targv[0][1] == 'H'
|| targv[0][1] == '?')
{
DisplayVersionInfo();
_tprintf(
_T("Usage: traceformat [options] <evmfile>| [-h | -?]\n")
_T("\t-o <file> Output file\n")
_T("\t-csv Format the output as a comma seperated file")
//_T("\t-nocsvheader Suppress the csv header line")
_T("\t-tmf <file> Format definition file\n")
_T("\t-p <path> TMF file search path\n")
_T("\t-rt [loggername] Realtime formatting\n")
_T("\t-h Display this information\n")
_T("\t-display Display output\n")
_T("\t-displayonly Display output. Don't write to the file\n")
_T("\t-nosummary Don't create the summary file\n")
_T("\t-noprefix Suppress any defined TRACE_FORMAT_PREFIX")
_T("\t-ods do Display output using OutputDebugString\n")
_T("\t-summaryonly Don't create the listing file.\n")
_T("\t-v Verbose Display\n")
_T("\t-? Display this information\n")
_T("\n")
_T("\tDefault evmfile is ") DEFAULT_LOGFILE_NAME _T("\n")
_T("\tDefault outputfile is ") DUMP_FILE_NAME _T("\n")
_T("\tDefault TMF file is ") GUID_FILE _T(".") GUID_EXT _T("\n")
_T("\n")
//_T("\tTMF file search path is read from environment variable\n")
//_T("\t\tTRACE_FORMAT_SEARCH_PATH\n")
);
return 0;
}
else if (!_tcsicmp(targv[0], _T("-debug"))) {
fDebugDisplay = TRUE;
}
else if (!_tcsicmp(targv[0], _T("-display"))) {
fDebugDisplay = TRUE ;
}
else if (!_tcsicmp(targv[0], _T("-displayonly"))) {
fDisplayOnly = TRUE ;
}
else if (!_tcsicmp(targv[0], _T("-fixup"))) {
fFixUp = TRUE;
}
else if (!_tcsicmp(targv[0], _T("-summary"))) {
fSummaryOnly = TRUE;
}
else if (!_tcsicmp(targv[0], _T("-seq"))) {
SetTraceFormatParameter(ParameterSEQUENCE, ULongToPtr(1));
}
else if (!_tcsicmp(targv[0], _T("-gmt"))) {
SetTraceFormatParameter(ParameterGMT, ULongToPtr(1));
}
else if (!_tcsicmp(targv[0], _T("-utc"))) {
SetTraceFormatParameter(ParameterGMT, ULongToPtr(1));
} else if (!_tcsicmp(targv[0], _T("-nosummary"))) {
fNoSummary = TRUE;
} else if (!_tcsicmp(targv[0], _T("-csv"))) {
fCSVMode = TRUE ;
fCSVHeader = TRUE ;
SetTraceFormatParameter(ParameterStructuredFormat,UlongToPtr(1));
} else if (!_tcsicmp(targv[0], _T("-nocsvheader"))) {
fNoCSVHeader = FALSE ;
}
else if (!_tcsicmp(targv[0], _T("-noprefix"))) {
SetTraceFormatParameter(ParameterUsePrefix,UlongToPtr(0));
}
else if (!_tcsicmp(targv[0], _T("-rt"))) {
TCHAR LoggerName[MAXSTR];
_tcscpy(LoggerName, KERNEL_LOGGER_NAME);
if (argc > 1) {
if (targv[1][0] != '-' && targv[1][0] != '/') {
++targv; --argc;
_tcscpy(LoggerName, targv[0]);
}
}
pLogFile = malloc(sizeof(EVENT_TRACE_LOGFILE));
if (pLogFile == NULL){
_tprintf(_T("Allocation Failure\n"));
goto cleanup;
}
RtlZeroMemory(pLogFile, sizeof(EVENT_TRACE_LOGFILE));
EvmFile[LogFileCount] = pLogFile;
EvmFile[LogFileCount]->LogFileName = NULL;
EvmFile[LogFileCount]->LoggerName =
(LPTSTR) malloc(MAXSTR*sizeof(TCHAR));
if ( EvmFile[LogFileCount]->LoggerName == NULL ) {
_tprintf(_T("Allocation Failure\n"));
goto cleanup;
}
_tcscpy(EvmFile[LogFileCount]->LoggerName, LoggerName);
_tprintf(_T("Setting RealTime mode for %s\n"),
EvmFile[LogFileCount]->LoggerName);
EvmFile[LogFileCount]->Context = NULL;
EvmFile[LogFileCount]->BufferCallback = (PEVENT_TRACE_BUFFER_CALLBACKW)BufferCallback;
EvmFile[LogFileCount]->BuffersRead = 0;
EvmFile[LogFileCount]->CurrentTime = 0;
EvmFile[LogFileCount]->EventCallback = (PEVENT_CALLBACK)&DumpEvent;
EvmFile[LogFileCount]->LogFileMode =
EVENT_TRACE_REAL_TIME_MODE;
LogFileCount++;
}
else if ( !_tcsicmp(targv[0], _T("-guid")) ) { // maintain for compatabillity
if (argc > 1) {
if (targv[1][0] != '-' && targv[1][0] != '/') {
_tcscpy(GuidFileName, targv[1]);
++targv; --argc;
fTMFSpecified = TRUE ;
}
}
}
else if ( !_tcsicmp(targv[0], _T("-tmf")) ) {
if (argc > 1) {
if (targv[1][0] != '-' && targv[1][0] != '/') {
_tcscpy(GuidFileName, targv[1]);
++targv; --argc;
fTMFSpecified = TRUE ;
}
}
}
else if ( !_tcsicmp(targv[0], _T("-p")) ){
if (argc > 1) {
if (targv[1][0] != '-' && targv[1][0] != '/') {
SetTraceFormatParameter(ParameterTraceFormatSearchPath, targv[1]);
++targv; --argc;
}
}
}
else if ( !_tcsicmp(targv[0], _T("-v")) ) {
fVerbose = TRUE ;
}
else if ( !_tcsicmp(targv[0], _T("-ods")) ) {
fODSOutput = TRUE ;
}
else if ( !_tcsicmp(targv[0], _T("-onlyshow")) ) {
if (argc > 1) {
szTraceMask = malloc((_tcslen(targv[1])+1) * sizeof(TCHAR));
_tcscpy(szTraceMask,targv[1]);
++targv; --argc;
}
}
else if ( !_tcsicmp(targv[0], _T("-o")) ) {
if (argc > 1) {
if (targv[1][0] != '-' && targv[1][0] != '/') {
TCHAR drive[10];
TCHAR path[MAXSTR];
TCHAR file[MAXSTR];
TCHAR ext[MAXSTR];
++targv; --argc;
_tfullpath(DumpFileName, targv[0], MAXSTR);
_tsplitpath( DumpFileName, drive, path, file, ext );
_tcscat(ext,_T(".sum"));
_tmakepath( SummaryFileName, drive, path, file, ext );
}
}
}
}
else {
pLogFile = malloc(sizeof(EVENT_TRACE_LOGFILE));
if (pLogFile == NULL){
_tprintf(_T("Allocation Failure(EVENT_TRACE_LOGFILE)\n")); // Need to cleanup better.
goto cleanup;
}
RtlZeroMemory(pLogFile, sizeof(EVENT_TRACE_LOGFILE));
EvmFile[LogFileCount] = pLogFile;
EvmFile[LogFileCount]->LoggerName = NULL;
EvmFile[LogFileCount]->LogFileName =
(LPTSTR) malloc(MAXSTR*sizeof(TCHAR));
if (EvmFile[LogFileCount]->LogFileName == NULL) {
_tprintf(_T("Allocation Failure (LogFileName)\n"));
goto cleanup;
}
_tfullpath(EvmFile[LogFileCount]->LogFileName, targv[0], MAXSTR);
_tprintf(_T("Setting log file to: %s\n"),
EvmFile[LogFileCount]->LogFileName);
if (!CheckFile(EvmFile[LogFileCount]->LogFileName)) {
_tprintf(_T("Cannot open logfile for reading\n"));
goto cleanup;
}
EvmFile[LogFileCount]->Context = NULL;
EvmFile[LogFileCount]->BufferCallback = (PEVENT_TRACE_BUFFER_CALLBACKW)BufferCallback;
EvmFile[LogFileCount]->BuffersRead = 0;
EvmFile[LogFileCount]->CurrentTime = 0;
EvmFile[LogFileCount]->EventCallback = (PEVENT_CALLBACK)&DumpEvent;
LogFileCount++;
}
}
if( _tcslen( GuidFileName ) ){
TCHAR str[MAXSTR];
_tfullpath( str, GuidFileName, MAXSTR);
_tcscpy( GuidFileName, str );
_tprintf(_T("Getting guids from %s\n"), GuidFileName);
GuidCount = GetTraceGuids(GuidFileName, (PLIST_ENTRY *) &EventListHead);
if ((GuidCount <= 0) && fTMFSpecified)
{
_tprintf(_T("GetTraceGuids returned %d, GetLastError=%d, for %s\n"),
GuidCount,
GetLastError(),
GuidFileName);
}
}
if (LogFileCount <= 0) {
pLogFile = malloc(sizeof(EVENT_TRACE_LOGFILE));
if (pLogFile == NULL){
_tprintf(_T("Allocation Failure\n")); // Need to cleanup better.
goto cleanup;
}
RtlZeroMemory(pLogFile, sizeof(EVENT_TRACE_LOGFILE));
EvmFile[0] = pLogFile;
EvmFile[0]->LoggerName = NULL;
LogFileCount = 1;
EvmFile[0]->LogFileName = (LPTSTR) malloc(MAXSTR*sizeof(TCHAR));
if (EvmFile[0]->LogFileName == NULL) {
_tprintf(_T("Allocation Failure\n"));
goto cleanup;
}
_tcscpy(EvmFile[0]->LogFileName, DEFAULT_LOGFILE_NAME);
EvmFile[0]->EventCallback = (PEVENT_CALLBACK)&DumpEvent;
}
for (i = 0; i < LogFileCount; i++) {
TRACEHANDLE x;
x = OpenTrace(EvmFile[i]);
HandleArray[i] = x;
if (HandleArray[i] == 0) {
_tprintf(_T("Error Opening Trace %d with status=%d\n"),
i, GetLastError());
for (j = 0; j < i; j++)
CloseTrace(HandleArray[j]);
goto cleanup;
}
}
if (!fDisplayOnly) {
DumpFile = _tfopen(DumpFileName, _T("w"));
if (DumpFile == NULL) {
_tprintf(_T("Format File \"%s\" Could not be opened for writing 0X%X\n"),
DumpFileName,GetLastError());
goto cleanup;
}
SummaryFile = NULL ;
if (!fNoSummary) {
SummaryFile = _tfopen(SummaryFileName, _T("w"));
if (SummaryFile == NULL) {
_tprintf(_T("Summary File \"%s\" could not be opened for writing 0X%X\n"),
SummaryFileName,GetLastError());
goto cleanup;
}
}
} else {
DumpFile = stdout;
SummaryFile = stdout;
}
Status = ProcessTrace(HandleArray,
LogFileCount,
NULL, NULL);
if (Status != ERROR_SUCCESS) {
_tprintf(_T("Error processing trace entry with status=0x%x (GetLastError=0x%x)\n"),
Status, GetLastError());
}
for (j = 0; j < LogFileCount; j++){
Status = CloseTrace(HandleArray[j]);
if (Status != ERROR_SUCCESS) {
_tprintf(_T("Error Closing Trace %d with status=%d\n"), j, Status);
}
}
if (!fNoSummary) {
_ftprintf(SummaryFile,_T("Files Processed:\n"));
for (i=0; i<LogFileCount; i++) {
_ftprintf(SummaryFile,_T("\t%s\n"),EvmFile[i]->LogFileName);
}
GetTraceElapseTime(&ElapseTime);
_ftprintf(SummaryFile,
_T("Total Buffers Processed %d\n")
_T("Total Events Processed %d\n")
_T("Total Events Lost %d\n")
_T("Elapsed Time %I64d sec\n"),
TotalBuffersRead,
TotalEventCount,
TotalEventsLost,
(ElapseTime / 10000000) );
_ftprintf(SummaryFile,
_T("+-----------------------------------------------------------------------------------+\n")
_T("|%10s %-20s %-10s %-36s|\n")
_T("+-----------------------------------------------------------------------------------+\n"),
_T("EventCount"),
_T("EventName"),
_T("EventType"),
_T("Guid")
);
SummaryTraceEventList(SummaryBlock, SIZESUMMARYBLOCK, EventListHead);
_ftprintf(SummaryFile,
_T("%s+-----------------------------------------------------------------------------------+\n"),
SummaryBlock);
}
cleanup:
CleanupTraceEventList(EventListHead);
if (fVerbose) {
_tprintf(_T("\n")); // need a newline after the block updates
}
if (DumpFile != NULL) {
_tprintf(_T("Event traces dumped to %s\n"), DumpFileName);
fclose(DumpFile);
}
if(SummaryFile != NULL){
_tprintf(_T("Event Summary dumped to %s\n"), SummaryFileName);
fclose(SummaryFile);
}
for (i = 0; i < LogFileCount; i ++)
{
if (EvmFile[i]->LoggerName != NULL)
{
free(EvmFile[i]->LoggerName);
EvmFile[i]->LoggerName = NULL;
}
if (EvmFile[i]->LogFileName != NULL)
{
free(EvmFile[i]->LogFileName);
EvmFile[i]->LogFileName = NULL;
}
free(EvmFile[i]);
}
GlobalFree(cmdargv);
Status = GetLastError();
if(Status != ERROR_SUCCESS ){
_tprintf(_T("Exit Status: %d\n"), Status );
}
return 0;
}
void DisplayVersionInfo()
{
TCHAR buffer[512];
TCHAR strProgram[MAXSTR];
DWORD dw;
BYTE* pVersionInfo;
LPTSTR pVersion = NULL;
LPTSTR pProduct = NULL;
LPTSTR pCopyRight = NULL;
if ((dw = GetModuleFileName(NULL, strProgram, MAXSTR)) == MAXSTR) {
strProgram[MAXSTR-1] = _T('\0');
}
if( dw>0 ){
dw = GetFileVersionInfoSize( strProgram, &dw );
if( dw > 0 ){
pVersionInfo = (BYTE*)malloc(dw);
if( NULL != pVersionInfo ){
if(GetFileVersionInfo( strProgram, 0, dw, pVersionInfo )){
LPDWORD lptr = NULL;
VerQueryValue( pVersionInfo, _T("\\VarFileInfo\\Translation"), (void**)&lptr, (UINT*)&dw );
if( lptr != NULL ){
_stprintf( buffer, _T("\\StringFileInfo\\%04x%04x\\%s"), LOWORD(*lptr), HIWORD(*lptr), _T("ProductVersion") );
VerQueryValue( pVersionInfo, buffer, (void**)&pVersion, (UINT*)&dw );
_stprintf( buffer, _T("\\StringFileInfo\\%04x%04x\\%s"), LOWORD(*lptr), HIWORD(*lptr), _T("OriginalFilename") );
VerQueryValue( pVersionInfo, buffer, (void**)&pProduct, (UINT*)&dw );
_stprintf( buffer, _T("\\StringFileInfo\\%04x%04x\\%s"), LOWORD(*lptr), HIWORD(*lptr), _T("LegalCopyright") );
VerQueryValue( pVersionInfo, buffer, (void**)&pCopyRight, (UINT*)&dw );
}
if( pProduct != NULL && pVersion != NULL && pCopyRight != NULL ){
_tprintf( _T("\nMicrosoft (R) %s (%s)\n%s\n\n"), pProduct, pVersion, pCopyRight );
}
}
free( pVersionInfo );
}
}
}
}
ULONG
BufferCallback(
PEVENT_TRACE_LOGFILE pLog
)
{
ULONG i;
ULONG Status;
EVENT_TRACE_PROPERTIES LoggerProp;
TotalBuffersRead++;
TotalEventsLost += pLog->EventsLost;
if (fVerbose) {
FILETIME stdTime, localTime;
SYSTEMTIME sysTime;
RtlCopyMemory(&stdTime , &pLog->CurrentTime, sizeof(FILETIME));
FileTimeToSystemTime(&stdTime, &sysTime);
_tprintf(_T("%02d/%02d/%04d-%02d:%02d:%02d.%03d :: %8d: Filled=%8d, Lost=%3d"),
sysTime.wMonth,
sysTime.wDay,
sysTime.wYear,
sysTime.wHour,
sysTime.wMinute,
sysTime.wSecond,
sysTime.wMilliseconds,
TotalBuffersRead,
pLog->Filled,
pLog->EventsLost);
_tprintf(_T(" TotalLost= %d\r"), TotalEventsLost);
if (CompareFileTime(&lastTime,&stdTime) == 1) {
_tprintf(_T("\nWARNING: time appears to have wrapped here (Block = %d)!\n"),TotalBuffersRead);
BufferWrap = TotalBuffersRead;
}
lastTime = stdTime ;
}
return (TRUE);
}
#define DEFAULT_LOG_BUFFER_SIZE 1024
BOOL
CheckFile(
LPTSTR fileName
)
{
HANDLE hFile;
BYTE LogHeaderBuffer[DEFAULT_LOG_BUFFER_SIZE];
ULONG nBytesRead ;
ULONG hResult ;
PEVENT_TRACE pEvent;
PTRACE_LOGFILE_HEADER logfileHeader ;
LARGE_INTEGER lFileSize ;
LARGE_INTEGER lFileSizeMB ;
DWORD dwDesiredAccess , dwShareMode ;
FILETIME stdTime, localTime, endlocalTime, endTime;
SYSTEMTIME sysTime, endsysTime;
PEVENT_TRACE_LOGFILE pLogBuffer ;
if (fFixUp) {
dwShareMode = 0 ;
dwDesiredAccess = GENERIC_READ | GENERIC_WRITE ;
} else {
dwShareMode = FILE_SHARE_READ | FILE_SHARE_WRITE ;
dwDesiredAccess = GENERIC_READ ;
}
hFile = CreateFile(
fileName,
dwDesiredAccess,
dwShareMode,
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL
);
if (hFile == INVALID_HANDLE_VALUE) {
if (fFixUp) {
_tprintf(_T("ERROR: Fixup could not open file, Error = 0x%X\n"),GetLastError());
exit(GetLastError());
}
return(FALSE);
}
// While we are here we will look to see if the file is ok and fix up
// Circular buffer anomolies
if (((hResult = ReadFile(hFile,
(LPVOID)LogHeaderBuffer,
DEFAULT_LOG_BUFFER_SIZE,
&nBytesRead,
NULL)) == 0) || nBytesRead < DEFAULT_LOG_BUFFER_SIZE) {
_tprintf(_T("ERROR: Fixup could not read file, Error = 0x%X, bytes read = %d(of %d)\n"),
GetLastError(),nBytesRead,DEFAULT_LOG_BUFFER_SIZE);
exit(ERROR_BAD_ARGUMENTS);
}
pEvent = (PEVENT_TRACE)LogHeaderBuffer ;
logfileHeader = (PTRACE_LOGFILE_HEADER)&LogHeaderBuffer[sizeof(WMI_BUFFER_HEADER) +
sizeof(SYSTEM_TRACE_HEADER)];
if (fVerbose) {
_tprintf(_T("Dumping Logfile Header\n"));
RtlCopyMemory(&stdTime , &(logfileHeader->StartTime), sizeof(FILETIME));
FileTimeToLocalFileTime(&stdTime, &localTime);
FileTimeToSystemTime(&localTime, &sysTime);
RtlCopyMemory(&endTime , &(logfileHeader->EndTime), sizeof(FILETIME));
FileTimeToLocalFileTime(&endTime, &endlocalTime);
FileTimeToSystemTime(&endlocalTime, &endsysTime);
_tprintf(_T("\tStart Time %02d/%02d/%04d-%02d:%02d:%02d.%03d\n"),
sysTime.wMonth,
sysTime.wDay,
sysTime.wYear,
sysTime.wHour,
sysTime.wMinute,
sysTime.wSecond,
sysTime.wMilliseconds);
_tprintf(_T("\tBufferSize %d\n"),
logfileHeader->BufferSize);
_tprintf(_T("\tVersion %d\n"),
logfileHeader->Version);
_tprintf(_T("\tProviderVersion %d\n"),
logfileHeader->ProviderVersion);
_tprintf(_T("\tEnd Time %02d/%02d/%04d-%02d:%02d:%02d.%03d\n"),
endsysTime.wMonth,
endsysTime.wDay,
endsysTime.wYear,
endsysTime.wHour,
endsysTime.wMinute,
endsysTime.wSecond,
endsysTime.wMilliseconds);
_tprintf(_T("\tTimer Resolution %d\n"),
logfileHeader->TimerResolution);
_tprintf(_T("\tMaximum File Size %d\n"),
logfileHeader->MaximumFileSize);
_tprintf(_T("\tBuffers Written %d\n"),
logfileHeader->BuffersWritten);
/*
_tprintf(_T("\tLogger Name %ls\n"),
logfileHeader->LoggerName);
_tprintf(_T("\tLogfile Name %ls\n"),
logfileHeader->LogFileName);
*/
_tprintf(_T("\tTimezone is %s (Bias is %dmins)\n"),
logfileHeader->TimeZone.StandardName,logfileHeader->TimeZone.Bias);
_tprintf(_T("\tLogfile Mode %X "),
logfileHeader->LogFileMode);
if (logfileHeader->LogFileMode == EVENT_TRACE_FILE_MODE_NONE) {
_tprintf(_T("Logfile is off(?)\n"));
} else if (logfileHeader->LogFileMode == EVENT_TRACE_FILE_MODE_SEQUENTIAL) {
_tprintf(_T("Logfile is sequential\n"));
} else if (logfileHeader->LogFileMode == EVENT_TRACE_FILE_MODE_CIRCULAR) {
_tprintf(_T("Logfile is circular\n"));
}
_tprintf(_T("\tProcessorCount %d\n"),
logfileHeader->NumberOfProcessors);
}
if (GetFileSizeEx(hFile, &lFileSize) == 0) {
_tprintf(_T("WARNING: Could not get file size, continuing\n"));
} else {
lFileSizeMB.QuadPart = lFileSize.QuadPart / (1024*1024) ;
if (lFileSizeMB.QuadPart > logfileHeader->MaximumFileSize) {
_tprintf(_T("WARNING: File size given as %dMB, should be %dMB\n"),
logfileHeader->MaximumFileSize,lFileSizeMB.QuadPart);
if (lFileSize.HighPart != 0) {
_tprintf(_T("WARNING: Log file is TOO big"));
}
if (fFixUp) {
logfileHeader->MaximumFileSize = lFileSizeMB.LowPart + 1 ;
}
}
}
if ((logfileHeader->LogFileMode == EVENT_TRACE_FILE_MODE_CIRCULAR) &&
(logfileHeader->BuffersWritten== 0 )) {
_tprintf(_T("WARNING: Circular Trace File did not have 'wrap' address\n"));
if (fFixUp) {
// Figure out the wrap address
INT LowBuff = 1, HighBuff, CurrentBuff, MaxBuff ;
FILETIME LowTime, HighTime, CurrentTime, MaxTime ;
if (lFileSize.HighPart != 0) {
_tprintf(_T("ERROR: File TOO big\n"));
exit(-1);
}
MaxBuff = (LONG)(lFileSize.QuadPart / logfileHeader->BufferSize) - 1 ;
_tprintf(_T("MaxBuff=%d\n"),MaxBuff);
pLogBuffer = malloc(logfileHeader->BufferSize);
if (SetFilePointer(hFile,0, NULL, FILE_BEGIN) == INVALID_SET_FILE_POINTER) {
_tprintf(_T("ERROR: Could not reset file to beginning for FixUp, Error = 0x%X"),
GetLastError());
exit(GetLastError());
}
for (CurrentBuff = 1 ; CurrentBuff <= MaxBuff; CurrentBuff++) {
if (SetFilePointer(hFile,logfileHeader->BufferSize, NULL, FILE_CURRENT) == INVALID_SET_FILE_POINTER) {
_tprintf(_T("ERROR: Could not set file to next buffer for FixUp, Error = 0x%X"),
GetLastError());
exit(GetLastError());
}
hResult = ReadFile(hFile,
(LPVOID)pLogBuffer,
logfileHeader->BufferSize,
&nBytesRead,
NULL);
BufferCallback((PEVENT_TRACE_LOGFILE)pLogBuffer);
}
}
}
if (fFixUp) {
if (SetFilePointer(hFile,0, NULL, FILE_BEGIN) == INVALID_SET_FILE_POINTER) {
_tprintf(_T("ERROR: Could not reset file to beginning for FixUp, Error = 0x%X"),
GetLastError());
exit(GetLastError());
}
logfileHeader->BuffersWritten= BufferWrap ;
if (!WriteFile(hFile,(LPVOID)LogHeaderBuffer,DEFAULT_LOG_BUFFER_SIZE,&nBytesRead, NULL)) {
_tprintf(_T("ERROR: Could not Write file for FixUp, Error = 0x%X"),
GetLastError());
exit(GetLastError());
}
_tprintf(_T("INFO: Buffer Wrap reset to %d\n"),BufferWrap);
}
CloseHandle(hFile);
return (TRUE);
}
#define SIZEEVENTBUF 32768
TCHAR EventBuf[SIZEEVENTBUF];
BYTE EventBufCSV[SIZEEVENTBUF * sizeof(TCHAR)];
#ifdef UNICODE
CHAR EventBufA[SIZEEVENTBUF*sizeof(WCHAR)];
#endif
void
DumpEvent(
PEVENT_TRACE pEvent
)
{
TotalEventCount++;
if (pEvent == NULL) {
_tprintf(_T("pEvent is NULL\n"));
return;
}
// DumpEvent() is only a wrapper, it calls FormatTraceEvent() in TracePrt.
//
if (FormatTraceEvent(EventListHead,pEvent,EventBuf,SIZEEVENTBUF,NULL) > 0)
{
TCHAR * EventBufWork = &EventBuf[0] ;
#ifdef UNICODE
//sprintf(_T("Name,\"SubName(File+line#)\",ThreadID,ProcessId,SequenceNumber,CPUNumber,Indent,Function,Component,TraceLevel,TraceFlags,Text\n"));
if (fCSVMode) {
PSTRUCTUREDMESSAGE pStructuredMessage = (PSTRUCTUREDMESSAGE)&EventBuf[0];
/* if (fCSVHeader && fNoCSVHeader) {
fCSVHeader = FALSE ;
_stprintf((TCHAR *)EventBufCSV,_T("GUIDname,TypeName,ThreadId,ProcessId,SequenceNum,CpuNumber,Indent,CompnentName,SubComponentName,FunctionName,LevelName,FlagsName, String"));
} */
_stprintf((TCHAR *)EventBufCSV,_T("%s,%s,%08X,%08X,%d,%d,%d,%s,%s,%s,%s,%s,\"%s\""),
(pStructuredMessage->GuidName?&EventBuf[pStructuredMessage->GuidName/sizeof(TCHAR)]:_T("")),
(pStructuredMessage->GuidTypeName?&EventBuf[pStructuredMessage->GuidTypeName/sizeof(TCHAR)]:_T("")),
pStructuredMessage->ThreadId,
pStructuredMessage->ProcessId,
pStructuredMessage->SequenceNum,
pStructuredMessage->CpuNumber,
pStructuredMessage->Indent,
(pStructuredMessage->ComponentName?&EventBuf[pStructuredMessage->ComponentName/sizeof(TCHAR)]:_T("")),
(pStructuredMessage->SubComponentName?&EventBuf[pStructuredMessage->SubComponentName/sizeof(TCHAR)]:_T("")),
(pStructuredMessage->FunctionName?&EventBuf[pStructuredMessage->FunctionName/sizeof(TCHAR)]:_T("")),
(pStructuredMessage->LevelName?&EventBuf[pStructuredMessage->LevelName/sizeof(TCHAR)]:_T("")),
(pStructuredMessage->FlagsName?&EventBuf[pStructuredMessage->FlagsName/sizeof(TCHAR)]:_T("")),
(pStructuredMessage->FormattedString?&EventBuf[pStructuredMessage->FormattedString/sizeof(TCHAR)]:_T("")));
EventBufWork = (TCHAR *)&EventBufCSV[0] ;
}
//
// Convert Unicode to MultiByte
//
if (WideCharToMultiByte(GetConsoleOutputCP(),
0,
EventBufWork,
-1,
EventBufA,
SIZEEVENTBUF * sizeof(WCHAR),
NULL,
NULL ) == 0 )
{
//
// do nothing, let the _ftprintf handle it.
//
}
else
{
if (!fSummaryOnly && !fDisplayOnly) {
fprintf(DumpFile, "%s\n", EventBufA);
}
if (fDebugDisplay || fDisplayOnly) {
if (fODSOutput) {
OutputDebugStringA(EventBufA);
OutputDebugStringA("\n");
} else {
printf("%s\n", EventBufA);
}
}
return ;
}
#endif
if (!fSummaryOnly && !fDisplayOnly) {
_ftprintf(DumpFile, _T("%s\n"),EventBuf);
}
if (fDebugDisplay || fDisplayOnly) {
if (fODSOutput) {
OutputDebugString(EventBuf);
OutputDebugString(_T("\n"));
} else {
_tprintf(_T("%s\n"),EventBuf);
}
}
}
}
#ifdef __cplusplus
}
#endif