mon/src/mon_x86.cpp

/*
 *  mon_x86.cpp - 80x86 disassembler
 *
 *  mon (C) 1997-2000 Christian Bauer, Marc Hellwig
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program 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 General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

/*
 *  TODO
 *   - tons of missing instructions
 */

#include "sysdeps.h"

#include "mon.h"
#include "mon_x86.h"


// Memory access functions
static uint16 read_uint16(uint8 *&m)
{
        uint16 val = (m[1] << 8) | m[0];
        m += 2;
        return val;
}

static int16 read_int16(uint8 *&m)
{
        int16 val = (m[1] << 8) | m[0];
        m += 2;
        return val;
}

static uint32 read_uint32(uint8 *&m)
{
        uint32 val = (m[3] << 24) | (m[2] << 16) | (m[1] << 8) | m[0];
        m += 4;
        return val;
}


// String constants
static const char *gp_reg[2][8] = {
        {"ax", "cx", "dx", "bx", "sp", "bp", "si", "di"},
        {"eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi"}
};


// Prototypes
static void disass0f(char *&mnem, char *s, uint8 *&m, bool &mode32);


/*
 *  Disassemble one instruction, return number of bytes
 */

int disass_x86(FILE *f, uint32 adr, uint8 *m)
{
        uint8 *orig_m = m;
        char *mnem;
        char s[256] = "";
        bool mode32 = true;
        int32 disp;

        // Decode primary opcode
next_opcode:
        uint8 opcode = *m++;
        switch (opcode) {
                case 0x04:
                        mnem = "add";
arith_alimm:
                        sprintf(s, "al,$%02x", *m++);
                        break;
                case 0x05:
                        mnem = "add";
arith_aximm:
                        if (mode32)
                                sprintf(s, "eax,$%08x", read_uint32(m));
                        else
                                sprintf(s, "ax,$%04x", read_uint16(m));
                        break;

                case 0x06: mnem = "push\tes"; break;
                case 0x07: mnem = "pop\tes"; break;
                case 0x0c: mnem = "or"; goto arith_alimm;
                case 0x0d: mnem = "or"; goto arith_aximm;
                case 0x0e: mnem = "push\tcs"; break;
                case 0x0f: disass0f(mnem, s, m, mode32); break;
                case 0x14: mnem = "adc"; goto arith_alimm;
                case 0x15: mnem = "adc"; goto arith_aximm;
                case 0x16: mnem = "push\tss"; break;
                case 0x17: mnem = "pop\tss"; break;
                case 0x1c: mnem = "sbb"; goto arith_alimm;
                case 0x1d: mnem = "sbb"; goto arith_aximm;
                case 0x1e: mnem = "push\tds"; break;
                case 0x1f: mnem = "pop\tds"; break;
                case 0x24: mnem = "and"; goto arith_alimm;
                case 0x25: mnem = "and"; goto arith_aximm;
                case 0x26: mnem = "(seg es prefix)"; break;
                case 0x27: mnem = "daa"; break;
                case 0x2c: mnem = "sub"; goto arith_alimm;
                case 0x2d: mnem = "sub"; goto arith_aximm;
                case 0x2e: mnem = "(seg cs prefix)"; break;
                case 0x2f: mnem = "das"; break;
                case 0x34: mnem = "xor"; goto arith_alimm;
                case 0x35: mnem = "xor"; goto arith_aximm;
                case 0x36: mnem = "(seg ss prefix)"; break;
                case 0x37: mnem = "aaa"; break;
                case 0x3c: mnem = "cmp"; goto arith_alimm;
                case 0x3d: mnem = "cmp"; goto arith_aximm;
                case 0x3e: mnem = "(seg ds prefix)"; break;
                case 0x3f: mnem = "aas"; break;

                case 0x40: case 0x41: case 0x42: case 0x43: case 0x44: case 0x45: case 0x46: case 0x47:
                        mnem = "inc"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
                case 0x48: case 0x49: case 0x4a: case 0x4b: case 0x4c: case 0x4d: case 0x4e: case 0x4f:
                        mnem = "dec"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
                case 0x50: case 0x51: case 0x52: case 0x53: case 0x54: case 0x55: case 0x56: case 0x57:
                        mnem = "push"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
                case 0x58: case 0x59: case 0x5a: case 0x5b: case 0x5c: case 0x5d: case 0x5e: case 0x5f:
                        mnem = "pop"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;

                case 0x60: mnem = (char *)(mode32 ? "pushad" : "pusha"); break;
                case 0x61: mnem = (char *)(mode32 ? "popad" : "popa"); break;
                case 0x64: mnem = "(seg fs prefix)"; break;
                case 0x65: mnem = "(seg gs prefix)"; break;
                case 0x66: mode32 = !mode32; goto next_opcode;  //!! error checking
                case 0x67: mnem = "(adr size prefix)"; break;

                case 0x70:
                        mnem = "jo";
jcc_bdisp:
                        disp = (int8)*m++;
                        sprintf(s, "$%08x", disp + adr + (m - orig_m));
                        break;
                case 0x71: mnem = "jno"; goto jcc_bdisp;
                case 0x72: mnem = "jc"; goto jcc_bdisp;
                case 0x73: mnem = "jnc"; goto jcc_bdisp;
                case 0x74: mnem = "je"; goto jcc_bdisp;
                case 0x75: mnem = "jne"; goto jcc_bdisp;
                case 0x76: mnem = "jbe"; goto jcc_bdisp;
                case 0x77: mnem = "jnbe"; goto jcc_bdisp;
                case 0x78: mnem = "js"; goto jcc_bdisp;
                case 0x79: mnem = "jns"; goto jcc_bdisp;
                case 0x7a: mnem = "jpe"; goto jcc_bdisp;
                case 0x7b: mnem = "jpo"; goto jcc_bdisp;
                case 0x7c: mnem = "jl"; goto jcc_bdisp;
                case 0x7d: mnem = "jge"; goto jcc_bdisp;
                case 0x7e: mnem = "jle"; goto jcc_bdisp;
                case 0x7f: mnem = "jg"; goto jcc_bdisp;

                case 0x90: mnem = "nop"; break;
                case 0x91: case 0x92: case 0x93: case 0x94: case 0x95: case 0x96: case 0x97:
                        mnem = "xchg"; sprintf(s, "%s,%s", mode32 ? "eax" : "ax", gp_reg[mode32][opcode & 7]); break;

                case 0x98: mnem = (char *)(mode32 ? "cwde" : "cbw"); break;
                case 0x99: mnem = (char *)(mode32 ? "cdq" : "cwd"); break;
                case 0x9b: mnem = "wait"; break;
                case 0x9c: mnem = (char *)(mode32 ? "pushfd" : "pushf"); break;
                case 0x9d: mnem = (char *)(mode32 ? "popfd" : "popf"); break;
                case 0x9e: mnem = "sahf"; break;
                case 0x9f: mnem = "lahf"; break;
                case 0xa0: mnem = "mov"; sprintf(s, "al,byte ptr $%08x", read_uint32(m)); break;
                case 0xa1: mnem = "mov"; sprintf(s, mode32 ? "eax,dword ptr $%08x" : "ax,word ptr $%08x", read_uint32(m)); break;
                case 0xa2: mnem = "mov"; sprintf(s, "byte ptr $%08x,al", read_uint32(m)); break;
                case 0xa3: mnem = "mov"; sprintf(s, mode32 ? "dword ptr $%08x,eax" : "word ptr $%08x,ax", read_uint32(m)); break;
                case 0xa4: mnem = "movsb"; break;
                case 0xa5: mnem = (char *)(mode32 ? "movsd" : "movsw"); break;
                case 0xa6: mnem = "cmpsb"; break;
                case 0xa7: mnem = (char *)(mode32 ? "cmpsd" : "cmpsw"); break;
                case 0xa8: mnem = "test"; goto arith_alimm;
                case 0xa9: mnem = "test"; goto arith_aximm;
                case 0xaa: mnem = "stosb"; break;
                case 0xab: mnem = (char *)(mode32 ? "stosd" : "stosw"); break;
                case 0xac: mnem = "lodsb"; break;
                case 0xad: mnem = (char *)(mode32 ? "lodsd" : "lodsw"); break;
                case 0xae: mnem = "scasb"; break;
                case 0xaf: mnem = (char *)(mode32 ? "scasd" : "scasw"); break;
                case 0xb0: mnem = "mov"; sprintf(s, "al,$%02x", *m++); break;
                case 0xb1: mnem = "mov"; sprintf(s, "cl,$%02x", *m++); break;
                case 0xb2: mnem = "mov"; sprintf(s, "dl,$%02x", *m++); break;
                case 0xb3: mnem = "mov"; sprintf(s, "bl,$%02x", *m++); break;
                case 0xb4: mnem = "mov"; sprintf(s, "ah,$%02x", *m++); break;
                case 0xb5: mnem = "mov"; sprintf(s, "ch,$%02x", *m++); break;
                case 0xb6: mnem = "mov"; sprintf(s, "dh,$%02x", *m++); break;
                case 0xb7: mnem = "mov"; sprintf(s, "bh,$%02x", *m++); break;

                case 0xb8: case 0xb9: case 0xba: case 0xbb: case 0xbc: case 0xbd: case 0xbe: case 0xbf:
                        mnem = "mov";
                        if (mode32)
                                sprintf(s, "%s,$%08x", gp_reg[true][opcode & 7], read_uint32(m));
                        else
                                sprintf(s, "%s,$%04x", gp_reg[false][opcode & 7], read_uint16(m));
                        break;

                case 0xc2: mnem = "ret"; sprintf(s, "near $%04x", read_uint16(m)); break;
                case 0xc3: mnem = "ret\tnear"; break;
                case 0xc9: mnem = "leave"; break;
                case 0xca: mnem = "ret"; sprintf(s, "far $%04x", read_uint16(m)); break;
                case 0xcb: mnem = "ret\tfar"; break;
                case 0xcc: mnem = "int3"; break;
                case 0xcd: mnem = "int"; sprintf(s, "$%02x", *m++); break;
                case 0xce: mnem = "into"; break;
                case 0xcf: mnem = "iret"; break;
                case 0xd4: mnem = "aam"; m++; break;
                case 0xd5: mnem = "aad"; m++; break;
                case 0xd7: mnem = "xlat"; break;
                case 0xe0: mnem = "loopnz"; goto jcc_bdisp;
                case 0xe1: mnem = "loopz"; goto jcc_bdisp;
                case 0xe2: mnem = "loop"; goto jcc_bdisp;
                case 0xe3: mnem = (char *)(mode32 ? "jecxz" : "jcxz"); goto jcc_bdisp;
                case 0xe4: mnem = "in"; sprintf(s, "al,$%02x", *m++); break;
                case 0xe5: mnem = "in"; sprintf(s, "%s,$%02x", mode32 ? "eax" : "ax", *m++); break;
                case 0xe6: mnem = "out"; sprintf(s, "$%02x,al", *m++); break;
                case 0xe7: mnem = "out"; sprintf(s, "$%02x,%s", *m++, mode32 ? "eax" : "ax"); break;

                case 0xe8:
                        mnem = "call";
jump_near:
                        disp = read_uint32(m);
                        sprintf(s, "near $%08x", disp + adr + (m - orig_m));
                        break;
                case 0xe9: mnem = "jmp"; goto jump_near;
                case 0xeb:
                        mnem = "jmp";
                        disp = (int8)*m++;
                        sprintf(s, "near $%08x", disp + adr + (m - orig_m));
                        break;

                case 0xec: mnem = "in\tal,dx"; break;
                case 0xed: mnem = (char *)(mode32 ? "in\teax,dx" : "in\tax,dx"); break;
                case 0xee: mnem = "out\tdx,al"; break;
                case 0xef: mnem = (char *)(mode32 ? "out\tdx,eax" : "out\tdx,ax"); break;
                case 0xf0: mnem = "lock"; break;
                case 0xf2: mnem = "repne"; break;
                case 0xf3: mnem = "rep"; break;
                case 0xf4: mnem = "hlt"; break;
                case 0xf5: mnem = "cmc"; break;
                case 0xf8: mnem = "clc"; break;
                case 0xf9: mnem = "stc"; break;
                case 0xfa: mnem = "cli"; break;
                case 0xfb: mnem = "sti"; break;
                case 0xfc: mnem = "cld"; break;
                case 0xfd: mnem = "std"; break;

                default:
                        mnem = "?";
                        break;
        }

        // Print opcodes and mnemonics
        int size = m - orig_m;
        for (int i=0; i<7; i++)
                if (i < size)
                        fprintf(f, "%02x ", orig_m[i]);
                else
                        fprintf(f, "   ");
        fprintf(f, "%s\t%s\n", mnem, s);
        return size;
}


/*
 *  Disassemble instruction with primary opcode 0x0f
 */

static void disass0f(char *&mnem, char *s, uint8 *&m, bool &mode32)
{
        // Decode secondary opcode
        uint8 opcode = *m++;
        switch (opcode) {
                case 0x06: mnem = "clts"; break;
                case 0x08: mnem = "invd"; break;
                case 0x09: mnem = "wbinvd"; break;
                case 0x0b: mnem = "ud2"; break;
                case 0x30: mnem = "wrmsr"; break;
                case 0x31: mnem = "rdtsc"; break;
                case 0x32: mnem = "rdmsr"; break;
                case 0x33: mnem = "rdpmc"; break;
                case 0xa0: mnem = "push\tfs"; break;
                case 0xa1: mnem = "pop\tfs"; break;
                case 0xa2: mnem = "cpuid"; break;
                case 0xa8: mnem = "push\tgs"; break;
                case 0xa9: mnem = "pop\tgs"; break;
                case 0xaa: mnem = "rsm"; break;

                case 0xc8: case 0xc9: case 0xca: case 0xcb: case 0xcc: case 0xcd: case 0xce: case 0xcf:
                        mnem = "bswap"; sprintf(s, "%s", gp_reg[true][opcode & 7]); break;

                default:
                        mnem = "?";
                        break;
        }
}
Revision:	1.6
Committed:	2000-09-25T12:44:36Z (23 years, 7 months ago) by cebix
Branch:	MAIN
CVS Tags:	HEAD
Changes since 1.5:	+0 -0 lines
State:	*FILE REMOVED*
Log Message:	- replaced 680x0 and 80x86 disassemblers with the ones from GNU binutils - 680x0 disassembler shows symbolic MacOS low memory globals
#	Content
1	/*
2	* mon_x86.cpp - 80x86 disassembler
3	*
4	* mon (C) 1997-2000 Christian Bauer, Marc Hellwig
5	*
6	* This program is free software; you can redistribute it and/or modify
7	* it under the terms of the GNU General Public License as published by
8	* the Free Software Foundation; either version 2 of the License, or
9	* (at your option) any later version.
10	*
11	* This program is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU General Public License for more details.
15	*
16	* You should have received a copy of the GNU General Public License
17	* along with this program; if not, write to the Free Software
18	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19	*/
20
21	/*
22	* TODO
23	* - tons of missing instructions
24	*/
25
26	#include "sysdeps.h"
27
28	#include "mon.h"
29	#include "mon_x86.h"
30
31
32	// Memory access functions
33	static uint16 read_uint16(uint8 *&m)
34	{
35	uint16 val = (m[1] << 8) \| m[0];
36	m += 2;
37	return val;
38	}
39
40	static int16 read_int16(uint8 *&m)
41	{
42	int16 val = (m[1] << 8) \| m[0];
43	m += 2;
44	return val;
45	}
46
47	static uint32 read_uint32(uint8 *&m)
48	{
49	uint32 val = (m[3] << 24) \| (m[2] << 16) \| (m[1] << 8) \| m[0];
50	m += 4;
51	return val;
52	}
53
54
55	// String constants
56	static const char *gp_reg[2][8] = {
57	{"ax", "cx", "dx", "bx", "sp", "bp", "si", "di"},
58	{"eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi"}
59	};
60
61
62	// Prototypes
63	static void disass0f(char &mnem, char s, uint8 *&m, bool &mode32);
64
65
66	/*
67	* Disassemble one instruction, return number of bytes
68	*/
69
70	int disass_x86(FILE f, uint32 adr, uint8 m)
71	{
72	uint8 *orig_m = m;
73	char *mnem;
74	char s[256] = "";
75	bool mode32 = true;
76	int32 disp;
77
78	// Decode primary opcode
79	next_opcode:
80	uint8 opcode = *m++;
81	switch (opcode) {
82	case 0x04:
83	mnem = "add";
84	arith_alimm:
85	sprintf(s, "al,$%02x", *m++);
86	break;
87	case 0x05:
88	mnem = "add";
89	arith_aximm:
90	if (mode32)
91	sprintf(s, "eax,$%08x", read_uint32(m));
92	else
93	sprintf(s, "ax,$%04x", read_uint16(m));
94	break;
95
96	case 0x06: mnem = "push\tes"; break;
97	case 0x07: mnem = "pop\tes"; break;
98	case 0x0c: mnem = "or"; goto arith_alimm;
99	case 0x0d: mnem = "or"; goto arith_aximm;
100	case 0x0e: mnem = "push\tcs"; break;
101	case 0x0f: disass0f(mnem, s, m, mode32); break;
102	case 0x14: mnem = "adc"; goto arith_alimm;
103	case 0x15: mnem = "adc"; goto arith_aximm;
104	case 0x16: mnem = "push\tss"; break;
105	case 0x17: mnem = "pop\tss"; break;
106	case 0x1c: mnem = "sbb"; goto arith_alimm;
107	case 0x1d: mnem = "sbb"; goto arith_aximm;
108	case 0x1e: mnem = "push\tds"; break;
109	case 0x1f: mnem = "pop\tds"; break;
110	case 0x24: mnem = "and"; goto arith_alimm;
111	case 0x25: mnem = "and"; goto arith_aximm;
112	case 0x26: mnem = "(seg es prefix)"; break;
113	case 0x27: mnem = "daa"; break;
114	case 0x2c: mnem = "sub"; goto arith_alimm;
115	case 0x2d: mnem = "sub"; goto arith_aximm;
116	case 0x2e: mnem = "(seg cs prefix)"; break;
117	case 0x2f: mnem = "das"; break;
118	case 0x34: mnem = "xor"; goto arith_alimm;
119	case 0x35: mnem = "xor"; goto arith_aximm;
120	case 0x36: mnem = "(seg ss prefix)"; break;
121	case 0x37: mnem = "aaa"; break;
122	case 0x3c: mnem = "cmp"; goto arith_alimm;
123	case 0x3d: mnem = "cmp"; goto arith_aximm;
124	case 0x3e: mnem = "(seg ds prefix)"; break;
125	case 0x3f: mnem = "aas"; break;
126
127	case 0x40: case 0x41: case 0x42: case 0x43: case 0x44: case 0x45: case 0x46: case 0x47:
128	mnem = "inc"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
129	case 0x48: case 0x49: case 0x4a: case 0x4b: case 0x4c: case 0x4d: case 0x4e: case 0x4f:
130	mnem = "dec"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
131	case 0x50: case 0x51: case 0x52: case 0x53: case 0x54: case 0x55: case 0x56: case 0x57:
132	mnem = "push"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
133	case 0x58: case 0x59: case 0x5a: case 0x5b: case 0x5c: case 0x5d: case 0x5e: case 0x5f:
134	mnem = "pop"; sprintf(s, "%s", gp_reg[mode32][opcode & 7]); break;
135
136	case 0x60: mnem = (char *)(mode32 ? "pushad" : "pusha"); break;
137	case 0x61: mnem = (char *)(mode32 ? "popad" : "popa"); break;
138	case 0x64: mnem = "(seg fs prefix)"; break;
139	case 0x65: mnem = "(seg gs prefix)"; break;
140	case 0x66: mode32 = !mode32; goto next_opcode; //!! error checking
141	case 0x67: mnem = "(adr size prefix)"; break;
142
143	case 0x70:
144	mnem = "jo";
145	jcc_bdisp:
146	disp = (int8)*m++;
147	sprintf(s, "$%08x", disp + adr + (m - orig_m));
148	break;
149	case 0x71: mnem = "jno"; goto jcc_bdisp;
150	case 0x72: mnem = "jc"; goto jcc_bdisp;
151	case 0x73: mnem = "jnc"; goto jcc_bdisp;
152	case 0x74: mnem = "je"; goto jcc_bdisp;
153	case 0x75: mnem = "jne"; goto jcc_bdisp;
154	case 0x76: mnem = "jbe"; goto jcc_bdisp;
155	case 0x77: mnem = "jnbe"; goto jcc_bdisp;
156	case 0x78: mnem = "js"; goto jcc_bdisp;
157	case 0x79: mnem = "jns"; goto jcc_bdisp;
158	case 0x7a: mnem = "jpe"; goto jcc_bdisp;
159	case 0x7b: mnem = "jpo"; goto jcc_bdisp;
160	case 0x7c: mnem = "jl"; goto jcc_bdisp;
161	case 0x7d: mnem = "jge"; goto jcc_bdisp;
162	case 0x7e: mnem = "jle"; goto jcc_bdisp;
163	case 0x7f: mnem = "jg"; goto jcc_bdisp;
164
165	case 0x90: mnem = "nop"; break;
166	case 0x91: case 0x92: case 0x93: case 0x94: case 0x95: case 0x96: case 0x97:
167	mnem = "xchg"; sprintf(s, "%s,%s", mode32 ? "eax" : "ax", gp_reg[mode32][opcode & 7]); break;
168
169	case 0x98: mnem = (char *)(mode32 ? "cwde" : "cbw"); break;
170	case 0x99: mnem = (char *)(mode32 ? "cdq" : "cwd"); break;
171	case 0x9b: mnem = "wait"; break;
172	case 0x9c: mnem = (char *)(mode32 ? "pushfd" : "pushf"); break;
173	case 0x9d: mnem = (char *)(mode32 ? "popfd" : "popf"); break;
174	case 0x9e: mnem = "sahf"; break;
175	case 0x9f: mnem = "lahf"; break;
176	case 0xa0: mnem = "mov"; sprintf(s, "al,byte ptr $%08x", read_uint32(m)); break;
177	case 0xa1: mnem = "mov"; sprintf(s, mode32 ? "eax,dword ptr $%08x" : "ax,word ptr $%08x", read_uint32(m)); break;
178	case 0xa2: mnem = "mov"; sprintf(s, "byte ptr $%08x,al", read_uint32(m)); break;
179	case 0xa3: mnem = "mov"; sprintf(s, mode32 ? "dword ptr $%08x,eax" : "word ptr $%08x,ax", read_uint32(m)); break;
180	case 0xa4: mnem = "movsb"; break;
181	case 0xa5: mnem = (char *)(mode32 ? "movsd" : "movsw"); break;
182	case 0xa6: mnem = "cmpsb"; break;
183	case 0xa7: mnem = (char *)(mode32 ? "cmpsd" : "cmpsw"); break;
184	case 0xa8: mnem = "test"; goto arith_alimm;
185	case 0xa9: mnem = "test"; goto arith_aximm;
186	case 0xaa: mnem = "stosb"; break;
187	case 0xab: mnem = (char *)(mode32 ? "stosd" : "stosw"); break;
188	case 0xac: mnem = "lodsb"; break;
189	case 0xad: mnem = (char *)(mode32 ? "lodsd" : "lodsw"); break;
190	case 0xae: mnem = "scasb"; break;
191	case 0xaf: mnem = (char *)(mode32 ? "scasd" : "scasw"); break;
192	case 0xb0: mnem = "mov"; sprintf(s, "al,$%02x", *m++); break;
193	case 0xb1: mnem = "mov"; sprintf(s, "cl,$%02x", *m++); break;
194	case 0xb2: mnem = "mov"; sprintf(s, "dl,$%02x", *m++); break;
195	case 0xb3: mnem = "mov"; sprintf(s, "bl,$%02x", *m++); break;
196	case 0xb4: mnem = "mov"; sprintf(s, "ah,$%02x", *m++); break;
197	case 0xb5: mnem = "mov"; sprintf(s, "ch,$%02x", *m++); break;
198	case 0xb6: mnem = "mov"; sprintf(s, "dh,$%02x", *m++); break;
199	case 0xb7: mnem = "mov"; sprintf(s, "bh,$%02x", *m++); break;
200
201	case 0xb8: case 0xb9: case 0xba: case 0xbb: case 0xbc: case 0xbd: case 0xbe: case 0xbf:
202	mnem = "mov";
203	if (mode32)
204	sprintf(s, "%s,$%08x", gp_reg[true][opcode & 7], read_uint32(m));
205	else
206	sprintf(s, "%s,$%04x", gp_reg[false][opcode & 7], read_uint16(m));
207	break;
208
209	case 0xc2: mnem = "ret"; sprintf(s, "near $%04x", read_uint16(m)); break;
210	case 0xc3: mnem = "ret\tnear"; break;
211	case 0xc9: mnem = "leave"; break;
212	case 0xca: mnem = "ret"; sprintf(s, "far $%04x", read_uint16(m)); break;
213	case 0xcb: mnem = "ret\tfar"; break;
214	case 0xcc: mnem = "int3"; break;
215	case 0xcd: mnem = "int"; sprintf(s, "$%02x", *m++); break;
216	case 0xce: mnem = "into"; break;
217	case 0xcf: mnem = "iret"; break;
218	case 0xd4: mnem = "aam"; m++; break;
219	case 0xd5: mnem = "aad"; m++; break;
220	case 0xd7: mnem = "xlat"; break;
221	case 0xe0: mnem = "loopnz"; goto jcc_bdisp;
222	case 0xe1: mnem = "loopz"; goto jcc_bdisp;
223	case 0xe2: mnem = "loop"; goto jcc_bdisp;
224	case 0xe3: mnem = (char *)(mode32 ? "jecxz" : "jcxz"); goto jcc_bdisp;
225	case 0xe4: mnem = "in"; sprintf(s, "al,$%02x", *m++); break;
226	case 0xe5: mnem = "in"; sprintf(s, "%s,$%02x", mode32 ? "eax" : "ax", *m++); break;
227	case 0xe6: mnem = "out"; sprintf(s, "$%02x,al", *m++); break;
228	case 0xe7: mnem = "out"; sprintf(s, "$%02x,%s", *m++, mode32 ? "eax" : "ax"); break;
229
230	case 0xe8:
231	mnem = "call";
232	jump_near:
233	disp = read_uint32(m);
234	sprintf(s, "near $%08x", disp + adr + (m - orig_m));
235	break;
236	case 0xe9: mnem = "jmp"; goto jump_near;
237	case 0xeb:
238	mnem = "jmp";
239	disp = (int8)*m++;
240	sprintf(s, "near $%08x", disp + adr + (m - orig_m));
241	break;
242
243	case 0xec: mnem = "in\tal,dx"; break;
244	case 0xed: mnem = (char *)(mode32 ? "in\teax,dx" : "in\tax,dx"); break;
245	case 0xee: mnem = "out\tdx,al"; break;
246	case 0xef: mnem = (char *)(mode32 ? "out\tdx,eax" : "out\tdx,ax"); break;
247	case 0xf0: mnem = "lock"; break;
248	case 0xf2: mnem = "repne"; break;
249	case 0xf3: mnem = "rep"; break;
250	case 0xf4: mnem = "hlt"; break;
251	case 0xf5: mnem = "cmc"; break;
252	case 0xf8: mnem = "clc"; break;
253	case 0xf9: mnem = "stc"; break;
254	case 0xfa: mnem = "cli"; break;
255	case 0xfb: mnem = "sti"; break;
256	case 0xfc: mnem = "cld"; break;
257	case 0xfd: mnem = "std"; break;
258
259	default:
260	mnem = "?";
261	break;
262	}
263
264	// Print opcodes and mnemonics
265	int size = m - orig_m;
266	for (int i=0; i<7; i++)
267	if (i < size)
268	fprintf(f, "%02x ", orig_m[i]);
269	else
270	fprintf(f, " ");
271	fprintf(f, "%s\t%s\n", mnem, s);
272	return size;
273	}
274
275
276	/*
277	* Disassemble instruction with primary opcode 0x0f
278	*/
279
280	static void disass0f(char &mnem, char s, uint8 *&m, bool &mode32)
281	{
282	// Decode secondary opcode
283	uint8 opcode = *m++;
284	switch (opcode) {
285	case 0x06: mnem = "clts"; break;
286	case 0x08: mnem = "invd"; break;
287	case 0x09: mnem = "wbinvd"; break;
288	case 0x0b: mnem = "ud2"; break;
289	case 0x30: mnem = "wrmsr"; break;
290	case 0x31: mnem = "rdtsc"; break;
291	case 0x32: mnem = "rdmsr"; break;
292	case 0x33: mnem = "rdpmc"; break;
293	case 0xa0: mnem = "push\tfs"; break;
294	case 0xa1: mnem = "pop\tfs"; break;
295	case 0xa2: mnem = "cpuid"; break;
296	case 0xa8: mnem = "push\tgs"; break;
297	case 0xa9: mnem = "pop\tgs"; break;
298	case 0xaa: mnem = "rsm"; break;
299
300	case 0xc8: case 0xc9: case 0xca: case 0xcb: case 0xcc: case 0xcd: case 0xce: case 0xcf:
301	mnem = "bswap"; sprintf(s, "%s", gp_reg[true][opcode & 7]); break;
302
303	default:
304	mnem = "?";
305	break;
306	}
307	}