Leaked source code of windows server 2003
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/*** unasm.c - Unassemble AML back to ASL
*
* Copyright (c) 1996,1998 Microsoft Corporation
* Author: Michael Tsang (MikeTs)
* Created: 10/01/97
*
* MODIFICATION HISTORY
*/
#include "pch.h"
//Local function prototype
VOID LOCAL Indent(PUCHAR pbOp, int iLevel);
UCHAR LOCAL FindOpClass(UCHAR bOp, POPMAP pOpTable);
PASLTERM LOCAL FindOpTerm(ULONG dwOpcode);
PASLTERM LOCAL FindKeywordTerm(char cKWGroup, UCHAR bData);
LONG LOCAL UnAsmOpcode(PUCHAR *ppbOp);
LONG LOCAL UnAsmDataObj(PUCHAR *ppbOp);
LONG LOCAL UnAsmNameObj(PUCHAR *ppbOp, PNSOBJ pns, char c);
LONG LOCAL UnAsmNameTail(PUCHAR *ppbOp, PSZ pszBuff, int iLen);
LONG LOCAL UnAsmTermObj(PASLTERM pterm, PUCHAR *ppbOp);
LONG LOCAL UnAsmArgs(PSZ pszUnAsmArgTypes, PSZ pszArgActions, PUCHAR *ppbOp,
PNSOBJ pns);
LONG LOCAL UnAsmSuperName(PUCHAR *ppbOp);
LONG LOCAL UnAsmDataList(PUCHAR *ppbOp, PUCHAR pbEnd);
LONG LOCAL UnAsmPkgList(PUCHAR *ppbOp, PUCHAR pbEnd);
LONG LOCAL UnAsmFieldList(PUCHAR *ppbOp, PUCHAR pbEnd);
LONG LOCAL UnAsmField(PUCHAR *ppbOp, PULONG pdwBitPos);
/***LP UnAsmScope - Unassemble a scope
*
* ENTRY
* ppbOp -> Current Opcode pointer
* pbEnd -> end of scope
* uipbOp - Op address
* pnsScope - Scope object
* iLevel - level of indentation
* icLines - 1: unasm one line; 0: unasm all; -1: internal
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmScope(PUCHAR *ppbOp, PUCHAR pbEnd, ULONG_PTR uipbOp,
PNSOBJ pnsScope, int iLevel, int icLines)
{
LONG rc = UNASMERR_NONE;
int icLinesLeft = icLines;
if (uipbOp != 0)
{
guipbOpXlate = uipbOp - (ULONG_PTR)(*ppbOp);
}
if (pnsScope != NULL)
{
gpnsCurUnAsmScope = pnsScope;
}
if (iLevel != -1)
{
giLevel = iLevel;
}
if (icLines < 0)
{
Indent(*ppbOp, giLevel);
PRINTF("{");
giLevel++;
}
else if (icLines == 0)
{
icLinesLeft = -1;
}
while (*ppbOp < pbEnd)
{
Indent(*ppbOp, giLevel);
if ((rc = UnAsmOpcode(ppbOp)) == UNASMERR_NONE)
{
if (icLinesLeft < 0)
{
continue;
}
if (--icLinesLeft == 0)
{
break;
}
}
else
{
break;
}
}
if ((rc == UNASMERR_NONE) && (icLines < 0))
{
giLevel--;
Indent(*ppbOp, giLevel);
PRINTF("}");
}
return rc;
} //UnAsmScope
/***LP Indent - Print indent level
*
* ENTRY
* pbOp -> opcode
* iLevel - indent level
*
* EXIT
* None
*/
VOID LOCAL Indent(PUCHAR pbOp, int iLevel)
{
int i;
PRINTF("\n%08x: ", pbOp + guipbOpXlate);
for (i = 0; i < iLevel; ++i)
{
PRINTF("| ");
}
} //Indent
/***LP FindOpClass - Find opcode class of extended opcode
*
* ENTRY
* bOp - opcode
* pOpTable -> opcode table
*
* EXIT-SUCCESS
* returns opcode class
* EXIT-FAILURE
* returns OPCLASS_INVALID
*/
UCHAR LOCAL FindOpClass(UCHAR bOp, POPMAP pOpTable)
{
UCHAR bOpClass = OPCLASS_INVALID;
while (pOpTable->bOpClass != 0)
{
if (bOp == pOpTable->bExOp)
{
bOpClass = pOpTable->bOpClass;
break;
}
else
{
pOpTable++;
}
}
return bOpClass;
} //FindOpClass
/***LP FindOpTerm - Find opcode in TermTable
*
* ENTRY
* dwOpcode - opcode
*
* EXIT-SUCCESS
* returns TermTable entry pointer
* EXIT-FAILURE
* returns NULL
*/
PASLTERM LOCAL FindOpTerm(ULONG dwOpcode)
{
PASLTERM pterm = NULL;
int i;
for (i = 0; TermTable[i].pszID != NULL; ++i)
{
if ((TermTable[i].dwOpcode == dwOpcode) &&
(TermTable[i].dwfTermClass &
(UTC_CONST_NAME | UTC_SHORT_NAME | UTC_NAMESPACE_MODIFIER |
UTC_DATA_OBJECT | UTC_NAMED_OBJECT | UTC_OPCODE_TYPE1 |
UTC_OPCODE_TYPE2)))
{
break;
}
}
if (TermTable[i].pszID != NULL)
{
pterm = &TermTable[i];
}
return pterm;
} //FindOpTerm
/***LP FindKeywordTerm - Find keyword in TermTable
*
* ENTRY
* cKWGroup - keyword group
* bData - data to match keyword
*
* EXIT-SUCCESS
* returns TermTable entry pointer
* EXIT-FAILURE
* returns NULL
*/
PASLTERM LOCAL FindKeywordTerm(char cKWGroup, UCHAR bData)
{
PASLTERM pterm = NULL;
int i;
for (i = 0; TermTable[i].pszID != NULL; ++i)
{
if ((TermTable[i].dwfTermClass == UTC_KEYWORD) &&
(TermTable[i].pszArgActions[0] == cKWGroup) &&
((bData & (UCHAR)(TermTable[i].dwTermData >> 8)) ==
(UCHAR)(TermTable[i].dwTermData & 0xff)))
{
break;
}
}
if (TermTable[i].pszID != NULL)
{
pterm = &TermTable[i];
}
return pterm;
} //FindKeywordTerm
/***LP UnAsmOpcode - Unassemble an Opcode
*
* ENTRY
* ppbOp -> Opcode pointer
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmOpcode(PUCHAR *ppbOp)
{
LONG rc = UNASMERR_NONE;
ULONG dwOpcode;
UCHAR bOp;
PASLTERM pterm;
char szUnAsmArgTypes[MAX_ARGS + 1];
int i;
if (**ppbOp == OP_EXT_PREFIX)
{
(*ppbOp)++;
dwOpcode = (((ULONG)**ppbOp) << 8) | OP_EXT_PREFIX;
bOp = FindOpClass(**ppbOp, ExOpClassTable);
}
else
{
dwOpcode = (ULONG)(**ppbOp);
bOp = OpClassTable[**ppbOp];
}
switch (bOp)
{
case OPCLASS_DATA_OBJ:
rc = UnAsmDataObj(ppbOp);
break;
case OPCLASS_NAME_OBJ:
{
NSOBJ NSObj = {0};
if (((rc = UnAsmNameObj(ppbOp, &NSObj, NSTYPE_UNKNOWN)) ==
UNASMERR_NONE) &&
(NSObj.ObjData.dwDataType == OBJTYPE_METHOD))
{
PMETHODOBJ pm = (PMETHODOBJ)GetObjBuff(&NSObj.ObjData);
int iNumArgs;
if (pm != NULL)
{
iNumArgs = pm->bMethodFlags & METHOD_NUMARG_MASK;
for (i = 0; i < iNumArgs; ++i)
{
szUnAsmArgTypes[i] = 'C';
}
szUnAsmArgTypes[i] = '\0';
rc = UnAsmArgs(szUnAsmArgTypes, NULL, ppbOp, NULL);
LocalFree(pm);
}
}
break;
}
case OPCLASS_ARG_OBJ:
case OPCLASS_LOCAL_OBJ:
case OPCLASS_CODE_OBJ:
case OPCLASS_CONST_OBJ:
if ((pterm = FindOpTerm(dwOpcode)) == NULL)
{
DBG_ERROR(("UnAsmOpcode: invalid opcode 0x%x", dwOpcode));
rc = UNASMERR_FATAL;
}
else
{
(*ppbOp)++;
rc = UnAsmTermObj(pterm, ppbOp);
}
break;
default:
DBG_ERROR(("UnAsmOpcode: invalid opcode class %d", bOp));
rc = UNASMERR_FATAL;
}
return rc;
} //UnAsmOpcode
/***LP UnAsmDataObj - Unassemble data object
*
* ENTRY
* ppbOp -> opcode pointer
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmDataObj(PUCHAR *ppbOp)
{
LONG rc = UNASMERR_NONE;
UCHAR bOp = **ppbOp;
PSZ psz;
(*ppbOp)++;
switch (bOp)
{
case OP_BYTE:
PRINTF("0x%x", **ppbOp);
*ppbOp += sizeof(UCHAR);
break;
case OP_WORD:
PRINTF("0x%x", *((PUSHORT)*ppbOp));
*ppbOp += sizeof(USHORT);
break;
case OP_DWORD:
PRINTF("0x%x", *((PULONG)*ppbOp));
*ppbOp += sizeof(ULONG);
break;
case OP_STRING:
PRINTF("\"");
for (psz = (PSZ)*ppbOp; *psz != '\0'; psz++)
{
if (*psz == '\\')
{
PRINTF("\\");
}
PRINTF("%c", *psz);
}
PRINTF("\"");
*ppbOp += STRLEN((PSZ)*ppbOp) + 1;
break;
default:
DBG_ERROR(("UnAsmDataObj: unexpected opcode 0x%x", bOp));
rc = UNASMERR_INVALID_OPCODE;
}
return rc;
} //UnAsmDataObj
/***LP UnAsmNameObj - Unassemble name object
*
* ENTRY
* ppbOp -> opcode pointer
* pns -> to hold object found or created
* c - object type
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmNameObj(PUCHAR *ppbOp, PNSOBJ pns, char c)
{
LONG rc = UNASMERR_NONE;
char szName[MAX_NAME_LEN + 1];
int iLen = 0;
szName[0] = '\0';
if (**ppbOp == OP_ROOT_PREFIX)
{
szName[iLen] = '\\';
iLen++;
(*ppbOp)++;
rc = UnAsmNameTail(ppbOp, szName, iLen);
}
else if (**ppbOp == OP_PARENT_PREFIX)
{
szName[iLen] = '^';
iLen++;
(*ppbOp)++;
while ((**ppbOp == OP_PARENT_PREFIX) && (iLen < MAX_NAME_LEN))
{
szName[iLen] = '^';
iLen++;
(*ppbOp)++;
}
if (**ppbOp == OP_PARENT_PREFIX)
{
DBG_ERROR(("UnAsmNameObj: name too long - \"%s\"", szName));
rc = UNASMERR_FATAL;
}
else
{
rc = UnAsmNameTail(ppbOp, szName, iLen);
}
}
else
{
rc = UnAsmNameTail(ppbOp, szName, iLen);
}
if (rc == UNASMERR_NONE)
{
ULONG_PTR uipns = 0;
NSOBJ NSObj;
PRINTF("%s", szName);
rc = GetNSObj(szName, gpnsCurUnAsmScope, &uipns, &NSObj, 0);
if (rc == UNASMERR_NONE)
{
if (pns != NULL)
{
MEMCPY(pns, &NSObj, sizeof(NSObj));
}
if ((c == NSTYPE_SCOPE) && (uipns != 0))
{
gpnsCurUnAsmScope = pns;
}
}
else
{
rc = UNASMERR_NONE;
}
}
return rc;
} //UnAsmNameObj
/***LP UnAsmNameTail - Parse AML name tail
*
* ENTRY
* ppbOp -> opcode pointer
* pszBuff -> to hold parsed name
* iLen - index to tail of pszBuff
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmNameTail(PUCHAR *ppbOp, PSZ pszBuff, int iLen)
{
LONG rc = UNASMERR_NONE;
int icNameSegs = 0;
//
// We do not check for invalid NameSeg characters here and assume that
// the compiler does its job not generating it.
//
if (**ppbOp == '\0')
{
//
// There is no NameTail (i.e. either NULL name or name with just
// prefixes.
//
(*ppbOp)++;
}
else if (**ppbOp == OP_MULTI_NAME_PREFIX)
{
(*ppbOp)++;
icNameSegs = (int)**ppbOp;
(*ppbOp)++;
}
else if (**ppbOp == OP_DUAL_NAME_PREFIX)
{
(*ppbOp)++;
icNameSegs = 2;
}
else
icNameSegs = 1;
while ((icNameSegs > 0) && (iLen + sizeof(NAMESEG) < MAX_NAME_LEN))
{
STRCPYN(&pszBuff[iLen], (PSZ)(*ppbOp), sizeof(NAMESEG));
iLen += sizeof(NAMESEG);
*ppbOp += sizeof(NAMESEG);
icNameSegs--;
if ((icNameSegs > 0) && (iLen + 1 < MAX_NAME_LEN))
{
pszBuff[iLen] = '.';
iLen++;
}
}
if (icNameSegs > 0)
{
DBG_ERROR(("UnAsmNameTail: name too long - %s", pszBuff));
rc = UNASMERR_FATAL;
}
else
{
pszBuff[iLen] = '\0';
}
return rc;
} //UnAsmNameTail
/***LP UnAsmTermObj - Unassemble term object
*
* ENTRY
* pterm -> term table entry
* ppbOp -> opcode pointer
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmTermObj(PASLTERM pterm, PUCHAR *ppbOp)
{
LONG rc = UNASMERR_NONE;
PUCHAR pbEnd = NULL;
PNSOBJ pnsScopeSave = gpnsCurUnAsmScope;
NSOBJ NSObj = {0};
PRINTF("%s", pterm->pszID);
if (pterm->dwfTerm & TF_PACKAGE_LEN)
{
ParsePackageLen(ppbOp, &pbEnd);
}
if (pterm->pszUnAsmArgTypes != NULL)
{
rc = UnAsmArgs(pterm->pszUnAsmArgTypes, pterm->pszArgActions, ppbOp,
&NSObj);
}
if (rc == UNASMERR_NONE)
{
if (pterm->dwfTerm & TF_DATA_LIST)
{
rc = UnAsmDataList(ppbOp, pbEnd);
}
else if (pterm->dwfTerm & TF_PACKAGE_LIST)
{
rc = UnAsmPkgList(ppbOp, pbEnd);
}
else if (pterm->dwfTerm & TF_FIELD_LIST)
{
rc = UnAsmFieldList(ppbOp, pbEnd);
}
else if (pterm->dwfTerm & TF_PACKAGE_LEN)
{
if ((pterm->dwfTerm & TF_CHANGE_CHILDSCOPE) &&
(NSObj.ObjData.dwDataType != 0))
{
gpnsCurUnAsmScope = &NSObj;
}
rc = UnAsmScope(ppbOp, pbEnd, 0, NULL, -1, -1);
}
}
gpnsCurUnAsmScope = pnsScopeSave;
return rc;
} //UnAsmTermObj
/***LP UnAsmArgs - Unassemble arguments
*
* ENTRY
* pszUnArgTypes -> UnAsm ArgTypes string
* pszArgActions -> Arg Action types
* ppbOp -> opcode pointer
* pns -> to hold created object
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmArgs(PSZ pszUnAsmArgTypes, PSZ pszArgActions, PUCHAR *ppbOp,
PNSOBJ pns)
{
LONG rc = UNASMERR_NONE;
static UCHAR bArgData = 0;
int iNumArgs, i;
PASLTERM pterm;
iNumArgs = STRLEN(pszUnAsmArgTypes);
PRINTF("(");
for (i = 0; i < iNumArgs; ++i)
{
if (i != 0)
{
PRINTF(", ");
}
switch (pszUnAsmArgTypes[i])
{
case 'N':
ASSERT(pszArgActions != NULL);
rc = UnAsmNameObj(ppbOp, pns, pszArgActions[i]);
break;
case 'O':
if ((**ppbOp == OP_BUFFER) || (**ppbOp == OP_PACKAGE) ||
(OpClassTable[**ppbOp] == OPCLASS_CONST_OBJ))
{
pterm = FindOpTerm((ULONG)(**ppbOp));
ASSERT(pterm != NULL);
(*ppbOp)++;
rc = UnAsmTermObj(pterm, ppbOp);
}
else
{
rc = UnAsmDataObj(ppbOp);
}
break;
case 'C':
rc = UnAsmOpcode(ppbOp);
break;
case 'B':
PRINTF("0x%x", **ppbOp);
*ppbOp += sizeof(UCHAR);
break;
case 'K':
case 'k':
if (pszUnAsmArgTypes[i] == 'K')
{
bArgData = **ppbOp;
}
if ((pszArgActions != NULL) && (pszArgActions[i] == '!'))
{
PRINTF("0x%x", **ppbOp & 0x07);
}
else
{
pterm = FindKeywordTerm(pszArgActions[i], bArgData);
ASSERT(pterm != NULL);
PRINTF("%s", pterm->pszID);
}
if (pszUnAsmArgTypes[i] == 'K')
{
*ppbOp += sizeof(UCHAR);
}
break;
case 'W':
PRINTF("0x%x", *((PUSHORT)*ppbOp));
*ppbOp += sizeof(USHORT);
break;
case 'D':
PRINTF("0x%x", *((PULONG)*ppbOp));
*ppbOp += sizeof(ULONG);
break;
case 'S':
ASSERT(pszArgActions != NULL);
rc = UnAsmSuperName(ppbOp);
break;
default:
DBG_ERROR(("UnAsmOpcode: invalid ArgType '%c'",
pszUnAsmArgTypes[i]));
rc = UNASMERR_FATAL;
}
}
PRINTF(")");
return rc;
} //UnAsmArgs
/***LP UnAsmSuperName - Unassemble supername
*
* ENTRY
* ppbOp -> opcode pointer
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmSuperName(PUCHAR *ppbOp)
{
LONG rc = UNASMERR_NONE;
if (**ppbOp == 0)
{
(*ppbOp)++;
}
else if ((**ppbOp == OP_EXT_PREFIX) && (*(*ppbOp + 1) == EXOP_DEBUG))
{
PRINTF("Debug");
*ppbOp += 2;
}
else if (OpClassTable[**ppbOp] == OPCLASS_NAME_OBJ)
{
rc = UnAsmNameObj(ppbOp, NULL, NSTYPE_UNKNOWN);
}
else if ((**ppbOp == OP_INDEX) ||
(OpClassTable[**ppbOp] == OPCLASS_ARG_OBJ) ||
(OpClassTable[**ppbOp] == OPCLASS_LOCAL_OBJ))
{
rc = UnAsmOpcode(ppbOp);
}
else
{
DBG_ERROR(("UnAsmSuperName: invalid SuperName - 0x%02x", **ppbOp));
rc = UNASMERR_FATAL;
}
return rc;
} //UnAsmSuperName
/***LP UnAsmDataList - Unassemble data list
*
* ENTRY
* ppbOp -> opcode pointer
* pbEnd -> end of list
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmDataList(PUCHAR *ppbOp, PUCHAR pbEnd)
{
LONG rc = UNASMERR_NONE;
int i;
Indent(*ppbOp, giLevel);
PRINTF("{");
while (*ppbOp < pbEnd)
{
Indent(*ppbOp, 0);
PRINTF("0x%02x", **ppbOp);
(*ppbOp)++;
for (i = 1; (*ppbOp < pbEnd) && (i < 8); ++i)
{
PRINTF(", 0x%02x", **ppbOp);
(*ppbOp)++;
}
if (*ppbOp < pbEnd)
{
PRINTF(",");
}
}
Indent(*ppbOp, giLevel);
PRINTF("}");
return rc;
} //UnAsmDataList
/***LP UnAsmPkgList - Unassemble package list
*
* ENTRY
* ppbOp -> opcode pointer
* pbEnd -> end of list
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmPkgList(PUCHAR *ppbOp, PUCHAR pbEnd)
{
LONG rc = UNASMERR_NONE;
PASLTERM pterm;
Indent(*ppbOp, giLevel);
PRINTF("{");
giLevel++;
while (*ppbOp < pbEnd)
{
Indent(*ppbOp, giLevel);
if ((**ppbOp == OP_BUFFER) || (**ppbOp == OP_PACKAGE) ||
(OpClassTable[**ppbOp] == OPCLASS_CONST_OBJ))
{
pterm = FindOpTerm((ULONG)(**ppbOp));
ASSERT(pterm != NULL);
(*ppbOp)++;
rc = UnAsmTermObj(pterm, ppbOp);
}
else if (OpClassTable[**ppbOp] == OPCLASS_NAME_OBJ)
{
rc = UnAsmNameObj(ppbOp, NULL, NSTYPE_UNKNOWN);
}
else
{
rc = UnAsmDataObj(ppbOp);
}
if (rc != UNASMERR_NONE)
{
break;
}
else if (*ppbOp < pbEnd)
{
PRINTF(",");
}
}
if (rc == UNASMERR_NONE)
{
giLevel--;
Indent(*ppbOp, giLevel);
PRINTF("}");
}
return rc;
} //UnAsmPkgList
/***LP UnAsmFieldList - Unassemble field list
*
* ENTRY
* ppbOp -> opcode pointer
* pbEnd -> end of list
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmFieldList(PUCHAR *ppbOp, PUCHAR pbEnd)
{
LONG rc = UNASMERR_NONE;
ULONG dwBitPos = 0;
Indent(*ppbOp, giLevel);
PRINTF("{");
giLevel++;
while (*ppbOp < pbEnd)
{
Indent(*ppbOp, giLevel);
if ((rc = UnAsmField(ppbOp, &dwBitPos)) == UNASMERR_NONE)
{
if (*ppbOp < pbEnd)
{
PRINTF(",");
}
}
else
{
break;
}
}
if (rc == UNASMERR_NONE)
{
giLevel--;
Indent(*ppbOp, giLevel);
PRINTF("}");
}
return rc;
} //UnAsmFieldList
/***LP UnAsmField - Unassemble field
*
* ENTRY
* ppbOp -> opcode pointer
* pdwBitPos -> to hold cumulative bit position
*
* EXIT-SUCCESS
* returns UNASMERR_NONE
* EXIT-FAILURE
* returns negative error code
*/
LONG LOCAL UnAsmField(PUCHAR *ppbOp, PULONG pdwBitPos)
{
LONG rc = UNASMERR_NONE;
if (**ppbOp == 0x01)
{
PASLTERM pterm = NULL;
(*ppbOp)++;
pterm = FindKeywordTerm('A', **ppbOp);
if (pterm != NULL) {
PRINTF("AccessAs(%s, 0x%x)", pterm->pszID, *(*ppbOp + 1));
}
*ppbOp += 2;
}
else
{
char szNameSeg[sizeof(NAMESEG) + 1];
ULONG dwcbBits;
if (**ppbOp == 0)
{
szNameSeg[0] = '\0';
(*ppbOp)++;
}
else
{
STRCPYN(szNameSeg, (PSZ)*ppbOp, sizeof(NAMESEG));
szNameSeg[4] = '\0';
*ppbOp += sizeof(NAMESEG);
}
dwcbBits = ParsePackageLen(ppbOp, NULL);
if (szNameSeg[0] == '\0')
{
if ((dwcbBits > 32) && (((*pdwBitPos + dwcbBits) % 8) == 0))
{
PRINTF("Offset(0x%x)", (*pdwBitPos + dwcbBits)/8);
}
else
{
PRINTF(", %d", dwcbBits);
}
}
else
{
PRINTF("%s, %d", szNameSeg, dwcbBits);
}
*pdwBitPos += dwcbBits;
}
return rc;
} //UnAsmField