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580 lines
23 KiB
580 lines
23 KiB
/* @ Author: Gerd Immeyer @ Version: */
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/* */
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/* @ Creation Date: 10.19.89 @ Modification Date: */
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/* */
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/***************************************************************************/
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//
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// Munged for my purposes on 10/20/99 (v-johnwh)
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//
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#include <string.h>
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typedef unsigned long DWORD;
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typedef unsigned long ULONG;
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typedef unsigned short USHORT;
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typedef unsigned __int64 ULONGLONG;
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typedef int BOOL;
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typedef ULONG *PULONG;
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typedef void * PVOID;
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#define ADDR_V86 ((USHORT)0x0002)
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#define ADDR_16 ((USHORT)0x0004)
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#define FALSE 0
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#define TRUE 1
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#define BIT20(b) (b & 0x07)
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#define BIT53(b) (b >> 3 & 0x07)
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#define BIT76(b) (b >> 6 & 0x03)
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#define MAXL 16
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#define MAXOPLEN 10
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#define REGDS 3
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#define REGSS 15
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#define REGEBX 6
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#define REGEBP 10
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#define REGEDI 4
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#define REGESI 5
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#define REGEAX 9
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#define REGECX 8
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#define REGEDX 7
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#define REGESP 14
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#define Off(x) ((x).off)
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#define Type(x) ((x).type)
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#define OBOFFSET 26
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#define OBOPERAND 34
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#define OBLINEEND 77
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#define MAX_SYMNAME_SIZE 1024
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#include "86dis.h"
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ULONG X86BrkptLength = 1L;
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ULONG X86TrapInstr = 0xcc;
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/***** static tables and variables *****/
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static char regtab[] = "alcldlblahchdhbhaxcxdxbxspbpsidi"; /* reg table */
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static char *mrmtb16[] = { "bx+si", /* modRM string table (16-bit) */
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"bx+di",
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"bp+si",
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"bp+di",
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"si",
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"di",
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"bp",
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"bx"
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};
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static char *mrmtb32[] = { "eax", /* modRM string table (32-bit) */
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"ecx",
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"edx",
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"ebx",
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"esp",
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"ebp",
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"esi",
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"edi"
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};
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static char seg16[8] = { REGDS, REGDS, REGSS, REGSS,
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REGDS, REGDS, REGSS, REGDS };
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static char reg16[8] = { REGEBX, REGEBX, REGEBP, REGEBP,
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REGESI, REGEDI, REGEBP, REGEBX };
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static char reg16_2[4] = { REGESI, REGEDI, REGESI, REGEDI };
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static char seg32[8] = { REGDS, REGDS, REGDS, REGDS,
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REGSS, REGSS, REGDS, REGDS };
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static char reg32[8] = { REGEAX, REGECX, REGEDX, REGEBX,
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REGESP, REGEBP, REGESI, REGEDI };
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static char sregtab[] = "ecsdfg"; // first letter of ES, CS, SS, DS, FS, GS
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char hexdigit[] = { '0', '1', '2', '3', '4', '5', '6', '7',
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'8', '9', 'a', 'b', 'c', 'd', 'e', 'f' };
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typedef struct _DECODEDATA
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{
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int mod; /* mod of mod/rm byte */
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int rm; /* rm of mod/rm byte */
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int ttt; /* return reg value (of mod/rm) */
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unsigned char *pMem; /* current position in instruction */
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ADDR EAaddr[2]; // offset of effective address
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int EAsize[2]; // size of effective address item
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char *pchEAseg[2]; // normal segment for operand
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BOOL fMovX; // indicates a MOVSX or MOVZX
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BOOL fMmRegEa; // Use mm? registers in reg-only EA.
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} DECODEDATA;
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/*...........................internal function..............................*/
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/* */
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/* generate a mod/rm string */
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/* */
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void DIdoModrm (char **ppchBuf, int segOvr, DECODEDATA *decodeData)
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{
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int mrm; /* modrm byte */
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char *src; /* source string */
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int sib;
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int ss;
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int ind;
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int oldrm;
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mrm = *(decodeData->pMem)++; /* get the mrm byte from instruction */
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decodeData->mod = BIT76(mrm); /* get mod */
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decodeData->ttt = BIT53(mrm); /* get reg - used outside routine */
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decodeData->rm = BIT20(mrm); /* get rm */
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if (decodeData->mod == 3) { /* register only mode */
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if (decodeData->fMmRegEa) {
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*(*ppchBuf)++ = 'm';
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*(*ppchBuf)++ = 'm';
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*(*ppchBuf)++ = decodeData->rm + '0';
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} else {
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src = ®tab[decodeData->rm * 2]; /* point to 16-bit register */
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if (decodeData->EAsize[0] > 1) {
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src += 16; /* point to 16-bit register */
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if (!(decodeData->fMovX))
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*(*ppchBuf)++ = 'e'; /* make it a 32-bit register */
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}
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*(*ppchBuf)++ = *src++; /* copy register name */
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*(*ppchBuf)++ = *src;
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}
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decodeData->EAsize[0] = 0; // no EA value to output
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return;
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}
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if (1) { /* 32-bit addressing mode */
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oldrm = decodeData->rm;
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if (decodeData->rm == 4) { /* rm == 4 implies sib byte */
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sib = *(decodeData->pMem)++; /* get s_i_b byte */
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decodeData->rm = BIT20(sib); /* return base */
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}
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*(*ppchBuf)++ = '[';
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if (decodeData->mod == 0 && decodeData->rm == 5) {
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decodeData->pMem += 4;
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}
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if (oldrm == 4) { // finish processing sib
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ind = BIT53(sib);
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if (ind != 4) {
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*(*ppchBuf)++ = '+';
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ss = 1 << BIT76(sib);
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if (ss != 1) {
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*(*ppchBuf)++ = '*';
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*(*ppchBuf)++ = (char)(ss + '0');
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}
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}
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}
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}
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// output any displacement
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if (decodeData->mod == 1) {
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decodeData->pMem++;
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}
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else if (decodeData->mod == 2) {
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long tmp = 0;
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if (1) {
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decodeData->pMem += 4;
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}
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else {
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decodeData->pMem += 2;
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}
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}
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}
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DWORD GetInstructionLengthFromAddress(PVOID paddr)
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{
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PULONG pOffset = 0;
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int G_mode_32;
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int mode_32; /* local addressing mode indicator */
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int opsize_32; /* operand size flag */
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int opcode; /* current opcode */
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int olen = 2; /* operand length */
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int alen = 2; /* address length */
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int end = FALSE; /* end of instruction flag */
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int mrm = FALSE; /* indicator that modrm is generated*/
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unsigned char *action; /* action for operand interpretation*/
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long tmp; /* temporary storage field */
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int indx; /* temporary index */
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int action2; /* secondary action */
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int instlen; /* instruction length */
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int segOvr = 0; /* segment override opcode */
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unsigned char *membuf; /* current instruction buffer */
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char *pEAlabel = ""; /* optional label for operand */
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char RepPrefixBuffer[32]; /* rep prefix buffer */
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char *pchRepPrefixBuf = RepPrefixBuffer; /* pointer to prefix buffer */
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char OpcodeBuffer[8]; /* opcode buffer */
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char *pchOpcodeBuf = OpcodeBuffer; /* pointer to opcode buffer */
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char OperandBuffer[MAX_SYMNAME_SIZE + 20]; /* operand buffer */
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char *pchOperandBuf = OperandBuffer; /* pointer to operand buffer */
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char ModrmBuffer[MAX_SYMNAME_SIZE + 20]; /* modRM buffer */
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char *pchModrmBuf = ModrmBuffer; /* pointer to modRM buffer */
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char EABuffer[42]; /* effective address buffer */
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char *pchEABuf = EABuffer; /* pointer to EA buffer */
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unsigned char BOPaction;
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int subcode; /* bop subcode */
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DECODEDATA decodeData;
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decodeData.fMovX = FALSE;
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decodeData.fMmRegEa = FALSE;
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decodeData.EAsize[0] = decodeData.EAsize[1] = 0; // no effective address
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decodeData.pchEAseg[0] = dszDS_;
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decodeData.pchEAseg[1] = dszES_;
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G_mode_32 = 1;
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mode_32 = opsize_32 = (G_mode_32 == 1); /* local addressing mode */
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olen = alen = (1 + mode_32) << 1; // set operand/address lengths
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// 2 for 16-bit and 4 for 32-bit
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#if MULTIMODE
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if (paddr->type & (ADDR_V86 | ADDR_16)) {
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mode_32 = opsize_32 = 0;
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olen = alen = 2;
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}
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#endif
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membuf = (unsigned char *)paddr;
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decodeData.pMem = membuf; /* point to begin of instruction */
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opcode = *(decodeData.pMem)++; /* get opcode */
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if ( opcode == 0xc4 && *(decodeData.pMem) == 0xC4 ) {
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(decodeData.pMem)++;
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action = &BOPaction;
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BOPaction = IB | END;
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subcode = *(decodeData.pMem);
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if ( subcode == 0x50 || subcode == 0x52 || subcode == 0x53 || subcode == 0x54 || subcode == 0x57 || subcode == 0x58 || subcode == 0x58 ) {
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BOPaction = IW | END;
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}
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} else {
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action = actiontbl + distbl[opcode].opr; /* get operand action */
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}
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/***** loop through all operand actions *****/
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do {
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action2 = (*action) & 0xc0;
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switch((*action++) & 0x3f) {
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case ALT: /* alter the opcode if 32-bit */
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if (opsize_32) {
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indx = *action++;
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pchOpcodeBuf = &OpcodeBuffer[indx];
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if (indx == 0)
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;
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else {
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*pchOpcodeBuf++ = 'd';
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if (indx == 1)
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*pchOpcodeBuf++ = 'q';
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}
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}
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break;
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case STROP:
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// compute size of operands in indx
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// also if dword operands, change fifth
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// opcode letter from 'w' to 'd'.
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if (opcode & 1) {
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if (opsize_32) {
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indx = 4;
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OpcodeBuffer[4] = 'd';
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}
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else
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indx = 2;
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}
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else
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indx = 1;
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if (*action & 1) {
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}
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if (*action++ & 2) {
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}
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break;
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case CHR: /* insert a character */
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*pchOperandBuf++ = *action++;
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break;
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case CREG: /* set debug, test or control reg */
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if ((opcode - SECTAB_OFFSET_2)&0x04) //remove bias from opcode
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*pchOperandBuf++ = 't';
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else if ((opcode - SECTAB_OFFSET_2) & 0x01)
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*pchOperandBuf++ = 'd';
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else
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*pchOperandBuf++ = 'c';
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*pchOperandBuf++ = 'r';
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*pchOperandBuf++ = (char)('0' + decodeData.ttt);
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break;
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case SREG2: /* segment register */
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// Handle special case for fs/gs (OPC0F adds SECTAB_OFFSET_5
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// to these codes)
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if (opcode > 0x7e)
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decodeData.ttt = BIT53((opcode-SECTAB_OFFSET_5));
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else
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decodeData.ttt = BIT53(opcode); // set value to fall through
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case SREG3: /* segment register */
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*pchOperandBuf++ = sregtab[decodeData.ttt]; // reg is part of modrm
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*pchOperandBuf++ = 's';
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break;
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case BRSTR: /* get index to register string */
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decodeData.ttt = *action++; /* from action table */
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goto BREGlabel;
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case BOREG: /* byte register (in opcode) */
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decodeData.ttt = BIT20(opcode); /* register is part of opcode */
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goto BREGlabel;
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case ALSTR:
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decodeData.ttt = 0; /* point to AL register */
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BREGlabel:
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case BREG: /* general register */
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*pchOperandBuf++ = regtab[decodeData.ttt * 2];
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*pchOperandBuf++ = regtab[decodeData.ttt * 2 + 1];
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break;
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case WRSTR: /* get index to register string */
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decodeData.ttt = *action++; /* from action table */
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goto WREGlabel;
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case VOREG: /* register is part of opcode */
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decodeData.ttt = BIT20(opcode);
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goto VREGlabel;
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case AXSTR:
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decodeData.ttt = 0; /* point to eAX register */
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VREGlabel:
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case VREG: /* general register */
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if (opsize_32) /* test for 32bit mode */
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*pchOperandBuf++ = 'e';
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WREGlabel:
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case WREG: /* register is word size */
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*pchOperandBuf++ = regtab[decodeData.ttt * 2 + 16];
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*pchOperandBuf++ = regtab[decodeData.ttt * 2 + 17];
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break;
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case MMWREG:
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*pchOperandBuf++ = 'm';
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*pchOperandBuf++ = 'm';
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*pchOperandBuf++ = decodeData.ttt + '0';
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break;
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case IST_ST:
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*(pchOperandBuf - 5) += (char)decodeData.rm;
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break;
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case ST_IST:
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;
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case IST:
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;
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*(pchOperandBuf - 2) += (char)decodeData.rm;
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break;
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case xBYTE: /* set instruction to byte only */
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decodeData.EAsize[0] = 1;
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break;
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case VAR:
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if (opsize_32)
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goto DWORDlabel;
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case xWORD:
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decodeData.EAsize[0] = 2;
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break;
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case EDWORD:
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opsize_32 = 1; // for control reg move, use eRegs
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case xDWORD:
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DWORDlabel:
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decodeData.EAsize[0] = 4;
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break;
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case MMQWORD:
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decodeData.fMmRegEa = TRUE;
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case QWORD:
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decodeData.EAsize[0] = 8;
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break;
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case TBYTE:
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decodeData.EAsize[0] = 10;
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break;
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case FARPTR:
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if (opsize_32) {
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decodeData.EAsize[0] = 6;
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}
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else {
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decodeData.EAsize[0] = 4;
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}
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break;
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case LMODRM: // output modRM data type
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if (decodeData.mod != 3)
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;
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else
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decodeData.EAsize[0] = 0;
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case MODRM: /* output modrm string */
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if (segOvr) /* in case of segment override */
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0;
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break;
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case ADDRP: /* address pointer */
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decodeData.pMem += olen + 2;
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break;
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case REL8: /* relative address 8-bit */
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if (opcode == 0xe3 && mode_32) {
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pchOpcodeBuf = OpcodeBuffer;
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}
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tmp = (long)*(char *)(decodeData.pMem)++; /* get the 8-bit rel offset */
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goto DoRelDispl;
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case REL16: /* relative address 16-/32-bit */
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tmp = 0;
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if (mode_32)
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memmove(&tmp,decodeData.pMem,sizeof(long));
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else
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memmove(&tmp,decodeData.pMem,sizeof(short));
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decodeData.pMem += alen; /* skip over offset */
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DoRelDispl:
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// tmp += *pOffset + (decodeData.pMem - membuf); /* calculate address */
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// address
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break;
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case UBYTE: // unsigned byte for int/in/out
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decodeData.pMem++;
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break;
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case IB: /* operand is immediate byte */
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if ((opcode & ~1) == 0xd4) { // postop for AAD/AAM is 0x0a
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if (*(decodeData.pMem)++ != 0x0a) // test post-opcode byte
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0;
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break;
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}
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olen = 1; /* set operand length */
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goto DoImmed;
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case IW: /* operand is immediate word */
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olen = 2; /* set operand length */
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case IV: /* operand is word or dword */
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DoImmed:
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decodeData.pMem += olen;
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break;
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case OFFS: /* operand is offset */
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decodeData.EAsize[0] = (opcode & 1) ? olen : 1;
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if (segOvr) /* in case of segment override */
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0;
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decodeData.pMem += alen;
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break;
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case GROUP: /* operand is of group 1,2,4,6 or 8 */
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/* output opcode symbol */
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action++;
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break;
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case GROUPT: /* operand is of group 3,5 or 7 */
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indx = *action; /* get indx into group from action */
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goto doGroupT;
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case EGROUPT: /* x87 ESC (D8-DF) group index */
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indx = BIT20(opcode) * 2; /* get group index from opcode */
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if (decodeData.mod == 3) { /* some operand variations exists */
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/* for x87 and mod == 3 */
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++indx; /* take the next group table entry */
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if (indx == 3) { /* for x87 ESC==D9 and mod==3 */
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if (decodeData.ttt > 3) { /* for those D9 instructions */
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indx = 12 + decodeData.ttt; /* offset index to table by 12 */
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decodeData.ttt = decodeData.rm; /* set secondary index to rm */
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}
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}
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else if (indx == 7) { /* for x87 ESC==DB and mod==3 */
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if (decodeData.ttt == 4) { /* if ttt==4 */
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decodeData.ttt = decodeData.rm; /* set secondary group table index */
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} else if ((decodeData.ttt<4)||(decodeData.ttt>4 && decodeData.ttt<7)) {
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// adjust for pentium pro opcodes
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indx = 24; /* offset index to table by 24*/
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}
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}
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}
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doGroupT:
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/* handle group with different types of operands */
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action = actiontbl + groupt[indx][decodeData.ttt].opr;
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/* get new action */
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break;
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//
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// The secondary opcode table has been compressed in the
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// original design. Hence while disassembling the 0F sequence,
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|
// 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 */
|
|
pchOpcodeBuf = OpcodeBuffer; // restart the opcode string
|
|
goto getNxtByte;
|
|
|
|
case REP: /* handle rep/lock prefixes */
|
|
if (pchRepPrefixBuf != RepPrefixBuffer)
|
|
*pchRepPrefixBuf++ = ' ';
|
|
pchOpcodeBuf = OpcodeBuffer;
|
|
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(&pchModrmBuf, segOvr, &decodeData);
|
|
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) - membuf;
|
|
|
|
return instlen;
|
|
}
|