kolibrios/programs/develop/cmm/disasm.cpp

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#include "tok.h"
#include "table.h"
#include <stdarg.h>
#define _DISASM_
/* Percent tokens in strings:
First char after '%':
A - direct address
C - reg of r/m picks control register
D - reg of r/m picks debug register
E - r/m picks operand
F - second operand for mmx instruction reg/mem
G - reg of r/m picks general register
I - immediate data
J - relative IP offset
+ K - call/jmp distance
L - first operand for mmx instruction
M - r/m picks memory
O - no r/m, offset only
R - mod of r/m picks register only
S - reg of r/m picks segment register
T - reg of r/m picks test register
X - DS:ESI
Y - ES:EDI
2 - prefix of two-byte opcode
+ e - put in 'e' if use32 (second char is part of reg name)
+ put in 'w' for use16 or 'd' for use32 (second char is 'w')
+ j - put in 'e' in jcxz if prefix==0x66
f - floating point (second char is esc value)
g - do r/m group 'n', n==0..7
p - prefix
s - size override (second char is a,o)
+ d - put d if double arg, nothing otherwise (pushfd, popfd &c)
+ w - put w if word, d if double arg, nothing otherwise (lodsw/lodsd)
+ P - simple prefix
Second char after '%':
a - two words in memory (BOUND)
b - byte
c - byte or word
d - dword
+ f - far call/jmp
+ n - near call/jmp
p - 32 or 48 bit pointer
+ q - byte/word thingy
s - six byte pseudo-descriptor
v - word or dword
w - word
+ x - sign extended byte
y - qword
F - use floating regs in mod/rm
M - use MMX regs
1-8 - group number, esc value, etc
m - no size memory operand
*/
/* watch out for aad && aam with odd operands */
char *opmap1[256]={
/* 0 */
"add %Eb,%Rb", "add %Ev,%Rv", "add %Rb,%Eb", "add %Rv,%Ev",
"add al,%Ib", "add %eax,%Iv", "push es", "pop es",
"or %Eb,%Rb", "or %Ev,%Rv", "or %Rb,%Eb", "or %Rv,%Ev",
"or al,%Ib", "or %eax,%Iv", "push cs", "%2 ",
/* 1 */
"adc %Eb,%Rb", "adc %Ev,%Rv", "adc %Rb,%Eb", "adc %Rv,%Ev",
"adc al,%Ib", "adc %eax,%Iv", "push ss", "pop ss",
"sbb %Eb,%Rb", "sbb %Ev,%Rv", "sbb %Rb,%Eb", "sbb %Rv,%Ev",
"sbb al,%Ib", "sbb %eax,%Iv", "push ds", "pop ds",
/* 2 */
"and %Eb,%Rb", "and %Ev,%Rv", "and %Rb,%Eb", "and %Rv,%Ev",
"and al,%Ib", "and %eax,%Iv", "%pe", "daa",
"sub %Eb,%Rb", "sub %Ev,%Rv", "sub %Rb,%Eb", "sub %Rv,%Ev",
"sub al,%Ib", "sub %eax,%Iv", "%pc", "das",
/* 3 */
"xor %Eb,%Rb", "xor %Ev,%Rv", "xor %Rb,%Eb", "xor %Rv,%Ev",
"xor al,%Ib", "xor %eax,%Iv", "%ps", "aaa",
"cmp %Eb,%Rb", "cmp %Ev,%Rv", "cmp %Rb,%Eb", "cmp %Rv,%Ev",
"cmp al,%Ib", "cmp %eax,%Iv", "%pd", "aas",
/* 4 */
"inc %eax", "inc %ecx", "inc %edx", "inc %ebx",
"inc %esp", "inc %ebp", "inc %esi", "inc %edi",
"dec %eax", "dec %ecx", "dec %edx", "dec %ebx",
"dec %esp", "dec %ebp", "dec %esi", "dec %edi",
/* 5 */
"push %eax", "push %ecx", "push %edx", "push %ebx",
"push %esp", "push %ebp", "push %esi", "push %edi",
"pop %eax", "pop %ecx", "pop %edx", "pop %ebx",
"pop %esp", "pop %ebp", "pop %esi", "pop %edi",
/* 6 */
"pusha%d ", "popa%d ", "bound %Rv,%Ma", "arpl %Ew,%Rw",
"%pf", "%pg", "%so", "%sa",
"push %Iv", "imul %Rv,%Ev,%Iv","push %Ix", "imul %Rv,%Ev,%Ib",
"insb", "ins%ew", "outsb", "outs%ew",
/* 7 */
"jo %Jb", "jno %Jb", "jc %Jb", "jnc %Jb",
"je %Jb", "jne %Jb", "jbe %Jb", "ja %Jb",
"js %Jb", "jns %Jb", "jpe %Jb", "jpo %Jb",
"jl %Jb", "jge %Jb", "jle %Jb", "jg %Jb",
/* 8 */
/* "%g0 %Eb,%Ib", "%g0 %Ev,%Iv", "%g0 %Ev,%Ib", "%g0 %Ev,%Ib", */
"%g0 %Eb,%Ib", "%g0 %Ev,%Iv", "%g0 %Ev,%Ix", "%g0 %Ev,%Ix",
"test %Eb,%Rb", "test %Ev,%Rv", "xchg %Eb,%Rb", "xchg %Ev,%Rv",
"mov %Eb,%Rb", "mov %Ev,%Rv", "mov %Rb,%Eb", "mov %Rv,%Ev",
"mov %Ew,%Sw", "lea %Rv,%M ", "mov %Sw,%Ew", "pop %Ev",
/* 9 */
"nop", "xchg %ecx,%eax", "xchg %edx,%eax", "xchg %ebx,%eax",
"xchg %esp,%eax", "xchg %ebp,%eax", "xchg %esi,%eax", "xchg %edi,%eax",
"cbw", "cwd", "call %Ap", "fwait",
"pushf%d ", "popf%d ", "sahf", "lahf",
/* a */
"mov al,%Oc", "mov %eax,%Ov", "mov %Oc,al", "mov %Ov,%eax",
"%P movsb", "%P movs%w", "%P cmpsb", "%P cmps%w ",
"test al,%Ib", "test %eax,%Iv", "%P stosb", "%P stos%w ",
"%P lodsb", "%P lods%w ", "%P scasb", "%P scas%w ",
/* b */
"mov al,%Ib", "mov cl,%Ib", "mov dl,%Ib", "mov bl,%Ib",
"mov ah,%Ib", "mov ch,%Ib", "mov dh,%Ib", "mov bh,%Ib",
"mov %eax,%Iv", "mov %ecx,%Iv", "mov %edx,%Iv", "mov %ebx,%Iv",
"mov %esp,%Iv", "mov %ebp,%Iv", "mov %esi,%Iv", "mov %edi,%Iv",
/* c */
"%g1 %Eb,%Ib", "%g1 %Ev,%Ib", "ret %Iw", "ret",
"les %Rv,%Mp", "lds %Rv,%Mp", "mov %Eb,%Ib", "mov %Ev,%Iv",
"enter %Iw,%Ib", "leave", "retf %Iw", "retf",
"int 03", "int %Ib", "into", "iret",
/* d */
"%g1 %Eb,1", "%g1 %Ev,1", "%g1 %Eb,cl", "%g1 %Ev,cl",
"aam ; %Ib", "aad ; %Ib", "setalc", "xlat",
/*#if 0
"esc 0,%Ib", "esc 1,%Ib", "esc 2,%Ib", "esc 3,%Ib",
"esc 4,%Ib", "esc 5,%Ib", "esc 6,%Ib", "esc 7,%Ib",
#else */
"%f0", "%f1", "%f2", "%f3",
"%f4", "%f5", "%f6", "%f7",
//#endif
/* e */
"loopne %Jb", "loope %Jb", "loop %Jb", "j%j cxz %Jb",
"in al,%Ib", "in %eax,%Ib", "out %Ib,al", "out %Ib,%eax",
"call %Jv", "jmp %Jv", "jmp %Ap", "jmp %Ks%Jb",
"in al,dx", "in %eax,dx", "out dx,al", "out dx,%eax",
/* f */
"lock %p ", 0, "repne %p ", "repe %p ",
"hlt", "cmc", "%g2", "%g2",
"clc", "stc", "cli", "sti",
"cld", "std", "%g3", "%g4"
};
char *second[] = {
/* 0 */
"%g5", "%g6", "lar %Rv,%Ew", "lsl %Rv,%Ew",
0, "loadall", "clts", "loadall",
"invd", "wbinvd", 0, "ud2",
0, 0, 0, 0,
/* 1 */
"movups %RX,%EX", "movups %Md,%RX", "%x0", "movlps %Md,%RX",
"unpcklps %RX,%EX", "unpckhps %RX,%EX","%x1", "movhps %Md,%RX",
"%g7", 0, 0, 0,
0, 0, 0, 0,
/* 2 */
"mov %Ed,%Cd", "mov %Ed,%Dd", "mov %Cd,%Ed", "mov %Dd,%Ed",
"mov %Ed,%Td", 0, "mov %Td,%Ed", 0,
"movaps %RX,%EX", "movaps %Md,%RX", "cvtpi2ps %RX,%EM","movntps %Md,%RX",
"cvttps2pi %RM,%EX","cvtps2pi %RM,%EX","ucomiss %RX,%EX", "comiss %RX,%EX",
/* 3 */
"wrmsr", "rdtsc", "rdmsr", "rdpmc", "sysenter", "sysexit", 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
/* 4 */
"cmovo %Rv,%Ev", "cmovno %Rv,%Ev", "cmovc %Rv,%Ev", "cmovnc %Rv,%Ev",
"cmovz %Rv,%Ev", "cmovnz %Rv,%Ev", "cmovbe %Rv,%Ev", "cmovnbe %Rv,%Ev",
"cmovs %Rv,%Ev", "cmovns %Rv,%Ev", "cmovp %Rv,%Ev", "cmovnp %Rv,%Ev",
"cmovl %Rv,%Ev", "cmovge %Rv,%Ev", "cmovle %Rv,%Ev", "cmovg %Rv,%Ev",
/* 5 */
"movmskps %Rd,%GX", "sqrtps %RX,%EX", "rsqrtps %RX,%EX", "rcpps %RX,%EX",
"andps %RX,%EX", "andnps %RX,%EX", "orps %RX,%EX", "xorps %RX,%EX",
"addps %RX,%EX", "mulps %RX,%EX", "cvtps2pd %RX,%EX","cvtdq2ps %RX,%EX",
"subps %RX,%EX", "minps %RX,%EX", "divps %RX,%EX", "maxps %RX,%EX",
/* 6 */
"punpcklbw %RM,%EM", "punpcklwd %RM,%EM", "punpckldq %RM,%EM", "packsswb %RM,%EM",
"pcmpgtb %RM,%EM", "pcmpgtw %RM,%EM", "pcmpgtd %RM,%EM", "packuswb %RM,%EM",
"punpckhbw %RM,%EM", "punpckhwd %RM,%EM", "punpckhdq %RM,%EM", "packssdw %RM,%EM",
0, 0, "movd %RM,%Md", "movq %RM,%EM",
/* 7 */
"pshufw %LM,%FM,%Ib","%g3w %EM,%Ib", "%g3d %EM,%Ib", "%g3q %EM,%Ib",
"pcmpeqb %RM,%EM", "pcmpeqw %RM,%EM", "pcmpeqd %RM,%EM", "emms",
0, 0, 0, 0,
0, 0, "movd %Md,%RM", "movq %Md,%RM",
/* 8 */
"jo %Jv", "jno %Jv", "jb %Jv", "jnb %Jv",
"jz %Jv", "jnz %Jv", "jbe %Jv", "ja %Jv",
"js %Jv", "jns %Jv", "jp %Jv", "jnp %Jv",
"jl %Jv", "jge %Jv", "jle %Jv", "jg %Jv",
/* 9 */
"seto %Eb", "setno %Eb", "setc %Eb", "setnc %Eb",
"setz %Eb", "setnz %Eb", "setbe %Eb", "setnbe %Eb",
"sets %Eb", "setns %Eb", "setp %Eb", "setnp %Eb",
"setl %Eb", "setge %Eb", "setle %Eb", "setg %Eb",
/* a */
"push fs", "pop fs", "cpuid", "bt %Ev,%Rv",
"shld %Ev,%Rv,%Ib", "shld %Ev,%Rv,cl", 0, 0,
"push gs", "pop gs", "rsm", "bts %Ev,%Rv",
"shrd %Ev,%Rv,%Ib", "shrd %Ev,%Rv,cl", "%g8", "imul %Rv,%Ev",
/* b */
"cmpxchg %Eb,%Rb", "cmpxchg %Ev,%Rv", "lss %Rv,%Mp", "btr %Ev,%Rv",
"lfs %Rv,%Mp", "lgs %Rv,%Mp", "movzx %Rv,%Eb", "movzx %Rv,%Ew",
0, 0, "%g7 %Ev,%Ib", "btc %Ev,%Rv",
"bsf %Rv,%Ev", "bsr %Rv,%Ev", "movsx %Rv,%Eb", "movsx %Rv,%Ew",
/* c */
"xadd %Eb,%Rb", "xadd %Ev,%Rv", "cmpps %RX,%EX,%Ib","movnti %Md,%Rd",
"pinsrw %LM,%Fd,%Ib","pextrw %Gd,%RM,%Ib","shufps %RX,%EX,%Ib","cmpxchg8b %Myv",
"bswap eax", "bswap ecx", "bswap edx", "bswap ebx",
"bswap esp", "bswap ebp", "bswap esi", "bswap edi",
/* d */
0, "psrlw %RM,%EM", "psrld %RM,%EM", "psrlq %RM,%EM",
"paddq %RM,%EM", "pmullw %RM,%EM", 0, "pmovmskb %Rd,%GM",
"psubusb %RM,%EM", "psubusw %RM,%EM", "pminub %RM,%EM", "pand %RM,%EM",
"paddusb %RM,%EM", "paddusw %RM,%EM", "pmaxub %RM,%EM", "pandn %RM,%EM",
/* e */
"pavgb %RM,%EM", "psraw %RM,%EM", "psrad %RM,%EM", "pavgw %RM,%EM",
"pmulhuw %RM,%EM", "pmulhw %RM,%EM", 0, "movntq %Myv,%RM",
"psubsb %RM,%EM", "psubsw %RM,%EM", "pminsw %RM,%EM", "por %RM,%EM",
"paddsb %RM,%EM", "paddsw %RM,%EM", "pmaxsw %RM,%EM", "pxor %RM,%EM",
/* f */
0, "psllw %RM,%EM", "pslld %RM,%EM", "psllq %RM,%EM",
"pmuludq %RM,%EM", "pmaddwd %RM,%EM", "psadbw %RM,%EM", "maskmovq %GM,%RM",
"psubb %RM,%EM", "psubw %RM,%EM", "psubd %RM,%EM", "psubq %RM,%EM",
"paddb %RM,%EM", "paddw %RM,%EM", "paddd %RM,%EM", 0
};
char *second_f30f[]={
// 0
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 1
"movss %RX,%EX","movss %Md,%RX","movsldup %RX,%MX",0,
0,0,"movshdup %RX,%MX",0,
0,0,0,0,0,0,0,0,
// 2
0,0,0,0,
0,0,0,0,
0, 0, "cvtsi2ss %RX,%Ed",0,
"cvttss2si %Rd,%EX","cvtss2si %Rd,%EX",0, 0,
// 3
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 4
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 5
0, "sqrtss %RX,%EX","rsqrtss %RX,%EX", "rcpss %RX,%EX",
0, 0, 0, 0,
"addss %RX,%EX","mulss %RX,%EX", "cvtss2sd %RX,%EX","cvttps2dq %RX,%EX",
"subss %RX,%EX","minss %RX,%EX", "divss %RX,%EX", "maxss %RX,%EX",
// 6
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,"movdqu %RX,%EX",
// 7
"pshufhw %RX,%EX,%Ib",0,0,0,
0,0,0,0,
0,0,0,0,
0,0,"movq %RX,%EX","movdqu %Md,%RX",
// 8
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 9
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// a
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// b
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// c
0,0,"cmpss %RX,%EX,%Ib",0,
0,0,0, 0,
0,0,0, 0,
0,0,0, 0,
// d
0,0,0,0,
0,0,"movq2dq RX,RM",0,
0,0,0,0,0,0,0,0,
// e
0,0,0,0,
0,0,"cvtdq2pd %RX,%EX",0,
0,0,0,0,0,0,0,0,
// f
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0
};
char *second_f20f[]={
// 0
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 1
"movsd %RX,%Md","movsd %Md,%RX","movddup %RX,%MX",0,
0,0,0,0,
0,0,0,0,0,0,0,0,
// 2
0,0,0,0,
0,0,0,0,
0,0,"cvtsi2sd %RX,%Md",0,
"cvttsd2si %Rd,%EX","cvtsd2si %Rd,%EX",0,0,
// 3
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 4
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 5
0,"sqrtsd %RX,%EX",0,0,
0,0,0,0,
"addsd %RX,%EX","mulsd %RX,%MX","cvtsd2ss %RX,%EX",0,
"subsd %RX,%EX","minsd %RX,%EX","divsd %RX,%EX","maxsd %RX,%EX",
// 6
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 7
"pshuflw %RX,%EX,%Ib",0,0,0,
0,0,0,0,
0,0,0,0,
"haddps %RX,%EX","hsubps %RX,%EX",0,0,
// 8
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 9
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// a
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// b
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// c
0,0,"cmpsd %RX,%EX,%Ib",0,
0,0,0,0,
0,0,0,0,
0,0,0,0,
// d
"addsubps %RX,%EX",0,0,0,
0,0,"movdq2q %RM,%RX",0,
0,0,0,0,
0,0,0,0,
// e
0,0,0,0,
0,0,"cvtpd2dq %RX,%EX",0,
0,0,0,0,0,0,0,0,
// f
"lddqu %Md,%RX",0,0,0,
0,0,0,0,
0,0,0,0,
0,0,0,0
};
const char *second_660f[]={
// 0
0,0,0,0,
0,0,0,0,
0,0,0,0,
0,0,0,0,
// 1
"movupd %RX,%Md","movupd %Md,%RX","movlpd %RX,%Md","movlpd %Md,%RX",
"unpcklpd %RX,%EX","unpckhpd %RX,%EX","movhpd %RX,%Md","movhpd %Md,%RX",
0,0,0,0,
0,0,0,0,
// 2
0,0,0,0,
0,0,0,0,
"movapd %RX,%EX", "movapd %Md,%RX", "cvtpi2pd %RX,%EM","movntpd %Md,%RX",
"cvttpd2pi %RM,%EX","cvtpd2pi %RM,%EX","ucomisd %RX,%EX","comisd %RX,%EX",
// 3
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 4
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 5
"movmskpd %Rd,%GX","sqrtpd %RX,%EX",0,0,
"andpd %RX,%EX","andnpd %RX,%EX","orpd %RX,%MX","xorpd %RX,%EX",
"addpd %RX,%EX","mulpd %RX,%MX","cvtpd2ps %RX,%EX","cvtps2dq %RX,%EX",
"subpd %RX,%EX","minpd %RX,%EX","divpd %RX,%EX","maxpd %RX,%EX",
// 6
"punpcklbw %RX,%EX", "punpcklwd %RX,%EX", "punpckldq %RX,%EX","packsswb %RX,%EX",
"pcmpgtb %RX,%EX", "pcmpgtw %RX,%EX", "pcmpgtd %RX,%EX", "packuswb %RX,%EX",
"punpckhbw %RX,%EX", "punpckhwd %RX,%EX", "punpckhdq %RX,%EX","packssdw %RX,%EX",
"punpcklqdq %RX,%EX","punpckhqdq %RX,%EX","movd %RX,%Md", "movdqa %RX,%EX",
// 7
"pshufd %RX,%EX,%Ib","%g3w %EX,%Ib", "%g3d %EX,%Ib","%g9",
"pcmpeqb %RX,%EX", "pcmpeqw %RX,%EX", "pcmpeqd %RX,%EX",0,
0,0,0,0,
"haddpd %RX,%EX","hsubpd %RX,%EX","movd %Md,%RX","movdqa %Md,%RX",
// 8
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// 9
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// a
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// b
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
// c
0,0,"cmppd %RX,%EX,%Ib",0,
"pinsrw %LX,%Fd,%Ib","pextrw %Gd,%RX,%Ib","shufpd %RX,%EX,%Ib",0,
0,0,0,0,
0,0,0,0,
// d
"addsubpd %RX,%EX","psrlw %RX,%EX", "psrld %RX,%EX", "psrlq %RX,%EX",
"paddq %RX,%EX", "pmullw %RX,%EX", "movq %Md,%RX", "pmovmskb %Rd,%GX",
"psubusb %RX,%EX", "psubusw %RX,%EX","pminub %RX,%EX","pand %RX,%EX",
"paddusb %RX,%EX", "paddusw %RX,%EX","pmaxub %RX,%EX","pandn %RX,%EX",
// e
"pavgb %RX,%EX", "psraw %RX,%EX", "psrad %RX,%EX", "pavgw %RX,%EX",
"pmulhuw %RX,%EX", "pmulhw %RX,%EX","cvttpd2dq %RX,%EX","movntdq %Md,%RX",
"psubsb %RX,%EX", "psubsw %RX,%EX","pminsw %RX,%EX", "por %RX,%EX",
"paddsb %RX,%EX", "paddsw %RX,%EX","pmaxsw %RX,%EX", "pxor %RX,%EX",
// f
0, "psllw %RX,%EX", "pslld %RX,%EX", "psllq %RX,%EX",
"pmuludq %RX,%EX", "pmaddwd %RX,%EX","psadbw %RX,%EX","maskmovdqu %RX,%RX",
"psubb %RX,%EX", "psubw %RX,%EX", "psubd %RX,%EX", "psubq %RX,%EX",
"paddb %RX,%EX", "paddw %RX,%EX", "paddd %RX,%EX", 0
};
char *groups[][8] = { /* group 0 is group 3 for %Ev set */
/* 0 */
{ "add", "or", "adc", "sbb",
"and", "sub", "xor", "cmp" },
/* 1 */
{ "rol", "ror", "rcl", "rcr",
"shl", "shr", "shl", "sar" },
/* 2 */ /* v v*/
{ "test %Eq,%Iq", 0/*"test %Eq,%Iq"*/, "not %Ec", "neg %Ec",
"mul %Ec", "imul %Ec", "div %Ec", "idiv %Ec" },
/* 3 */
{ "inc %Eb", "dec %Eb", "psrl", 0,
"psra", 0, "psll", 0 },
/* 4 */
{ "inc %Ev", "dec %Ev", "call %Kn%Ev", "call %Kf%Ep",
"jmp %Kn%Ev", "jmp %Kf%Ep", "push %Ev", 0 },
/* 5 */
{ "sldt %Ew", "str %Ew", "lldt %Ew", "ltr %Ew",
"verr %Ew", "verw %Ew", 0, 0 },
/* 6 */
{ "sgdt %Ms", "sidt %Ms", "lgdt %Ms", "lidt %Ms",
"smsw %Ew", 0, "lmsw %Ew", "invlpg %Em" },
/* 7 */
{ "prefetchnta %Em","prefetcht0 %Em", "prefetcht1 %Em", "prefetcht2 %Em",
"bt", "bts", "btr", "btc" },
/* 8 */
{ "fxsave %Em", "fxrstor %Em", "ldmxcsr %Em", "stmxcsr %Em",
0, "lfence", "mfence", "%x2" },
/* 9 */
{
0,0,"psrlq %RX,%Ib","psrldq %RX,%Ib",
0,0,"psllq %RX,%Ib","pslldq %RX,%Ib"
}
};
/* zero here means invalid. If first entry starts with '*', use st(i) */
/* no assumed %EFs here. Indexed by RM(modrm()) */
char *f0[] = { 0, 0, 0, 0, 0, 0, 0, 0};
char *fop_9[] = { "*fxch st,%GF",0,0,0,0,0,0,0 };
char *fop_10[] = { "fnop", 0, 0, 0, 0, 0, 0, 0 };
char *fop_12[] = { "fchs", "fabs", 0, 0, "ftst", "fxam", 0, 0 };
char *fop_13[] = { "fld1", "fldl2t", "fldl2e", "fldpi",
"fldlg2", "fldln2", "fldz", 0 };
char *fop_14[] = { "f2xm1", "fyl2x", "fptan", "fpatan",
"fxtract", "fprem1", "fdecstp", "fincstp" };
char *fop_15[] = { "fprem", "fyl2xp1", "fsqrt", "fsincos",
"frndint", "fscale", "fsin", "fcos" };
char *fop_21[] = { 0, "fucompp", 0, 0, 0, 0, 0, 0 };
char *fop_28[] = { "fneni", "fndisi", "fnclex", "fninit", "fnsetpm", 0, 0, 0 };
char *fop_32[] = { "*fadd %GF,st",0,0,0,0,0,0,0 };
char *fop_33[] = { "*fmul %GF,st",0,0,0,0,0,0,0 };
char *fop_36[] = { "*fsubr %GF,st",0,0,0,0,0,0,0 };
char *fop_37[] = { "*fsub %GF,st",0,0,0,0,0,0,0 };
char *fop_38[] = { "*fdivr %GF,st",0,0,0,0,0,0,0 };
char *fop_39[] = { "*fdiv %GF,st",0,0,0,0,0,0,0 };
char *fop_40[] = { "*ffree %GF",0,0,0,0,0,0,0 };
char *fop_42[] = { "*fst %GF",0,0,0,0,0,0,0 };
char *fop_43[] = { "*fstp %GF",0,0,0,0,0,0,0 };
char *fop_44[] = { "*fucom %GF",0,0,0,0,0,0,0 };
char *fop_45[] = { "*fucomp %GF",0,0,0,0,0,0,0 };
char *fop_48[] = { "*faddp %GF,st",0,0,0,0,0,0,0 };
char *fop_49[] = { "*fmulp %GF,st",0,0,0,0,0,0,0 };
char *fop_51[] = { 0, "fcompp", 0, 0, 0, 0, 0, 0 };
char *fop_52[] = { "*fsubrp %GF,st",0,0,0,0,0,0,0 };
char *fop_53[] = { "*fsubp %GF,st",0,0,0,0,0,0,0 };
char *fop_54[] = { "*fdivrp %GF,st",0,0,0,0,0,0,0 };
char *fop_55[] = { "*fdivp %GF,st",0,0,0,0,0,0,0 };
char *fop_60[] = { "fnstsw ax", 0, 0, 0, 0, 0, 0, 0 };
char *fop_16[]={"*fcmovb st,%GF",0,0,0,0,0,0,0};
char *fop_17[]={"*fcmove st,%GF",0,0,0,0,0,0,0};
char *fop_18[]={"*fcmovbe st,%GF",0,0,0,0,0,0,0};
char *fop_19[]={"*fcmovu st,%GF",0,0,0,0,0,0,0};
char *fop_24[]={"*fcmovnb st,%GF",0,0,0,0,0,0,0};
char *fop_25[]={"*fcmovne st,%GF",0,0,0,0,0,0,0};
char *fop_26[]={"*fcmovnbe st,%GF",0,0,0,0,0,0,0};
char *fop_27[]={"*fcmovnu st,%GF",0,0,0,0,0,0,0};
char *fop_29[]={"*fucomi st,%GF",0,0,0,0,0,0,0};
char *fop_30[]={"*fcomi st,%GF",0,0,0,0,0,0,0};
char *fop_61[]={"*fucomip st,%GF",0,0,0,0,0,0,0};
char *fop_62[]={"*fcomip st,%GF",0,0,0,0,0,0,0};
char **fspecial[] = { /* 0=use st(i), 1=undefined 0 in fop_* means undefined */
0, 0, 0, 0, 0, 0, 0, 0,
0, fop_9, fop_10, 0, fop_12, fop_13, fop_14, fop_15,
fop_16, fop_17, fop_18, fop_19, f0, fop_21, f0, f0,
fop_24, fop_25, fop_26, fop_27, fop_28, fop_29, fop_30, f0,
fop_32, fop_33, f0, f0, fop_36, fop_37, fop_38, fop_39,
fop_40, f0, fop_42, fop_43, fop_44, fop_45, f0, f0,
fop_48, fop_49, f0, fop_51, fop_52, fop_53, fop_54, fop_55,
f0, f0, f0, f0, fop_60, fop_61, fop_62, f0
};
char *floatops[] = { /* assumed " %EF" at end of each. mod != 3 only */
/*00*/ "fadd", "fmul", "fcom", "fcomp",
"fsub", "fsubr", "fdiv", "fdivr",
/*08*/ "fld", 0, "fst", "fstp",
"fldenv", "fldcw", "fnstenv", "fnstcw",
/*16*/ "fiadd", "fimul", "ficomw", "ficompw",
"fisub", "fisubr", "fidiv", "fidivr",
/*24*/ "fild", 0, "fist", "fistp",
"frstor", "fldt", 0, "fstpt",
/*32*/ "faddq", "fmulq", "fcomq", "fcompq",
"fsubq", "fsubrq", "fdivq", "fdivrq",
/*40*/ "fldq", 0, "fstq", "fstpq",
0, 0, "fnsave", "fnstsw",
/*48*/ "fiaddw", "fimulw", "ficomw", "ficompw",
"fisubw", "fisubrw", "fidivw", "fidivr",
/*56*/ "fildw", 0, "fistw", "fistpw",
"fbldt", "fildq", "fbstpt", "fistpq"
};
/* variables controlled by command line flags */
unsigned char seg_size=16; /* default size is 16 */
unsigned char must_do_size;
unsigned int wordop,qwordop; /* dealing with word or byte operand */
unsigned long instruction_offset;
unsigned short done_space; /* for opcodes with > one space */
char ubuf[100],*ubufp;
int col; /* output column */
unsigned int prefix; /* segment override prefix byte */
unsigned int modrmv; /* flag for getting modrm byte */
unsigned int sibv; /* flag for getting sib byte */
unsigned int opsize; /* just like it says ... */
unsigned int addrsize;
void printbyte(unsigned char c)
{
if(c<10)uprintf("%u",(unsigned char)c);
else if(c<16||c>0x9F)uprintf("0%Xh",(unsigned char)c);
else uprintf("%Xh",(unsigned char)c);
}
void printword(unsigned short c)
{
if(c<256)printbyte(c);
else if(c<0xA00||(c>0xFFF&&c<0xA000))uprintf("%Xh",c);
else uprintf("0%Xh",c);
}
void printdword(unsigned int c)
{
if(c<65536)printword((unsigned short)c);
else if(c<0xA0000L||(c>0xFFFFFL&&c<0xA00000L)||(c>0xFFFFFFL&&c<0xA000000L)||
(c>0xFFFFFFFL&&c<0xA0000000L))uprintf("%lXh",c);
else uprintf("0%lXh",c);
}
void addr_to_hex(long addr, unsigned char splitup)
{
static char buffer[25];
WORD32 adr;
adr.dword=addr;
if(splitup){
if(adr.w.seg==0/*||adr.w.seg==0xffff*/)printword(adr.w.ofs);//sprintf(buffer,"%04Xh",adr.w.ofs);
else{
sprintf(buffer,"%04Xh:%04Xh",adr.w.seg,adr.w.ofs);
uprintf("%s",buffer);
}
}
else{
if(adr.w.seg==0/*||adr.w.seg==0xffff*/)printword(adr.w.ofs);//sprintf(buffer,"%04Xh",adr.w.ofs);
else printdword(addr);//sprintf(buffer, "%08lXh",addr);
}
}
unsigned char getbyte(void)
{
short c;
c=output[outptr++];
fprintf(hout,"%02X", c); /* print out byte */
col+=2;
instruction_offset++;
return c;
}
int modrm()
{
if (modrmv == -1) modrmv = getbyte();
return modrmv;
}
int sib()
{
if (sibv == -1) sibv = getbyte();
return sibv;
}
/*------------------------------------------------------------------------*/
void uprintf(char *s, ...)
{
va_list argptr;
va_start(argptr,s);
vsprintf(ubufp,s,argptr);
va_end(argptr);
while (*ubufp) ubufp++;
}
void uputchar(char c)
{
if (c == '\t') {
if(done_space)uputchar(' ');
else {
done_space=1;
do {
*ubufp++ = ' ';
} while ((ubufp-ubuf) % 8);
}
}
else *ubufp++ = c;
*ubufp = 0;
}
/*------------------------------------------------------------------------*/
int bytes(char c)
{
switch (c){
case 'b': return 1;
case 'w': return 2;
case 'd': return 4;
case 'v':
if (opsize == 32) return 4;
else return 2;
}
return 0;
}
/*------------------------------------------------------------------------*/
void outhex(char subtype, int extend, int optional, int defsize, int sign)
{
int n=0, s=0, i;
long delta;
unsigned char buff[6];
//char *name;
char signchar;
switch (subtype) {
case 'q':
if (wordop) {
if (opsize==16) n = 2;
else n = 4;
}
else n = 1;
break;
case 'a': break;
case 'x':
extend = defsize/8;//2;
n = 1;
break;
case 'b':
n = 1;
break;
case 'w':
n = 2;
break;
case 'd':
n = 4;
break;
case 's':
n = 6;
break;
case 'c':
case 'v':
if (defsize == 32) n = 4;
else n = 2;
break;
case 'p':
if (defsize == 32) n = 6;
else n = 4;
s = 1;
break;
}
for (i=0; i<n; i++) buff[i] = getbyte();
for(;i<extend;i++)buff[i]=(buff[i-1]&0x80)?(unsigned char)0xff:(unsigned char)0;
if (s) {
uprintf("%02X%02X:", buff[n-1], buff[n-2]);
n -= 2;
}
switch (n) {
case 1:
delta = *(signed char *)buff;
break;
case 2:
delta = *(signed short *)buff;
break;
case 4:
delta = *(signed long *)buff;
break;
}
if (extend > n) {
if (subtype!='x') {
if ((long)delta<0) {
delta = -delta;
signchar = '-';
}
else signchar = '+';
if (delta || !optional){
uprintf("%c",signchar);
printdword(delta);
// uprintf("%c%0*lXh", signchar, extend+1, delta);
}
}
else {
if (extend==2)
delta = (unsigned short) delta;
printdword(delta);
// uprintf("%0.*lXh", 2*extend+1, delta);
}
return;
}
if ((n == 4) && !sign) {
addr_to_hex(delta, 0);
return;
}
switch (n) {
case 1:
if (sign && (char)delta<0) {
delta = -delta;
signchar = '-';
}
else signchar = '+';
if(sign)uprintf("%c",signchar);
printbyte((unsigned char)delta);
// if (sign)uprintf("%c%03Xh",signchar,(unsigned char)delta);
// else uprintf("%03Xh", (unsigned char)delta);
break;
case 2:
if (sign && (int)delta<0) {
signchar = '-';
delta = -delta;
}
else signchar = '+';
if(sign)uprintf("%c",signchar);
printword((unsigned short)delta);
// if (sign) uprintf("%c%05Xh", signchar,(int)delta);
// else uprintf("%05Xh", (unsigned int)delta);
break;
case 4:
if (sign && (long)delta<0) {
delta = -delta;
signchar = '-';
}
else signchar = '+';
if(sign)uprintf("%c",signchar);
printdword(delta);
// if (sign)uprintf("%c%09lXh", signchar, (unsigned long)delta);
// else uprintf("%09lXh", (unsigned long)delta);
break;
}
}
/*------------------------------------------------------------------------*/
void reg_name(int regnum, char size)
{
if (size == 'F') { /* floating point register? */
uprintf("st(%d)", regnum);
return;
}
if (size == 'M') { /* multimedia register? */
uprintf("mm%d", regnum);
return;
}
if(size=='X'){ /* xmm register? */
uprintf("xmm%d",regnum);
return;
}
if (((size == 'v') && (opsize == 32)) ||
(size == 'd')||
((size=='c'||size=='q')&&wordop&&opsize==32)
) uputchar('e');
// printf("size=%c wordop=%d opsize=%d\n",size,wordop,opsize);
if(size=='b'||((size=='q'||size=='c')&&!wordop)){
uputchar("acdbacdb"[regnum]);
uputchar("llllhhhh"[regnum]);
}
else {
uputchar("acdbsbsd"[regnum]);
uputchar("xxxxppii"[regnum]);
}
}
/*------------------------------------------------------------------------*/
void do_sib(int m)
{
int s, i, b;
s = SCALE(sib());
i = INDEX(sib());
b = BASE(sib());
switch (b) { /* pick base */
case 0: ua_str("%p:[eax"); break;
case 1: ua_str("%p:[ecx"); break;
case 2: ua_str("%p:[edx"); break;
case 3: ua_str("%p:[ebx"); break;
case 4: ua_str("%p:[esp"); break;
case 5:
if (m == 0) {
ua_str("%p:[");
outhex('d', 4, 0, addrsize, 0);
}
else ua_str("%p:[ebp");
break;
case 6: ua_str("%p:[esi"); break;
case 7: ua_str("%p:[edi"); break;
}
switch (i) { /* and index */
case 0: uprintf("+eax"); break;
case 1: uprintf("+ecx"); break;
case 2: uprintf("+edx"); break;
case 3: uprintf("+ebx"); break;
case 4: break;
case 5: uprintf("+ebp"); break;
case 6: uprintf("+esi"); break;
case 7: uprintf("+edi"); break;
}
if (i != 4) {
switch (s) { /* and scale */
case 0: uprintf(""); break;
case 1: uprintf("*2"); break;
case 2: uprintf("*4"); break;
case 3: uprintf("*8"); break;
}
}
}
/*------------------------------------------------------------------------*/
void do_modrm(char subtype)
{
int mod = MOD(modrm());
int rm = RM(modrm());
int extend = (addrsize == 32) ? 4 : 2;
if (mod == 3) { /* specifies two registers */
reg_name(rm, subtype);
return;
}
if (must_do_size) {
if(qwordop)ua_str("qword ptr ");
else{
if (wordop) {
if (/*addrsize==32 ||*/ opsize==32) { /* then must specify size */
ua_str("dword ptr ");
}
else ua_str("word ptr ");
}
else ua_str("byte ptr ");
}
}
if ((mod == 0) && (rm == 5) && (addrsize == 32)) {/* mem operand with 32 bit ofs */
ua_str("%p:[");
outhex('d', extend, 0, addrsize, 0);
uputchar(']');
return;
}
if ((mod == 0) && (rm == 6) && (addrsize == 16)) { /* 16 bit dsplcmnt */
ua_str("%p:[");
outhex('w', extend, 0, addrsize, 0);
uputchar(']');
return;
}
if ((addrsize != 32) || (rm != 4)) ua_str("%p:[");
if (addrsize == 16) {
switch (rm) {
case 0: uprintf("bx+si"); break;
case 1: uprintf("bx+di"); break;
case 2: uprintf("bp+si"); break;
case 3: uprintf("bp+di"); break;
case 4: uprintf("si"); break;
case 5: uprintf("di"); break;
case 6: uprintf("bp"); break;
case 7: uprintf("bx"); break;
}
}
else {
switch (rm) {
case 0: uprintf("eax"); break;
case 1: uprintf("ecx"); break;
case 2: uprintf("edx"); break;
case 3: uprintf("ebx"); break;
case 4: do_sib(mod); break;
case 5: uprintf("ebp"); break;
case 6: uprintf("esi"); break;
case 7: uprintf("edi"); break;
}
}
switch (mod) {
case 1:
outhex('b', extend, 1, addrsize, 0);
break;
case 2:
outhex('v', extend, 1, addrsize, 1);
break;
}
uputchar(']');
}
/*------------------------------------------------------------------------*/
void floating_point(int e1)
{
int esc = e1*8 + REG(modrm());
if(MOD(modrm())==3){ //2-\89 \81\80\89\92>C0
if (fspecial[esc]) {
if (fspecial[esc][0]!=NULL&&fspecial[esc][0][0] == '*')ua_str(fspecial[esc][0]+1);
else ua_str(fspecial[esc][RM(modrm())]);
}
else {
ua_str(floatops[esc]);
ua_str(" %EF");
}
}
else {
ua_str(floatops[esc]);
ua_str(" %EF");
}
}
/*------------------------------------------------------------------------*/
/* Main table driver */
void percent(char type, char subtype)
{
long vofs;
int extend =(addrsize==32)?4:2;
unsigned char c;
switch (type) {
case 'A': /* direct address */
outhex(subtype,extend,0,addrsize,0);
break;
case 'C': /* reg(r/m) picks control reg */
uprintf("CR%d",REG(modrm()));
must_do_size=0;
break;
case 'D': /* reg(r/m) picks debug reg */
uprintf("DR%d", REG(modrm()));
must_do_size = 0;
break;
case 'E': /* r/m picks operand */
if(subtype=='m')must_do_size=0;
do_modrm(subtype);
break;
case 'F':
if(MOD(modrm())!=3)do_modrm(subtype);
else reg_name(REG(modrm()),subtype);
break;
case 'G': /* reg(r/m) picks register */
/* if (subtype == 'F'||subtype == 'M')
reg_name(RM(modrm()), subtype);
else reg_name(REG(modrm()), subtype);*/
reg_name(RM(modrm()),subtype);
must_do_size = 0;
break;
case 'I': /* immed data */
outhex(subtype, 0, 0, opsize, 0);
break;
case 'J': /* relative IP offset */
switch(bytes(subtype)) { /* sizeof offset value */
case 1:
vofs=(signed char)getbyte();
break;
case 2:
vofs = getbyte();
vofs += getbyte()<<8;
vofs = (short)vofs;
break;
case 4:
vofs = (unsigned long)getbyte(); /* yuk! */
vofs |= (unsigned long)getbyte() << 8;
vofs |= (unsigned long)getbyte() << 16;
vofs |= (unsigned long)getbyte() << 24;
break;
}
addr_to_hex(vofs+instruction_offset,seg_size==16?(unsigned char)1:(unsigned char)0);
break;
case 'K':
if(seg_size==16){
switch(subtype){
case 'f':
ua_str("far ");
break;
case 'n':
ua_str("near ");
break;
case 's':
ua_str("short ");
break;
}
}
else if(subtype=='s')ua_str("short ");
break;
case 'L':
if(MOD(modrm())!=3)reg_name(REG(modrm()),subtype);
else reg_name(RM(modrm()),subtype);
break;
case 'M': /* r/m picks memory */
do_modrm(subtype);
break;
case 'O': /* offset only */
ua_str("%p:[");
outhex(subtype, extend, 0, addrsize, 0);
uputchar(']');
break;
case 'P': /* prefix byte (rh) */
ua_str("%p:");
break;
case 'R': /* mod(r/m) picks register */
reg_name(REG(modrm()), subtype); /* rh */
must_do_size = 0;
break;
case 'S': /* reg(r/m) picks segment reg */
uputchar("ecsdfg"[REG(modrm())]);
uputchar('s');
must_do_size = 0;
break;
case 'T': /* reg(r/m) picks T reg */
uprintf("tr%d", REG(modrm()));
must_do_size = 0;
break;
case 'X': /* ds:si type operator */
uprintf("ds:[");
if (addrsize == 32) uputchar('e');
uprintf("si]");
break;
case 'Y': /* es:di type operator */
uprintf("es:[");
if (addrsize == 32) uputchar('e');
uprintf("di]");
break;
case '2':
c=getbyte(); /* old [pop cs]! now indexes */
wordop = c & 1;
ua_str(second[c]); /* instructions in 386/486 */
break;
case 'd': /* sizeof operand==dword? */
if (opsize == 32) uputchar('d');
uputchar(subtype);
break;
case 'e': /* extended reg name */
if (opsize == 32) {
if (subtype == 'w')uputchar('d');
else {
uputchar('e');
uputchar(subtype);
}
}
else uputchar(subtype);
break;
case 'f': /* '87 opcode */
floating_point(subtype-'0');
break;
case 'j':
if (/*addrsize==32 ||*/ opsize==32) /* both of them?! */
uputchar('e');
break;
case 'g': /* modrm group `subtype' (0--7) */
switch(subtype){
case '9':
vofs=REG(modrm());
modrmv=(modrmv&0xC7)|((modrmv&7)<<3);
ua_str(groups[9][vofs]);
break;
case '6':
if(MOD(modrm())!=3)goto defg;
switch(modrmv){
case 0xc8:
ua_str("monitor");
break;
case 0xc9:
ua_str("mwait");
break;
default:
uprintf("<invalid>");
break;
}
break;
case '5':
opsize=16;
case '7':
wordop=1;
default:
defg:
ua_str(groups[subtype-'0'][REG(modrm())]);
break;
}
break;
case 'p': /* prefix byte */
switch (subtype) {
case 'c':
case 'd':
case 'e':
case 'f':
case 'g':
case 's':
prefix = subtype;
c = getbyte();
wordop = c & 1;
ua_str(opmap1[c]);
break;
case ':':
if (prefix) uprintf("%cs:", prefix);
break;
case ' ':
c = getbyte();
wordop = c & 1;
ua_str(opmap1[c]);
break;
}
break;
case 's': /* size override */
switch (subtype) {
case 'a':
addrsize = 48 - addrsize;
c = getbyte();
wordop = c & 1;
ua_str(opmap1[c]);
break;
case 'o':
opsize = 48 - opsize;
c = getbyte();
wordop = c & 1;
ua_str(opmap1[c]);
break;
}
break;
case 'w': /* insert explicit size specifier */
if (opsize == 32)uputchar('d');
else uputchar('w');
uputchar(subtype);
break;
case 'x':
if(MOD(modrm())==3){
switch(subtype-'0'){
case 0:
ua_str("movhlps %RX,%GX");
break;
case 1:
ua_str("movlhps %RX,%GX");
break;
case 2:
ua_str("sfence");
break;
}
}
else{
switch(subtype-'0'){
case 0:
ua_str("movlps %RX,%Md");
break;
case 1:
ua_str("movhps %RX,%Md");
break;
case 2:
ua_str("clflush %Em");
break;
}
}
break;
default:
preerror("uncnown operand for dizassemler");
break;
}
}
void ua_str(char *str)
{
char c;
if (str == NULL) {
uprintf("<invalid>");
return;
}
if (strpbrk(str, "CDFGRST")) /* specifiers for registers=>no size 2b specified */
must_do_size = 0;
while ((c = *str++) != 0) {
if (c == '%') {
c = *str++;
if(*str=='y'){
qwordop=1;
str++;
}
percent(c,*str++);
}
else {
if (c == ' ') uputchar('\t');
else uputchar(c);
}
}
}
void unassemble(unsigned long ofs)
{
char *str;
int c;
fprintf(hout,seg_size==16?"%04X ":"%08lX ",ofs);
prefix = 0;
modrmv = sibv = 0xFFFFFFFF; /* set modrm and sib flags */
opsize = addrsize = seg_size;
col = 0;
ubufp = ubuf;
done_space = 0;
c = getbyte();
if(c==0x9B){
switch(*(short *)&output[outptr]){
case 0xE0DB:
case 0xE1DB:
case 0xE2DB:
case 0xE3DB:
case 0xE4DB:
getbyte();
c=getbyte();
switch(c){
case 0xE0:
ua_str("feni");
break;
case 0xE1:
ua_str("fdisi");
break;
case 0xE2:
ua_str("fclex");
break;
case 0xE3:
ua_str("finit");
break;
case 0xE4:
ua_str("fsetpm");
break;
}
goto endp;
}
}
else if(c==0x98){
if(am32){
ua_str("cwde");
goto endp;
}
}
else if(c==0x99){
if(am32){
ua_str("cdq");
goto endp;
}
}
else if(c==0x66&&am32==0){
if(output[outptr]==0x98){
ua_str("cwde");
getbyte();
goto endp;
}
if(output[outptr]==0x99){
ua_str("cdq");
getbyte();
goto endp;
}
}
else if(c==0xF3&&output[outptr]==0x90){
ua_str("pause");
getbyte();
goto endp;
}
if(output[outptr]==0x0f){
int c2=output[outptr+1];
switch(c){
case 0x66:
if(second_660f[c2]){
getbyte();
ua_str((char *)second_660f[getbyte()]);
goto endp;
}
break;
case 0xf2:
if(second_f20f[c2]){
getbyte();
ua_str(second_f20f[getbyte()]);
goto endp;
}
break;
case 0xf3:
if(second_f30f[c2]){
getbyte();
ua_str(second_f30f[getbyte()]);
goto endp;
}
break;
}
}
wordop = c & 1;
qwordop=0;
must_do_size = 1;
if ((str = opmap1[c])==NULL) { /* invalid instruction? */
uputchar('d'); /* then output byte defines */
uputchar('b');
uputchar('\t');
uprintf("%02Xh",c);
}
else ua_str(str); /* valid instruction */
endp:
fprintf(hout,"%*s", 25-col, " ");
fprintf(hout,"%s\n", ubuf);
}
#define MAXSTR 12
void undata(unsigned ofs,unsigned long len,unsigned int type)
{
unsigned int sizet,c,i,j;
unsigned long total,d;
unsigned char data[MAXSTR];
if(type==3)sizet=1;
else sizet=type;
for(total=0;total<len;){
col=0;
ubufp=ubuf;
fprintf(hout,seg_size==16?"%04X ":"%08lX ",ofs);
if((total+sizet)>len){
type=sizet=1;
}
for(i=0;i<MAXSTR;){
switch(sizet){
case 1:
data[i++]=getbyte();
break;
case 2:
data[i++]=getbyte();
data[i++]=getbyte();
total++;
break;
case 4:
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
total+=3;
break;
case 8:
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
data[i++]=getbyte();
total+=7;
break;
}
total++;
if((total+sizet)>len)break;
if(sizet==8)break;
}
uputchar(sizet==8?'q':'d');
switch(sizet){
case 1:
uputchar('b');
break;
case 2:
case 8:
uputchar('w');
break;
case 4:
uputchar('d');
break;
}
done_space=0;
uputchar('\t');
switch(type){
case 1:
for(j=0;j<i;j++){
printbyte(data[j]);
if((j+1)!=i)uputchar(',');
}
break;
case 2:
for(j=0;j<i;){
d=data[j++];
d+=data[j++]<<8;
printword((unsigned short)d);
// uprintf("%05Xh",(unsigned int)d);
if(j!=i)uputchar(',');
}
break;
case 3:
c=0;
for(j=0;j<i;j++){
if(data[j]>=0x20){
if(c==0){
c++;
if(j!=0)uputchar(',');
uputchar(0x27);
}
uputchar(data[j]);
}
else{
if(c!=0){
c=0;
uputchar(0x27);
}
if(j!=0)uputchar(',');
printbyte(data[j]);
}
}
if(c)uputchar(0x27);
break;
case 4:
for(j=0;j<i;){
d=data[j++];
d+=data[j++]<<8;
d+=data[j++]<<16;
d+=data[j++]<<24;
printdword((unsigned int)d);
// uprintf("%09lXh",(unsigned int)d);
if(j!=i)uputchar(',');
}
break;
case 8:
for(j=0;j<i;){
j+=4;
d=data[j++];
d+=data[j++]<<8;
d+=data[j++]<<16;
d+=data[j++]<<24;
if(d)uprintf("%lX",d);
unsigned long d2;
d2=d;
j-=8;
d=data[j++];
d+=data[j++]<<8;
d+=data[j++]<<16;
d+=data[j++]<<24;
if(d2==0)
uprintf("%lXh",(char)d);
else
uprintf("%08lXh",(char)d);
j+=4;
if(j!=i)uputchar(',');
}
break;
}
fprintf(hout,"%*s",25-col," ");
fprintf(hout,"%s\n", ubuf);
ofs+=i;
}
}