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windows-server-2003/windows/appcompat/shims/layer/ignoreexception_86dis.cpp

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/*++
Copyright (c) 2000 Microsoft Corporation
Module Name:
86dis.cpp
Abstract:
Used to find out how long (in bytes) an instruction is: X86 only
Notes:
This is largely undocumented since it's based entirely on the original
implementation by Gerd Immeyer.
History:
10/19/1989 Gerd Immeyer Original version
01/09/2000 linstev Dumbed down for a shim
--*/
#include "precomp.h"
IMPLEMENT_SHIM_BEGIN(IgnoreException)
#include "ShimHookMacro.h"
#ifdef _X86_
#pragma pack(1)
#define BIT20(b) (b & 0x07)
#define BIT53(b) (b >> 3 & 0x07)
#define BIT76(b) (b >> 6 & 0x03)
#define MRM 0x40
#define COM 0x80
#define END 0xc0
#define SECTAB_OFFSET_1 256
#define SECTAB_OFFSET_2 236
#define SECTAB_OFFSET_3 227
#define SECTAB_OFFSET_4 215
#define SECTAB_OFFSET_5 199
#define SECTAB_OFFSET_UNDEF 260
#define O_DoDB 0
#define O_NoOperands 0
#define O_NoOpAlt5 O_NoOperands+1
#define O_NoOpAlt4 O_NoOpAlt5+2
#define O_NoOpAlt3 O_NoOpAlt4+2
#define O_NoOpAlt1 O_NoOpAlt3+2
#define O_NoOpAlt0 O_NoOpAlt1+2
#define O_NoOpStrSI O_NoOpAlt0+2
#define O_NoOpStrDI O_NoOpStrSI+2
#define O_NoOpStrSIDI O_NoOpStrDI+2
#define O_bModrm_Reg O_NoOpStrSIDI+2
#define O_vModrm_Reg O_bModrm_Reg+3
#define O_Modrm_Reg O_vModrm_Reg+3
#define O_bReg_Modrm O_Modrm_Reg+3
#define O_fReg_Modrm O_bReg_Modrm+3
#define O_Reg_Modrm O_fReg_Modrm+3
#define O_AL_Ib O_Reg_Modrm+3
#define O_AX_Iv O_AL_Ib+2
#define O_sReg2 O_AX_Iv+2
#define O_oReg O_sReg2+1
#define O_DoBound O_oReg+1
#define O_Iv O_DoBound+3
#define O_wModrm_Reg O_Iv+1
#define O_Ib O_wModrm_Reg+3
#define O_Imulb O_Ib+1
#define O_Imul O_Imulb+4
#define O_Rel8 O_Imul+4
#define O_bModrm_Ib O_Rel8+1
#define O_Modrm_Ib O_bModrm_Ib+3
#define O_Modrm_Iv O_Modrm_Ib+3
#define O_Modrm_sReg3 O_Modrm_Iv+3
#define O_sReg3_Modrm O_Modrm_sReg3+3
#define O_Modrm O_sReg3_Modrm+3
#define O_FarPtr O_Modrm+2
#define O_AL_Offs O_FarPtr+1
#define O_Offs_AL O_AL_Offs+2
#define O_AX_Offs O_Offs_AL+2
#define O_Offs_AX O_AX_Offs+2
#define O_oReg_Ib O_Offs_AX+2
#define O_oReg_Iv O_oReg_Ib+2
#define O_Iw O_oReg_Iv+2
#define O_Enter O_Iw+1
#define O_Ubyte_AL O_Enter+2
#define O_Ubyte_AX O_Ubyte_AL+2
#define O_AL_Ubyte O_Ubyte_AX+2
#define O_AX_Ubyte O_AL_Ubyte+2
#define O_DoInAL O_AX_Ubyte+2
#define O_DoInAX O_DoInAL+3
#define O_DoOutAL O_DoInAX+3
#define O_DoOutAX O_DoOutAL+3
#define O_Rel16 O_DoOutAX+3
#define O_ADR_OVERRIDE O_Rel16+1
#define O_OPR_OVERRIDE O_ADR_OVERRIDE+1
#define O_SEG_OVERRIDE O_OPR_OVERRIDE+1
#define O_DoInt3 O_SEG_OVERRIDE+1
#define O_DoInt 117
#define O_OPC0F O_DoInt+1
#define O_GROUP11 O_OPC0F+1
#define O_GROUP13 O_GROUP11+5
#define O_GROUP12 O_GROUP13+5
#define O_GROUP21 O_GROUP12+5
#define O_GROUP22 O_GROUP21+5
#define O_GROUP23 O_GROUP22+5
#define O_GROUP24 O_GROUP23+6
#define O_GROUP25 O_GROUP24+6
#define O_GROUP26 O_GROUP25+6
#define O_GROUP4 O_GROUP26+6
#define O_GROUP6 O_GROUP4+4
#define O_GROUP8 O_GROUP6+4
#define O_GROUP31 O_GROUP8+5
#define O_GROUP32 O_GROUP31+3
#define O_GROUP5 O_GROUP32+3
#define O_GROUP7 O_GROUP5+3
#define O_x87_ESC O_GROUP7+3
#define O_bModrm O_x87_ESC+2
#define O_wModrm O_bModrm+2
#define O_dModrm O_wModrm+2
#define O_fModrm O_dModrm+2
#define O_vModrm O_fModrm+2
#define O_vModrm_Iv O_vModrm+2
#define O_Reg_bModrm O_vModrm_Iv+3
#define O_Reg_wModrm O_Reg_bModrm+3
#define O_Modrm_Reg_Ib O_Reg_wModrm+3
#define O_Modrm_Reg_CL O_Modrm_Reg_Ib+4
#define O_ST_iST O_Modrm_Reg_CL+5
#define O_iST O_ST_iST+2
#define O_iST_ST O_iST+2
#define O_qModrm O_iST_ST+2
#define O_tModrm O_qModrm+2
#define O_DoRep O_tModrm+2
#define O_Modrm_CReg O_DoRep+1
#define O_CReg_Modrm O_Modrm_CReg+3
#define O_AX_oReg O_CReg_Modrm+3
#define O_MmReg_qModrm O_AX_oReg+2
#define O_qModrm_MmReg O_MmReg_qModrm+3
#define O_MmReg_dModrm O_qModrm_MmReg+3
#define O_dModrm_MmReg O_MmReg_dModrm+3
#define O_qModrm_Ib O_dModrm_MmReg+3
#define O_PSHimw O_qModrm_Ib+3
#define O_PSHimd O_PSHimw+5
#define O_PSHimq O_PSHimd+5
#define O_length O_PSHimq+5
typedef unsigned short ActionIndex;
typedef struct Tdistbl
{
ActionIndex opr;
} Tdistbl;
typedef struct _ADDR
{
USHORT type;
USHORT seg;
ULONG off;
union
{
ULONG flat;
ULONGLONG flat64;
};
} ADDR, *PADDR;
typedef struct _DECODEDATA
{
int mod; // mod of mod/rm byte
int rm; // rm of mod/rm byte
int ttt; // return reg value (of mod/rm)
unsigned char *pMem; // current position in instruction
ADDR EAaddr[2]; // offset of effective address
int EAsize[2]; // size of effective address item
BOOL fMovX; // indicates a MOVSX or MOVZX
BOOL fMmRegEa; // Use mm? registers in reg-only EA.
} DECODEDATA;
enum oprtyp { ADDRP, ADR_OVR, ALSTR, ALT, AXSTR, BOREG,
BREG, BRSTR, xBYTE, CHR, CREG, xDWORD,
EDWORD, EGROUPT, FARPTR, GROUP, GROUPT, IB,
IST, IST_ST, IV, IW, LMODRM, MODRM,
NOP, OFFS, OPC0F, OPR_OVR, QWORD, REL16,
REL8, REP, SEG_OVR, SREG2, SREG3, ST_IST,
STROP, xTBYTE, UBYTE, VAR, VOREG, VREG,
xWORD, WREG, WRSTR, MMWREG, MMQWORD
};
unsigned char actiontbl[] = {
/* NoOperands */ NOP+END,
/* NoOpAlt5 */ ALT+END, 5,
/* NoOpAlt4 */ ALT+END, 4,
/* NoOpAlt3 */ ALT+END, 3,
/* NoOpAlt1 */ ALT+END, 1,
/* NoOpAlt0 */ ALT+END, 0,
/* NoOpStrSI */ STROP+END, 1,
/* NoOpStrDI */ STROP+END, 2,
/* NoOpStrSIDI */ STROP+END, 3,
/* bModrm_Reg */ xBYTE+MRM, MODRM+COM, BREG+END,
/* vModrm_Reg */ VAR+MRM, LMODRM+COM, BREG+END,
/* Modrm_Reg */ VAR+MRM, MODRM+COM, VREG+END,
/* bReg_Modrm */ xBYTE+MRM, BREG+COM, MODRM+END,
/* fReg_Modrm */ FARPTR+MRM,VREG+COM, MODRM+END,
/* Reg_Modrm */ VAR+MRM, VREG+COM, MODRM+END,
/* AL_Ib */ ALSTR+COM, IB+END,
/* AX_Iv */ AXSTR+COM, IV+END,
/* sReg2 */ SREG2+END,
/* oReg */ VOREG+END,
/* DoBound */ VAR+MRM, VREG+COM, MODRM+END,
/* Iv */ IV+END,
/* wModrm_Reg */ xWORD+MRM, LMODRM+COM, WREG+END,
/* Ib */ IB+END,
/* Imulb */ VAR+MRM, VREG+COM, MODRM+COM, IB+END,
/* Imul */ VAR+MRM, VREG+COM, MODRM+COM, IV+END,
/* REL8 */ REL8+END,
/* bModrm_Ib */ xBYTE+MRM, LMODRM+COM, IB+END,
/* Modrm_Ib */ VAR+MRM, LMODRM+COM, IB+END,
/* Modrm_Iv */ VAR+MRM, LMODRM+COM, IV+END,
/* Modrm_sReg3 */ xWORD+MRM, MODRM+COM, SREG3+END,
/* sReg3_Modrm */ xWORD+MRM, SREG3+COM, MODRM+END,
/* Modrm */ VAR+MRM, MODRM+END,
/* FarPtr */ ADDRP+END,
/* AL_Offs */ ALSTR+COM, OFFS+END,
/* Offs_AL */ OFFS+COM, ALSTR+END,
/* AX_Offs */ AXSTR+COM, OFFS+END,
/* Offs_AX */ OFFS+COM, AXSTR+END,
/* oReg_Ib */ BOREG+COM, IB+END,
/* oReg_Iv */ VOREG+COM, IV+END,
/* Iw */ IW+END,
/* enter */ IW+COM, IB+END,
/* Ubyte_AL */ UBYTE+COM, ALSTR+END,
/* Ubyte_AX */ UBYTE+COM, AXSTR+END,
/* AL_Ubyte */ ALSTR+COM, UBYTE+END,
/* AX_Ubyte */ AXSTR+COM, UBYTE+END,
/* DoInAL */ ALSTR+COM, WRSTR+END, 2,
/* DoInAX */ AXSTR+COM, WRSTR+END, 2,
/* DoOutAL */ WRSTR+COM, 2, ALSTR+END,
/* DoOutAX */ WRSTR+COM, 2, AXSTR+END,
/* REL16 */ REL16+END,
/* ADR_OVERRIDE*/ ADR_OVR,
/* OPR_OVERRIDE*/ OPR_OVR,
/* SEG_OVERRIDE*/ SEG_OVR,
/* DoInt3 */ CHR+END, '3',
/* DoInt */ UBYTE+END,
/* Opcode0F */ OPC0F,
/* group1_1 */ xBYTE+MRM, GROUP, 0, LMODRM+COM, IB+END,
/* group1_3 */ VAR+MRM, GROUP, 0, LMODRM+COM, IB+END,
/* group1_2 */ VAR+MRM, GROUP, 0, LMODRM+COM, IV+END,
/* group2_1 */ xBYTE+MRM, GROUP, 1, LMODRM+COM, IB+END,
/* group2_2 */ VAR+MRM, GROUP, 1, LMODRM+COM, IB+END,
/* group2_3 */ xBYTE+MRM, GROUP, 1, LMODRM+COM, CHR+END, '1',
/* group2_4 */ VAR+MRM, GROUP, 1, LMODRM+COM, CHR+END, '1',
/* group2_5 */ xBYTE+MRM, GROUP, 1, LMODRM+COM, BRSTR+END, 1,
/* group2_6 */ VAR+MRM, GROUP, 1, LMODRM+COM, BRSTR+END, 1,
/* group4 */ xBYTE+MRM, GROUP, 2, LMODRM+END,
/* group6 */ xWORD+MRM, GROUP, 3, LMODRM+END,
/* group8 */ xWORD+MRM, GROUP, 4, LMODRM+COM, IB+END,
/* group3_1 */ xBYTE+MRM, GROUPT, 20,
/* group3_2 */ VAR+MRM, GROUPT, 21,
/* group5 */ VAR+MRM, GROUPT, 22,
/* group7 */ NOP+MRM, GROUPT, 23,
/* x87_ESC */ NOP+MRM, EGROUPT,
/* bModrm */ xBYTE+MRM, LMODRM+END,
/* wModrm */ xWORD+MRM, LMODRM+END,
/* dModrm */ xDWORD+MRM,LMODRM+END,
/* fModrm */ FARPTR+MRM,LMODRM+END,
/* vModrm */ VAR+MRM, LMODRM+END,
/* vModrm_Iv */ VAR+MRM, LMODRM+COM, IV+END,
/* reg_bModrm */ xBYTE+MRM, VREG+COM, LMODRM+END,
/* reg_wModrm */ xWORD+MRM, VREG+COM, LMODRM+END,
/* Modrm_Reg_Ib*/ VAR+MRM, MODRM+COM, VREG+COM, IB+END,
/* Modrm_Reg_CL*/ VAR+MRM, MODRM+COM, VREG+COM, BRSTR+END, 1,
/* ST_iST */ NOP+MRM, ST_IST+END,
/* iST */ NOP+MRM, IST+END,
/* iST_ST */ NOP+MRM, IST_ST+END,
/* qModrm */ QWORD+MRM, LMODRM+END,
/* tModrm */ xTBYTE+MRM, LMODRM+END,
/* REP */ REP,
/* Modrm_CReg */ EDWORD+MRM,MODRM+COM, CREG+END,
/* CReg_Modrm */ EDWORD+MRM,CREG+COM, MODRM+END,
/* AX_oReg */ AXSTR+COM, VOREG+END,
/* MmReg_qModrm*/ MMQWORD+MRM, MMWREG+COM, LMODRM+END,
/* qModrm_MmReg*/ MMQWORD+MRM, MODRM+COM, MMWREG+END,
/* MmReg_dModrm*/ xDWORD+MRM, MMWREG+COM,LMODRM+END,
/* dModrm_MmReg*/ xDWORD+MRM, MODRM+COM, MMWREG+END,
/* qModrm_Ib */ MMQWORD+MRM, MODRM+COM,IB+END,
/* PSHimw */ MMQWORD+MRM, GROUP, 5, LMODRM+COM, IB+END,
/* PSHimd */ MMQWORD+MRM, GROUP, 6, LMODRM+COM, IB+END,
/* PSHimq */ MMQWORD+MRM, GROUP, 7, LMODRM+COM, IB+END,
};
Tdistbl distbl[] = {
O_bModrm_Reg, /* 00 ADD mem/reg, reg (byte) */
O_Modrm_Reg, /* 01 ADD mem/reg, reg (word) */
O_bReg_Modrm, /* 02 ADD reg, mem/reg (byte) */
O_Reg_Modrm, /* 03 ADD reg, mem/reg (word) */
O_AL_Ib, /* 04 ADD AL, I */
O_AX_Iv, /* 05 ADD AX, I */
O_sReg2, /* 06 PUSH ES */
O_sReg2, /* 07 POP ES */
O_bModrm_Reg, /* 08 OR mem/reg, reg (byte) */
O_Modrm_Reg, /* 09 OR mem/reg, reg (word) */
O_bReg_Modrm, /* 0A OR reg, mem/reg (byte) */
O_Reg_Modrm, /* 0B OR reg, mem/reg (word) */
O_AL_Ib, /* 0C OR AL, I */
O_AX_Iv, /* 0D OR AX, I */
O_sReg2, /* 0E PUSH CS */
O_OPC0F, /* 0F CLTS & protection ctl(286) */
O_bModrm_Reg, /* 10 ADC mem/reg, reg (byte) */
O_Modrm_Reg, /* 11 ADC mem/reg, reg (word) */
O_bReg_Modrm, /* 12 ADC reg, mem/reg (byte) */
O_Reg_Modrm, /* 13 ADC reg, mem/reg (word) */
O_AL_Ib, /* 14 ADC AL, I */
O_AX_Iv, /* 15 ADC AX, I */
O_sReg2, /* 16 PUSH SS */
O_sReg2, /* 17 POP SS */
O_bModrm_Reg, /* 18 SBB mem/reg, reg (byte) */
O_Modrm_Reg, /* 19 SBB mem/reg, reg (word) */
O_bReg_Modrm, /* 1A SBB reg, mem/reg (byte) */
O_Reg_Modrm, /* 1B SBB reg, mem/reg (word) */
O_AL_Ib, /* 1C SBB AL, I */
O_AX_Iv, /* 1D SBB AX, I */
O_sReg2, /* 1E PUSH DS */
O_sReg2, /* 1F POP DS */
O_bModrm_Reg, /* 20 AND mem/reg, reg (byte) */
O_Modrm_Reg, /* 21 AND mem/reg, reg (word) */
O_bReg_Modrm, /* 22 AND reg, mem/reg (byte) */
O_Reg_Modrm, /* 23 AND reg, mem/reg (word) */
O_AL_Ib, /* 24 AND AL, I */
O_AX_Iv, /* 25 AND AX, I */
O_SEG_OVERRIDE, /* 26 SEG ES: */
O_NoOperands, /* 27 DAA */
O_bModrm_Reg, /* 28 SUB mem/reg, reg (byte) */
O_Modrm_Reg, /* 29 SUB mem/reg, reg (word) */
O_bReg_Modrm, /* 2A SUB reg, mem/reg (byte) */
O_Reg_Modrm, /* 2B SUB reg, mem/reg (word) */
O_AL_Ib, /* 2C SUB AL, I */
O_AX_Iv, /* 2D SUB AX, I */
O_SEG_OVERRIDE, /* 2E SEG CS: */
O_NoOperands, /* 2F DAS */
O_bModrm_Reg, /* 30 XOR mem/reg, reg (byte) */
O_Modrm_Reg, /* 31 XOR mem/reg, reg (word) */
O_bReg_Modrm, /* 32 XOR reg, mem/reg (byte) */
O_Reg_Modrm, /* 33 XOR reg, mem/reg (word) */
O_AL_Ib, /* 34 XOR AL, I */
O_AX_Iv, /* 35 XOR AX, I */
O_SEG_OVERRIDE, /* 36 SEG SS: */
O_NoOperands, /* 37 AAA */
O_bModrm_Reg, /* 38 CMP mem/reg, reg (byte) */
O_Modrm_Reg, /* 39 CMP mem/reg, reg (word) */
O_bReg_Modrm, /* 3A CMP reg, mem/reg (byte) */
O_Reg_Modrm, /* 3B CMP reg, mem/reg (word) */
O_AL_Ib, /* 3C CMP AL, I */
O_AX_Iv, /* 3D CMP AX, I */
O_SEG_OVERRIDE, /* 3E SEG DS: */
O_NoOperands, /* 3F AAS */
O_oReg, /* 40 INC AX */
O_oReg, /* 41 INC CX */
O_oReg, /* 42 INC DX */
O_oReg, /* 43 INC BX */
O_oReg, /* 44 INC SP */
O_oReg, /* 45 INC BP */
O_oReg, /* 46 INC SI */
O_oReg, /* 47 INC DI */
O_oReg, /* 48 DEC AX */
O_oReg, /* 49 DEC CX */
O_oReg, /* 4A DEC DX */
O_oReg, /* 4B DEC BX */
O_oReg, /* 4C DEC SP */
O_oReg, /* 4D DEC BP */
O_oReg, /* 4E DEC SI */
O_oReg, /* 4F DEC DI */
O_oReg, /* 50 PUSH AX */
O_oReg, /* 51 PUSH CX */
O_oReg, /* 52 PUSH DX */
O_oReg, /* 53 PUSH BX */
O_oReg, /* 54 PUSH SP */
O_oReg, /* 55 PUSH BP */
O_oReg, /* 56 PUSH SI */
O_oReg, /* 57 PUSH DI */
O_oReg, /* 58 POP AX */
O_oReg, /* 59 POP CX */
O_oReg, /* 5A POP DX */
O_oReg, /* 5B POP BX */
O_oReg, /* 5C POP SP */
O_oReg, /* 5D POP BP */
O_oReg, /* 5E POP SI */
O_oReg, /* 5F POP DI */
O_NoOpAlt5, /* 60 PUSHA (286) / PUSHAD (386) */
O_NoOpAlt4, /* 61 POPA (286) / POPAD (286) */
O_DoBound, /* 62 BOUND reg, Modrm (286) */
O_Modrm_Reg, /* 63 ARPL Modrm, reg (286) */
O_SEG_OVERRIDE, /* 64 */
O_SEG_OVERRIDE, /* 65 */
O_OPR_OVERRIDE, /* 66 */
O_ADR_OVERRIDE, /* 67 */
O_Iv, /* 68 PUSH word (286) */
O_Imul, /* 69 IMUL (286) */
O_Ib, /* 6A PUSH byte (286) */
O_Imulb, /* 6B IMUL (286) */
O_NoOperands, /* 6C INSB (286) */
O_NoOpAlt3, /* 6D INSW (286) / INSD (386) */
O_NoOperands, /* 6E OUTSB (286) */
O_NoOpAlt4, /* 6F OUTSW (286) / OUTSD (386) */
O_Rel8, /* 70 JO */
O_Rel8, /* 71 JNO */
O_Rel8, /* 72 JB or JNAE or JC */
O_Rel8, /* 73 JNB or JAE or JNC */
O_Rel8, /* 74 JE or JZ */
O_Rel8, /* 75 JNE or JNZ */
O_Rel8, /* 76 JBE or JNA */
O_Rel8, /* 77 JNBE or JA */
O_Rel8, /* 78 JS */
O_Rel8, /* 79 JNS */
O_Rel8, /* 7A JP or JPE */
O_Rel8, /* 7B JNP or JPO */
O_Rel8, /* 7C JL or JNGE */
O_Rel8, /* 7D JNL or JGE */
O_Rel8, /* 7E JLE or JNG */
O_Rel8, /* 7F JNLE or JG */
O_GROUP11, /* 80 */
O_GROUP12, /* 81 */
O_DoDB, /* 82 */
O_GROUP13, /* 83 */
O_bModrm_Reg, /* 84 TEST reg, mem/reg (byte) */
O_Modrm_Reg, /* 85 TEST reg, mem/reg (word) */
O_bModrm_Reg, /* 86 XCHG reg, mem/reg (byte) */
O_Modrm_Reg, /* 87 XCHG reg, mem/reg (word) */
O_bModrm_Reg, /* 88 MOV mem/reg, reg (byte) */
O_Modrm_Reg, /* 89 MOV mem/reg, reg (word) */
O_bReg_Modrm, /* 8A MOV reg, mem/reg (byte) */
O_Reg_Modrm, /* 8B MOV reg, mem/reg (word) */
O_Modrm_sReg3, /* 8C MOV mem/reg, segreg */
O_Reg_Modrm, /* 8D LEA reg, mem */
O_sReg3_Modrm, /* 8E MOV segreg, mem/reg */
O_Modrm, /* 8F POP mem/reg */
O_NoOperands, /* 90 NOP */
O_AX_oReg, /* 91 XCHG AX,CX */
O_AX_oReg, /* 92 XCHG AX,DX */
O_AX_oReg, /* 93 XCHG AX,BX */
O_AX_oReg, /* 94 XCHG AX,SP */
O_AX_oReg, /* 95 XCHG AX,BP */
O_AX_oReg, /* 96 XCHG AX,SI */
O_AX_oReg, /* 97 XCHG AX,DI */
O_NoOpAlt0, /* 98 CBW / CWDE (386) */
O_NoOpAlt1, /* 99 CWD / CDQ (386) */
O_FarPtr, /* 9A CALL seg:off */
O_NoOperands, /* 9B WAIT */
O_NoOpAlt5, /* 9C PUSHF / PUSHFD (386) */
O_NoOpAlt4, /* 9D POPF / POPFD (386) */
O_NoOperands, /* 9E SAHF */
O_NoOperands, /* 9F LAHF */
O_AL_Offs, /* A0 MOV AL, mem */
O_AX_Offs, /* A1 MOV AX, mem */
O_Offs_AL, /* A2 MOV mem, AL */
O_Offs_AX, /* A3 MOV mem, AX */
O_NoOpStrSIDI, /* A4 MOVSB */
O_NoOpStrSIDI, /* A5 MOVSW / MOVSD (386) */
O_NoOpStrSIDI, /* A6 CMPSB */
O_NoOpStrSIDI, /* A7 CMPSW / CMPSD (386) */
O_AL_Ib, /* A8 TEST AL, I */
O_AX_Iv, /* A9 TEST AX, I */
O_NoOpStrDI, /* AA STOSB */
O_NoOpStrDI, /* AB STOSW / STOSD (386) */
O_NoOpStrSI, /* AC LODSB */
O_NoOpStrSI, /* AD LODSW / LODSD (386) */
O_NoOpStrDI, /* AE SCASB */
O_NoOpStrDI, /* AF SCASW / SCASD (386) */
O_oReg_Ib, /* B0 MOV AL, I */
O_oReg_Ib, /* B1 MOV CL, I */
O_oReg_Ib, /* B2 MOV DL, I */
O_oReg_Ib, /* B3 MOV BL, I */
O_oReg_Ib, /* B4 MOV AH, I */
O_oReg_Ib, /* B5 MOV CH, I */
O_oReg_Ib, /* B6 MOV DH, I */
O_oReg_Ib, /* B7 MOV BH, I */
O_oReg_Iv, /* B8 MOV AX, I */
O_oReg_Iv, /* B9 MOV CX, I */
O_oReg_Iv, /* BA MOV DX, I */
O_oReg_Iv, /* BB MOV BX, I */
O_oReg_Iv, /* BC MOV SP, I */
O_oReg_Iv, /* BD MOV BP, I */
O_oReg_Iv, /* BE MOV SI, I */
O_oReg_Iv, /* BF MOV DI, I */
O_GROUP21, /* C0 shifts & rotates (286) */
O_GROUP22, /* C1 shifts & rotates (286) */
O_Iw, /* C2 RET Rel16 */
O_NoOperands, /* C3 RET */
O_fReg_Modrm, /* C4 LES reg, mem */
O_fReg_Modrm, /* C5 LDS reg, mem */
O_bModrm_Ib, /* C6 MOV mem/reg, I(byte) */
O_Modrm_Iv, /* C7 MOV mem/reg, I(word) */
O_Enter, /* C8 ENTER (286) */
O_NoOperands, /* C9 LEAVE (286) */
O_Iw, /* CA RETF I(word) */
O_NoOperands, /* CB RETF */
O_DoInt3, /* CC INT 3 */
O_DoInt, /* CD INT */
O_NoOperands, /* CE INTO */
O_NoOpAlt4, /* CF IRET / IRETD (386) */
O_GROUP23, /* D0 shifts & rotates,1 (byte) */
O_GROUP24, /* D1 shifts & rotates,1 (word) */
O_GROUP25, /* D2 shifts & rotates,CL (byte) */
O_GROUP26, /* D3 shifts & rotates,CL (word) */
O_Ib, /* D4 AAM */
O_Ib, /* D5 AAD */
O_DoDB, /* D6 */
O_NoOperands, /* D7 XLAT */
O_x87_ESC, /* D8 ESC */
O_x87_ESC, /* D9 ESC */
O_x87_ESC, /* DA ESC */
O_x87_ESC, /* DB ESC */
O_x87_ESC, /* DC ESC */
O_x87_ESC, /* DD ESC */
O_x87_ESC, /* DE ESC */
O_x87_ESC, /* DF ESC */
O_Rel8, /* E0 LOOPNE or LOOPNZ */
O_Rel8, /* E1 LOOPE or LOOPZ */
O_Rel8, /* E2 LOOP */
O_Rel8, /* E3 JCXZ / JECXZ (386) */
O_AL_Ubyte, /* E4 IN AL, I */
O_AX_Ubyte, /* E5 IN AX, I */
O_Ubyte_AL, /* E6 OUT I, AL */
O_Ubyte_AX, /* E7 OUT I, AX */
O_Rel16, /* E8 CALL Rel16 */
O_Rel16, /* E9 JMP Rel16 */
O_FarPtr, /* EA JMP seg:off */
O_Rel8, /* EB JMP Rel8 */
O_DoInAL, /* EC IN AL, DX */
O_DoInAX, /* ED IN AX, DX */
O_DoOutAL, /* EE OUT DX, AL */
O_DoOutAX, /* EF OUT DX, AX */
O_DoRep, /* F0 LOCK */
O_DoDB, /* F1 */
O_DoRep, /* F2 REPNE or REPNZ */
O_DoRep, /* F3 REP or REPE or REPZ */
O_NoOperands, /* F4 HLT */
O_NoOperands, /* F5 CMC */
O_GROUP31, /* F6 TEST, NOT, NEG, MUL, IMUL, */
O_GROUP32, /* F7 DIv, IDIv F6=Byte F7=Word */
O_NoOperands, /* F8 CLC */
O_NoOperands, /* F9 STC */
O_NoOperands, /* FA CLI */
O_NoOperands, /* FB STI */
O_NoOperands, /* FC CLD */
O_NoOperands, /* FD STD */
O_GROUP4, /* FE INC, DEC mem/reg (byte) */
O_GROUP5, /* FF INC, DEC, CALL, JMP, PUSH */
// secondary opcode table begins. Only "filled" locations are stored
// to compress the secondary table. Hence while disassembling
// opcode needs to be displaced appropriately to account for the.
// The displacements are defined in 86dis.c and need to be reevaluated
// if new opcodes are added here.
O_GROUP6, /* 0 MULTI */
O_GROUP7, /* 1 MULTI */
O_Reg_Modrm, /* 2 LAR */
O_Reg_Modrm, /* 3 LSL */
O_DoDB, /* 4 */
O_NoOperands, /* 5 LOADALL */
O_NoOperands, /* 6 CLTS */
O_GROUP7, /* 7 MULTI */
O_NoOperands, /* 8 INVD */
O_NoOperands, /* 9 WBINVD */
O_DoDB, /* A */
O_NoOperands, /* B UD2 undefined */
O_Modrm_CReg, /* 20 MOV Rd,Cd */
O_Modrm_CReg, /* 21 MOV Rd,Dd */
O_CReg_Modrm, /* 22 MOV Cd,Rd */
O_CReg_Modrm, /* 23 MOV Dd,Rd */
O_Modrm_CReg, /* 24 MOV Rd,Td */
O_DoDB, /* 25 */
O_CReg_Modrm, /* 26 MOV Td,Rd */
O_NoOperands, /* 30 WRMSR */
O_NoOperands, /* 31 RDTSC */
O_NoOperands, /* 32 RDMSR */
O_NoOperands, /* 33 RDPMC */
O_Reg_Modrm, /* 40 CMOVO */
O_Reg_Modrm, /* 41 CMOVNO */
O_Reg_Modrm, /* 42 CMOVB */
O_Reg_Modrm, /* 43 CMOVNB */
O_Reg_Modrm, /* 44 CMOVE */
O_Reg_Modrm, /* 45 CMOVNE */
O_Reg_Modrm, /* 46 CMOVBE */
O_Reg_Modrm, /* 47 CMOVNBE */
O_Reg_Modrm, /* 48 CMOVS */
O_Reg_Modrm, /* 49 CMOVNS */
O_Reg_Modrm, /* 4A CMOVP */
O_Reg_Modrm, /* 4B CMOVNP */
O_Reg_Modrm, /* 4C CMOVL */
O_Reg_Modrm, /* 4D CMOVGE */
O_Reg_Modrm, /* 4E CMOVLE */
O_Reg_Modrm, /* 4F CMOVNLE */
O_MmReg_qModrm, /* 60 PUNPCKLBW */
O_MmReg_qModrm, /* 61 PUNPCKLWD */
O_MmReg_qModrm, /* 62 PUNPCKLDQ */
O_MmReg_qModrm, /* 63 PACKSSWB */
O_MmReg_qModrm, /* 64 PCMPGTB */
O_MmReg_qModrm, /* 65 PCMPGTW */
O_MmReg_qModrm, /* 66 PCMPGTD */
O_MmReg_qModrm, /* 67 PACKUSWB */
O_MmReg_qModrm, /* 68 PUNPCKHBW */
O_MmReg_qModrm, /* 69 PUNPCKHWD */
O_MmReg_qModrm, /* 6A PUNPCKHDQ */
O_MmReg_qModrm, /* 6B PACKSSDW */
O_DoDB, /* 6C */
O_DoDB, /* 6D */
O_MmReg_dModrm, /* 6E MOVD */
O_MmReg_qModrm, /* 6F MOVQ */
O_DoDB, /* 70 */
O_PSHimw, /* 71 PS[LR][AL]W immediate */
O_PSHimd, /* 72 PS[LR][AL]D immediate */
O_PSHimq, /* 73 PS[LR]LQ immediate */
O_MmReg_qModrm, /* 74 PCMPEQB */
O_MmReg_qModrm, /* 75 PCMPEQW */
O_MmReg_qModrm, /* 76 PCMPEQD */
O_NoOperands, /* 77 EMMS */
O_DoDB, /* 78 */
O_DoDB, /* 79 */
O_DoDB, /* 7A */
O_DoDB, /* 7B */
O_DoDB, /* 7C */
O_bModrm, /* 7D SETNL */
O_dModrm_MmReg, /* 7E MOVD */
O_qModrm_MmReg, /* 7F MOVQ */
O_Rel16, /* 80 JO */
O_Rel16, /* 81 JNO */
O_Rel16, /* 82 JB */
O_Rel16, /* 83 JNB */
O_Rel16, /* 84 JE */
O_Rel16, /* 85 JNE */
O_Rel16, /* 86 JBE */
O_Rel16, /* 87 JNBE */
O_Rel16, /* 88 JS */
O_Rel16, /* 89 JNS */
O_Rel16, /* 8A JP */
O_Rel16, /* 8B JNP */
O_Rel16, /* 8C JL */
O_Rel16, /* 8D JNL */
O_Rel16, /* 8E JLE */
O_Rel16, /* 8F JNLE */
O_bModrm, /* 90 SETO */
O_bModrm, /* 91 SETNO */
O_bModrm, /* 92 SETB */
O_bModrm, /* 93 SETNB */
O_bModrm, /* 94 SETE */
O_bModrm, /* 95 SETNE */
O_bModrm, /* 96 SETBE */
O_bModrm, /* 97 SETNBE */
O_bModrm, /* 98 SETS */
O_bModrm, /* 99 SETNS */
O_bModrm, /* 9A SETP */
O_bModrm, /* 9B SETNP */
O_bModrm, /* 9C SETL */
O_bModrm, /* 9D SETGE */
O_bModrm, /* 9E SETLE */
O_bModrm, /* 9F SETNLE */
O_sReg2, /* A0 PUSH FS */
O_sReg2, /* A1 POP FS */
O_NoOperands, /* A2 CPUID */
O_Modrm_Reg, /* A3 BT */
O_Modrm_Reg_Ib, /* A4 SHLD */
O_Modrm_Reg_CL, /* A5 SHLD */
O_DoDB, /* A6 */
O_DoDB, /* A7 */
O_sReg2, /* A8 PUSH GS */
O_sReg2, /* A9 POP GS */
O_NoOperands, /* AA RSM */
O_vModrm_Reg, /* AB BTS */
O_Modrm_Reg_Ib, /* AC SHRD */
O_Modrm_Reg_CL, /* AD SHRD */
O_DoDB, /* AE */
O_Reg_Modrm, /* AF IMUL */
O_bModrm_Reg, /* B0 CMPXCH */
O_Modrm_Reg, /* B1 CMPXCH */
O_fReg_Modrm, /* B2 LSS */
O_Modrm_Reg, /* B3 BTR */
O_fReg_Modrm, /* B4 LFS */
O_fReg_Modrm, /* B5 LGS */
O_Reg_bModrm, /* B6 MOVZX */
O_Reg_wModrm, /* B7 MOVZX */
O_DoDB, /* B8 */
O_DoDB, /* B9 */
O_GROUP8, /* BA MULTI */
O_Modrm_Reg, /* BB BTC */
O_Reg_Modrm, /* BC BSF */
O_Reg_Modrm, /* BD BSR */
O_Reg_bModrm, /* BE MOVSX */
O_Reg_wModrm, /* BF MOVSX */
O_bModrm_Reg, /* C0 XADD */
O_Modrm_Reg, /* C1 XADD */
O_DoDB, /* C2 */
O_DoDB, /* C3 */
O_DoDB, /* C4 */
O_DoDB, /* C5 */
O_DoDB, /* C6 */
O_qModrm, /* C7 CMPXCHG8B */
O_oReg, /* C8 BSWAP */
O_oReg, /* C9 BSWAP */
O_oReg, /* CA BSWAP */
O_oReg, /* CB BSWAP */
O_oReg, /* CC BSWAP */
O_oReg, /* CD BSWAP */
O_oReg, /* CE BSWAP */
O_oReg, /* CF BSWAP */
O_DoDB, /* D0 */
O_MmReg_qModrm, /* D1 PSRLW */
O_MmReg_qModrm, /* D2 PSRLD */
O_MmReg_qModrm, /* D3 PSRLQ */
O_DoDB, /* D4 */
O_MmReg_qModrm, /* D5 PMULLW */
O_DoDB, /* D6 */
O_DoDB, /* D7 */
O_MmReg_qModrm, /* D8 PSUBUSB */
O_MmReg_qModrm, /* D9 PSUBUSW */
O_DoDB, /* DA */
O_MmReg_qModrm, /* DB PAND */
O_MmReg_qModrm, /* DC PADDUSB */
O_MmReg_qModrm, /* DD PADDUSW */
O_DoDB, /* DE */
O_MmReg_qModrm, /* DF PANDN */
O_DoDB, /* E0 */
O_MmReg_qModrm, /* E1 PSRAW */
O_MmReg_qModrm, /* E2 PSRAD */
O_DoDB, /* E3 */
O_DoDB, /* E4 */
O_MmReg_qModrm, /* E5 PMULHW */
O_DoDB, /* E6 */
O_DoDB, /* E7 */
O_MmReg_qModrm, /* E8 PSUBSB */
O_MmReg_qModrm, /* E9 PSUBSW */
O_DoDB, /* EA */
O_MmReg_qModrm, /* EB POR */
O_MmReg_qModrm, /* EC PADDSB */
O_MmReg_qModrm, /* ED PADDSW */
O_DoDB, /* EE */
O_MmReg_qModrm, /* EF PXOR */
O_DoDB, /* F0 */
O_MmReg_qModrm, /* F1 PSLLW */
O_MmReg_qModrm, /* F2 PSLLD */
O_MmReg_qModrm, /* F3 PSLLQ */
O_DoDB, /* F4 */
O_MmReg_qModrm, /* F5 PMADDWD */
O_DoDB, /* F6 */
O_DoDB, /* F7 */
O_MmReg_qModrm, /* F8 PSUBB */
O_MmReg_qModrm, /* F9 PSUBW */
O_MmReg_qModrm, /* FA PSUBD */
O_DoDB, /* FB */
O_MmReg_qModrm, /* FC PADDB */
O_MmReg_qModrm, /* FD PADDW */
O_MmReg_qModrm, /* FE PADDD */
};
Tdistbl groupt[][8] = {
/* 00 00 x87-D8-1 */
{ O_dModrm, /* D8-0 FADD */
O_dModrm, /* D8-1 FMUL */
O_dModrm, /* D8-2 FCOM */
O_dModrm, /* D8-3 FCOMP */
O_dModrm, /* D8-4 FSUB */
O_dModrm, /* D8-5 FSUBR */
O_dModrm, /* D8-6 FDIV */
O_dModrm }, /* D8-7 FDIVR */
/* 01 x87-D8-2 */
{ O_ST_iST, /* D8-0 FADD */
O_ST_iST, /* D8-1 FMUL */
O_iST, /* D8-2 FCOM */
O_iST, /* D8-3 FCOMP */
O_ST_iST, /* D8-4 FSUB */
O_ST_iST, /* D8-5 FSUBR */
O_ST_iST, /* D8-6 FDIV */
O_ST_iST }, /* D8-7 FDIVR */
/* 02 01 x87-D9-1 */
{ O_dModrm, /* D9-0 FLD */
O_DoDB, /* D9-1 */
O_dModrm, /* D9-2 FST */
O_dModrm, /* D9-3 FSTP */
O_Modrm, /* D9-4 FLDENV */
O_Modrm, /* D9-5 FLDCW */
O_Modrm, /* D9-6 FSTENV */
O_Modrm }, /* D9-7 FSTCW */
/* 03 01 x87-D9-2 TTT=0,1,2,3 */
{ O_iST, /* D9-0 FLD */
O_iST, /* D9-1 FXCH */
O_NoOperands, /* D9-2 FNOP */
O_iST, /* D9-3 FSTP */
O_DoDB, /* D9-4 */
O_DoDB, /* D9-5 */
O_DoDB, /* D9-6 */
O_DoDB }, /* D9-7 */
/* 04 02 x89-DA-1 */
{ O_dModrm, /* DA-0 FIADD */
O_dModrm, /* DA-1 FIMUL */
O_dModrm, /* DA-2 FICOM */
O_dModrm, /* DA-3 FICOMP */
O_dModrm, /* DA-4 FISUB */
O_dModrm, /* DA-5 FISUBR */
O_dModrm, /* DA-6 FIDIV */
O_dModrm }, /* DA-7 FIDIVR */
/* 05 x87-DA-2 */
{ O_ST_iST, /* DA-0 FCMOVB */
O_ST_iST, /* DA-1 FCMOVE */
O_ST_iST, /* DA-2 FCMOVBE */
O_ST_iST, /* DA-3 FCMOVU */
O_DoDB, /* DA-4 */
O_NoOperands, /* DA-5 */
O_DoDB, /* DA-6 */
O_DoDB }, /* DA-7 */
/* 06 03 x87-DB-1 */
{ O_dModrm, /* DB-0 FILD */
O_DoDB, /* DB-1 */
O_dModrm, /* DB-2 FIST */
O_dModrm, /* DB-3 FISTP */
O_DoDB, /* DB-4 */
O_tModrm, /* DB-5 FLD */
O_DoDB, /* DB-6 */
O_tModrm }, /* DB-7 FSTP */
/* 07 x87-DB-2 ttt=4 */
{ O_NoOperands, /* DB-0 FENI */
O_NoOperands, /* DB-1 FDISI */
O_NoOperands, /* DB-2 FCLEX */
O_NoOperands, /* DB-3 FINIT */
O_DoDB, /* DB-4 FSETPM */
O_DoDB, /* DB-5 */
O_DoDB, /* DB-6 */
O_DoDB }, /* DB-7 */
/* 08 04 x87-DC-1 */
{ O_qModrm, /* DC-0 FADD */
O_qModrm, /* DC-1 FMUL */
O_qModrm, /* DC-2 FCOM */
O_qModrm, /* DC-3 FCOMP */
O_qModrm, /* DC-4 FSUB */
O_qModrm, /* DC-5 FSUBR */
O_qModrm, /* DC-6 FDIV */
O_qModrm }, /* DC-7 FDIVR */
/* 09 x87-DC-2 */
{ O_iST_ST, /* DC-0 FADD */
O_iST_ST, /* DC-1 FMUL */
O_iST, /* DC-2 FCOM */
O_iST, /* DC-3 FCOMP */
O_iST_ST, /* DC-4 FSUB */
O_iST_ST, /* DC-5 FSUBR */
O_iST_ST, /* DC-6 FDIVR */
O_iST_ST }, /* DC-7 FDIV */
/* 10 05 x87-DD-1 */
{ O_qModrm, /* DD-0 FLD */
O_DoDB, /* DD-1 */
O_qModrm, /* DD-2 FST */
O_qModrm, /* DD-3 FSTP */
O_Modrm, /* DD-4 FRSTOR */
O_DoDB, /* DD-5 */
O_Modrm, /* DD-6 FSAVE */
O_Modrm }, /* DD-7 FSTSW */
/* 11 x87-DD-2 */
{ O_iST, /* DD-0 FFREE */
O_iST, /* DD-1 FXCH */
O_iST, /* DD-2 FST */
O_iST, /* DD-3 FSTP */
O_iST, /* DD-4 FUCOM */
O_iST, /* DD-5 FUCOMP */
O_DoDB, /* DD-6 */
O_DoDB }, /* DD-7 */
/* 12 06 x87-DE-1 */
{ O_wModrm, /* DE-0 FIADD */
O_wModrm, /* DE-1 FIMUL */
O_wModrm, /* DE-2 FICOM */
O_wModrm, /* DE-3 FICOMP */
O_wModrm, /* DE-4 FISUB */
O_wModrm, /* DE-5 FISUBR */
O_wModrm, /* DE-6 FIDIV */
O_wModrm }, /* DE-7 FIDIVR */
/* 13 x87-DE-2 */
{ O_iST_ST, /* DE-0 FADDP */
O_iST_ST, /* DE-1 FMULP */
O_iST, /* DE-2 FCOMP */
O_NoOperands, /* DE-3 FCOMPP */
O_iST_ST, /* DE-4 FSUBP */
O_iST_ST, /* DE-5 FSUBRP */
O_iST_ST, /* DE-6 FDIVP */
O_iST_ST }, /* DE-7 FDIVRP */
/* 14 07 x87-DF-1 */
{ O_wModrm, /* DF-0 FILD */
O_DoDB, /* DF-1 */
O_wModrm, /* DF-2 FIST */
O_wModrm, /* DF-3 FISTP */
O_tModrm, /* DF-4 FBLD */
O_qModrm, /* DF-5 FILD */
O_tModrm, /* DF-6 FBSTP */
O_qModrm }, /* DF-7 FISTP */
/* 15 x87-DF-2 */
{ O_iST, /* DF-0 FFREE */
O_iST, /* DF-1 FXCH */
O_iST, /* DF-2 FST */
O_iST, /* DF-3 FSTP */
O_NoOperands, /* DF-4 FSTSW */
O_ST_iST, /* DF-5 FUCOMIP */
O_ST_iST, /* DF-6 FCOMIP */
O_DoDB }, /* DF-7 */
/* 16 01 x87-D9 Mod=3 TTT=4 */
{ O_NoOperands, /* D9-0 FCHS */
O_NoOperands, /* D9-1 FABS */
O_DoDB, /* D9-2 */
O_DoDB, /* D9-3 */
O_NoOperands, /* D9-4 FTST */
O_NoOperands, /* D9-5 FXAM */
O_DoDB, /* D9-6 */
O_DoDB }, /* D9-7 */
/* 17 01 x87-D9 Mod=3 TTT=5 */
{ O_NoOperands, /* D9-0 FLD1 */
O_NoOperands, /* D9-1 FLDL2T */
O_NoOperands, /* D9-2 FLDL2E */
O_NoOperands, /* D9-3 FLDPI */
O_NoOperands, /* D9-4 FLDLG2 */
O_NoOperands, /* D9-5 FLDLN2 */
O_NoOperands, /* D9-6 FLDZ */
O_DoDB }, /* D9-7 */
/* 18 01 x87-D9 Mod=3 TTT=6 */
{ O_NoOperands, /* D9-0 F2XM1 */
O_NoOperands, /* D9-1 FYL2X */
O_NoOperands, /* D9-2 FPTAN */
O_NoOperands, /* D9-3 FPATAN */
O_NoOperands, /* D9-4 FXTRACT */
O_NoOperands, /* D9-5 FPREM1 */
O_NoOperands, /* D9-6 FDECSTP */
O_NoOperands }, /* D9-7 FINCSTP */
/* 19 01 x87-D9 Mod=3 TTT=7 */
{ O_NoOperands, /* D9-0 FPREM */
O_NoOperands, /* D9-1 FYL2XP1 */
O_NoOperands, /* D9-2 FSQRT */
O_NoOperands, /* D9-3 FSINCOS */
O_NoOperands, /* D9-4 FRNDINT */
O_NoOperands, /* D9-5 FSCALE */
O_NoOperands, /* D9-6 FSIN */
O_NoOperands }, /* D9-7 FCOS */
/* 20 group 3 */
{ O_bModrm_Ib, /* F6-0 TEST */
O_DoDB, /* F6-1 */
O_bModrm, /* F6-2 NOT */
O_bModrm, /* F6-3 NEG */
O_bModrm, /* F6-4 MUL */
O_bModrm, /* F6-5 IMUL */
O_bModrm, /* F6-6 DIV */
O_bModrm }, /* F6-7 IDIV */
/* 21 group 3 */
{ O_vModrm_Iv, /* F7-0 TEST */
O_DoDB, /* F7-1 */
O_vModrm, /* F7-2 NOT */
O_vModrm, /* F7-3 NEG */
O_vModrm, /* F7-4 MUL */
O_vModrm, /* F7-5 IMUL */
O_vModrm, /* F7-6 DIV */
O_vModrm }, /* F7-7 IDIV */
/* 22 group 5 */
{ O_vModrm, /* FF-0 INC */
O_vModrm, /* FF-1 DEC */
O_vModrm, /* FF-2 CALL */
O_fModrm, /* FF-3 CALL */
O_vModrm, /* FF-4 JMP */
O_fModrm, /* FF-5 JMP */
O_vModrm, /* FF-6 PUSH */
O_DoDB }, /* FF-7 */
/* 23 group 7 */
{ O_Modrm, /* 0F-0 SGDT */
O_Modrm, /* 0F-1 SIDT */
O_Modrm, /* 0F-2 LGDT */
O_Modrm, /* 0F-3 LIDT */
O_wModrm, /* 0F-4 MSW */
O_DoDB, /* 0F-5 */
O_wModrm, /* 0F-6 LMSW */
O_Modrm }, /* 0F-7 INVLPG */
/* 24 x87-DB Mod=3 TTT != 4 */
{ O_ST_iST, /* DB-0 FCMOVNB */
O_ST_iST, /* DB-1 FCMOVNE */
O_ST_iST, /* DB-2 FCMOVNBE */
O_ST_iST, /* DB-3 FCMOVNU */
O_DoDB, /* DB-4 */
O_ST_iST, /* DB-5 FUCOMI */
O_ST_iST, /* DB-6 FCOMI */
O_DoDB } /* DB-7 */
};
DWORD
GetInstructionLengthFromAddress(LPBYTE pEip)
{
int G_mode_32;
int mode_32; // local addressing mode indicator
int opsize_32; // operand size flag
int opcode; // current opcode
int olen = 2; // operand length
int alen = 2; // address length
int end = FALSE; // end of instruction flag
int mrm = FALSE; // indicator that modrm is generated
unsigned char *action; // action for operand interpretation
long tmp; // temporary storage field
int indx; // temporary index
int action2; // secondary action
int instlen; // instruction length
int segOvr = 0; // segment override opcode
unsigned char BOPaction;
int subcode; // bop subcode
DECODEDATA decodeData;
decodeData.mod = 0;
decodeData.rm = 0;
decodeData.ttt = 0;
decodeData.fMovX = FALSE;
decodeData.fMmRegEa = FALSE;
decodeData.EAsize[0] = decodeData.EAsize[1] = 0; // no effective address
G_mode_32 = 1;
mode_32 = opsize_32 = (G_mode_32 == 1); // local addressing mode
olen = alen = (1 + mode_32) << 1; // set operand/address lengths
// 2 for 16-bit and 4 for 32-bit
decodeData.pMem = pEip; // point to begin of instruction
opcode = *(decodeData.pMem)++; // get opcode
if (opcode == 0xc4 && *(decodeData.pMem) == 0xC4)
{
(decodeData.pMem)++;
action = &BOPaction;
BOPaction = IB | END;
subcode = *(decodeData.pMem);
if (subcode == 0x50 || subcode == 0x52 ||
subcode == 0x53 || subcode == 0x54 ||
subcode == 0x57 || subcode == 0x58 ||
subcode == 0x58)
{
BOPaction = IW | END;
}
} else
{
action = actiontbl + distbl[opcode].opr; /* get operand action */
}
// loop through all operand actions
do {
action2 = (*action) & 0xc0;
switch((*action++) & 0x3f) {
case ALT: // alter the opcode if 32-bit
if (opsize_32)
{
indx = *action++;
}
break;
case STROP:
// compute size of operands in indx
// also if dword operands, change fifth
// opcode letter from 'w' to 'd'.
if (opcode & 1)
{
if (opsize_32)
{
indx = 4;
}
else
{
indx = 2;
}
}
else
{
indx = 1;
}
break;
case CHR: // insert a character
action++;
break;
case CREG: // set debug, test or control reg
break;
case SREG2: // segment register
// Handle special case for fs/gs (OPC0F adds SECTAB_OFFSET_5
// to these codes)
if (opcode > 0x7e)
{
decodeData.ttt = BIT53((opcode-SECTAB_OFFSET_5));
}
else
{
decodeData.ttt = BIT53(opcode); // set value to fall through
}
case SREG3: // segment register
break;
case BRSTR: // get index to register string
decodeData.ttt = *action++; // from action table
goto BREGlabel;
case BOREG: // byte register (in opcode)
decodeData.ttt = BIT20(opcode); // register is part of opcode
goto BREGlabel;
case ALSTR:
decodeData.ttt = 0; // point to AL register
BREGlabel:
case BREG: // general register
break;
case WRSTR: // get index to register string
decodeData.ttt = *action++; // from action table
goto WREGlabel;
case VOREG: // register is part of opcode
decodeData.ttt = BIT20(opcode);
goto VREGlabel;
case AXSTR:
decodeData.ttt = 0; // point to eAX register
VREGlabel:
case VREG: // general register
WREGlabel:
case WREG: // register is word size
break;
case MMWREG:
break;
case IST_ST:
break;
case ST_IST:
;
case IST:
;
break;
case xBYTE: // set instruction to byte only
decodeData.EAsize[0] = 1;
break;
case VAR:
if (opsize_32)
goto DWORDlabel;
case xWORD:
decodeData.EAsize[0] = 2;
break;
case EDWORD:
opsize_32 = 1; // for control reg move, use eRegs
case xDWORD:
DWORDlabel:
decodeData.EAsize[0] = 4;
break;
case MMQWORD:
decodeData.fMmRegEa = TRUE;
case QWORD:
decodeData.EAsize[0] = 8;
break;
case xTBYTE:
decodeData.EAsize[0] = 10;
break;
case FARPTR:
if (opsize_32) {
decodeData.EAsize[0] = 6;
}
else {
decodeData.EAsize[0] = 4;
}
break;
case LMODRM: // output modRM data type
if (decodeData.mod != 3)
;
else
decodeData.EAsize[0] = 0;
case MODRM: // output modrm string
if (segOvr) // in case of segment override
0;
break;
case ADDRP: // address pointer
decodeData.pMem += olen + 2;
break;
case REL8: // relative address 8-bit
tmp = (long)*(char *)(decodeData.pMem)++; // get the 8-bit rel offset
goto DoRelDispl;
case REL16: // relative address 16-/32-bit
tmp = 0;
if (mode_32)
MoveMemory(&tmp,decodeData.pMem,sizeof(long));
else
MoveMemory(&tmp,decodeData.pMem,sizeof(short));
decodeData.pMem += alen; // skip over offset
DoRelDispl:
break;
case UBYTE: // unsigned byte for int/in/out
decodeData.pMem++;
break;
case IB: // operand is immediate byte
if ((opcode & ~1) == 0xd4) { // postop for AAD/AAM is 0x0a
if (*(decodeData.pMem)++ != 0x0a) // test post-opcode byte
0;
break;
}
olen = 1; // set operand length
goto DoImmed;
case IW: // operand is immediate word
olen = 2; // set operand length
case IV: // operand is word or dword
DoImmed:
decodeData.pMem += olen;
break;
case OFFS: // operand is offset
decodeData.EAsize[0] = (opcode & 1) ? olen : 1;
if (segOvr) // in case of segment override
0;
decodeData.pMem += alen;
break;
case GROUP: // operand is of group 1,2,4,6 or 8
action++; // output opcode symbol
break;
case GROUPT: // operand is of group 3,5 or 7
indx = *action; // get indx into group from action
goto doGroupT;
case EGROUPT: // x87 ESC (D8-DF) group index
indx = BIT20(opcode) * 2; // get group index from opcode
if (decodeData.mod == 3)
{ // some operand variations exists
// for x87 and mod == 3
++indx; // take the next group table entry
if (indx == 3)
{ // for x87 ESC==D9 and mod==3
if (decodeData.ttt > 3)
{ // for those D9 instructions
indx = 12 + decodeData.ttt; // offset index to table by 12
decodeData.ttt = decodeData.rm; // set secondary index to rm
}
}
else if (indx == 7)
{ // for x87 ESC==DB and mod==3
if (decodeData.ttt == 4)
{
decodeData.ttt = decodeData.rm; // set secondary group table index
} else if ((decodeData.ttt<4)||(decodeData.ttt>4 && decodeData.ttt<7))
{
// adjust for pentium pro opcodes
indx = 24; // offset index to table by 24
}
}
}
doGroupT:
// handle group with different types of operands
action = actiontbl + groupt[indx][decodeData.ttt].opr;
// get new action
break;
//
// The secondary opcode table has been compressed in the
// original design. Hence while disassembling the 0F sequence,
// opcode needs to be displaced by an appropriate amount depending
// on the number of "filled" entries in the secondary table.
// These displacements are used throughout the code.
//
case OPC0F: // secondary opcode table (opcode 0F)
opcode = *(decodeData.pMem)++; // get real opcode
decodeData.fMovX = (BOOL)(opcode == 0xBF || opcode == 0xB7);
if (opcode < 12) // for the first 12 opcodes
opcode += SECTAB_OFFSET_1; // point to begin of sec op tab
else if (opcode > 0x1f && opcode < 0x27)
opcode += SECTAB_OFFSET_2; // adjust for undefined opcodes
else if (opcode > 0x2f && opcode < 0x34)
opcode += SECTAB_OFFSET_3; // adjust for undefined opcodes
else if (opcode > 0x3f && opcode < 0x50)
opcode += SECTAB_OFFSET_4; // adjust for undefined opcodes
else if (opcode > 0x5f && opcode < 0xff)
opcode += SECTAB_OFFSET_5; // adjust for undefined opcodes
else
opcode = SECTAB_OFFSET_UNDEF; // all non-existing opcodes
goto getNxtByte1;
case ADR_OVR: // address override
mode_32 = !G_mode_32; // override addressing mode
alen = (mode_32 + 1) << 1; // toggle address length
goto getNxtByte;
case OPR_OVR: // operand size override
opsize_32 = !G_mode_32; // override operand size
olen = (opsize_32 + 1) << 1; // toggle operand length
goto getNxtByte;
case SEG_OVR: // handle segment override
segOvr = opcode; // save segment override opcode
goto getNxtByte;
case REP: // handle rep/lock prefixes
getNxtByte:
opcode = *(decodeData.pMem)++; // next byte is opcode
getNxtByte1:
action = actiontbl + distbl[opcode].opr;
default: // opcode has no operand
break;
}
switch (action2)
{ // secondary action
case MRM: // generate modrm for later use
if (!mrm)
{ // ignore if it has been generated
//DIdoModrm(segOvr, &decodeData);
int newmrm; // modrm byte
int sib = 0;
int ss;
int ind;
int oldrm;
newmrm = *(decodeData.pMem)++; // get the mrm byte from instruction
decodeData.mod = BIT76(newmrm); // get mod
decodeData.ttt = BIT53(newmrm); // get reg - used outside routine
decodeData.rm = BIT20(newmrm); // get rm
if (decodeData.mod == 3)
{ // register only mode
decodeData.EAsize[0] = 0; // no EA value to output
}
else
{
// 32-bit addressing mode
oldrm = decodeData.rm;
if (decodeData.rm == 4)
{ // rm == 4 implies sib byte
sib = *(decodeData.pMem)++; // get s_i_b byte
decodeData.rm = BIT20(sib); // return base
}
if (decodeData.mod == 0 && decodeData.rm == 5)
{
decodeData.pMem += 4;
}
if (oldrm == 4)
{
// finish processing sib
ind = BIT53(sib);
if (ind != 4)
{
ss = 1 << BIT76(sib);
}
}
// output any displacement
if (decodeData.mod == 1)
{
decodeData.pMem++;
}
else if (decodeData.mod == 2)
{
decodeData.pMem += 4;
}
}
mrm = TRUE; // remember its generation
}
break;
case COM: // insert a comma after operand
break;
case END: // end of instruction
end = TRUE;
break;
}
}
while (!end); // loop til end of instruction
instlen = (decodeData.pMem) - pEip;
return instlen;
}
#endif
IMPLEMENT_SHIM_END