Bochs/bochs/disasm/dis_groups.cc
Stanislav Shwartsman 5af5d80602 Small disasm fixes
2005-10-23 20:43:32 +00:00

391 lines
7.4 KiB
C++

#include <stdio.h>
#include "disasm.h"
#if BX_DEBUGGER
#include "../bx_debug/debug.h"
#endif
// 16/32-bit general purpose register
void disassembler::REG32 (unsigned attr)
{
if (os_32)
dis_sprintf("%s", general_32bit_regname[attr]);
else
dis_sprintf("%s", general_16bit_regname[attr]);
}
// 8-bit general purpose register
void disassembler::REG8 (unsigned attr)
{
dis_sprintf("%s", general_8bit_regname[attr]);
}
// 16-bit general purpose register
void disassembler::REG16 (unsigned attr)
{
dis_sprintf("%s", general_16bit_regname[attr]);
}
// segment register
void disassembler::OP_SEG (unsigned attr)
{
dis_sprintf("%s", segment_name[attr]);
}
// memory operand
void disassembler::OP_MEM (unsigned attr)
{
if(mod == 3)
dis_sprintf("(bad)");
else
(this->*resolve_modrm)(attr);
}
void disassembler::OP_Q (unsigned attr)
{
if (mod == 3)
{
if (intel_mode)
dis_sprintf ("mm%d", rm);
else
dis_sprintf("%%mm%d", rm);
}
else
(this->*resolve_modrm)(attr);
}
void disassembler::OP_W (unsigned attr)
{
if (mod == 3)
{
if (intel_mode)
dis_sprintf ("xmm%d", rm);
else
dis_sprintf("%%xmm%d", rm);
}
else
(this->*resolve_modrm)(attr);
}
void disassembler::OP_V (unsigned attr)
{
if (intel_mode)
dis_sprintf ("xmm%d", nnn);
else
dis_sprintf("%%xmm%d", nnn);
}
void disassembler::OP_P (unsigned attr)
{
if (intel_mode)
dis_sprintf ("mm%d", nnn);
else
dis_sprintf("%%mm%d", nnn);
}
void disassembler::OP_X (unsigned attr)
{
const char *esi, *seg;
if (as_32)
esi = general_32bit_regname[eSI_REG];
else
esi = general_16bit_regname[eSI_REG];
if (seg_override)
seg = seg_override;
else
seg = segment_name[DS_REG];
print_datasize(attr);
if (intel_mode)
dis_sprintf("%s:[%s]", seg, esi);
else
dis_sprintf("%s:(%s)", seg, esi);
}
void disassembler::OP_Y (unsigned attr)
{
const char *edi;
if (as_32)
edi = general_32bit_regname[eDI_REG];
else
edi = general_16bit_regname[eDI_REG];
print_datasize(attr);
if (intel_mode)
dis_sprintf("%s:[%s]", segment_name[ES_REG], edi);
else
dis_sprintf("%s:(%s)", segment_name[ES_REG], edi);
}
void disassembler::OP_O (unsigned attr)
{
const char *seg;
if (seg_override)
seg = seg_override;
else
seg = segment_name[DS_REG];
print_datasize(attr);
if (as_32) {
Bit32u imm32 = fetch_dword();
dis_sprintf("%s:0x%x", seg, (unsigned) imm32);
}
else {
Bit16u imm16 = fetch_word();
dis_sprintf("%s:0x%x", seg, (unsigned) imm16);
}
}
void disassembler::Jb (unsigned attr)
{
Bit8s imm8; /* JMP rel8 is signed */
imm8 = (Bit8s) fetch_byte();
if (os_32) {
#if BX_DEBUGGER
char *Sym=bx_dbg_disasm_symbolic_address((Bit32u)(imm8+db_eip), db_base);
if(Sym) {
dis_sprintf("%s", Sym);
}
else // Symbol not found
#endif
dis_sprintf(".+0x%x", (unsigned) (imm8+db_eip));
}
else
{
#if BX_DEBUGGER
char *Sym=bx_dbg_disasm_symbolic_address((Bit32u)((imm8+db_eip) & 0xFFFF), db_base);
if(Sym) {
dis_sprintf("%s", Sym);
}
else // Symbol not found
#endif
dis_sprintf(".+0x%x", (unsigned) ((imm8+db_eip) & 0xFFFF));
}
}
void disassembler::Jv (unsigned attr)
{
if (os_32) {
Bit32s imm32; /* JMP rel32 is signed */
imm32 = (Bit32s) fetch_dword();
#if BX_DEBUGGER
char *Sym=bx_dbg_disasm_symbolic_address((Bit32u)(imm32+db_eip), db_base);
if(Sym) {
dis_sprintf("%s", Sym);
}
else // Symbol not found
#endif
dis_sprintf(".+0x%x", (unsigned) (imm32+db_eip));
}
else
{
Bit16s imm16; /* JMP rel16 is signed */
imm16 = (Bit16s) fetch_word();
#if BX_DEBUGGER
char *Sym=bx_dbg_disasm_symbolic_address((Bit32u)((imm16+db_eip) & 0xFFFF), db_base);
if(Sym) {
dis_sprintf("%s", Sym);
}
else // Symbol not found
#endif
dis_sprintf(".+0x%x", (unsigned) ((imm16+db_eip) & 0xFFFF));
}
}
void disassembler::Ap (unsigned attr)
{
if (os_32)
{
Bit32u imm32 = fetch_dword();
Bit16u cs_selector = fetch_word();
dis_sprintf("%04x:%08x", (unsigned) cs_selector, (unsigned) imm32);
}
else
{
Bit16u imm16 = fetch_word();
Bit16u cs_selector = fetch_word();
dis_sprintf("%04x:%04x", (unsigned) cs_selector, (unsigned) imm16);
}
}
// general purpose register or memory operand
void disassembler::Eb (unsigned attr)
{
if (mod == 3)
dis_sprintf("%s", general_8bit_regname[rm]);
else
(this->*resolve_modrm)(B_SIZE);
}
void disassembler::Ew (unsigned attr)
{
if (mod == 3)
dis_sprintf("%s", general_16bit_regname[rm]);
else
(this->*resolve_modrm)(W_SIZE);
}
void disassembler::Ev (unsigned attr)
{
if (os_32)
Ed(attr);
else
Ew(attr);
}
void disassembler::Ed (unsigned attr)
{
if (mod == 3)
dis_sprintf("%s", general_32bit_regname[rm]);
else
(this->*resolve_modrm)(D_SIZE);
}
// general purpose register
void disassembler::Gb (unsigned attr)
{
dis_sprintf("%s", general_8bit_regname[nnn]);
}
void disassembler::Gv (unsigned attr)
{
if (os_32)
dis_sprintf("%s", general_32bit_regname[nnn]);
else
dis_sprintf("%s", general_16bit_regname[nnn]);
}
void disassembler::Gd (unsigned attr)
{
dis_sprintf("%s", general_32bit_regname[nnn]);
}
// 32-bit general purpose register
void disassembler::Rd (unsigned attr)
{
dis_sprintf("%s", general_32bit_regname[rm]);
}
// 16-bit general purpose register
void disassembler::Rw (unsigned attr)
{
dis_sprintf("%s", general_16bit_regname[rm]);
}
// segment register
void disassembler::Sw (unsigned attr)
{
dis_sprintf("%s", segment_name[nnn]);
}
// immediate
void disassembler::I1 (unsigned)
{
if (! intel_mode) dis_putc('$');
dis_putc ('1');
}
void disassembler::Ib (unsigned attr)
{
if (intel_mode)
dis_sprintf ("0x%x", (unsigned) fetch_byte());
else
dis_sprintf("$0x%x", (unsigned) fetch_byte());
}
void disassembler::Iw (unsigned attr)
{
if (intel_mode)
dis_sprintf ("0x%x", (unsigned) fetch_word());
else
dis_sprintf("$0x%x", (unsigned) fetch_word());
}
void disassembler::Id (unsigned attr)
{
if (intel_mode)
dis_sprintf ("0x%x", (unsigned) fetch_dword());
else
dis_sprintf("$0x%x", (unsigned) fetch_dword());
}
void disassembler::Iv (unsigned attr)
{
if (os_32)
Id(attr);
else
Iw(attr);
}
// sign extended immediate
void disassembler::sIb(unsigned attr)
{
if (os_32)
{
Bit32u imm32 = (Bit8s) fetch_byte();
if (intel_mode)
dis_sprintf ("0x%x", (unsigned) imm32);
else
dis_sprintf("$0x%x", (unsigned) imm32);
}
else
{
Bit16u imm16 = (Bit8s) fetch_byte();
if (intel_mode)
dis_sprintf ("0x%x", (unsigned) imm16);
else
dis_sprintf("$0x%x", (unsigned) imm16);
}
}
// floating point
void disassembler::ST0 (unsigned attr)
{
if (intel_mode)
dis_sprintf ("st(0)");
else
dis_sprintf("%%st(0)");
}
void disassembler::STj (unsigned attr)
{
if (intel_mode)
dis_sprintf ("st(%d)", rm);
else
dis_sprintf("%%st(%d)", rm);
}
// control register
void disassembler::Cd (unsigned attr)
{
if (intel_mode)
dis_sprintf ("cr%d", nnn);
else
dis_sprintf("%%cr%d", nnn);
}
// debug register
void disassembler::Dd (unsigned attr)
{
if (intel_mode)
dis_sprintf ("db%d", nnn);
else
dis_sprintf("%%db%d", nnn);
}
// test registers
void disassembler::Td (unsigned attr)
{
if (intel_mode)
dis_sprintf ("tr%d", nnn);
else
dis_sprintf("%%tr%d", nnn);
}