Bochs/bochs/disasm/dis_groups.cc
Christophe Bothamy c4782d5e9c - apply patches/patch.disasm-luizshiguno from Luiz Henrique Shigunov.
From the author:

  I've implemented functions ALOb(), ObAL(), YbAL(),
  ALXb() and eAXXv() from dis_groups.cc.

  I've also changed dis_decode.cc to print cmpsd if code
  is 32 bits and cmpsw if code is 16 bits. The same with
  stosd, lodsd and scasd.
2003-01-21 13:23:47 +00:00

889 lines
16 KiB
C++

/////////////////////////////////////////////////////////////////////////
// $Id: dis_groups.cc,v 1.8 2003-01-21 13:23:47 cbothamy Exp $
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2001 MandrakeSoft S.A.
//
// MandrakeSoft S.A.
// 43, rue d'Aboukir
// 75002 Paris - France
// http://www.linux-mandrake.com/
// http://www.mandrakesoft.com/
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#include "bochs.h"
#if BX_DISASM
// Floating point stuff
void
bx_disassemble_c::ST_STi(void) {dis_sprintf("*** ST_STi() unfinished ***");}
void
bx_disassemble_c::STi_ST(void) {dis_sprintf("*** STi_ST() unfinished ***");}
void
bx_disassemble_c::STi(void) {dis_sprintf("*** STi() unfinished ***");}
// Debug, Test, and Control Register stuff
void
bx_disassemble_c::RdDd(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = fetch_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only reg32 operand is valid
if (mod != 0x3) {
dis_sprintf("Invalid Opcode");
}
else {
dis_sprintf("%s, DR%u", general_32bit_reg_name[rm], opcode);
}
}
void
bx_disassemble_c::DdRd(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = fetch_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only reg32 operand is valid
if (mod != 0x3) {
dis_sprintf("Invalid Opcode");
}
else {
dis_sprintf("DR%u, %s", opcode, general_32bit_reg_name[rm]);
}
}
void
bx_disassemble_c::RdCd(void)
{
Bit8u modrm;
modrm = fetch_byte();
if ( (modrm >> 6) != 3 ) {
dis_sprintf("Invalid Opcode");
}
else {
dis_sprintf("%s, CR%u",
general_32bit_reg_name[modrm&0x7],
(modrm>>3)&0x7
);
}
}
void
bx_disassemble_c::CdRd(void)
{
Bit8u modrm;
modrm = fetch_byte();
if ( (modrm >> 6) != 3 ) {
dis_sprintf("Invalid Opcode");
}
else {
dis_sprintf("CR%u, %s",
(modrm>>3)&0x7,
general_32bit_reg_name[modrm&0x7]
);
}
}
void
bx_disassemble_c::RdTd(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = fetch_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only reg32 operand is valid and tr3 or above
if (mod != 0x3 || opcode < 3) {
dis_sprintf("Invalid Opcode");
}
else {
dis_sprintf("TR%u, %s", opcode, general_32bit_reg_name[rm]);
}
}
void
bx_disassemble_c::TdRd(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = fetch_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only reg32 operand is valid and tr3 or above
if (mod != 0x3 || opcode < 3) {
dis_sprintf("Invalid Opcode");
}
else {
dis_sprintf("%s, TR%u", general_32bit_reg_name[rm], opcode);
}
}
void
bx_disassemble_c::Ms(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = peek_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only memory operand is valid
if (mod == 0x3) {
dis_sprintf("Invalid Opcode");
fetch_byte();
}
else {
decode_exgx(BX_NO_REG_TYPE, BX_NO_REG_TYPE);
}
}
void
bx_disassemble_c::Mp(void)
{
GvMp();
}
void
bx_disassemble_c::GvMa(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = peek_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only memory operand is valid
if (mod == 0x3) {
dis_sprintf("Invalid Opcode");
fetch_byte();
}
else {
if (db_32bit_opsize) {
decode_gxex(BX_GENERAL_32BIT_REG, BX_NO_REG_TYPE);
}
else {
decode_gxex(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
}
}
}
void
bx_disassemble_c::EwRw(void)
{
decode_exgx(BX_GENERAL_16BIT_REG, BX_GENERAL_16BIT_REG);
}
// Other un-implemented operand signatures
void
bx_disassemble_c::XBTS(void) {dis_sprintf("*** XBTS() unfinished ***");}
void
bx_disassemble_c::IBTS(void) {dis_sprintf("*** IBTS() unfinished ***");}
/*
void
bx_disassemble_c::YbDX(void) {dis_sprintf("*** YbDX() unfinished ***");}
void
bx_disassemble_c::YvDX(void) {dis_sprintf("*** YvDX() unfinished ***");}
void
bx_disassemble_c::DXXb(void) {dis_sprintf("*** DXXb() unfinished ***");}
void
bx_disassemble_c::DXXv(void) {dis_sprintf("*** DXXv() unfinished ***");}
*/
void
bx_disassemble_c::ALOb(void)
{
char *seg;
if (seg_override)
seg = seg_override;
else
seg = "DS";
if (db_32bit_addrsize) {
Bit32u imm32;
imm32 = fetch_dword();
dis_sprintf("AL, [%s:%08x]", seg, (unsigned) imm32);
}
else {
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("AL, [%s:%04x]", seg, (unsigned) imm16);
}
}
void
bx_disassemble_c::eAXOv(void)
{
char *seg;
if (seg_override)
seg = seg_override;
else
seg = "DS";
if (db_32bit_opsize) {
dis_sprintf("EAX, ");
}
else {
dis_sprintf("AX, ");
}
if (db_32bit_addrsize) {
Bit32u imm32;
imm32 = fetch_dword();
dis_sprintf("[%s:%08x]", seg, (unsigned) imm32);
}
else {
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("[%s:%04x]", seg, (unsigned) imm16);
}
}
void
bx_disassemble_c::OveAX(void)
{
char *seg;
if (seg_override)
seg = seg_override;
else
seg = "DS";
if (db_32bit_addrsize) {
Bit32u imm32;
imm32 = fetch_dword();
dis_sprintf("[%s:%08x], ", seg, (unsigned) imm32);
}
else {
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("[%s:%04x], ", seg, (unsigned) imm16);
}
if (db_32bit_opsize) {
dis_sprintf("EAX");
}
else {
dis_sprintf("AX");
}
}
void
bx_disassemble_c::XvYv(void)
{
char *esi, *edi;
char *seg;
if (seg_override)
seg = seg_override;
else
seg = "DS";
if (db_32bit_addrsize) {
esi = "ESI";
edi = "EDI";
}
else {
esi = "SI";
edi = "DI";
}
dis_sprintf("ES:[%s], %s:[%s]", edi, seg, esi);
}
void
bx_disassemble_c::ObAL(void)
{
char *seg;
if (seg_override)
seg = seg_override;
else
seg = "DS";
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
{
Bit32u imm32;
imm32 = fetch_dword();
dis_sprintf("[%s:%08x], AL", seg, imm32);
}
else
#endif /* BX_CPU_LEVEL > 2 */
{
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("[%s:%04x], AL", seg, imm16);
}
}
void
bx_disassemble_c::YbAL(void)
{
char *edi;
if (db_32bit_addrsize) {
edi = "EDI";
}
else {
edi = "DI";
}
dis_sprintf("ES:[%s], AL", edi);
}
void
bx_disassemble_c::ALXb(void)
{
char *esi;
if (db_32bit_addrsize) {
esi = "ESI";
}
else {
esi = "SI";
}
dis_sprintf("AL, [%s]", esi);
}
void
bx_disassemble_c::eAXXv(void)
{
char *eax, *esi;
if (db_32bit_opsize) {
eax = "EAX";
}
else {
eax = "AX";
}
if (db_32bit_addrsize) {
esi = "ESI";
}
else {
esi = "SI";
}
dis_sprintf("%s, [%s]", eax, esi);
}
void
bx_disassemble_c::Es(void) {dis_sprintf("*** Es() unfinished ***");}
void
bx_disassemble_c::Ea(void) {dis_sprintf("*** Ea() unfinished ***");}
void
bx_disassemble_c::Et(void) {dis_sprintf("*** Et() unfinished ***");}
void
bx_disassemble_c::Ed(void) {dis_sprintf("*** Ed() unfinished ***");}
void
bx_disassemble_c::El(void) {dis_sprintf("*** El() unfinished ***");}
void
bx_disassemble_c::Eq(void) {dis_sprintf("*** Eq() unfinished ***");}
void
bx_disassemble_c::GvEb(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
decode_gxex(BX_GENERAL_32BIT_REG, BX_GENERAL_8BIT_REG);
else
#endif /* BX_CPU_LEVEL > 2 */
decode_gxex(BX_GENERAL_16BIT_REG, BX_GENERAL_8BIT_REG);
}
void
bx_disassemble_c::Av(void)
{
if (db_32bit_opsize) {
Bit32s imm32;
imm32 = fetch_dword();
dis_sprintf("%08x", (unsigned) (imm32 + db_eip));
}
else {
Bit16s imm16;
imm16 = fetch_word();
dis_sprintf("%04x", (unsigned) ((imm16 + db_eip) & 0xFFFF));
}
}
void
bx_disassemble_c::Eb(void)
{
decode_exgx(BX_GENERAL_8BIT_REG, BX_NO_REG_TYPE);
}
void
bx_disassemble_c::Eb1(void)
{
decode_exgx(BX_GENERAL_8BIT_REG, BX_NO_REG_TYPE);
dis_sprintf(", 1");
}
void
bx_disassemble_c::Ev1(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
decode_exgx(BX_GENERAL_32BIT_REG, BX_NO_REG_TYPE);
else
#endif /* BX_CPU_LEVEL > 2 */
decode_exgx(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
dis_sprintf(", 1");
}
void
bx_disassemble_c::Iw(void)
{
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("%04x", (unsigned) imm16);
}
void
bx_disassemble_c::EbGb(void)
{
decode_exgx(BX_GENERAL_8BIT_REG, BX_GENERAL_8BIT_REG);
}
void
bx_disassemble_c::EvGv(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
decode_exgx(BX_GENERAL_32BIT_REG, BX_GENERAL_32BIT_REG);
else
#endif /* BX_CPU_LEVEL > 2 */
decode_exgx(BX_GENERAL_16BIT_REG, BX_GENERAL_16BIT_REG);
}
void
bx_disassemble_c::GbEb(void)
{
decode_gxex(BX_GENERAL_8BIT_REG, BX_GENERAL_8BIT_REG);
}
void
bx_disassemble_c::GvEv(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
decode_gxex(BX_GENERAL_32BIT_REG, BX_GENERAL_32BIT_REG);
else
#endif /* BX_CPU_LEVEL > 2 */
decode_gxex(BX_GENERAL_16BIT_REG, BX_GENERAL_16BIT_REG);
}
void
bx_disassemble_c::Ew(void)
{
decode_exgx(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
}
void
bx_disassemble_c::GvEw(void)
{
if (db_32bit_opsize)
decode_gxex(BX_GENERAL_32BIT_REG, BX_GENERAL_16BIT_REG);
else
decode_gxex(BX_GENERAL_16BIT_REG, BX_GENERAL_16BIT_REG);
}
void
bx_disassemble_c::Jv(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
Bit32u imm32;
imm32 = fetch_dword();
dis_sprintf("%08x", (unsigned) (imm32 + db_eip));
}
else
#endif
{
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("%04x", (unsigned) ((imm16 + db_eip) & 0xFFFF));
}
}
void
bx_disassemble_c::EvIb(void)
{
Bit8u imm8;
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
decode_exgx(BX_GENERAL_32BIT_REG, BX_NO_REG_TYPE);
imm8 = fetch_byte();
dis_sprintf(", %02x", (unsigned) imm8);
}
else {
#endif /* BX_CPU_LEVEL > 2 */
decode_exgx(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
imm8 = fetch_byte();
dis_sprintf(", %02x", (unsigned) imm8);
#if BX_CPU_LEVEL > 2
}
#endif /* BX_CPU_LEVEL > 2 */
}
void
bx_disassemble_c::Iv(void)
{
if (db_32bit_opsize) {
Bit32u imm32;
imm32 = fetch_dword();
dis_sprintf("%08x", (unsigned) imm32);
}
else {
Bit16u imm16;
imm16 = fetch_word();
dis_sprintf("%04x", (unsigned) imm16);
}
}
void
bx_disassemble_c::Ib(void)
{
Bit8u imm8;
imm8 = fetch_byte();
dis_sprintf("%02x", imm8);
}
void
bx_disassemble_c::Jb(void)
{
Bit8u imm8;
imm8 = fetch_byte();
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
dis_sprintf("%08x", (unsigned) (imm8 + db_eip));
}
else
#endif
{
dis_sprintf("%04x", (unsigned) ((imm8 + db_eip) & 0xFFFF));
}
}
void
bx_disassemble_c::EbIb(void)
{
Bit8u imm8;
decode_exgx(BX_GENERAL_8BIT_REG, BX_NO_REG_TYPE);
imm8 = fetch_byte();
dis_sprintf(", %02x", (unsigned) imm8);
}
void
bx_disassemble_c::EvIv(void)
{
Bit16u imm16;
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
Bit32u imm32;
decode_exgx(BX_GENERAL_32BIT_REG, BX_NO_REG_TYPE);
imm32 = fetch_dword();
dis_sprintf(", %08x", (unsigned) imm32);
}
else {
#endif /* BX_CPU_LEVEL > 2 */
decode_exgx(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
imm16 = fetch_word();
dis_sprintf(", %04x", (unsigned) imm16);
#if BX_CPU_LEVEL > 2
}
#endif /* BX_CPU_LEVEL > 2 */
}
void
bx_disassemble_c::EwSw(void)
{
decode_exgx(BX_GENERAL_16BIT_REG, BX_SEGMENT_REG);
}
void
bx_disassemble_c::GvM(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
decode_gxex(BX_GENERAL_32BIT_REG, BX_GENERAL_32BIT_REG);
else
#endif /* BX_CPU_LEVEL > 2 */
decode_gxex(BX_GENERAL_16BIT_REG, BX_GENERAL_16BIT_REG);
}
void
bx_disassemble_c::SwEw(void)
{
decode_gxex(BX_SEGMENT_REG, BX_GENERAL_16BIT_REG);
}
void
bx_disassemble_c::Ev(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
decode_exgx(BX_GENERAL_32BIT_REG, BX_NO_REG_TYPE);
}
else {
#endif /* BX_CPU_LEVEL > 2 */
decode_exgx(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
#if BX_CPU_LEVEL > 2
}
#endif /* BX_CPU_LEVEL > 2 */
}
void
bx_disassemble_c::Ap(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
Bit32u imm32;
Bit16u cs_selector;
imm32 = fetch_dword();
cs_selector = fetch_word();
dis_sprintf("%04x:%08x", (unsigned) cs_selector, (unsigned) imm32);
}
else
#endif /* BX_CPU_LEVEL > 2 */
{
Bit16u imm16;
Bit16u cs_selector;
imm16 = fetch_word();
cs_selector = fetch_word();
dis_sprintf("%04x:%04x", (unsigned) cs_selector, (unsigned) imm16);
}
}
void
bx_disassemble_c::XbYb(void)
{
char *esi, *edi;
char *seg;
if (db_32bit_addrsize) {
esi = "ESI";
edi = "EDI";
}
else {
esi = "SI";
edi = "DI";
}
if (seg_override)
seg = seg_override;
else
seg = "DS";
dis_sprintf("ES:[%s], %s:[%s]", edi, seg, esi);
}
void
bx_disassemble_c::YveAX(void)
{
char *eax, *edi;
if (db_32bit_opsize)
eax = "EAX";
else
eax = "AX";
if (db_32bit_addrsize)
edi = "EDI";
else
edi = "DI";
dis_sprintf("ES:[%s], %s", edi, eax);
}
void
bx_disassemble_c::GvMp(void)
{
Bit8u mod_rm_byte, mod, opcode, rm;
mod_rm_byte = peek_byte();
BX_DECODE_MODRM(mod_rm_byte, mod, opcode, rm);
// only memory operand is valid
if (mod == 0x3) {
dis_sprintf("Invalid Opcode");
fetch_byte();
}
else {
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize)
decode_gxex(BX_GENERAL_32BIT_REG, BX_GENERAL_32BIT_REG);
else
#endif /* BX_CPU_LEVEL > 2 */
decode_gxex(BX_GENERAL_16BIT_REG, BX_GENERAL_16BIT_REG);
}
}
void
bx_disassemble_c::eAXEv(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
dis_sprintf("EAX, ");
decode_gxex(BX_NO_REG_TYPE, BX_GENERAL_32BIT_REG);
}
else {
#endif /* BX_CPU_LEVEL > 2 */
dis_sprintf("AX, ");
decode_gxex(BX_NO_REG_TYPE, BX_GENERAL_16BIT_REG);
#if BX_CPU_LEVEL > 2
}
#endif /* BX_CPU_LEVEL > 2 */
}
void
bx_disassemble_c::Ep(void)
{
#if BX_CPU_LEVEL > 2
if (db_32bit_opsize) {
decode_exgx(BX_GENERAL_32BIT_REG, BX_NO_REG_TYPE);
}
else {
#endif /* BX_CPU_LEVEL > 2 */
decode_exgx(BX_GENERAL_16BIT_REG, BX_NO_REG_TYPE);
#if BX_CPU_LEVEL > 2
}
#endif /* BX_CPU_LEVEL > 2 */
}
void
bx_disassemble_c::eAX(void)
{
if (db_32bit_opsize) {
dis_sprintf("EAX");
}
else {
dis_sprintf("AX");
}
}
void
bx_disassemble_c::eCX(void)
{
if (db_32bit_opsize) {
dis_sprintf("ECX");
}
else {
dis_sprintf("CX");
}
}
void
bx_disassemble_c::eDX(void)
{
if (db_32bit_opsize) {
dis_sprintf("EDX");
}
else {
dis_sprintf("DX");
}
}
void
bx_disassemble_c::eBX(void)
{
if (db_32bit_opsize) {
dis_sprintf("EBX");
}
else {
dis_sprintf("BX");
}
}
void
bx_disassemble_c::eSP(void)
{
if (db_32bit_opsize) {
dis_sprintf("ESP");
}
else {
dis_sprintf("SP");
}
}
void
bx_disassemble_c::eBP(void)
{
if (db_32bit_opsize) {
dis_sprintf("EBP");
}
else {
dis_sprintf("BP");
}
}
void
bx_disassemble_c::eSI(void)
{
if (db_32bit_opsize) {
dis_sprintf("ESI");
}
else {
dis_sprintf("SI");
}
}
void
bx_disassemble_c::eDI(void)
{
if (db_32bit_opsize) {
dis_sprintf("EDI");
}
else {
dis_sprintf("DI");
}
}
#endif /* if BX_DISASM */