Leaked source code of windows server 2003
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/*++
Copyright (C) 1996-2001 Microsoft Corporation
Module Name:
TEXTCONV.CPP
Abstract:
History:
--*/
#include "precomp.h"
#include <float.h>
#include <textconv.h>
#include <WT_wstring.h>
#include <bstring.h>
#include <wbemidl.h>
#include "WT_converter.h"
char *g_aValidPropTypes[] =
{
"CIM_UINT8",
"CIM_SINT8",
"CIM_SINT16",
"CIM_UINT16",
"CIM_SINT32",
"CIM_UINT32",
"CIM_SINT64",
"CIM_UINT64",
"CIM_STRING",
"CIM_BOOLEAN",
"CIM_REAL32",
"CIM_REAL64",
"CIM_DATETIME",
"CIM_REFERENCE",
"CIM_OBJECT",
"CIM_CHAR16",
"CIM_EMPTY",
};
const int g_nNumValidPropTypes = sizeof(g_aValidPropTypes) / sizeof(char *);
LPWSTR CreateUnicode(LPSTR sz)
{
int len = strlen(sz);
WCHAR* wsz = new WCHAR[len+1];
if (wsz == 0)
return 0;
mbstowcs(wsz, sz, len+1);
wsz[len] = L'\0';
return wsz;
}
LPSTR TypeToString(int nType)
{
static char *pCIM_EMPTY = "CIM_EMPTY";
static char *pCIM_UINT8 = "CIM_UINT8";
static char *pCIM_SINT8 = "CIM_SINT8";
static char *pCIM_SINT16 = "CIM_SINT16";
static char *pCIM_UINT16 = "CIM_UINT16";
static char *pCIM_SINT32 = "CIM_SINT32";
static char *pCIM_UINT32 = "CIM_UINT32";
static char *pCIM_SINT64 = "CIM_SINT64";
static char *pCIM_UINT64 = "CIM_UINT64";
static char *pCIM_REAL32 = "CIM_REAL32";
static char *pCIM_REAL64 = "CIM_REAL64";
static char *pCIM_BOOLEAN = "CIM_BOOLEAN";
static char *pCIM_STRING = "CIM_STRING";
static char *pCIM_DATETIME = "CIM_DATETIME";
static char *pCIM_REFERENCE = "CIM_REFERENCE";
static char *pCIM_OBJECT = "CIM_OBJECT";
static char *pCIM_CHAR16 = "CIM_CHAR16";
static char *pCIM_UINT8_ARRAY = "CIM_UINT8 | CIM_FLAG_ARRAY";
static char *pCIM_SINT8_ARRAY = "CIM_SINT8 | CIM_FLAG_ARRAY";
static char *pCIM_SINT16_ARRAY = "CIM_SINT16 | CIM_FLAG_ARRAY";
static char *pCIM_UINT16_ARRAY = "CIM_UINT16 | CIM_FLAG_ARRAY";
static char *pCIM_SINT32_ARRAY = "CIM_SINT32 | CIM_FLAG_ARRAY";
static char *pCIM_UINT32_ARRAY = "CIM_UINT32 | CIM_FLAG_ARRAY";
static char *pCIM_SINT64_ARRAY = "CIM_SINT64 | CIM_FLAG_ARRAY";
static char *pCIM_UINT64_ARRAY = "CIM_UINT64 | CIM_FLAG_ARRAY";
static char *pCIM_REAL32_ARRAY = "CIM_REAL32 | CIM_FLAG_ARRAY";
static char *pCIM_REAL64_ARRAY = "CIM_REAL64 | CIM_FLAG_ARRAY";
static char *pCIM_BOOLEAN_ARRAY = "CIM_BOOLEA | CIM_FLAG_ARRAY";
static char *pCIM_STRING_ARRAY = "CIM_STRING | CIM_FLAG_ARRAY";
static char *pCIM_DATETIME_ARRAY = "CIM_DATETIME | CIM_FLAG_ARRAY";
static char *pCIM_REFERENCE_ARRAY = "CIM_REFERENCE | CIM_FLAG_ARRAY";
static char *pCIM_OBJECT_ARRAY = "CIM_OBJECT | CIM_FLAG_ARRAY";
static char *pCIM_CHAR16_ARRAY = "CIM_CHAR16 | CIM_FLAG_ARRAY";
char *pRetVal = "<unknown>";
switch (nType)
{
case CIM_UINT8: pRetVal = pCIM_UINT8; break;
case CIM_SINT16: pRetVal = pCIM_SINT16; break;
case CIM_SINT32: pRetVal = pCIM_SINT32; break;
case CIM_SINT8: pRetVal = pCIM_SINT8; break;
case CIM_UINT16: pRetVal = pCIM_UINT16; break;
case CIM_UINT32: pRetVal = pCIM_UINT32; break;
case CIM_UINT64: pRetVal = pCIM_UINT64; break;
case CIM_SINT64: pRetVal = pCIM_SINT64; break;
case CIM_REAL32: pRetVal = pCIM_REAL32; break;
case CIM_REAL64: pRetVal = pCIM_REAL64; break;
case CIM_BOOLEAN: pRetVal = pCIM_BOOLEAN; break;
case CIM_STRING: pRetVal = pCIM_STRING; break;
case CIM_DATETIME: pRetVal = pCIM_DATETIME; break;
case CIM_REFERENCE: pRetVal = pCIM_REFERENCE; break;
case CIM_OBJECT: pRetVal = pCIM_OBJECT; break;
case CIM_CHAR16: pRetVal = pCIM_CHAR16; break;
case CIM_UINT8|CIM_FLAG_ARRAY: pRetVal = pCIM_UINT8_ARRAY; break;
case CIM_SINT16|CIM_FLAG_ARRAY: pRetVal = pCIM_SINT16_ARRAY; break;
case CIM_SINT32|CIM_FLAG_ARRAY: pRetVal = pCIM_SINT32_ARRAY; break;
case CIM_SINT8|CIM_FLAG_ARRAY: pRetVal = pCIM_SINT8_ARRAY; break;
case CIM_UINT16|CIM_FLAG_ARRAY: pRetVal = pCIM_UINT16_ARRAY; break;
case CIM_UINT32|CIM_FLAG_ARRAY: pRetVal = pCIM_UINT32_ARRAY; break;
case CIM_UINT64|CIM_FLAG_ARRAY: pRetVal = pCIM_UINT64_ARRAY; break;
case CIM_SINT64|CIM_FLAG_ARRAY: pRetVal = pCIM_SINT64_ARRAY; break;
case CIM_REAL32|CIM_FLAG_ARRAY: pRetVal = pCIM_REAL32_ARRAY; break;
case CIM_REAL64|CIM_FLAG_ARRAY: pRetVal = pCIM_REAL64_ARRAY; break;
case CIM_BOOLEAN|CIM_FLAG_ARRAY: pRetVal = pCIM_BOOLEAN_ARRAY; break;
case CIM_STRING|CIM_FLAG_ARRAY: pRetVal = pCIM_STRING_ARRAY; break;
case CIM_DATETIME|CIM_FLAG_ARRAY: pRetVal = pCIM_DATETIME_ARRAY; break;
case CIM_REFERENCE|CIM_FLAG_ARRAY: pRetVal = pCIM_REFERENCE_ARRAY;break;
case CIM_OBJECT|CIM_FLAG_ARRAY: pRetVal = pCIM_OBJECT_ARRAY; break;
case CIM_CHAR16|CIM_FLAG_ARRAY: pRetVal = pCIM_CHAR16_ARRAY; break;
}
return pRetVal;
}
// Returns 0 on error
int StringToType(LPSTR pString)
{
if(pString == NULL)
return 0;
if (wbem_stricmp(pString, "CIM_STRING") == 0)
return CIM_STRING;
if (wbem_stricmp(pString, "CIM_UINT8") == 0)
return CIM_UINT8;
if (wbem_stricmp(pString, "CIM_SINT16") == 0)
return CIM_SINT16;
if (wbem_stricmp(pString, "CIM_SINT32") == 0)
return CIM_SINT32;
if (wbem_stricmp(pString, "CIM_SINT8") == 0)
return CIM_SINT8;
if (wbem_stricmp(pString, "CIM_UINT16") == 0)
return CIM_UINT16;
if (wbem_stricmp(pString, "CIM_UINT32") == 0)
return CIM_UINT32;
if (wbem_stricmp(pString, "CIM_UINT64") == 0)
return CIM_UINT64;
if (wbem_stricmp(pString, "CIM_SINT64") == 0)
return CIM_SINT64;
if (wbem_stricmp(pString, "CIM_BOOLEAN") == 0)
return CIM_BOOLEAN;
if (wbem_stricmp(pString, "CIM_DATETIME") == 0)
return CIM_DATETIME;
if (wbem_stricmp(pString, "CIM_REFERENCE") == 0)
return CIM_REFERENCE;
if (wbem_stricmp(pString, "CIM_REAL32") == 0)
return CIM_REAL32;
if (wbem_stricmp(pString, "CIM_REAL64") == 0)
return CIM_REAL64;
if (wbem_stricmp(pString, "CIM_EMPTY") == 0)
return CIM_EMPTY;
if (wbem_stricmp(pString, "CIM_OBJECT") == 0)
return CIM_OBJECT;
if (wbem_stricmp(pString, "CIM_CHAR16") == 0)
return CIM_CHAR16;
return 0;
}
// The functions does a preliminary check on arrays looking for leading commas,
// multiple commas, and trailing commas
bool PrelimCheck(LPSTR pStr)
{
int iNumCommaSinceLastNum = 3;
for(; *pStr; pStr++)
{
// If not a space or comma, assume we are in a number
if(!isspace(*pStr) && *pStr != ',')
iNumCommaSinceLastNum = 0;
if(*pStr == ',')
{
if(iNumCommaSinceLastNum > 0)
return false;
iNumCommaSinceLastNum++;
}
}
if(iNumCommaSinceLastNum > 0)
return false;
else
return true;
}
CVarVector* GetVT_I8Array(LPSTR pStr)
{
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_BSTR);
char buf[TEMP_BUF];
int n = 0;
buf[0] = 0;
char* pc = pStr;
while(*pc)
{
if(*pc == ',')
{
buf[n] = 0;
if(n == 0)
{
delete pVec;
return NULL;
}
WString s = buf;
pVec->Add(CVar(VT_BSTR, s));
n = 0;
buf[0] = 0;
}
else if(!isspace(*pc) && *pc != '"')
{
buf[n++] = *pc;
}
pc++;
}
if(n != 0)
{
buf[n] = 0;
WString s = buf;
pVec->Add(CVar(VT_BSTR, s));
n = 0;
}
return pVec;
}
CVarVector* GetVT_BSTRArray(LPSTR pStr)
{
CVarVector *pVec = new CVarVector(VT_BSTR);
char buf[TEMP_BUF];
int n = 0;
BOOL bInString = FALSE;
while (*pStr)
{
if (*pStr == '\"')
{
if (bInString)
{
WString s = buf;
pVec->Add(CVar(VT_BSTR, s));
n = 0;
bInString = FALSE;
pStr++;
}
else {
bInString = TRUE;
pStr++;
n=0;
buf[0] = 0;
}
continue;
}
// Allow for \" escape sequence to include quotes in strings.
// ==========================================================
if (*pStr == '\\' && (*(pStr+1) == '\"' || (*(pStr+1) == '\\'))) {
buf[n] = *(pStr+1);
buf[++n] = 0;
pStr += 2;
continue;
}
if (!bInString)
{
if (isspace(*pStr) || *pStr == ',') {
pStr++;
continue;
}
// Error in array element separators
delete pVec;
return 0;
}
else
{
buf[n] = *pStr++;
buf[++n] = 0;
}
}
if(pVec->Size() < 1)
{
delete pVec;
return 0;
}
return pVec;
}
CVarVector* GetVT_BOOLArray(LPSTR pStr)
{
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_BOOL);
char buf[TEMP_BUF];
int n = 0;
BOOL bPending = FALSE;
while (*pStr)
{
if (isspace(*pStr))
pStr++;
else if (*pStr == ',')
{
if (wbem_stricmp(buf, "TRUE") == 0 ||
wbem_stricmp(buf, "1") == 0 ||
wbem_stricmp(buf, "-1") == 0)
pVec->Add(CVar((VARIANT_BOOL) -1, VT_BOOL));
else if (wbem_stricmp(buf, "FALSE") == 0 || wbem_stricmp(buf, "0") == 0)
pVec->Add(CVar((VARIANT_BOOL) 0, VT_BOOL));
else
{
delete pVec;
return NULL;
}
pStr++;
bPending = FALSE;
n = 0;
buf[n] = 0;
}
else
{
buf[n] = *pStr++;
buf[++n] = 0;
bPending = TRUE;
}
}
if (bPending)
{
if (wbem_stricmp(buf, "TRUE") == 0 ||
wbem_stricmp(buf, "1") == 0 ||
wbem_stricmp(buf, "-1") == 0)
pVec->Add(CVar((VARIANT_BOOL) -1, VT_BOOL));
else if (wbem_stricmp(buf, "FALSE") == 0 || wbem_stricmp(buf, "0") == 0)
pVec->Add(CVar((VARIANT_BOOL) 0, VT_BOOL));
else
{
delete pVec;
return NULL;
}
}
return pVec;
}
CVarVector* GetVT_I4Array(LPSTR pStr)
{
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_I4);
char buf[TEMP_BUF];
int n = 0;
BOOL bInNum = FALSE;
while (*pStr)
{
if (wbem_isdigit(*pStr) || *pStr == '-')
{
bInNum = TRUE;
buf[n] = *pStr++;
buf[++n] = 0;
continue;
}
else // Non digit
{
if (bInNum)
{
pVec->Add(CVar((LONG) atol(buf)));
n = 0;
bInNum = FALSE;
pStr++;
}
else // A separator or trash
{
if (*pStr == ',' || isspace(*pStr))
pStr++;
else
{
delete pVec;
return 0;
}
}
}
}
if (bInNum)
pVec->Add(CVar((LONG) atol(buf)));
return pVec;
}
CVarVector* GetVT_I2Array(LPSTR pStr)
{
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_I2);
char buf[TEMP_BUF];
int n = 0;
BOOL bInNum = FALSE;
while (*pStr)
{
if (wbem_isdigit(*pStr) || *pStr == '-')
{
bInNum = TRUE;
buf[n] = *pStr++;
buf[++n] = 0;
continue;
}
else // Non digit
{
if (bInNum)
{
pVec->Add(CVar((SHORT) atol(buf)));
n = 0;
bInNum = FALSE;
pStr++;
}
else // A separator or trash
{
if (*pStr == ',' || isspace(*pStr))
pStr++;
else
{
delete pVec;
return 0;
}
}
}
}
if (bInNum)
pVec->Add(CVar((SHORT) atol(buf)));
return pVec;
}
CVarVector* GetVT_UI1Array(LPSTR pStr)
{
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_UI1);
char buf[TEMP_BUF];
int n = 0;
BOOL bPending = FALSE,
fFailedConvert = FALSE;
while ( !fFailedConvert && *pStr )
{
if (isspace(*pStr))
pStr++;
else if (*pStr == ',')
{
BYTE b = 0;
int nRes = sscanf(buf, "'%c'", &b);
if (nRes == 0)
{
int n2 = 0;
nRes = sscanf(buf, "0x%X", &n2);
if (nRes == 0)
{
nRes = sscanf(buf, "%d", &n2);
// check that n is in the byte range
if ( n2 >= 0 && n2 <= 0xFF )
{
b = (BYTE)n2;
}
else
{
fFailedConvert = TRUE;
}
}
else b = (BYTE)n2;
}
if ( !fFailedConvert )
{
pVec->Add(CVar(b));
pStr++;
bPending = FALSE;
n = 0;
buf[n] = 0;
}
}
else
{
buf[n] = *pStr++;
buf[++n] = 0;
bPending = TRUE;
}
}
if ( !fFailedConvert && bPending )
{
BYTE b = 0;
int nRes = sscanf(buf, "'%c'", &b);
if (nRes == 0)
{
int n2 = 0;
nRes = sscanf(buf, "0x%X", &n2);
if (nRes == 0)
{
nRes = sscanf(buf, "%d", &n2);
// check that n is in the byte range
if ( n2 >= 0 && n2 <= 0xFF )
{
b = (BYTE)n2;
}
else
{
fFailedConvert = TRUE;
}
}
else b = (BYTE)n2;
}
// Don't set the value if the conversion failed
if ( !fFailedConvert )
{
pVec->Add(CVar(b));
}
}
// Check that we didn't fail conversion
if ( fFailedConvert )
{
delete pVec;
pVec = NULL;
}
return pVec;
}
CVarVector* GetVT_R4Array(LPSTR pStr)
{
int iNumConv;
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_R4);
char buf[TEMP_BUF];
int n = 0;
BOOL bInNum = FALSE;
while (*pStr)
{
if (*pStr != ',' && !isspace(*pStr))
{
bInNum = TRUE;
buf[n] = *pStr++;
buf[++n] = 0;
continue;
}
else // Non digit
{
if (bInNum)
{
double d = 0.0;
iNumConv = sscanf(buf, "%lG", &d);
if (!_finite(d) || iNumConv == 0)
{
delete pVec;
return NULL;
}
pVec->Add(CVar((float) d));
n = 0;
bInNum = FALSE;
pStr++;
}
else // A separator or trash
{
if (*pStr == ',' || isspace(*pStr))
pStr++;
else
{
delete pVec;
return 0;
}
}
}
}
if (bInNum)
{
double d = 0.0;
iNumConv = sscanf(buf, "%lG", &d);
if (!_finite(d) || iNumConv == 0)
{
delete pVec;
return NULL;
}
pVec->Add(CVar(float(d)));
}
return pVec;
}
CVarVector* GetVT_R8Array(LPSTR pStr)
{
int iNumConv;
if(!PrelimCheck(pStr))
return NULL;
CVarVector *pVec = new CVarVector(VT_R8);
char buf[TEMP_BUF];
int n = 0;
BOOL bInNum = FALSE;
while (*pStr)
{
if (*pStr != ',' && !isspace(*pStr))
{
bInNum = TRUE;
buf[n] = *pStr++;
buf[++n] = 0;
continue;
}
else // Non digit
{
if (bInNum)
{
double d = 0.0;
iNumConv = sscanf(buf, "%lG", &d);
if (!_finite(d) || iNumConv == 0)
{
delete pVec;
return NULL;
}
pVec->Add(CVar(d));
n = 0;
bInNum = FALSE;
pStr++;
}
else // A separator or trash
{
if (*pStr == ',' || isspace(*pStr))
pStr++;
else
{
delete pVec;
return 0;
}
}
}
}
if (bInNum)
{
double d = 0.0;
iNumConv = sscanf(buf, "%lG", &d);
if (!_finite(d) || iNumConv ==0)
{
delete pVec;
return NULL;
}
pVec->Add(CVar(d));
}
return pVec;
}
// Allocates a new copy which must be deleted.
CVar* StringToValue(LPSTR pString, int nValType)
{
char g;
CVar *pRet = 0;
if (pString == 0)
return 0;
switch (nValType)
{
case CIM_EMPTY:
pRet = new CVar;
pRet->SetAsNull();
break;
case CIM_CHAR16:
{
long l;
if(sscanf(pString, "%d %c", &l, &g) != 1 && g != '(')
return NULL;
pRet = new CVar;
pRet->SetLong(l);
}
break;
case CIM_UINT8:
case CIM_SINT8:
case CIM_SINT16:
case CIM_UINT16:
case CIM_SINT32:
case CIM_UINT32:
{
pRet = new CVar;
UINT uRetVal = CConverter::Convert(pString, nValType, pRet);
if (ERR_NOERROR != uRetVal)
return NULL;
}
break;
case CIM_REAL32:
{
double d;
if(sscanf(pString, "%lG %c", &d, &g) != 1)
return NULL;
if (!_finite(d))
return NULL;
if ((d > 3.4E+38) || (d < 3.4E-38))
return NULL;
pRet = new CVar;
pRet->SetFloat(float(d));
}
break;
case CIM_REAL64:
{
double d;
if(sscanf(pString, "%lG %c", &d, &g) != 1)
return NULL;
if (!_finite(d))
return NULL;
pRet = new CVar;
pRet->SetDouble(d);
}
break;
case CIM_BOOLEAN:
{
pRet = new CVar;
pRet->SetBool(0); // False by default
if (wbem_stricmp(pString, "TRUE") == 0)
pRet->SetBool(-1);
else if (wbem_stricmp(pString, "FALSE") == 0)
pRet->SetBool(0);
else if (atoi(pString) == 1)
pRet->SetBool(-1);
else if (atoi(pString) == 0)
pRet->SetBool(0);
else
return NULL;
}
break;
case CIM_SINT64:
case CIM_UINT64:
case CIM_STRING:
case CIM_DATETIME:
case CIM_REFERENCE:
{
pRet = new CVar;
wchar_t * wbuf = CreateUnicode(pString);
if (wbuf != 0)
{
CBString bsTemp(wbuf);
pRet->SetBSTR(bsTemp.GetString());
delete wbuf;
}
}
break;
// Array types.
// ============
case CIM_SINT64|CIM_FLAG_ARRAY:
case CIM_UINT64|CIM_FLAG_ARRAY:
{
CVarVector *pVec = GetVT_I8Array(pString);
if (!pVec)
return 0;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}
break;
case CIM_STRING|CIM_FLAG_ARRAY:
case CIM_DATETIME|CIM_FLAG_ARRAY:
case CIM_REFERENCE|CIM_FLAG_ARRAY:
{
CVarVector *pVec = GetVT_BSTRArray(pString);
if (!pVec)
return 0;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}
break;
case CIM_BOOLEAN|CIM_FLAG_ARRAY:
{
CVarVector *pVec = GetVT_BOOLArray(pString);
if (!pVec)
return 0;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}
break;
case CIM_UINT8|CIM_FLAG_ARRAY:
case CIM_SINT8|CIM_FLAG_ARRAY:
case CIM_UINT16|CIM_FLAG_ARRAY:
case CIM_SINT16|CIM_FLAG_ARRAY:
case CIM_UINT32|CIM_FLAG_ARRAY:
case CIM_SINT32|CIM_FLAG_ARRAY:
{
CVarVector *pVec = new CVarVector;
UINT uRes = CConverter::Convert(pString, (nValType & ~CIM_FLAG_ARRAY), pVec);
if (ERR_NOERROR != uRes)
return NULL;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}break;
case CIM_CHAR16|CIM_FLAG_ARRAY:
{
CVarVector *pVec = GetVT_I2Array(pString);
if (!pVec)
return 0;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}
break;
case CIM_REAL32|CIM_FLAG_ARRAY:
{
CVarVector *pVec = GetVT_R4Array(pString);
if (!pVec)
return 0;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}
break;
case CIM_REAL64|CIM_FLAG_ARRAY:
{
CVarVector *pVec = GetVT_R8Array(pString);
if (!pVec)
return 0;
pRet = new CVar;
pRet->SetVarVector(pVec, TRUE);
}
break;
}
return pRet;
}
LPSTR ValueToNewString(CVar *pValue, int vt)
{
WString wsOut;
char buf[LARGE_BUF];
int nType = 0;
if(pValue->GetType() == VT_NULL)
{
nType = CIM_EMPTY;
}
else if(vt != 0)
{
nType = vt;
}
else if (pValue->GetType() == VT_EX_CVARVECTOR)
{
nType = pValue->GetVarVector()->GetType();
nType |= CIM_FLAG_ARRAY;
}
else
{
nType = pValue->GetType();
}
buf[0] = 0;
switch (nType)
{
case CIM_EMPTY:
sprintf(buf, "<null>");
break;
case CIM_OBJECT:
if(pValue->GetEmbeddedObject() != NULL)
sprintf(buf, "<embedded object>");
else
buf[0] = 0;
break;
case CIM_BOOLEAN:
{
VARIANT_BOOL b = pValue->GetBool();
if (!b)
sprintf(buf, "FALSE");
else
sprintf(buf, "TRUE");
}
break;
case CIM_UINT8:
{
BYTE b = pValue->GetByte();
sprintf(buf, "%d", (long)b);
}
break;
case CIM_SINT8:
{
signed char b = (signed char)pValue->GetByte();
sprintf(buf, "%d", (long)b);
}
break;
case CIM_SINT16:
case CIM_CHAR16:
{
SHORT i = pValue->GetShort();
sprintf(buf, "%d (0x%04hx)", i, i);
}
break;
case CIM_UINT16:
{
USHORT i = (USHORT)pValue->GetShort();
sprintf(buf, "%d (0x%X)", (long)i, (long)i);
}
break;
case CIM_SINT32:
{
LONG l = pValue->GetLong();
sprintf(buf, "%d (0x%X)", l, l);
}
break;
case CIM_UINT32:
{
ULONG l = (ULONG)pValue->GetLong();
sprintf(buf, "%lu (0x%X)", l, l);
}
break;
case CIM_REAL32:
{
float f = pValue->GetFloat();
sprintf(buf, "%G", f);
}
break;
case CIM_REAL64:
{
double d = pValue->GetDouble();
sprintf(buf, "%G", d);
}
break;
case CIM_SINT64:
case CIM_UINT64:
case CIM_STRING:
case CIM_DATETIME:
case CIM_REFERENCE:
{
LPWSTR pWStr = pValue->GetLPWSTR();
wsOut += pWStr;
*buf = 0;
}
break;
case CIM_SINT64|CIM_FLAG_ARRAY:
case CIM_UINT64|CIM_FLAG_ARRAY:
case CIM_STRING|CIM_FLAG_ARRAY:
case CIM_DATETIME|CIM_FLAG_ARRAY:
case CIM_REFERENCE|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
LPWSTR pTmp = v.GetLPWSTR();
wsOut += L"\"";
LPWSTR pTmp2 = new WCHAR[ lstrlenW(pTmp)+1000 ];
int nIdx = 0;
// Add '\' before any "'s or '\'s
// ==============================
while(*pTmp) {
if(*pTmp == '\"' || *pTmp == '\\') {
pTmp2[nIdx++] = '\\';
}
pTmp2[nIdx++] = *pTmp++;
}
pTmp2[nIdx] = 0;
wsOut += pTmp2;
wsOut += L"\"";
bFirst = FALSE;
delete[] pTmp2;
}
*buf = 0;
}
break;
case CIM_UINT8|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
BYTE b = v.GetByte();
wchar_t buf2[128];
swprintf(buf2, L"%d", (long)b);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_SINT8|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
signed char b = (signed char)v.GetByte();
wchar_t buf2[128];
swprintf(buf2, L"%d", (long)b);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_BOOLEAN|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
VARIANT_BOOL b = v.GetBool();
if (b)
wsOut += L"TRUE";
else
wsOut += L"FALSE";
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_SINT16|CIM_FLAG_ARRAY:
case CIM_CHAR16|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
SHORT Tmp = v.GetShort();
wchar_t buf2[128];
swprintf(buf2, L"%ld", (long)Tmp);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_UINT16|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
USHORT Tmp = (USHORT)v.GetShort();
wchar_t buf2[128];
swprintf(buf2, L"%ld", (long)Tmp);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_SINT32|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
LONG Tmp = v.GetLong();
wchar_t buf2[128];
swprintf(buf2, L"%d", Tmp);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_UINT32|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
ULONG Tmp = (ULONG)v.GetLong();
wchar_t buf2[128];
swprintf(buf2, L"%lu", Tmp);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_REAL32|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
double d = v.GetFloat();
wchar_t buf2[128];
swprintf(buf2, L"%G", d);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_REAL64|CIM_FLAG_ARRAY:
{
CVarVector *pVec = pValue->GetVarVector();
BOOL bFirst = TRUE;
for (int i = 0; i < pVec->Size(); i++)
{
if (!bFirst)
wsOut += L",";
CVar v;
pVec->FillCVarAt( i, v );
double d = v.GetDouble();
wchar_t buf2[128];
swprintf(buf2, L"%G", d);
wsOut += buf2;
bFirst = FALSE;
}
*buf = 0;
}
break;
case CIM_OBJECT|CIM_FLAG_ARRAY:
if(pValue->GetVarVector() != NULL)
sprintf(buf, "<array of embedded objects>");
else
buf[0] = 0;
break;
default:
sprintf(buf, "<error>");
}
wsOut += WString(buf);
return wsOut.GetLPSTR();
}
void StripTrailingWs(LPSTR pVal)
{
if (!pVal || strlen(pVal) == 0)
return;
for (int i = strlen(pVal) - 1; i >= 0; i--)
if (isspace(pVal[i])) pVal[i] = 0;
else break;
}
void StripTrailingWs(LPWSTR pVal)
{
if (!pVal || wcslen(pVal) == 0)
return;
for (int i = wcslen(pVal) - 1; i >= 0; i--)
if (iswspace(pVal[i])) pVal[i] = 0;
else break;
}