windows-nt/Source/XPSP1/NT/base/wmi/tests/logger/structurewrappers.cpp

514 lines
12 KiB
C++
Raw Permalink Normal View History

2020-09-26 03:20:57 -05:00
// StructureWrappers.cpp: implementation of the CStructureWrappers class.
//
//////////////////////////////////////////////////////////////////////
//***************************************************************************
//
// judyp May 1999
//
//***************************************************************************
#include "stdafx.h"
#pragma warning (disable : 4786)
#pragma warning (disable : 4275)
#include <iosfwd>
#include <iostream>
#include <fstream>
#include <string>
#include <map>
#include <list>
using namespace std;
#include <malloc.h>
#include <tchar.h>
#include <windows.h>
#ifdef NONNT5
typedef unsigned long ULONG_PTR;
#endif
#include <wmistr.h>
#include <guiddef.h>
#include <initguid.h>
#include <evntrace.h>
#include <WTYPES.H>
#include "t_string.h"
#include "Persistor.h"
#include "Logger.h"
#include "TCOData.h"
#include "Utilities.h"
#include "StructureWrappers.h"
#include "StructureWapperHelpers.h"
#include "ConstantMap.h"
//////////////////////////////////////////////////////////////////////
// Wrappers that serialize and de-serialize Event Tracing Data
// Structures.
//////////////////////////////////////////////////////////////////////
#define MAX_LINE 1024
static TCHAR g_tcNl = _T('\n');
static TCHAR g_tcCR = 0x0d;
static TCHAR g_tcLF = 0x0a;
#ifdef _UNICODE
static TCHAR g_tcDQuote[] = _T("\"");
static TCHAR g_atcNL[] = {0x0d, 0x0a, 0x00};
#else
static TCHAR g_atcNL[] = {g_tcNl};
static TCHAR g_tcDQuote = _T('"');
#endif
CConstantMap g_ConstantMap;
//////////////////////////////////////////////////////////////////////
// _EVENT_TRACE_PROPERTIES
//////////////////////////////////////////////////////////////////////
CEventTraceProperties::CEventTraceProperties()
{
m_pProps = NULL;
m_bIsNULL = true;
}
CEventTraceProperties::CEventTraceProperties
(PEVENT_TRACE_PROPERTIES pProps)
{
Initialize(pProps);
}
CEventTraceProperties::~CEventTraceProperties()
{
if (m_pProps)
{
free(m_pProps->LogFileName);
m_pProps->LogFileName = NULL;
free(m_pProps->LoggerName);
m_pProps->LoggerName = NULL;
free(m_pProps);
m_pProps = NULL;
}
m_bIsNULL = true;
}
CEventTraceProperties::CEventTraceProperties(CEventTraceProperties &rhs)
{
Initialize(rhs.m_pProps);
}
CEventTraceProperties &CEventTraceProperties::operator=
(CEventTraceProperties &rhs)
{
if ( this != &rhs )
{
delete this;
Initialize(rhs.m_pProps);
}
return *this;
}
#if 0
"_EVENT_TRACE_PROPERTIES Instance Begin"
"BufferSize:ULONG:32"
"MinimunBuffers:ULONG:2"
"MaximunBuffers:ULONG:3"
"MaximunFileSize:ULONG:4"
"LogFileMode:@#$ENUM:EVENT_TRACE_FILE_MODE_NEWFILE|EVENT_TRACE_REAL_TIME_MODE|@#$UNKNOWNVALUE:0x20"
"FlushTimer:ULONG:6"
"EnableFlags:@#$ENUM:EVENT_TRACE_FLAG_IMAGE_LOAD|EVENT_TRACE_FLAG_DISK_IO|@#$UNKNOWNVALUE:20"
"NumberOfBuffers:ULONG:8"
"FreeBuffers:ULONG:9"
"EventsLost:ULONG:10"
"BuffersWritten:ULONG:11"
"LogBuffersLost:ULONG:12"
"RealTimeBuffersLost:ULONG:13"
"AgeLimit:LONG:-14"
"LoggerThreadId:HANDLE:0000000F"
"LogFileName:TCHAR*:Log file name"
"LoggerName:TCHAR*:Logger name"
"_EVENT_TRACE_PROPERTIES Instance End"
#endif
void CEventTraceProperties::InitializeMemberVar(TCHAR *tcBuffer, int nVar)
{
int nDebug = 0;
if (nVar == 17 || nVar == 18)
{
nDebug = nVar;
}
t_string tsTemp;
tsTemp = tcBuffer;
int nPos = tsTemp.find(_T(":"), 0);
// The first character in the type.
int nPosType = nPos + 1;
if (nPos == t_string::npos)
{
m_bDeSerializationOK = false;
return;
}
nPos = tsTemp.find(_T(":"), nPos + 1);
t_string tsType;
tsType = tsTemp.substr(nPosType,nPos - nPosType);
// The first chatacter in the value.
++nPos;
t_string tsValue;
tsValue = tsTemp.substr(nPos, (tsTemp.length() - nPos) - 1);
// a TCHAR * value
if (tsType.compare(_T("TCHAR*")) == 0)
{
InitializeTCHARVar(tsValue ,m_pVarArray[nVar]);
}
// A #define value
else if (tsType.compare(_T("@#$ENUM")) == 0)
{
InitializeEnumVar(tsValue , m_pVarArray[nVar]);
}
// A HEX
else if (tsType.compare(_T("HANDLE")) == 0)
{
InitializeHandleVar(tsValue , m_pVarArray[nVar]);
}
// An unsigned value
else if (tsType.compare(_T("ULONG")) == 0)
{
InitializeULONGVar(tsValue , m_pVarArray[nVar]);
}
// A long value
else if (tsType.compare(_T("LONG")) == 0)
{
InitializeLONGVar(tsValue , m_pVarArray[nVar]);
}
// A long value
else if (tsType.compare(_T("GUID")) == 0)
{
InitializeGUIDVar(tsValue , m_pVarArray[nVar]);
}
}
void CEventTraceProperties::Initialize
(PEVENT_TRACE_PROPERTIES pProps)
{
m_bDeSerializationOK = true;
if (pProps == NULL)
{
m_pProps = NULL;
m_bIsNULL = true;
}
m_pProps = (EVENT_TRACE_PROPERTIES *) malloc (sizeof(EVENT_TRACE_PROPERTIES));
RtlZeroMemory(m_pProps, sizeof(EVENT_TRACE_PROPERTIES));
*m_pProps = *pProps;
m_pProps -> LogFileName = pProps -> LogFileName ?
NewTCHAR(pProps -> LogFileName) :
NULL;
m_pProps -> LoggerName = pProps -> LoggerName ?
NewTCHAR(pProps -> LoggerName) :
NULL;
m_pProps -> Wnode.BufferSize = sizeof(*m_pProps);
m_bIsNULL = false;
}
PEVENT_TRACE_PROPERTIES
CEventTraceProperties::GetEventTracePropertiesInstance()
{
if (m_pProps == NULL)
{
return NULL;
}
EVENT_TRACE_PROPERTIES *pProps =
(EVENT_TRACE_PROPERTIES *) malloc (sizeof(EVENT_TRACE_PROPERTIES));
RtlZeroMemory(pProps, sizeof(EVENT_TRACE_PROPERTIES));
*pProps = *m_pProps;
pProps -> LogFileName = m_pProps -> LogFileName ?
NewTCHAR(m_pProps -> LogFileName) :
NULL;
pProps -> LoggerName = m_pProps -> LoggerName ?
NewTCHAR(m_pProps -> LoggerName) :
NULL;
int n1 = sizeof(*pProps);
int n2 = sizeof(EVENT_TRACE_PROPERTIES);
pProps -> Wnode.BufferSize = sizeof(*pProps);
return pProps;
}
HRESULT CEventTraceProperties::Persist (CPersistor &rPersistor)
{
if (rPersistor.IsLoading())
{
rPersistor.Stream() >> *this;
}
else
{
rPersistor.Stream() << *this;
}
return S_OK;
}
t_ostream& operator<<(t_ostream &ros, const CEventTraceProperties &r)
{
t_string tsOut;
tsOut = _T("\"_EVENT_TRACE_PROPERTIES Instance Begin\"\n");
PutALine(ros, tsOut.c_str());
// "Wnode.Guid:GUID:{0000cbd1-0011-11d0-0d00-00aa006d010a}"
// "Wnode.Flags:@#$ENUM:WNODE_FLAG_ALL_DATA"
tsOut = _T("\"Wnode.Guid:GUID:");
PutALine(ros, tsOut.c_str());
GUIDOut(ros, r.m_pProps -> Wnode.Guid);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
WnodeFlagsOut(ros, r.m_pProps -> Wnode.Flags);
tsOut = _T("\"BufferSize:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> BufferSize);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
tsOut = _T("\"MinimunBuffers:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> MinimumBuffers);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
tsOut = _T("\"MaximunBuffers:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> MaximumBuffers);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
tsOut = _T("\"MaximunFileSize:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> MaximumFileSize);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
LogFileModeOut(ros, r.m_pProps -> LogFileMode );
tsOut = _T("\"FlushTimer:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> FlushTimer);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
EnableFlagsOut(ros,r.m_pProps -> EnableFlags);
// ros << _T("\"NumberOfBuffers:ULONG:") << r.m_pProps -> NumberOfBuffers << g_tcDQuote << g_atcNL;
tsOut = _T("\"NumberOfBuffers:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> NumberOfBuffers);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"FreeBuffers:ULONG:") << r.m_pProps -> FreeBuffers << g_tcDQuote << g_atcNL;
tsOut = _T("\"FreeBuffers:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> FreeBuffers);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"EventsLost:ULONG:") << r.m_pProps -> EventsLost << g_tcDQuote << g_atcNL;
tsOut = _T("\"EventsLost:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> EventsLost);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"BuffersWritten:ULONG:") << r.m_pProps -> BuffersWritten << g_tcDQuote << g_atcNL;
tsOut = _T("\"BuffersWritten:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> BuffersWritten);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"LogBuffersLost:ULONG:") << r.m_pProps -> LogBuffersLost << g_tcDQuote << g_atcNL;
tsOut = _T("\"LogBuffersLost:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> LogBuffersLost);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"RealTimeBuffersLost:ULONG:") << r.m_pProps -> RealTimeBuffersLost << g_tcDQuote <<g_atcNL;
tsOut = _T("\"RealTimeBuffersLost:ULONG:");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, r.m_pProps -> RealTimeBuffersLost);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"AgeLimit:LONG:") << r.m_pProps -> AgeLimit << g_tcDQuote <<g_atcNL;
tsOut = _T("\"AgeLimit:ULONG:");
PutALine(ros, tsOut.c_str());
PutALONGVar(ros, r.m_pProps -> AgeLimit);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// Handles are in hex.
// ros << _T("\"LoggerThreadId:HANDLE:0x") << r.m_pProps -> LoggerThreadId << g_tcDQuote <<g_atcNL;
tsOut = _T("\"LoggerThreadId:HANDLE:0x");
PutALine(ros, tsOut.c_str());
PutAULONGVar(ros, (ULONG) r.m_pProps -> LoggerThreadId, true);
tsOut = g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"LogFileName:TCHAR*:") << r.m_pProps -> LogFileName << g_tcDQuote <<g_atcNL;
tsOut = _T("\"LogFileName:TCHAR*:");
if (r.m_pProps -> LogFileName)
{
tsOut += r.m_pProps -> LogFileName;
}
tsOut += g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
// ros << _T("\"LoggerName:TCHAR*:") << r.m_pProps -> LoggerName << g_tcDQuote <<g_atcNL;
tsOut = _T("\"LoggerName:TCHAR*:");
if (r.m_pProps -> LoggerName)
{
tsOut += r.m_pProps -> LoggerName;
}
tsOut += g_tcDQuote;
tsOut += g_atcNL;
PutALine(ros, tsOut.c_str());
tsOut = _T("\"_EVENT_TRACE_PROPERTIES Instance End\"\n");
PutALine(ros, tsOut.c_str());
return ros;
}
t_istream& operator>>(t_istream &ris,CEventTraceProperties &r)
{
r.m_bDeSerializationOK = true;
// We are doing line oriented serailization and assume that
// a line in the stream is 1024 or less TCHARS.
TCHAR *ptcBuffer = (TCHAR *) malloc(MAX_LINE * sizeof(TCHAR));
GetALine(ris, ptcBuffer,MAX_LINE);
if (_tcscmp(ptcBuffer,_T("\"_EVENT_TRACE_PROPERTIES Instance NULL\"")) == 0)
{
r.~CEventTraceProperties();
r.m_bDeSerializationOK = false;
free(ptcBuffer);
return ris;
}
if (_tcscmp(ptcBuffer,_T("\"_EVENT_TRACE_PROPERTIES Instance Begin\"")) != 0)
{
r.m_bDeSerializationOK = false;
free(ptcBuffer);
return ris;
}
r.~CEventTraceProperties();
r.m_pProps = (EVENT_TRACE_PROPERTIES *) malloc (sizeof(EVENT_TRACE_PROPERTIES));
RtlZeroMemory(r.m_pProps, sizeof(EVENT_TRACE_PROPERTIES));
r.m_pProps->Wnode.BufferSize = sizeof(EVENT_TRACE_PROPERTIES);
// "Wnode.Guid:GUID:{0000cbd1-0011-11d0-0d00-00aa006d010a}"
// "Wnode.Flags:@#$ENUM:WNODE_FLAG_ALL_DATA"
r.m_pVarArray[0] = &r.m_pProps->Wnode.Guid;
r.m_pVarArray[1] = &r.m_pProps->Wnode.Flags;
r.m_pVarArray[2] = &r.m_pProps->BufferSize;
r.m_pVarArray[3] = &r.m_pProps->MinimumBuffers;
r.m_pVarArray[4] = &r.m_pProps->MaximumBuffers;
r.m_pVarArray[5] = &r.m_pProps->MaximumFileSize;
r.m_pVarArray[6] = &r.m_pProps->LogFileMode;
r.m_pVarArray[7] = &r.m_pProps->FlushTimer;
r.m_pVarArray[8] = &r.m_pProps->EnableFlags;
r.m_pVarArray[9] = &r.m_pProps->NumberOfBuffers;
r.m_pVarArray[10] = &r.m_pProps->FreeBuffers;
r.m_pVarArray[11] = &r.m_pProps->EventsLost;
r.m_pVarArray[12] = &r.m_pProps->BuffersWritten;
r.m_pVarArray[13] = &r.m_pProps->LogBuffersLost;
r.m_pVarArray[14] = &r.m_pProps->RealTimeBuffersLost;
r.m_pVarArray[15] = &r.m_pProps->AgeLimit;
r.m_pVarArray[16] = &r.m_pProps->LoggerThreadId;
r.m_pVarArray[17] = &r.m_pProps->LogFileName;
r.m_pVarArray[18] = &r.m_pProps->LoggerName;
int n = 0;
while (n < 19 && GetALine(ris,ptcBuffer,MAX_LINE))
{
r.InitializeMemberVar(ptcBuffer,n++);
}
// Consume end of Props
GetALine(ris,ptcBuffer,MAX_LINE);
free(ptcBuffer);
BOOL bHeapGood = HeapValidate(GetProcessHeap(), 0, NULL);
return ris;
}