Leaked source code of windows server 2003
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404 lines
8.7 KiB

/* asmtab.c -- microsoft 80x86 assembler
**
** microsoft (r) macro assembler
** copyright (c) microsoft corp 1986. all rights reserved
**
** randy nevin
**
** 10/90 - Quick conversion to 32 bit by Jeff Spencer
*/
#include <stdio.h>
#include <string.h>
#include "asm86.h"
#include "asmfcn.h"
#include "asmopcod.h"
#include "asmctype.h"
#include "asmtab.h" /* common between asmtab.c and asmtabtb.c */
extern struct pseudo FAR dir1tok[];
extern struct pseudo FAR dir2tok[];
extern struct opcentry FAR opctab[];
extern UCHAR opprec[];
extern KEYWORDS FAR t_siz_table;
extern KEYWORDS FAR t_op_table;
extern KEYWORDS FAR t_oc_table;
extern KEYWORDS FAR t_seg_table;
extern KEYWORDS FAR t_ps1_table;
extern KEYWORDS FAR t_ps2_table;
/*** fnsize - return size of operand
*
* flag = fnsize ();
*
* Entry naim = token to search for
* Exit varsize = size of symbol
* Returns TRUE if symbol found in size table
* FALSE if symbol not found in size table
* Calls none
* Note 8/1/88 - MCH - Modified to perform text macro substitution.
* This is a complete hack. iskey() is hardcoded to lookup
* the string in naim, while symFet() sets symptr to the
* symbol following the text macro expansion. Thus, lots of
* contortions are necessary to get these routines to mesh.
*/
/* size table */
USHORT dirsize[] = {
/* I_BYTE */ 1,
/* I_DWORD */ 4,
/* I_FAR */ CSFAR,
/* I_NEAR */ CSNEAR,
/* I_QWORD */ 8,
/* I_TBYTE */ 10,
/* I_WORD */ 2,
/* I_FWORD */ 6,
/* I_PROC */ CSNEAR
};
SHORT PASCAL CODESIZE
fnsize ()
{
#ifdef FEATURE
register USHORT v;
if (*naim.pszName && ((v = iskey (&t_siz_table)) != NOTFOUND)) {
varsize = dirsize[v];
return (TRUE);
}
return (FALSE);
#else
register USHORT v;
SYMBOL FARSYM * pSYsave;
char * savelbufp, * savebegatom, * saveendatom;
char szname[SYMMAX+1];
FASTNAME saveInfo;
char szSave[SYMMAX+1];
if (*naim.pszName) {
pSYsave = symptr;
savelbufp = lbufp;
savebegatom = begatom;
saveendatom = endatom;
memcpy (&saveInfo, &naim, sizeof( FASTNAME ) );
memcpy (szSave, naim.pszName, SYMMAX + 1);
if (symFet()) {
STRNFCPY (szname, symptr->nampnt->id);
lbufp = szname;
getatom();
}
symptr = pSYsave;
lbufp = savelbufp;
begatom = savebegatom;
endatom = saveendatom;
if (*naim.pszName && ((v = iskey (&t_siz_table)) != NOTFOUND)) {
varsize = dirsize[v];
return (TRUE);
}
memcpy (naim.pszName, szSave, SYMMAX + 1);
memcpy (&naim, &saveInfo, sizeof( FASTNAME ) );
}
return (FALSE);
#endif
}
/*** fnPtr - find a type to a pointer or size and return a CV type
*
* flag = fnPtr (ptrSize)
*
* Entry token = token to search for
* Exit CV - type
*/
SHORT PASCAL CODESIZE
fnPtr (
SHORT sizePtr
){
SYMBOL FARSYM *pSYtype, FARSYM *pT, FARSYM *pSY;
SHORT fFarPtr;
fFarPtr = sizePtr > wordsize;
if (fnsize() || *naim.pszName == 0)
return (typeFet(varsize) |
makeType(0, ((fFarPtr)? BT_FARP: BT_NEARP), 0));
pT = symptr;
if (symsrch()) {
pSY = symptr; /* restore old symptr */
symptr = pT;
if (pSY->symkind == STRUC) {
if (fFarPtr) {
if (pSY->symu.rsmsym.rsmtype.rsmstruc.typePtrFar)
return(pSY->symu.rsmsym.rsmtype.rsmstruc.typePtrFar);
}
else if (pSY->symu.rsmsym.rsmtype.rsmstruc.typePtrNear)
return(pSY->symu.rsmsym.rsmtype.rsmstruc.typePtrNear);
/* Neither derived type is allocated, so make an allocation */
pSYtype = (SYMBOL FARSYM *)falloc((SHORT)( &(((SYMBOL FARSYM *)0)->symu) ), "fnPtr" );
if (pStrucCur)
pStrucCur->alpha = pSYtype;
else
pStrucFirst = pSYtype;
pStrucCur = pSYtype;
pSYtype->attr = (unsigned char)fFarPtr;
pSYtype->symkind = 0;
pSYtype->alpha = 0;
pSYtype->symtype = pSY->symu.rsmsym.rsmtype.rsmstruc.type;
if (fFarPtr)
pSY->symu.rsmsym.rsmtype.rsmstruc.typePtrFar = typeIndex;
else
pSY->symu.rsmsym.rsmtype.rsmstruc.typePtrNear = typeIndex;
return(typeIndex++);
}
}
return (FALSE);
}
/*** fnoper - search for operator
*
* flag = fnoper (token, type, prec);
*
* Entry token = token to search for
* Exit opertype = type of operator
* operprec = precedence of operator
* Returns TRUE if token is an operator
* FALSE if token is not an operator
* Calls none
*/
SHORT PASCAL CODESIZE
fnoper ()
{
register USHORT v;
if (*naim.pszName && ((v = iskey (&t_op_table)) != NOTFOUND)) {
opertype = (char)v;
operprec = opprec[v];
return (TRUE);
}
return (FALSE);
}
/*** opcodesearch - search for opcode
*
* flag = opcodesearch ();
*
* Entry *naim.pszName = token to search for
* cputype = cpu type (8086, 186, 286)
* Exit opcbase = opcode base value
* opctype = type of opcode
* modrm = modrm value
* Returns TRUE if token is an opcode
* FALSE if token is not an opcode
* Calls none
*/
char PASCAL CODESIZE
opcodesearch ()
{
register USHORT v;
struct opcentry FAR *opc;
UCHAR cputypeandprot;
UCHAR opctabmask;
int workaround;
if (*naim.pszName && ((v = iskey (&t_oc_table)) != NOTFOUND)) {
cputypeandprot = cputype & PROT;
opctabmask = opctab[v].cpumask&PROT;
workaround = cputypeandprot >= opctabmask ? 1 : 0;
if (((cpu = (opc = &(opctab[v]))->cpumask) & cputype) &&
workaround) {
opcbase = opc->opcb;
modrm = opc->mr;
opctype = opc->opct;
if (crefing) {
fSecondArg = FALSE;
switch (opctype) {
case PJUMP:
case PRELJMP:
case PCALL:
opcref = REF_XFER << 4 | REF_NONE;
break;
default:
v = opc->cpumask;
opcref = (char)((v&F_W)? REF_WRITE << 4: REF_READ << 4);
opcref |= (v&S_W)? REF_WRITE: REF_READ;
}
}
return (TRUE);
}
}
return (FALSE);
}
/*** fnspar - return token index and type from table.
*
* flag = fnspar ();
*
* Entry naim = token to search for
* Exit segtyp = type of segment
* segidx = index of token in table
* Returns TRUE if symbol found in size table
* FALSE if symbol not found in size table
* Calls iskey
*
* I spent several hours trying to debug through the silly
* redundant level of indirection, so I removed it for the
* index. this changes all the token numbers by 1, so they
* are consistent. see accompanying change in asmdir:segalign
* -Hans Apr 8 1986
*/
SHORT PASCAL CODESIZE
fnspar ()
{
register USHORT v;
/* Must match IS_... in asmindex.h under "segment attributes.
These values are the segment types put in the segdef OMF */
static char tokseg[] = {
/* IS_AT */ 0,
/* IS_BYTE */ 1,
/* IS_COMMON */ 6,
/* IS_MEMORY */ 1,
/* IS_PAGE */ 4,
/* IS_PARA */ 3,
/* IS_PUBLIC */ 2,
/* IS_STACK */ 5,
/* IS_WORD */ 2,
/* IS_DWORD */ 5,
/* IS_USE32 */ 0,
/* IS_USE16 */ 0,
};
if (*naim.pszName && ((v = iskey (&t_seg_table)) != NOTFOUND)) {
segtyp = tokseg[v];
segidx = v;
return (TRUE);
}
return (FALSE);
}
/*** fndir - return size of operand
*
* flag = fndir ();
*
* Entry naim = token to search for
* Exit opty = size of symbol
* opkind = kind of symbol
* Returns TRUE if symbol found in size table
* FALSE if symbol not found in size table
* Calls none
*/
SHORT PASCAL CODESIZE
fndir ()
{
register USHORT v;
if (*naim.pszName && ((v = iskey (&t_ps1_table)) != NOTFOUND)) {
optyp = dir1tok[v].type;
opkind = dir1tok[v].kind;
return (TRUE);
}
return (FALSE);
}
/*** fndir2 - return type of directive
*
* flag = fndir2 ();
* Entry naim = token to search for
* Exit opty = size of symbol
* opkind = kind of symbol
*
* Returns TRUE if symbol found in size table
* FALSE if symbol not found in size table
* Calls none
*/
SHORT PASCAL CODESIZE
fndir2 ()
{
register USHORT v;
if (*naim.pszName && ((v = iskey (&t_ps2_table)) != NOTFOUND)) {
optyp = dir2tok[v].type;
opkind = dir2tok[v].kind;
return (TRUE);
}
return (FALSE);
}
SHORT PASCAL CODESIZE
checkRes()
{
USHORT v;
xcreflag--;
if (fCheckRes &&
(((v = iskey (&t_oc_table)) != NOTFOUND &&
(opctab[v].cpumask & cputype)) ||
iskey (&t_ps1_table) != NOTFOUND ||
iskey (&t_ps2_table) != NOTFOUND ||
iskey (&t_op_table) != NOTFOUND ||
iskey (&t_siz_table) != NOTFOUND ||
/* iskey (&t_seg_table) != NOTFOUND || */
(symsearch() && symptr->symkind == REGISTER) ||
(naim.pszName[1] == 0 && (*naim.pszName == '$'||
*naim.pszName == '%' || *naim.pszName == '?')))){
errorn(E_RES);
xcreflag++;
return(TRUE);
}
xcreflag++;
return(FALSE);
}