1 /* 2 * Copyright (C) 2016 Veertu Inc, 3 * Copyright (C) 2017 Google Inc, 4 * 5 * This program is free software; you can redistribute it and/or 6 * modify it under the terms of the GNU Lesser General Public 7 * License as published by the Free Software Foundation; either 8 * version 2.1 of the License, or (at your option) any later version. 9 * 10 * This program is distributed in the hope that it will be useful, 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 13 * Lesser General Public License for more details. 14 * 15 * You should have received a copy of the GNU Lesser General Public 16 * License along with this program; if not, see <http://www.gnu.org/licenses/>. 17 */ 18 19 #include "qemu/osdep.h" 20 21 #include "qemu-common.h" 22 #include "panic.h" 23 #include "x86_decode.h" 24 #include "vmx.h" 25 #include "x86_mmu.h" 26 #include "x86_descr.h" 27 28 #define OPCODE_ESCAPE 0xf 29 30 static void decode_invalid(CPUX86State *env, struct x86_decode *decode) 31 { 32 printf("%llx: failed to decode instruction ", env->eip); 33 for (int i = 0; i < decode->opcode_len; i++) { 34 printf("%x ", decode->opcode[i]); 35 } 36 printf("\n"); 37 VM_PANIC("decoder failed\n"); 38 } 39 40 uint64_t sign(uint64_t val, int size) 41 { 42 switch (size) { 43 case 1: 44 val = (int8_t)val; 45 break; 46 case 2: 47 val = (int16_t)val; 48 break; 49 case 4: 50 val = (int32_t)val; 51 break; 52 case 8: 53 val = (int64_t)val; 54 break; 55 default: 56 VM_PANIC_EX("%s invalid size %d\n", __func__, size); 57 break; 58 } 59 return val; 60 } 61 62 static inline uint64_t decode_bytes(CPUX86State *env, struct x86_decode *decode, 63 int size) 64 { 65 target_ulong val = 0; 66 67 switch (size) { 68 case 1: 69 case 2: 70 case 4: 71 case 8: 72 break; 73 default: 74 VM_PANIC_EX("%s invalid size %d\n", __func__, size); 75 break; 76 } 77 target_ulong va = linear_rip(env_cpu(env), env->eip) + decode->len; 78 vmx_read_mem(env_cpu(env), &val, va, size); 79 decode->len += size; 80 81 return val; 82 } 83 84 static inline uint8_t decode_byte(CPUX86State *env, struct x86_decode *decode) 85 { 86 return (uint8_t)decode_bytes(env, decode, 1); 87 } 88 89 static inline uint16_t decode_word(CPUX86State *env, struct x86_decode *decode) 90 { 91 return (uint16_t)decode_bytes(env, decode, 2); 92 } 93 94 static inline uint32_t decode_dword(CPUX86State *env, struct x86_decode *decode) 95 { 96 return (uint32_t)decode_bytes(env, decode, 4); 97 } 98 99 static inline uint64_t decode_qword(CPUX86State *env, struct x86_decode *decode) 100 { 101 return decode_bytes(env, decode, 8); 102 } 103 104 static void decode_modrm_rm(CPUX86State *env, struct x86_decode *decode, 105 struct x86_decode_op *op) 106 { 107 op->type = X86_VAR_RM; 108 } 109 110 static void decode_modrm_reg(CPUX86State *env, struct x86_decode *decode, 111 struct x86_decode_op *op) 112 { 113 op->type = X86_VAR_REG; 114 op->reg = decode->modrm.reg; 115 op->ptr = get_reg_ref(env, op->reg, decode->rex.rex, decode->rex.r, 116 decode->operand_size); 117 } 118 119 static void decode_rax(CPUX86State *env, struct x86_decode *decode, 120 struct x86_decode_op *op) 121 { 122 op->type = X86_VAR_REG; 123 op->reg = R_EAX; 124 /* Since reg is always AX, REX prefix has no impact. */ 125 op->ptr = get_reg_ref(env, op->reg, false, 0, 126 decode->operand_size); 127 } 128 129 static inline void decode_immediate(CPUX86State *env, struct x86_decode *decode, 130 struct x86_decode_op *var, int size) 131 { 132 var->type = X86_VAR_IMMEDIATE; 133 var->size = size; 134 switch (size) { 135 case 1: 136 var->val = decode_byte(env, decode); 137 break; 138 case 2: 139 var->val = decode_word(env, decode); 140 break; 141 case 4: 142 var->val = decode_dword(env, decode); 143 break; 144 case 8: 145 var->val = decode_qword(env, decode); 146 break; 147 default: 148 VM_PANIC_EX("bad size %d\n", size); 149 } 150 } 151 152 static void decode_imm8(CPUX86State *env, struct x86_decode *decode, 153 struct x86_decode_op *op) 154 { 155 decode_immediate(env, decode, op, 1); 156 op->type = X86_VAR_IMMEDIATE; 157 } 158 159 static void decode_imm8_signed(CPUX86State *env, struct x86_decode *decode, 160 struct x86_decode_op *op) 161 { 162 decode_immediate(env, decode, op, 1); 163 op->val = sign(op->val, 1); 164 op->type = X86_VAR_IMMEDIATE; 165 } 166 167 static void decode_imm16(CPUX86State *env, struct x86_decode *decode, 168 struct x86_decode_op *op) 169 { 170 decode_immediate(env, decode, op, 2); 171 op->type = X86_VAR_IMMEDIATE; 172 } 173 174 175 static void decode_imm(CPUX86State *env, struct x86_decode *decode, 176 struct x86_decode_op *op) 177 { 178 if (8 == decode->operand_size) { 179 decode_immediate(env, decode, op, 4); 180 op->val = sign(op->val, decode->operand_size); 181 } else { 182 decode_immediate(env, decode, op, decode->operand_size); 183 } 184 op->type = X86_VAR_IMMEDIATE; 185 } 186 187 static void decode_imm_signed(CPUX86State *env, struct x86_decode *decode, 188 struct x86_decode_op *op) 189 { 190 decode_immediate(env, decode, op, decode->operand_size); 191 op->val = sign(op->val, decode->operand_size); 192 op->type = X86_VAR_IMMEDIATE; 193 } 194 195 static void decode_imm_1(CPUX86State *env, struct x86_decode *decode, 196 struct x86_decode_op *op) 197 { 198 op->type = X86_VAR_IMMEDIATE; 199 op->val = 1; 200 } 201 202 static void decode_imm_0(CPUX86State *env, struct x86_decode *decode, 203 struct x86_decode_op *op) 204 { 205 op->type = X86_VAR_IMMEDIATE; 206 op->val = 0; 207 } 208 209 210 static void decode_pushseg(CPUX86State *env, struct x86_decode *decode) 211 { 212 uint8_t op = (decode->opcode_len > 1) ? decode->opcode[1] : decode->opcode[0]; 213 214 decode->op[0].type = X86_VAR_REG; 215 switch (op) { 216 case 0xe: 217 decode->op[0].reg = R_CS; 218 break; 219 case 0x16: 220 decode->op[0].reg = R_SS; 221 break; 222 case 0x1e: 223 decode->op[0].reg = R_DS; 224 break; 225 case 0x06: 226 decode->op[0].reg = R_ES; 227 break; 228 case 0xa0: 229 decode->op[0].reg = R_FS; 230 break; 231 case 0xa8: 232 decode->op[0].reg = R_GS; 233 break; 234 } 235 } 236 237 static void decode_popseg(CPUX86State *env, struct x86_decode *decode) 238 { 239 uint8_t op = (decode->opcode_len > 1) ? decode->opcode[1] : decode->opcode[0]; 240 241 decode->op[0].type = X86_VAR_REG; 242 switch (op) { 243 case 0xf: 244 decode->op[0].reg = R_CS; 245 break; 246 case 0x17: 247 decode->op[0].reg = R_SS; 248 break; 249 case 0x1f: 250 decode->op[0].reg = R_DS; 251 break; 252 case 0x07: 253 decode->op[0].reg = R_ES; 254 break; 255 case 0xa1: 256 decode->op[0].reg = R_FS; 257 break; 258 case 0xa9: 259 decode->op[0].reg = R_GS; 260 break; 261 } 262 } 263 264 static void decode_incgroup(CPUX86State *env, struct x86_decode *decode) 265 { 266 decode->op[0].type = X86_VAR_REG; 267 decode->op[0].reg = decode->opcode[0] - 0x40; 268 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 269 decode->rex.b, decode->operand_size); 270 } 271 272 static void decode_decgroup(CPUX86State *env, struct x86_decode *decode) 273 { 274 decode->op[0].type = X86_VAR_REG; 275 decode->op[0].reg = decode->opcode[0] - 0x48; 276 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 277 decode->rex.b, decode->operand_size); 278 } 279 280 static void decode_incgroup2(CPUX86State *env, struct x86_decode *decode) 281 { 282 if (!decode->modrm.reg) { 283 decode->cmd = X86_DECODE_CMD_INC; 284 } else if (1 == decode->modrm.reg) { 285 decode->cmd = X86_DECODE_CMD_DEC; 286 } 287 } 288 289 static void decode_pushgroup(CPUX86State *env, struct x86_decode *decode) 290 { 291 decode->op[0].type = X86_VAR_REG; 292 decode->op[0].reg = decode->opcode[0] - 0x50; 293 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 294 decode->rex.b, decode->operand_size); 295 } 296 297 static void decode_popgroup(CPUX86State *env, struct x86_decode *decode) 298 { 299 decode->op[0].type = X86_VAR_REG; 300 decode->op[0].reg = decode->opcode[0] - 0x58; 301 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 302 decode->rex.b, decode->operand_size); 303 } 304 305 static void decode_jxx(CPUX86State *env, struct x86_decode *decode) 306 { 307 decode->displacement = decode_bytes(env, decode, decode->operand_size); 308 decode->displacement_size = decode->operand_size; 309 } 310 311 static void decode_farjmp(CPUX86State *env, struct x86_decode *decode) 312 { 313 decode->op[0].type = X86_VAR_IMMEDIATE; 314 decode->op[0].val = decode_bytes(env, decode, decode->operand_size); 315 decode->displacement = decode_word(env, decode); 316 } 317 318 static void decode_addgroup(CPUX86State *env, struct x86_decode *decode) 319 { 320 enum x86_decode_cmd group[] = { 321 X86_DECODE_CMD_ADD, 322 X86_DECODE_CMD_OR, 323 X86_DECODE_CMD_ADC, 324 X86_DECODE_CMD_SBB, 325 X86_DECODE_CMD_AND, 326 X86_DECODE_CMD_SUB, 327 X86_DECODE_CMD_XOR, 328 X86_DECODE_CMD_CMP 329 }; 330 decode->cmd = group[decode->modrm.reg]; 331 } 332 333 static void decode_rotgroup(CPUX86State *env, struct x86_decode *decode) 334 { 335 enum x86_decode_cmd group[] = { 336 X86_DECODE_CMD_ROL, 337 X86_DECODE_CMD_ROR, 338 X86_DECODE_CMD_RCL, 339 X86_DECODE_CMD_RCR, 340 X86_DECODE_CMD_SHL, 341 X86_DECODE_CMD_SHR, 342 X86_DECODE_CMD_SHL, 343 X86_DECODE_CMD_SAR 344 }; 345 decode->cmd = group[decode->modrm.reg]; 346 } 347 348 static void decode_f7group(CPUX86State *env, struct x86_decode *decode) 349 { 350 enum x86_decode_cmd group[] = { 351 X86_DECODE_CMD_TST, 352 X86_DECODE_CMD_TST, 353 X86_DECODE_CMD_NOT, 354 X86_DECODE_CMD_NEG, 355 X86_DECODE_CMD_MUL, 356 X86_DECODE_CMD_IMUL_1, 357 X86_DECODE_CMD_DIV, 358 X86_DECODE_CMD_IDIV 359 }; 360 decode->cmd = group[decode->modrm.reg]; 361 decode_modrm_rm(env, decode, &decode->op[0]); 362 363 switch (decode->modrm.reg) { 364 case 0: 365 case 1: 366 decode_imm(env, decode, &decode->op[1]); 367 break; 368 case 2: 369 break; 370 case 3: 371 decode->op[1].type = X86_VAR_IMMEDIATE; 372 decode->op[1].val = 0; 373 break; 374 default: 375 break; 376 } 377 } 378 379 static void decode_xchgroup(CPUX86State *env, struct x86_decode *decode) 380 { 381 decode->op[0].type = X86_VAR_REG; 382 decode->op[0].reg = decode->opcode[0] - 0x90; 383 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 384 decode->rex.b, decode->operand_size); 385 } 386 387 static void decode_movgroup(CPUX86State *env, struct x86_decode *decode) 388 { 389 decode->op[0].type = X86_VAR_REG; 390 decode->op[0].reg = decode->opcode[0] - 0xb8; 391 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 392 decode->rex.b, decode->operand_size); 393 decode_immediate(env, decode, &decode->op[1], decode->operand_size); 394 } 395 396 static void fetch_moffs(CPUX86State *env, struct x86_decode *decode, 397 struct x86_decode_op *op) 398 { 399 op->type = X86_VAR_OFFSET; 400 op->ptr = decode_bytes(env, decode, decode->addressing_size); 401 } 402 403 static void decode_movgroup8(CPUX86State *env, struct x86_decode *decode) 404 { 405 decode->op[0].type = X86_VAR_REG; 406 decode->op[0].reg = decode->opcode[0] - 0xb0; 407 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 408 decode->rex.b, decode->operand_size); 409 decode_immediate(env, decode, &decode->op[1], decode->operand_size); 410 } 411 412 static void decode_rcx(CPUX86State *env, struct x86_decode *decode, 413 struct x86_decode_op *op) 414 { 415 op->type = X86_VAR_REG; 416 op->reg = R_ECX; 417 op->ptr = get_reg_ref(env, op->reg, decode->rex.rex, decode->rex.b, 418 decode->operand_size); 419 } 420 421 struct decode_tbl { 422 uint8_t opcode; 423 enum x86_decode_cmd cmd; 424 uint8_t operand_size; 425 bool is_modrm; 426 void (*decode_op1)(CPUX86State *env, struct x86_decode *decode, 427 struct x86_decode_op *op1); 428 void (*decode_op2)(CPUX86State *env, struct x86_decode *decode, 429 struct x86_decode_op *op2); 430 void (*decode_op3)(CPUX86State *env, struct x86_decode *decode, 431 struct x86_decode_op *op3); 432 void (*decode_op4)(CPUX86State *env, struct x86_decode *decode, 433 struct x86_decode_op *op4); 434 void (*decode_postfix)(CPUX86State *env, struct x86_decode *decode); 435 uint32_t flags_mask; 436 }; 437 438 struct decode_x87_tbl { 439 uint8_t opcode; 440 uint8_t modrm_reg; 441 uint8_t modrm_mod; 442 enum x86_decode_cmd cmd; 443 uint8_t operand_size; 444 bool rev; 445 bool pop; 446 void (*decode_op1)(CPUX86State *env, struct x86_decode *decode, 447 struct x86_decode_op *op1); 448 void (*decode_op2)(CPUX86State *env, struct x86_decode *decode, 449 struct x86_decode_op *op2); 450 void (*decode_postfix)(CPUX86State *env, struct x86_decode *decode); 451 uint32_t flags_mask; 452 }; 453 454 struct decode_tbl invl_inst = {0x0, 0, 0, false, NULL, NULL, NULL, NULL, 455 decode_invalid}; 456 457 struct decode_tbl _decode_tbl1[256]; 458 struct decode_tbl _decode_tbl2[256]; 459 struct decode_x87_tbl _decode_tbl3[256]; 460 461 static void decode_x87_ins(CPUX86State *env, struct x86_decode *decode) 462 { 463 struct decode_x87_tbl *decoder; 464 465 decode->is_fpu = true; 466 int mode = decode->modrm.mod == 3 ? 1 : 0; 467 int index = ((decode->opcode[0] & 0xf) << 4) | (mode << 3) | 468 decode->modrm.reg; 469 470 decoder = &_decode_tbl3[index]; 471 472 decode->cmd = decoder->cmd; 473 if (decoder->operand_size) { 474 decode->operand_size = decoder->operand_size; 475 } 476 decode->flags_mask = decoder->flags_mask; 477 decode->fpop_stack = decoder->pop; 478 decode->frev = decoder->rev; 479 480 if (decoder->decode_op1) { 481 decoder->decode_op1(env, decode, &decode->op[0]); 482 } 483 if (decoder->decode_op2) { 484 decoder->decode_op2(env, decode, &decode->op[1]); 485 } 486 if (decoder->decode_postfix) { 487 decoder->decode_postfix(env, decode); 488 } 489 490 VM_PANIC_ON_EX(!decode->cmd, "x87 opcode %x %x (%x %x) not decoded\n", 491 decode->opcode[0], decode->modrm.modrm, decoder->modrm_reg, 492 decoder->modrm_mod); 493 } 494 495 static void decode_ffgroup(CPUX86State *env, struct x86_decode *decode) 496 { 497 enum x86_decode_cmd group[] = { 498 X86_DECODE_CMD_INC, 499 X86_DECODE_CMD_DEC, 500 X86_DECODE_CMD_CALL_NEAR_ABS_INDIRECT, 501 X86_DECODE_CMD_CALL_FAR_ABS_INDIRECT, 502 X86_DECODE_CMD_JMP_NEAR_ABS_INDIRECT, 503 X86_DECODE_CMD_JMP_FAR_ABS_INDIRECT, 504 X86_DECODE_CMD_PUSH, 505 X86_DECODE_CMD_INVL, 506 X86_DECODE_CMD_INVL 507 }; 508 decode->cmd = group[decode->modrm.reg]; 509 if (decode->modrm.reg > 2) { 510 decode->flags_mask = 0; 511 } 512 } 513 514 static void decode_sldtgroup(CPUX86State *env, struct x86_decode *decode) 515 { 516 517 enum x86_decode_cmd group[] = { 518 X86_DECODE_CMD_SLDT, 519 X86_DECODE_CMD_STR, 520 X86_DECODE_CMD_LLDT, 521 X86_DECODE_CMD_LTR, 522 X86_DECODE_CMD_VERR, 523 X86_DECODE_CMD_VERW, 524 X86_DECODE_CMD_INVL, 525 X86_DECODE_CMD_INVL 526 }; 527 decode->cmd = group[decode->modrm.reg]; 528 } 529 530 static void decode_lidtgroup(CPUX86State *env, struct x86_decode *decode) 531 { 532 enum x86_decode_cmd group[] = { 533 X86_DECODE_CMD_SGDT, 534 X86_DECODE_CMD_SIDT, 535 X86_DECODE_CMD_LGDT, 536 X86_DECODE_CMD_LIDT, 537 X86_DECODE_CMD_SMSW, 538 X86_DECODE_CMD_LMSW, 539 X86_DECODE_CMD_LMSW, 540 X86_DECODE_CMD_INVLPG 541 }; 542 decode->cmd = group[decode->modrm.reg]; 543 if (0xf9 == decode->modrm.modrm) { 544 decode->opcode[decode->len++] = decode->modrm.modrm; 545 decode->cmd = X86_DECODE_CMD_RDTSCP; 546 } 547 } 548 549 static void decode_btgroup(CPUX86State *env, struct x86_decode *decode) 550 { 551 enum x86_decode_cmd group[] = { 552 X86_DECODE_CMD_INVL, 553 X86_DECODE_CMD_INVL, 554 X86_DECODE_CMD_INVL, 555 X86_DECODE_CMD_INVL, 556 X86_DECODE_CMD_BT, 557 X86_DECODE_CMD_BTS, 558 X86_DECODE_CMD_BTR, 559 X86_DECODE_CMD_BTC 560 }; 561 decode->cmd = group[decode->modrm.reg]; 562 } 563 564 static void decode_x87_general(CPUX86State *env, struct x86_decode *decode) 565 { 566 decode->is_fpu = true; 567 } 568 569 static void decode_x87_modrm_floatp(CPUX86State *env, struct x86_decode *decode, 570 struct x86_decode_op *op) 571 { 572 op->type = X87_VAR_FLOATP; 573 } 574 575 static void decode_x87_modrm_intp(CPUX86State *env, struct x86_decode *decode, 576 struct x86_decode_op *op) 577 { 578 op->type = X87_VAR_INTP; 579 } 580 581 static void decode_x87_modrm_bytep(CPUX86State *env, struct x86_decode *decode, 582 struct x86_decode_op *op) 583 { 584 op->type = X87_VAR_BYTEP; 585 } 586 587 static void decode_x87_modrm_st0(CPUX86State *env, struct x86_decode *decode, 588 struct x86_decode_op *op) 589 { 590 op->type = X87_VAR_REG; 591 op->reg = 0; 592 } 593 594 static void decode_decode_x87_modrm_st0(CPUX86State *env, 595 struct x86_decode *decode, 596 struct x86_decode_op *op) 597 { 598 op->type = X87_VAR_REG; 599 op->reg = decode->modrm.modrm & 7; 600 } 601 602 603 static void decode_aegroup(CPUX86State *env, struct x86_decode *decode) 604 { 605 decode->is_fpu = true; 606 switch (decode->modrm.reg) { 607 case 0: 608 decode->cmd = X86_DECODE_CMD_FXSAVE; 609 decode_x87_modrm_bytep(env, decode, &decode->op[0]); 610 break; 611 case 1: 612 decode_x87_modrm_bytep(env, decode, &decode->op[0]); 613 decode->cmd = X86_DECODE_CMD_FXRSTOR; 614 break; 615 case 5: 616 if (decode->modrm.modrm == 0xe8) { 617 decode->cmd = X86_DECODE_CMD_LFENCE; 618 } else { 619 VM_PANIC("xrstor"); 620 } 621 break; 622 case 6: 623 VM_PANIC_ON(decode->modrm.modrm != 0xf0); 624 decode->cmd = X86_DECODE_CMD_MFENCE; 625 break; 626 case 7: 627 if (decode->modrm.modrm == 0xf8) { 628 decode->cmd = X86_DECODE_CMD_SFENCE; 629 } else { 630 decode->cmd = X86_DECODE_CMD_CLFLUSH; 631 } 632 break; 633 default: 634 VM_PANIC_EX("0xae: reg %d\n", decode->modrm.reg); 635 break; 636 } 637 } 638 639 static void decode_bswap(CPUX86State *env, struct x86_decode *decode) 640 { 641 decode->op[0].type = X86_VAR_REG; 642 decode->op[0].reg = decode->opcode[1] - 0xc8; 643 decode->op[0].ptr = get_reg_ref(env, decode->op[0].reg, decode->rex.rex, 644 decode->rex.b, decode->operand_size); 645 } 646 647 static void decode_d9_4(CPUX86State *env, struct x86_decode *decode) 648 { 649 switch (decode->modrm.modrm) { 650 case 0xe0: 651 /* FCHS */ 652 decode->cmd = X86_DECODE_CMD_FCHS; 653 break; 654 case 0xe1: 655 decode->cmd = X86_DECODE_CMD_FABS; 656 break; 657 case 0xe4: 658 VM_PANIC("FTST"); 659 break; 660 case 0xe5: 661 /* FXAM */ 662 decode->cmd = X86_DECODE_CMD_FXAM; 663 break; 664 default: 665 VM_PANIC("FLDENV"); 666 break; 667 } 668 } 669 670 static void decode_db_4(CPUX86State *env, struct x86_decode *decode) 671 { 672 switch (decode->modrm.modrm) { 673 case 0xe0: 674 VM_PANIC_EX("unhandled FNENI: %x %x\n", decode->opcode[0], 675 decode->modrm.modrm); 676 break; 677 case 0xe1: 678 VM_PANIC_EX("unhandled FNDISI: %x %x\n", decode->opcode[0], 679 decode->modrm.modrm); 680 break; 681 case 0xe2: 682 VM_PANIC_EX("unhandled FCLEX: %x %x\n", decode->opcode[0], 683 decode->modrm.modrm); 684 break; 685 case 0xe3: 686 decode->cmd = X86_DECODE_CMD_FNINIT; 687 break; 688 case 0xe4: 689 decode->cmd = X86_DECODE_CMD_FNSETPM; 690 break; 691 default: 692 VM_PANIC_EX("unhandled fpu opcode: %x %x\n", decode->opcode[0], 693 decode->modrm.modrm); 694 break; 695 } 696 } 697 698 699 #define RFLAGS_MASK_NONE 0 700 #define RFLAGS_MASK_OSZAPC (CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C) 701 #define RFLAGS_MASK_LAHF (CC_S | CC_Z | CC_A | CC_P | CC_C) 702 #define RFLAGS_MASK_CF (CC_C) 703 #define RFLAGS_MASK_IF (IF_MASK) 704 #define RFLAGS_MASK_TF (TF_MASK) 705 #define RFLAGS_MASK_DF (DF_MASK) 706 #define RFLAGS_MASK_ZF (CC_Z) 707 708 struct decode_tbl _1op_inst[] = { 709 {0x0, X86_DECODE_CMD_ADD, 1, true, decode_modrm_rm, decode_modrm_reg, NULL, 710 NULL, NULL, RFLAGS_MASK_OSZAPC}, 711 {0x1, X86_DECODE_CMD_ADD, 0, true, decode_modrm_rm, decode_modrm_reg, NULL, 712 NULL, NULL, RFLAGS_MASK_OSZAPC}, 713 {0x2, X86_DECODE_CMD_ADD, 1, true, decode_modrm_reg, decode_modrm_rm, NULL, 714 NULL, NULL, RFLAGS_MASK_OSZAPC}, 715 {0x3, X86_DECODE_CMD_ADD, 0, true, decode_modrm_reg, decode_modrm_rm, NULL, 716 NULL, NULL, RFLAGS_MASK_OSZAPC}, 717 {0x4, X86_DECODE_CMD_ADD, 1, false, decode_rax, decode_imm8, NULL, NULL, 718 NULL, RFLAGS_MASK_OSZAPC}, 719 {0x5, X86_DECODE_CMD_ADD, 0, false, decode_rax, decode_imm, NULL, NULL, 720 NULL, RFLAGS_MASK_OSZAPC}, 721 {0x6, X86_DECODE_CMD_PUSH_SEG, 0, false, false, NULL, NULL, NULL, 722 decode_pushseg, RFLAGS_MASK_NONE}, 723 {0x7, X86_DECODE_CMD_POP_SEG, 0, false, false, NULL, NULL, NULL, 724 decode_popseg, RFLAGS_MASK_NONE}, 725 {0x8, X86_DECODE_CMD_OR, 1, true, decode_modrm_rm, decode_modrm_reg, NULL, 726 NULL, NULL, RFLAGS_MASK_OSZAPC}, 727 {0x9, X86_DECODE_CMD_OR, 0, true, decode_modrm_rm, decode_modrm_reg, NULL, 728 NULL, NULL, RFLAGS_MASK_OSZAPC}, 729 {0xa, X86_DECODE_CMD_OR, 1, true, decode_modrm_reg, decode_modrm_rm, NULL, 730 NULL, NULL, RFLAGS_MASK_OSZAPC}, 731 {0xb, X86_DECODE_CMD_OR, 0, true, decode_modrm_reg, decode_modrm_rm, 732 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 733 {0xc, X86_DECODE_CMD_OR, 1, false, decode_rax, decode_imm8, 734 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 735 {0xd, X86_DECODE_CMD_OR, 0, false, decode_rax, decode_imm, 736 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 737 738 {0xe, X86_DECODE_CMD_PUSH_SEG, 0, false, false, 739 NULL, NULL, NULL, decode_pushseg, RFLAGS_MASK_NONE}, 740 {0xf, X86_DECODE_CMD_POP_SEG, 0, false, false, 741 NULL, NULL, NULL, decode_popseg, RFLAGS_MASK_NONE}, 742 743 {0x10, X86_DECODE_CMD_ADC, 1, true, decode_modrm_rm, decode_modrm_reg, 744 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 745 {0x11, X86_DECODE_CMD_ADC, 0, true, decode_modrm_rm, decode_modrm_reg, 746 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 747 {0x12, X86_DECODE_CMD_ADC, 1, true, decode_modrm_reg, decode_modrm_rm, 748 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 749 {0x13, X86_DECODE_CMD_ADC, 0, true, decode_modrm_reg, decode_modrm_rm, 750 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 751 {0x14, X86_DECODE_CMD_ADC, 1, false, decode_rax, decode_imm, 752 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 753 {0x15, X86_DECODE_CMD_ADC, 0, false, decode_rax, decode_imm, 754 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 755 756 {0x16, X86_DECODE_CMD_PUSH_SEG, 0, false, false, 757 NULL, NULL, NULL, decode_pushseg, RFLAGS_MASK_NONE}, 758 {0x17, X86_DECODE_CMD_POP_SEG, 0, false, false, 759 NULL, NULL, NULL, decode_popseg, RFLAGS_MASK_NONE}, 760 761 {0x18, X86_DECODE_CMD_SBB, 1, true, decode_modrm_rm, decode_modrm_reg, 762 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 763 {0x19, X86_DECODE_CMD_SBB, 0, true, decode_modrm_rm, decode_modrm_reg, 764 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 765 {0x1a, X86_DECODE_CMD_SBB, 1, true, decode_modrm_reg, decode_modrm_rm, 766 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 767 {0x1b, X86_DECODE_CMD_SBB, 0, true, decode_modrm_reg, decode_modrm_rm, 768 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 769 {0x1c, X86_DECODE_CMD_SBB, 1, false, decode_rax, decode_imm8, 770 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 771 {0x1d, X86_DECODE_CMD_SBB, 0, false, decode_rax, decode_imm, 772 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 773 774 {0x1e, X86_DECODE_CMD_PUSH_SEG, 0, false, false, 775 NULL, NULL, NULL, decode_pushseg, RFLAGS_MASK_NONE}, 776 {0x1f, X86_DECODE_CMD_POP_SEG, 0, false, false, 777 NULL, NULL, NULL, decode_popseg, RFLAGS_MASK_NONE}, 778 779 {0x20, X86_DECODE_CMD_AND, 1, true, decode_modrm_rm, decode_modrm_reg, 780 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 781 {0x21, X86_DECODE_CMD_AND, 0, true, decode_modrm_rm, decode_modrm_reg, 782 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 783 {0x22, X86_DECODE_CMD_AND, 1, true, decode_modrm_reg, decode_modrm_rm, 784 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 785 {0x23, X86_DECODE_CMD_AND, 0, true, decode_modrm_reg, decode_modrm_rm, 786 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 787 {0x24, X86_DECODE_CMD_AND, 1, false, decode_rax, decode_imm, 788 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 789 {0x25, X86_DECODE_CMD_AND, 0, false, decode_rax, decode_imm, 790 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 791 {0x28, X86_DECODE_CMD_SUB, 1, true, decode_modrm_rm, decode_modrm_reg, 792 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 793 {0x29, X86_DECODE_CMD_SUB, 0, true, decode_modrm_rm, decode_modrm_reg, 794 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 795 {0x2a, X86_DECODE_CMD_SUB, 1, true, decode_modrm_reg, decode_modrm_rm, 796 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 797 {0x2b, X86_DECODE_CMD_SUB, 0, true, decode_modrm_reg, decode_modrm_rm, 798 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 799 {0x2c, X86_DECODE_CMD_SUB, 1, false, decode_rax, decode_imm, 800 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 801 {0x2d, X86_DECODE_CMD_SUB, 0, false, decode_rax, decode_imm, 802 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 803 {0x2f, X86_DECODE_CMD_DAS, 0, false, 804 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 805 {0x30, X86_DECODE_CMD_XOR, 1, true, decode_modrm_rm, decode_modrm_reg, 806 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 807 {0x31, X86_DECODE_CMD_XOR, 0, true, decode_modrm_rm, decode_modrm_reg, 808 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 809 {0x32, X86_DECODE_CMD_XOR, 1, true, decode_modrm_reg, decode_modrm_rm, 810 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 811 {0x33, X86_DECODE_CMD_XOR, 0, true, decode_modrm_reg, decode_modrm_rm, 812 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 813 {0x34, X86_DECODE_CMD_XOR, 1, false, decode_rax, decode_imm, 814 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 815 {0x35, X86_DECODE_CMD_XOR, 0, false, decode_rax, decode_imm, 816 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 817 818 {0x38, X86_DECODE_CMD_CMP, 1, true, decode_modrm_rm, decode_modrm_reg, 819 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 820 {0x39, X86_DECODE_CMD_CMP, 0, true, decode_modrm_rm, decode_modrm_reg, 821 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 822 {0x3a, X86_DECODE_CMD_CMP, 1, true, decode_modrm_reg, decode_modrm_rm, 823 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 824 {0x3b, X86_DECODE_CMD_CMP, 0, true, decode_modrm_reg, decode_modrm_rm, 825 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 826 {0x3c, X86_DECODE_CMD_CMP, 1, false, decode_rax, decode_imm8, 827 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 828 {0x3d, X86_DECODE_CMD_CMP, 0, false, decode_rax, decode_imm, 829 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 830 831 {0x3f, X86_DECODE_CMD_AAS, 0, false, 832 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 833 834 {0x40, X86_DECODE_CMD_INC, 0, false, 835 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 836 {0x41, X86_DECODE_CMD_INC, 0, false, 837 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 838 {0x42, X86_DECODE_CMD_INC, 0, false, 839 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 840 {0x43, X86_DECODE_CMD_INC, 0, false, 841 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 842 {0x44, X86_DECODE_CMD_INC, 0, false, 843 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 844 {0x45, X86_DECODE_CMD_INC, 0, false, 845 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 846 {0x46, X86_DECODE_CMD_INC, 0, false, 847 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 848 {0x47, X86_DECODE_CMD_INC, 0, false, 849 NULL, NULL, NULL, NULL, decode_incgroup, RFLAGS_MASK_OSZAPC}, 850 851 {0x48, X86_DECODE_CMD_DEC, 0, false, 852 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 853 {0x49, X86_DECODE_CMD_DEC, 0, false, 854 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 855 {0x4a, X86_DECODE_CMD_DEC, 0, false, 856 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 857 {0x4b, X86_DECODE_CMD_DEC, 0, false, 858 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 859 {0x4c, X86_DECODE_CMD_DEC, 0, false, 860 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 861 {0x4d, X86_DECODE_CMD_DEC, 0, false, 862 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 863 {0x4e, X86_DECODE_CMD_DEC, 0, false, 864 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 865 {0x4f, X86_DECODE_CMD_DEC, 0, false, 866 NULL, NULL, NULL, NULL, decode_decgroup, RFLAGS_MASK_OSZAPC}, 867 868 {0x50, X86_DECODE_CMD_PUSH, 0, false, 869 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 870 {0x51, X86_DECODE_CMD_PUSH, 0, false, 871 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 872 {0x52, X86_DECODE_CMD_PUSH, 0, false, 873 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 874 {0x53, X86_DECODE_CMD_PUSH, 0, false, 875 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 876 {0x54, X86_DECODE_CMD_PUSH, 0, false, 877 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 878 {0x55, X86_DECODE_CMD_PUSH, 0, false, 879 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 880 {0x56, X86_DECODE_CMD_PUSH, 0, false, 881 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 882 {0x57, X86_DECODE_CMD_PUSH, 0, false, 883 NULL, NULL, NULL, NULL, decode_pushgroup, RFLAGS_MASK_NONE}, 884 885 {0x58, X86_DECODE_CMD_POP, 0, false, 886 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 887 {0x59, X86_DECODE_CMD_POP, 0, false, 888 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 889 {0x5a, X86_DECODE_CMD_POP, 0, false, 890 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 891 {0x5b, X86_DECODE_CMD_POP, 0, false, 892 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 893 {0x5c, X86_DECODE_CMD_POP, 0, false, 894 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 895 {0x5d, X86_DECODE_CMD_POP, 0, false, 896 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 897 {0x5e, X86_DECODE_CMD_POP, 0, false, 898 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 899 {0x5f, X86_DECODE_CMD_POP, 0, false, 900 NULL, NULL, NULL, NULL, decode_popgroup, RFLAGS_MASK_NONE}, 901 902 {0x60, X86_DECODE_CMD_PUSHA, 0, false, 903 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 904 {0x61, X86_DECODE_CMD_POPA, 0, false, 905 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 906 907 {0x68, X86_DECODE_CMD_PUSH, 0, false, decode_imm, 908 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 909 {0x6a, X86_DECODE_CMD_PUSH, 0, false, decode_imm8_signed, 910 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 911 {0x69, X86_DECODE_CMD_IMUL_3, 0, true, decode_modrm_reg, 912 decode_modrm_rm, decode_imm, NULL, NULL, RFLAGS_MASK_OSZAPC}, 913 {0x6b, X86_DECODE_CMD_IMUL_3, 0, true, decode_modrm_reg, decode_modrm_rm, 914 decode_imm8_signed, NULL, NULL, RFLAGS_MASK_OSZAPC}, 915 916 {0x6c, X86_DECODE_CMD_INS, 1, false, 917 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 918 {0x6d, X86_DECODE_CMD_INS, 0, false, 919 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 920 {0x6e, X86_DECODE_CMD_OUTS, 1, false, 921 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 922 {0x6f, X86_DECODE_CMD_OUTS, 0, false, 923 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 924 925 {0x70, X86_DECODE_CMD_JXX, 1, false, 926 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 927 {0x71, X86_DECODE_CMD_JXX, 1, false, 928 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 929 {0x72, X86_DECODE_CMD_JXX, 1, false, 930 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 931 {0x73, X86_DECODE_CMD_JXX, 1, false, 932 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 933 {0x74, X86_DECODE_CMD_JXX, 1, false, 934 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 935 {0x75, X86_DECODE_CMD_JXX, 1, false, 936 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 937 {0x76, X86_DECODE_CMD_JXX, 1, false, 938 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 939 {0x77, X86_DECODE_CMD_JXX, 1, false, 940 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 941 {0x78, X86_DECODE_CMD_JXX, 1, false, 942 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 943 {0x79, X86_DECODE_CMD_JXX, 1, false, 944 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 945 {0x7a, X86_DECODE_CMD_JXX, 1, false, 946 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 947 {0x7b, X86_DECODE_CMD_JXX, 1, false, 948 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 949 {0x7c, X86_DECODE_CMD_JXX, 1, false, 950 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 951 {0x7d, X86_DECODE_CMD_JXX, 1, false, 952 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 953 {0x7e, X86_DECODE_CMD_JXX, 1, false, 954 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 955 {0x7f, X86_DECODE_CMD_JXX, 1, false, 956 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 957 958 {0x80, X86_DECODE_CMD_INVL, 1, true, decode_modrm_rm, decode_imm8, 959 NULL, NULL, decode_addgroup, RFLAGS_MASK_OSZAPC}, 960 {0x81, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, decode_imm, 961 NULL, NULL, decode_addgroup, RFLAGS_MASK_OSZAPC}, 962 {0x82, X86_DECODE_CMD_INVL, 1, true, decode_modrm_rm, decode_imm8, 963 NULL, NULL, decode_addgroup, RFLAGS_MASK_OSZAPC}, 964 {0x83, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, decode_imm8_signed, 965 NULL, NULL, decode_addgroup, RFLAGS_MASK_OSZAPC}, 966 {0x84, X86_DECODE_CMD_TST, 1, true, decode_modrm_rm, decode_modrm_reg, 967 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 968 {0x85, X86_DECODE_CMD_TST, 0, true, decode_modrm_rm, decode_modrm_reg, 969 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 970 {0x86, X86_DECODE_CMD_XCHG, 1, true, decode_modrm_reg, decode_modrm_rm, 971 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 972 {0x87, X86_DECODE_CMD_XCHG, 0, true, decode_modrm_reg, decode_modrm_rm, 973 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 974 {0x88, X86_DECODE_CMD_MOV, 1, true, decode_modrm_rm, decode_modrm_reg, 975 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 976 {0x89, X86_DECODE_CMD_MOV, 0, true, decode_modrm_rm, decode_modrm_reg, 977 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 978 {0x8a, X86_DECODE_CMD_MOV, 1, true, decode_modrm_reg, decode_modrm_rm, 979 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 980 {0x8b, X86_DECODE_CMD_MOV, 0, true, decode_modrm_reg, decode_modrm_rm, 981 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 982 {0x8c, X86_DECODE_CMD_MOV_FROM_SEG, 0, true, decode_modrm_rm, 983 decode_modrm_reg, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 984 {0x8d, X86_DECODE_CMD_LEA, 0, true, decode_modrm_reg, decode_modrm_rm, 985 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 986 {0x8e, X86_DECODE_CMD_MOV_TO_SEG, 0, true, decode_modrm_reg, 987 decode_modrm_rm, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 988 {0x8f, X86_DECODE_CMD_POP, 0, true, decode_modrm_rm, 989 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 990 991 {0x90, X86_DECODE_CMD_NOP, 0, false, 992 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 993 {0x91, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 994 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 995 {0x92, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 996 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 997 {0x93, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 998 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 999 {0x94, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 1000 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 1001 {0x95, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 1002 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 1003 {0x96, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 1004 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 1005 {0x97, X86_DECODE_CMD_XCHG, 0, false, NULL, decode_rax, 1006 NULL, NULL, decode_xchgroup, RFLAGS_MASK_NONE}, 1007 1008 {0x98, X86_DECODE_CMD_CBW, 0, false, NULL, NULL, 1009 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1010 {0x99, X86_DECODE_CMD_CWD, 0, false, NULL, NULL, 1011 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1012 1013 {0x9a, X86_DECODE_CMD_CALL_FAR, 0, false, NULL, 1014 NULL, NULL, NULL, decode_farjmp, RFLAGS_MASK_NONE}, 1015 1016 {0x9c, X86_DECODE_CMD_PUSHF, 0, false, NULL, NULL, 1017 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1018 /*{0x9d, X86_DECODE_CMD_POPF, 0, false, NULL, NULL, 1019 NULL, NULL, NULL, RFLAGS_MASK_POPF},*/ 1020 {0x9e, X86_DECODE_CMD_SAHF, 0, false, NULL, NULL, 1021 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1022 {0x9f, X86_DECODE_CMD_LAHF, 0, false, NULL, NULL, 1023 NULL, NULL, NULL, RFLAGS_MASK_LAHF}, 1024 1025 {0xa0, X86_DECODE_CMD_MOV, 1, false, decode_rax, fetch_moffs, 1026 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1027 {0xa1, X86_DECODE_CMD_MOV, 0, false, decode_rax, fetch_moffs, 1028 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1029 {0xa2, X86_DECODE_CMD_MOV, 1, false, fetch_moffs, decode_rax, 1030 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1031 {0xa3, X86_DECODE_CMD_MOV, 0, false, fetch_moffs, decode_rax, 1032 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1033 1034 {0xa4, X86_DECODE_CMD_MOVS, 1, false, NULL, NULL, 1035 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1036 {0xa5, X86_DECODE_CMD_MOVS, 0, false, NULL, NULL, 1037 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1038 {0xa6, X86_DECODE_CMD_CMPS, 1, false, NULL, NULL, 1039 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1040 {0xa7, X86_DECODE_CMD_CMPS, 0, false, NULL, NULL, 1041 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1042 {0xaa, X86_DECODE_CMD_STOS, 1, false, NULL, NULL, 1043 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1044 {0xab, X86_DECODE_CMD_STOS, 0, false, NULL, NULL, 1045 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1046 {0xac, X86_DECODE_CMD_LODS, 1, false, NULL, NULL, 1047 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1048 {0xad, X86_DECODE_CMD_LODS, 0, false, NULL, NULL, 1049 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1050 {0xae, X86_DECODE_CMD_SCAS, 1, false, NULL, NULL, 1051 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1052 {0xaf, X86_DECODE_CMD_SCAS, 0, false, NULL, NULL, 1053 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1054 1055 {0xa8, X86_DECODE_CMD_TST, 1, false, decode_rax, decode_imm, 1056 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1057 {0xa9, X86_DECODE_CMD_TST, 0, false, decode_rax, decode_imm, 1058 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1059 1060 {0xb0, X86_DECODE_CMD_MOV, 1, false, NULL, 1061 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1062 {0xb1, X86_DECODE_CMD_MOV, 1, false, NULL, 1063 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1064 {0xb2, X86_DECODE_CMD_MOV, 1, false, NULL, 1065 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1066 {0xb3, X86_DECODE_CMD_MOV, 1, false, NULL, 1067 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1068 {0xb4, X86_DECODE_CMD_MOV, 1, false, NULL, 1069 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1070 {0xb5, X86_DECODE_CMD_MOV, 1, false, NULL, 1071 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1072 {0xb6, X86_DECODE_CMD_MOV, 1, false, NULL, 1073 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1074 {0xb7, X86_DECODE_CMD_MOV, 1, false, NULL, 1075 NULL, NULL, NULL, decode_movgroup8, RFLAGS_MASK_NONE}, 1076 1077 {0xb8, X86_DECODE_CMD_MOV, 0, false, NULL, 1078 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1079 {0xb9, X86_DECODE_CMD_MOV, 0, false, NULL, 1080 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1081 {0xba, X86_DECODE_CMD_MOV, 0, false, NULL, 1082 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1083 {0xbb, X86_DECODE_CMD_MOV, 0, false, NULL, 1084 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1085 {0xbc, X86_DECODE_CMD_MOV, 0, false, NULL, 1086 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1087 {0xbd, X86_DECODE_CMD_MOV, 0, false, NULL, 1088 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1089 {0xbe, X86_DECODE_CMD_MOV, 0, false, NULL, 1090 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1091 {0xbf, X86_DECODE_CMD_MOV, 0, false, NULL, 1092 NULL, NULL, NULL, decode_movgroup, RFLAGS_MASK_NONE}, 1093 1094 {0xc0, X86_DECODE_CMD_INVL, 1, true, decode_modrm_rm, decode_imm8, 1095 NULL, NULL, decode_rotgroup, RFLAGS_MASK_OSZAPC}, 1096 {0xc1, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, decode_imm8, 1097 NULL, NULL, decode_rotgroup, RFLAGS_MASK_OSZAPC}, 1098 1099 {0xc2, X86_DECODE_RET_NEAR, 0, false, decode_imm16, 1100 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1101 {0xc3, X86_DECODE_RET_NEAR, 0, false, NULL, 1102 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1103 1104 {0xc4, X86_DECODE_CMD_LES, 0, true, decode_modrm_reg, decode_modrm_rm, 1105 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1106 {0xc5, X86_DECODE_CMD_LDS, 0, true, decode_modrm_reg, decode_modrm_rm, 1107 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1108 1109 {0xc6, X86_DECODE_CMD_MOV, 1, true, decode_modrm_rm, decode_imm8, 1110 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1111 {0xc7, X86_DECODE_CMD_MOV, 0, true, decode_modrm_rm, decode_imm, 1112 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1113 1114 {0xc8, X86_DECODE_CMD_ENTER, 0, false, decode_imm16, decode_imm8, 1115 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1116 {0xc9, X86_DECODE_CMD_LEAVE, 0, false, NULL, NULL, 1117 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1118 {0xca, X86_DECODE_RET_FAR, 0, false, decode_imm16, NULL, 1119 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1120 {0xcb, X86_DECODE_RET_FAR, 0, false, decode_imm_0, NULL, 1121 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1122 {0xcd, X86_DECODE_CMD_INT, 0, false, decode_imm8, NULL, 1123 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1124 /*{0xcf, X86_DECODE_CMD_IRET, 0, false, NULL, NULL, 1125 NULL, NULL, NULL, RFLAGS_MASK_IRET},*/ 1126 1127 {0xd0, X86_DECODE_CMD_INVL, 1, true, decode_modrm_rm, decode_imm_1, 1128 NULL, NULL, decode_rotgroup, RFLAGS_MASK_OSZAPC}, 1129 {0xd1, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, decode_imm_1, 1130 NULL, NULL, decode_rotgroup, RFLAGS_MASK_OSZAPC}, 1131 {0xd2, X86_DECODE_CMD_INVL, 1, true, decode_modrm_rm, decode_rcx, 1132 NULL, NULL, decode_rotgroup, RFLAGS_MASK_OSZAPC}, 1133 {0xd3, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, decode_rcx, 1134 NULL, NULL, decode_rotgroup, RFLAGS_MASK_OSZAPC}, 1135 1136 {0xd4, X86_DECODE_CMD_AAM, 0, false, decode_imm8, 1137 NULL, NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1138 {0xd5, X86_DECODE_CMD_AAD, 0, false, decode_imm8, 1139 NULL, NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1140 1141 {0xd7, X86_DECODE_CMD_XLAT, 0, false, 1142 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1143 1144 {0xd8, X86_DECODE_CMD_INVL, 0, true, NULL, 1145 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1146 {0xd9, X86_DECODE_CMD_INVL, 0, true, NULL, 1147 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1148 {0xda, X86_DECODE_CMD_INVL, 0, true, NULL, 1149 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1150 {0xdb, X86_DECODE_CMD_INVL, 0, true, NULL, 1151 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1152 {0xdc, X86_DECODE_CMD_INVL, 0, true, NULL, 1153 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1154 {0xdd, X86_DECODE_CMD_INVL, 0, true, NULL, 1155 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1156 {0xde, X86_DECODE_CMD_INVL, 0, true, NULL, 1157 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1158 {0xdf, X86_DECODE_CMD_INVL, 0, true, NULL, 1159 NULL, NULL, NULL, decode_x87_ins, RFLAGS_MASK_NONE}, 1160 1161 {0xe0, X86_DECODE_CMD_LOOP, 0, false, decode_imm8_signed, 1162 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1163 {0xe1, X86_DECODE_CMD_LOOP, 0, false, decode_imm8_signed, 1164 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1165 {0xe2, X86_DECODE_CMD_LOOP, 0, false, decode_imm8_signed, 1166 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1167 1168 {0xe3, X86_DECODE_CMD_JCXZ, 1, false, 1169 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1170 1171 {0xe4, X86_DECODE_CMD_IN, 1, false, decode_imm8, 1172 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1173 {0xe5, X86_DECODE_CMD_IN, 0, false, decode_imm8, 1174 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1175 {0xe6, X86_DECODE_CMD_OUT, 1, false, decode_imm8, 1176 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1177 {0xe7, X86_DECODE_CMD_OUT, 0, false, decode_imm8, 1178 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1179 {0xe8, X86_DECODE_CMD_CALL_NEAR, 0, false, decode_imm_signed, 1180 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1181 {0xe9, X86_DECODE_CMD_JMP_NEAR, 0, false, decode_imm_signed, 1182 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1183 {0xea, X86_DECODE_CMD_JMP_FAR, 0, false, 1184 NULL, NULL, NULL, NULL, decode_farjmp, RFLAGS_MASK_NONE}, 1185 {0xeb, X86_DECODE_CMD_JMP_NEAR, 1, false, decode_imm8_signed, 1186 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1187 {0xec, X86_DECODE_CMD_IN, 1, false, 1188 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1189 {0xed, X86_DECODE_CMD_IN, 0, false, 1190 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1191 {0xee, X86_DECODE_CMD_OUT, 1, false, 1192 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1193 {0xef, X86_DECODE_CMD_OUT, 0, false, 1194 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1195 1196 {0xf4, X86_DECODE_CMD_HLT, 0, false, 1197 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1198 1199 {0xf5, X86_DECODE_CMD_CMC, 0, false, 1200 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_CF}, 1201 1202 {0xf6, X86_DECODE_CMD_INVL, 1, true, 1203 NULL, NULL, NULL, NULL, decode_f7group, RFLAGS_MASK_OSZAPC}, 1204 {0xf7, X86_DECODE_CMD_INVL, 0, true, 1205 NULL, NULL, NULL, NULL, decode_f7group, RFLAGS_MASK_OSZAPC}, 1206 1207 {0xf8, X86_DECODE_CMD_CLC, 0, false, 1208 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_CF}, 1209 {0xf9, X86_DECODE_CMD_STC, 0, false, 1210 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_CF}, 1211 1212 {0xfa, X86_DECODE_CMD_CLI, 0, false, 1213 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_IF}, 1214 {0xfb, X86_DECODE_CMD_STI, 0, false, 1215 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_IF}, 1216 {0xfc, X86_DECODE_CMD_CLD, 0, false, 1217 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_DF}, 1218 {0xfd, X86_DECODE_CMD_STD, 0, false, 1219 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_DF}, 1220 {0xfe, X86_DECODE_CMD_INVL, 1, true, decode_modrm_rm, 1221 NULL, NULL, NULL, decode_incgroup2, RFLAGS_MASK_OSZAPC}, 1222 {0xff, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, 1223 NULL, NULL, NULL, decode_ffgroup, RFLAGS_MASK_OSZAPC}, 1224 }; 1225 1226 struct decode_tbl _2op_inst[] = { 1227 {0x0, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, 1228 NULL, NULL, NULL, decode_sldtgroup, RFLAGS_MASK_NONE}, 1229 {0x1, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, 1230 NULL, NULL, NULL, decode_lidtgroup, RFLAGS_MASK_NONE}, 1231 {0x6, X86_DECODE_CMD_CLTS, 0, false, 1232 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_TF}, 1233 {0x9, X86_DECODE_CMD_WBINVD, 0, false, 1234 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1235 {0x18, X86_DECODE_CMD_PREFETCH, 0, true, 1236 NULL, NULL, NULL, NULL, decode_x87_general, RFLAGS_MASK_NONE}, 1237 {0x1f, X86_DECODE_CMD_NOP, 0, true, decode_modrm_rm, 1238 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1239 {0x20, X86_DECODE_CMD_MOV_FROM_CR, 0, true, decode_modrm_rm, 1240 decode_modrm_reg, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1241 {0x21, X86_DECODE_CMD_MOV_FROM_DR, 0, true, decode_modrm_rm, 1242 decode_modrm_reg, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1243 {0x22, X86_DECODE_CMD_MOV_TO_CR, 0, true, decode_modrm_reg, 1244 decode_modrm_rm, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1245 {0x23, X86_DECODE_CMD_MOV_TO_DR, 0, true, decode_modrm_reg, 1246 decode_modrm_rm, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1247 {0x30, X86_DECODE_CMD_WRMSR, 0, false, 1248 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1249 {0x31, X86_DECODE_CMD_RDTSC, 0, false, 1250 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1251 {0x32, X86_DECODE_CMD_RDMSR, 0, false, 1252 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1253 {0x40, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1254 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1255 {0x41, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1256 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1257 {0x42, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1258 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1259 {0x43, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1260 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1261 {0x44, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1262 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1263 {0x45, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1264 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1265 {0x46, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1266 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1267 {0x47, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1268 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1269 {0x48, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1270 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1271 {0x49, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1272 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1273 {0x4a, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1274 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1275 {0x4b, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1276 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1277 {0x4c, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1278 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1279 {0x4d, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1280 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1281 {0x4e, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1282 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1283 {0x4f, X86_DECODE_CMD_CMOV, 0, true, decode_modrm_reg, decode_modrm_rm, 1284 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1285 {0x77, X86_DECODE_CMD_EMMS, 0, false, 1286 NULL, NULL, NULL, NULL, decode_x87_general, RFLAGS_MASK_NONE}, 1287 {0x82, X86_DECODE_CMD_JXX, 0, false, 1288 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1289 {0x83, X86_DECODE_CMD_JXX, 0, false, 1290 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1291 {0x84, X86_DECODE_CMD_JXX, 0, false, 1292 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1293 {0x85, X86_DECODE_CMD_JXX, 0, false, 1294 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1295 {0x86, X86_DECODE_CMD_JXX, 0, false, 1296 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1297 {0x87, X86_DECODE_CMD_JXX, 0, false, 1298 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1299 {0x88, X86_DECODE_CMD_JXX, 0, false, 1300 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1301 {0x89, X86_DECODE_CMD_JXX, 0, false, 1302 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1303 {0x8a, X86_DECODE_CMD_JXX, 0, false, 1304 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1305 {0x8b, X86_DECODE_CMD_JXX, 0, false, 1306 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1307 {0x8c, X86_DECODE_CMD_JXX, 0, false, 1308 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1309 {0x8d, X86_DECODE_CMD_JXX, 0, false, 1310 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1311 {0x8e, X86_DECODE_CMD_JXX, 0, false, 1312 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1313 {0x8f, X86_DECODE_CMD_JXX, 0, false, 1314 NULL, NULL, NULL, NULL, decode_jxx, RFLAGS_MASK_NONE}, 1315 {0x90, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1316 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1317 {0x91, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1318 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1319 {0x92, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1320 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1321 {0x93, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1322 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1323 {0x94, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1324 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1325 {0x95, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1326 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1327 {0x96, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1328 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1329 {0x97, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1330 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1331 {0x98, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1332 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1333 {0x99, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1334 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1335 {0x9a, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1336 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1337 {0x9b, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1338 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1339 {0x9c, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1340 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1341 {0x9d, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1342 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1343 {0x9e, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1344 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1345 {0x9f, X86_DECODE_CMD_SETXX, 1, true, decode_modrm_rm, 1346 NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1347 1348 {0xb0, X86_DECODE_CMD_CMPXCHG, 1, true, decode_modrm_rm, decode_modrm_reg, 1349 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1350 {0xb1, X86_DECODE_CMD_CMPXCHG, 0, true, decode_modrm_rm, decode_modrm_reg, 1351 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1352 1353 {0xb6, X86_DECODE_CMD_MOVZX, 0, true, decode_modrm_reg, decode_modrm_rm, 1354 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1355 {0xb7, X86_DECODE_CMD_MOVZX, 0, true, decode_modrm_reg, decode_modrm_rm, 1356 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1357 {0xb8, X86_DECODE_CMD_POPCNT, 0, true, decode_modrm_reg, decode_modrm_rm, 1358 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1359 {0xbe, X86_DECODE_CMD_MOVSX, 0, true, decode_modrm_reg, decode_modrm_rm, 1360 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1361 {0xbf, X86_DECODE_CMD_MOVSX, 0, true, decode_modrm_reg, decode_modrm_rm, 1362 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1363 {0xa0, X86_DECODE_CMD_PUSH_SEG, 0, false, false, 1364 NULL, NULL, NULL, decode_pushseg, RFLAGS_MASK_NONE}, 1365 {0xa1, X86_DECODE_CMD_POP_SEG, 0, false, false, 1366 NULL, NULL, NULL, decode_popseg, RFLAGS_MASK_NONE}, 1367 {0xa2, X86_DECODE_CMD_CPUID, 0, false, 1368 NULL, NULL, NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1369 {0xa3, X86_DECODE_CMD_BT, 0, true, decode_modrm_rm, decode_modrm_reg, 1370 NULL, NULL, NULL, RFLAGS_MASK_CF}, 1371 {0xa4, X86_DECODE_CMD_SHLD, 0, true, decode_modrm_rm, decode_modrm_reg, 1372 decode_imm8, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1373 {0xa5, X86_DECODE_CMD_SHLD, 0, true, decode_modrm_rm, decode_modrm_reg, 1374 decode_rcx, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1375 {0xa8, X86_DECODE_CMD_PUSH_SEG, 0, false, false, 1376 NULL, NULL, NULL, decode_pushseg, RFLAGS_MASK_NONE}, 1377 {0xa9, X86_DECODE_CMD_POP_SEG, 0, false, false, 1378 NULL, NULL, NULL, decode_popseg, RFLAGS_MASK_NONE}, 1379 {0xab, X86_DECODE_CMD_BTS, 0, true, decode_modrm_rm, decode_modrm_reg, 1380 NULL, NULL, NULL, RFLAGS_MASK_CF}, 1381 {0xac, X86_DECODE_CMD_SHRD, 0, true, decode_modrm_rm, decode_modrm_reg, 1382 decode_imm8, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1383 {0xad, X86_DECODE_CMD_SHRD, 0, true, decode_modrm_rm, decode_modrm_reg, 1384 decode_rcx, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1385 1386 {0xae, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, 1387 NULL, NULL, NULL, decode_aegroup, RFLAGS_MASK_NONE}, 1388 1389 {0xaf, X86_DECODE_CMD_IMUL_2, 0, true, decode_modrm_reg, decode_modrm_rm, 1390 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1391 {0xb2, X86_DECODE_CMD_LSS, 0, true, decode_modrm_reg, decode_modrm_rm, 1392 NULL, NULL, NULL, RFLAGS_MASK_NONE}, 1393 {0xb3, X86_DECODE_CMD_BTR, 0, true, decode_modrm_rm, decode_modrm_reg, 1394 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1395 {0xba, X86_DECODE_CMD_INVL, 0, true, decode_modrm_rm, decode_imm8, 1396 NULL, NULL, decode_btgroup, RFLAGS_MASK_OSZAPC}, 1397 {0xbb, X86_DECODE_CMD_BTC, 0, true, decode_modrm_rm, decode_modrm_reg, 1398 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1399 {0xbc, X86_DECODE_CMD_BSF, 0, true, decode_modrm_reg, decode_modrm_rm, 1400 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1401 {0xbd, X86_DECODE_CMD_BSR, 0, true, decode_modrm_reg, decode_modrm_rm, 1402 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1403 1404 {0xc1, X86_DECODE_CMD_XADD, 0, true, decode_modrm_rm, decode_modrm_reg, 1405 NULL, NULL, NULL, RFLAGS_MASK_OSZAPC}, 1406 1407 {0xc7, X86_DECODE_CMD_CMPXCHG8B, 0, true, decode_modrm_rm, 1408 NULL, NULL, NULL, NULL, RFLAGS_MASK_ZF}, 1409 1410 {0xc8, X86_DECODE_CMD_BSWAP, 0, false, 1411 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1412 {0xc9, X86_DECODE_CMD_BSWAP, 0, false, 1413 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1414 {0xca, X86_DECODE_CMD_BSWAP, 0, false, 1415 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1416 {0xcb, X86_DECODE_CMD_BSWAP, 0, false, 1417 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1418 {0xcc, X86_DECODE_CMD_BSWAP, 0, false, 1419 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1420 {0xcd, X86_DECODE_CMD_BSWAP, 0, false, 1421 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1422 {0xce, X86_DECODE_CMD_BSWAP, 0, false, 1423 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1424 {0xcf, X86_DECODE_CMD_BSWAP, 0, false, 1425 NULL, NULL, NULL, NULL, decode_bswap, RFLAGS_MASK_NONE}, 1426 }; 1427 1428 struct decode_x87_tbl invl_inst_x87 = {0x0, 0, 0, 0, 0, false, false, NULL, 1429 NULL, decode_invalid, 0}; 1430 1431 struct decode_x87_tbl _x87_inst[] = { 1432 {0xd8, 0, 3, X86_DECODE_CMD_FADD, 10, false, false, 1433 decode_x87_modrm_st0, decode_decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1434 {0xd8, 0, 0, X86_DECODE_CMD_FADD, 4, false, false, decode_x87_modrm_st0, 1435 decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1436 {0xd8, 1, 3, X86_DECODE_CMD_FMUL, 10, false, false, decode_x87_modrm_st0, 1437 decode_decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1438 {0xd8, 1, 0, X86_DECODE_CMD_FMUL, 4, false, false, decode_x87_modrm_st0, 1439 decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1440 {0xd8, 4, 3, X86_DECODE_CMD_FSUB, 10, false, false, decode_x87_modrm_st0, 1441 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1442 {0xd8, 4, 0, X86_DECODE_CMD_FSUB, 4, false, false, decode_x87_modrm_st0, 1443 decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1444 {0xd8, 5, 3, X86_DECODE_CMD_FSUB, 10, true, false, decode_x87_modrm_st0, 1445 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1446 {0xd8, 5, 0, X86_DECODE_CMD_FSUB, 4, true, false, decode_x87_modrm_st0, 1447 decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1448 {0xd8, 6, 3, X86_DECODE_CMD_FDIV, 10, false, false, decode_x87_modrm_st0, 1449 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1450 {0xd8, 6, 0, X86_DECODE_CMD_FDIV, 4, false, false, decode_x87_modrm_st0, 1451 decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1452 {0xd8, 7, 3, X86_DECODE_CMD_FDIV, 10, true, false, decode_x87_modrm_st0, 1453 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1454 {0xd8, 7, 0, X86_DECODE_CMD_FDIV, 4, true, false, decode_x87_modrm_st0, 1455 decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1456 1457 {0xd9, 0, 3, X86_DECODE_CMD_FLD, 10, false, false, 1458 decode_x87_modrm_st0, NULL, NULL, RFLAGS_MASK_NONE}, 1459 {0xd9, 0, 0, X86_DECODE_CMD_FLD, 4, false, false, 1460 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1461 {0xd9, 1, 3, X86_DECODE_CMD_FXCH, 10, false, false, decode_x87_modrm_st0, 1462 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1463 {0xd9, 1, 0, X86_DECODE_CMD_INVL, 10, false, false, 1464 decode_x87_modrm_st0, NULL, NULL, RFLAGS_MASK_NONE}, 1465 {0xd9, 2, 3, X86_DECODE_CMD_INVL, 10, false, false, 1466 decode_x87_modrm_st0, NULL, NULL, RFLAGS_MASK_NONE}, 1467 {0xd9, 2, 0, X86_DECODE_CMD_FST, 4, false, false, 1468 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1469 {0xd9, 3, 3, X86_DECODE_CMD_INVL, 10, false, false, 1470 decode_x87_modrm_st0, NULL, NULL, RFLAGS_MASK_NONE}, 1471 {0xd9, 3, 0, X86_DECODE_CMD_FST, 4, false, true, 1472 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1473 {0xd9, 4, 3, X86_DECODE_CMD_INVL, 10, false, false, 1474 decode_x87_modrm_st0, NULL, decode_d9_4, RFLAGS_MASK_NONE}, 1475 {0xd9, 4, 0, X86_DECODE_CMD_INVL, 4, false, false, 1476 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1477 {0xd9, 5, 3, X86_DECODE_CMD_FLDxx, 10, false, false, NULL, NULL, NULL, 1478 RFLAGS_MASK_NONE}, 1479 {0xd9, 5, 0, X86_DECODE_CMD_FLDCW, 2, false, false, 1480 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1481 1482 {0xd9, 7, 3, X86_DECODE_CMD_FNSTCW, 2, false, false, 1483 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1484 {0xd9, 7, 0, X86_DECODE_CMD_FNSTCW, 2, false, false, 1485 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1486 1487 {0xda, 0, 3, X86_DECODE_CMD_FCMOV, 10, false, false, 1488 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1489 {0xda, 0, 0, X86_DECODE_CMD_FADD, 4, false, false, decode_x87_modrm_st0, 1490 decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1491 {0xda, 1, 3, X86_DECODE_CMD_FCMOV, 10, false, false, decode_x87_modrm_st0, 1492 decode_decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1493 {0xda, 1, 0, X86_DECODE_CMD_FMUL, 4, false, false, decode_x87_modrm_st0, 1494 decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1495 {0xda, 2, 3, X86_DECODE_CMD_FCMOV, 10, false, false, decode_x87_modrm_st0, 1496 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1497 {0xda, 3, 3, X86_DECODE_CMD_FCMOV, 10, false, false, decode_x87_modrm_st0, 1498 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1499 {0xda, 4, 3, X86_DECODE_CMD_INVL, 10, false, false, NULL, NULL, NULL, 1500 RFLAGS_MASK_NONE}, 1501 {0xda, 4, 0, X86_DECODE_CMD_FSUB, 4, false, false, decode_x87_modrm_st0, 1502 decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1503 {0xda, 5, 3, X86_DECODE_CMD_FUCOM, 10, false, true, decode_x87_modrm_st0, 1504 decode_decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1505 {0xda, 5, 0, X86_DECODE_CMD_FSUB, 4, true, false, decode_x87_modrm_st0, 1506 decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1507 {0xda, 6, 3, X86_DECODE_CMD_INVL, 10, false, false, NULL, NULL, NULL, 1508 RFLAGS_MASK_NONE}, 1509 {0xda, 6, 0, X86_DECODE_CMD_FDIV, 4, false, false, decode_x87_modrm_st0, 1510 decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1511 {0xda, 7, 3, X86_DECODE_CMD_INVL, 10, false, false, NULL, NULL, NULL, 1512 RFLAGS_MASK_NONE}, 1513 {0xda, 7, 0, X86_DECODE_CMD_FDIV, 4, true, false, decode_x87_modrm_st0, 1514 decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1515 1516 {0xdb, 0, 3, X86_DECODE_CMD_FCMOV, 10, false, false, decode_x87_modrm_st0, 1517 decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1518 {0xdb, 0, 0, X86_DECODE_CMD_FLD, 4, false, false, 1519 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1520 {0xdb, 1, 3, X86_DECODE_CMD_FCMOV, 10, false, false, 1521 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1522 {0xdb, 2, 3, X86_DECODE_CMD_FCMOV, 10, false, false, 1523 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1524 {0xdb, 2, 0, X86_DECODE_CMD_FST, 4, false, false, 1525 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1526 {0xdb, 3, 3, X86_DECODE_CMD_FCMOV, 10, false, false, 1527 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1528 {0xdb, 3, 0, X86_DECODE_CMD_FST, 4, false, true, 1529 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1530 {0xdb, 4, 3, X86_DECODE_CMD_INVL, 10, false, false, NULL, NULL, 1531 decode_db_4, RFLAGS_MASK_NONE}, 1532 {0xdb, 4, 0, X86_DECODE_CMD_INVL, 10, false, false, NULL, NULL, NULL, 1533 RFLAGS_MASK_NONE}, 1534 {0xdb, 5, 3, X86_DECODE_CMD_FUCOMI, 10, false, false, 1535 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1536 {0xdb, 5, 0, X86_DECODE_CMD_FLD, 10, false, false, 1537 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1538 {0xdb, 7, 0, X86_DECODE_CMD_FST, 10, false, true, 1539 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1540 1541 {0xdc, 0, 3, X86_DECODE_CMD_FADD, 10, false, false, 1542 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1543 {0xdc, 0, 0, X86_DECODE_CMD_FADD, 8, false, false, 1544 decode_x87_modrm_st0, decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1545 {0xdc, 1, 3, X86_DECODE_CMD_FMUL, 10, false, false, 1546 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1547 {0xdc, 1, 0, X86_DECODE_CMD_FMUL, 8, false, false, 1548 decode_x87_modrm_st0, decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1549 {0xdc, 4, 3, X86_DECODE_CMD_FSUB, 10, true, false, 1550 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1551 {0xdc, 4, 0, X86_DECODE_CMD_FSUB, 8, false, false, 1552 decode_x87_modrm_st0, decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1553 {0xdc, 5, 3, X86_DECODE_CMD_FSUB, 10, false, false, 1554 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1555 {0xdc, 5, 0, X86_DECODE_CMD_FSUB, 8, true, false, 1556 decode_x87_modrm_st0, decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1557 {0xdc, 6, 3, X86_DECODE_CMD_FDIV, 10, true, false, 1558 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1559 {0xdc, 6, 0, X86_DECODE_CMD_FDIV, 8, false, false, 1560 decode_x87_modrm_st0, decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1561 {0xdc, 7, 3, X86_DECODE_CMD_FDIV, 10, false, false, 1562 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1563 {0xdc, 7, 0, X86_DECODE_CMD_FDIV, 8, true, false, 1564 decode_x87_modrm_st0, decode_x87_modrm_floatp, NULL, RFLAGS_MASK_NONE}, 1565 1566 {0xdd, 0, 0, X86_DECODE_CMD_FLD, 8, false, false, 1567 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1568 {0xdd, 1, 3, X86_DECODE_CMD_FXCH, 10, false, false, 1569 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1570 {0xdd, 2, 3, X86_DECODE_CMD_FST, 10, false, false, 1571 decode_x87_modrm_st0, NULL, NULL, RFLAGS_MASK_NONE}, 1572 {0xdd, 2, 0, X86_DECODE_CMD_FST, 8, false, false, 1573 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1574 {0xdd, 3, 3, X86_DECODE_CMD_FST, 10, false, true, 1575 decode_x87_modrm_st0, NULL, NULL, RFLAGS_MASK_NONE}, 1576 {0xdd, 3, 0, X86_DECODE_CMD_FST, 8, false, true, 1577 decode_x87_modrm_floatp, NULL, NULL, RFLAGS_MASK_NONE}, 1578 {0xdd, 4, 3, X86_DECODE_CMD_FUCOM, 10, false, false, 1579 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1580 {0xdd, 4, 0, X86_DECODE_CMD_FRSTOR, 8, false, false, 1581 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1582 {0xdd, 5, 3, X86_DECODE_CMD_FUCOM, 10, false, true, 1583 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1584 {0xdd, 7, 0, X86_DECODE_CMD_FNSTSW, 0, false, false, 1585 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1586 {0xdd, 7, 3, X86_DECODE_CMD_FNSTSW, 0, false, false, 1587 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1588 1589 {0xde, 0, 3, X86_DECODE_CMD_FADD, 10, false, true, 1590 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1591 {0xde, 0, 0, X86_DECODE_CMD_FADD, 2, false, false, 1592 decode_x87_modrm_st0, decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1593 {0xde, 1, 3, X86_DECODE_CMD_FMUL, 10, false, true, 1594 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1595 {0xde, 1, 0, X86_DECODE_CMD_FMUL, 2, false, false, 1596 decode_x87_modrm_st0, decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1597 {0xde, 4, 3, X86_DECODE_CMD_FSUB, 10, true, true, 1598 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1599 {0xde, 4, 0, X86_DECODE_CMD_FSUB, 2, false, false, 1600 decode_x87_modrm_st0, decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1601 {0xde, 5, 3, X86_DECODE_CMD_FSUB, 10, false, true, 1602 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1603 {0xde, 5, 0, X86_DECODE_CMD_FSUB, 2, true, false, 1604 decode_x87_modrm_st0, decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1605 {0xde, 6, 3, X86_DECODE_CMD_FDIV, 10, true, true, 1606 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1607 {0xde, 6, 0, X86_DECODE_CMD_FDIV, 2, false, false, 1608 decode_x87_modrm_st0, decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1609 {0xde, 7, 3, X86_DECODE_CMD_FDIV, 10, false, true, 1610 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1611 {0xde, 7, 0, X86_DECODE_CMD_FDIV, 2, true, false, 1612 decode_x87_modrm_st0, decode_x87_modrm_intp, NULL, RFLAGS_MASK_NONE}, 1613 1614 {0xdf, 0, 0, X86_DECODE_CMD_FLD, 2, false, false, 1615 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1616 {0xdf, 1, 3, X86_DECODE_CMD_FXCH, 10, false, false, 1617 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1618 {0xdf, 2, 3, X86_DECODE_CMD_FST, 10, false, true, 1619 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1620 {0xdf, 2, 0, X86_DECODE_CMD_FST, 2, false, false, 1621 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1622 {0xdf, 3, 3, X86_DECODE_CMD_FST, 10, false, true, 1623 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1624 {0xdf, 3, 0, X86_DECODE_CMD_FST, 2, false, true, 1625 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1626 {0xdf, 4, 3, X86_DECODE_CMD_FNSTSW, 2, false, true, 1627 decode_x87_modrm_bytep, NULL, NULL, RFLAGS_MASK_NONE}, 1628 {0xdf, 5, 3, X86_DECODE_CMD_FUCOMI, 10, false, true, 1629 decode_x87_modrm_st0, decode_x87_modrm_st0, NULL, RFLAGS_MASK_NONE}, 1630 {0xdf, 5, 0, X86_DECODE_CMD_FLD, 8, false, false, 1631 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1632 {0xdf, 7, 0, X86_DECODE_CMD_FST, 8, false, true, 1633 decode_x87_modrm_intp, NULL, NULL, RFLAGS_MASK_NONE}, 1634 }; 1635 1636 void calc_modrm_operand16(CPUX86State *env, struct x86_decode *decode, 1637 struct x86_decode_op *op) 1638 { 1639 target_ulong ptr = 0; 1640 X86Seg seg = R_DS; 1641 1642 if (!decode->modrm.mod && 6 == decode->modrm.rm) { 1643 ptr = decode->displacement; 1644 goto calc_addr; 1645 } 1646 1647 if (decode->displacement_size) { 1648 ptr = sign(decode->displacement, decode->displacement_size); 1649 } 1650 1651 switch (decode->modrm.rm) { 1652 case 0: 1653 ptr += BX(env) + SI(env); 1654 break; 1655 case 1: 1656 ptr += BX(env) + DI(env); 1657 break; 1658 case 2: 1659 ptr += BP(env) + SI(env); 1660 seg = R_SS; 1661 break; 1662 case 3: 1663 ptr += BP(env) + DI(env); 1664 seg = R_SS; 1665 break; 1666 case 4: 1667 ptr += SI(env); 1668 break; 1669 case 5: 1670 ptr += DI(env); 1671 break; 1672 case 6: 1673 ptr += BP(env); 1674 seg = R_SS; 1675 break; 1676 case 7: 1677 ptr += BX(env); 1678 break; 1679 } 1680 calc_addr: 1681 if (X86_DECODE_CMD_LEA == decode->cmd) { 1682 op->ptr = (uint16_t)ptr; 1683 } else { 1684 op->ptr = decode_linear_addr(env, decode, (uint16_t)ptr, seg); 1685 } 1686 } 1687 1688 target_ulong get_reg_ref(CPUX86State *env, int reg, int rex_present, 1689 int is_extended, int size) 1690 { 1691 target_ulong ptr = 0; 1692 1693 if (is_extended) { 1694 reg |= R_R8; 1695 } 1696 1697 switch (size) { 1698 case 1: 1699 if (is_extended || reg < 4 || rex_present) { 1700 ptr = (target_ulong)&RL(env, reg); 1701 } else { 1702 ptr = (target_ulong)&RH(env, reg - 4); 1703 } 1704 break; 1705 default: 1706 ptr = (target_ulong)&RRX(env, reg); 1707 break; 1708 } 1709 return ptr; 1710 } 1711 1712 target_ulong get_reg_val(CPUX86State *env, int reg, int rex_present, 1713 int is_extended, int size) 1714 { 1715 target_ulong val = 0; 1716 memcpy(&val, 1717 (void *)get_reg_ref(env, reg, rex_present, is_extended, size), 1718 size); 1719 return val; 1720 } 1721 1722 static target_ulong get_sib_val(CPUX86State *env, struct x86_decode *decode, 1723 X86Seg *sel) 1724 { 1725 target_ulong base = 0; 1726 target_ulong scaled_index = 0; 1727 int addr_size = decode->addressing_size; 1728 int base_reg = decode->sib.base; 1729 int index_reg = decode->sib.index; 1730 1731 *sel = R_DS; 1732 1733 if (decode->modrm.mod || base_reg != R_EBP) { 1734 if (decode->rex.b) { 1735 base_reg |= R_R8; 1736 } 1737 if (base_reg == R_ESP || base_reg == R_EBP) { 1738 *sel = R_SS; 1739 } 1740 base = get_reg_val(env, decode->sib.base, decode->rex.rex, 1741 decode->rex.b, addr_size); 1742 } 1743 1744 if (decode->rex.x) { 1745 index_reg |= R_R8; 1746 } 1747 1748 if (index_reg != R_ESP) { 1749 scaled_index = get_reg_val(env, index_reg, decode->rex.rex, 1750 decode->rex.x, addr_size) << 1751 decode->sib.scale; 1752 } 1753 return base + scaled_index; 1754 } 1755 1756 void calc_modrm_operand32(CPUX86State *env, struct x86_decode *decode, 1757 struct x86_decode_op *op) 1758 { 1759 X86Seg seg = R_DS; 1760 target_ulong ptr = 0; 1761 int addr_size = decode->addressing_size; 1762 1763 if (decode->displacement_size) { 1764 ptr = sign(decode->displacement, decode->displacement_size); 1765 } 1766 1767 if (4 == decode->modrm.rm) { 1768 ptr += get_sib_val(env, decode, &seg); 1769 } else if (!decode->modrm.mod && 5 == decode->modrm.rm) { 1770 if (x86_is_long_mode(env_cpu(env))) { 1771 ptr += env->eip + decode->len; 1772 } else { 1773 ptr = decode->displacement; 1774 } 1775 } else { 1776 if (decode->modrm.rm == R_EBP || decode->modrm.rm == R_ESP) { 1777 seg = R_SS; 1778 } 1779 ptr += get_reg_val(env, decode->modrm.rm, decode->rex.rex, 1780 decode->rex.b, addr_size); 1781 } 1782 1783 if (X86_DECODE_CMD_LEA == decode->cmd) { 1784 op->ptr = (uint32_t)ptr; 1785 } else { 1786 op->ptr = decode_linear_addr(env, decode, (uint32_t)ptr, seg); 1787 } 1788 } 1789 1790 void calc_modrm_operand64(CPUX86State *env, struct x86_decode *decode, 1791 struct x86_decode_op *op) 1792 { 1793 X86Seg seg = R_DS; 1794 int32_t offset = 0; 1795 int mod = decode->modrm.mod; 1796 int rm = decode->modrm.rm; 1797 target_ulong ptr; 1798 int src = decode->modrm.rm; 1799 1800 if (decode->displacement_size) { 1801 offset = sign(decode->displacement, decode->displacement_size); 1802 } 1803 1804 if (4 == rm) { 1805 ptr = get_sib_val(env, decode, &seg) + offset; 1806 } else if (0 == mod && 5 == rm) { 1807 ptr = env->eip + decode->len + (int32_t) offset; 1808 } else { 1809 ptr = get_reg_val(env, src, decode->rex.rex, decode->rex.b, 8) + 1810 (int64_t) offset; 1811 } 1812 1813 if (X86_DECODE_CMD_LEA == decode->cmd) { 1814 op->ptr = ptr; 1815 } else { 1816 op->ptr = decode_linear_addr(env, decode, ptr, seg); 1817 } 1818 } 1819 1820 1821 void calc_modrm_operand(CPUX86State *env, struct x86_decode *decode, 1822 struct x86_decode_op *op) 1823 { 1824 if (3 == decode->modrm.mod) { 1825 op->reg = decode->modrm.reg; 1826 op->type = X86_VAR_REG; 1827 op->ptr = get_reg_ref(env, decode->modrm.rm, decode->rex.rex, 1828 decode->rex.b, decode->operand_size); 1829 return; 1830 } 1831 1832 switch (decode->addressing_size) { 1833 case 2: 1834 calc_modrm_operand16(env, decode, op); 1835 break; 1836 case 4: 1837 calc_modrm_operand32(env, decode, op); 1838 break; 1839 case 8: 1840 calc_modrm_operand64(env, decode, op); 1841 break; 1842 default: 1843 VM_PANIC_EX("unsupported address size %d\n", decode->addressing_size); 1844 break; 1845 } 1846 } 1847 1848 static void decode_prefix(CPUX86State *env, struct x86_decode *decode) 1849 { 1850 while (1) { 1851 /* 1852 * REX prefix must come after legacy prefixes. 1853 * REX before legacy is ignored. 1854 * Clear rex to simulate this. 1855 */ 1856 uint8_t byte = decode_byte(env, decode); 1857 switch (byte) { 1858 case PREFIX_LOCK: 1859 decode->lock = byte; 1860 decode->rex.rex = 0; 1861 break; 1862 case PREFIX_REPN: 1863 case PREFIX_REP: 1864 decode->rep = byte; 1865 decode->rex.rex = 0; 1866 break; 1867 case PREFIX_CS_SEG_OVERRIDE: 1868 case PREFIX_SS_SEG_OVERRIDE: 1869 case PREFIX_DS_SEG_OVERRIDE: 1870 case PREFIX_ES_SEG_OVERRIDE: 1871 case PREFIX_FS_SEG_OVERRIDE: 1872 case PREFIX_GS_SEG_OVERRIDE: 1873 decode->segment_override = byte; 1874 decode->rex.rex = 0; 1875 break; 1876 case PREFIX_OP_SIZE_OVERRIDE: 1877 decode->op_size_override = byte; 1878 decode->rex.rex = 0; 1879 break; 1880 case PREFIX_ADDR_SIZE_OVERRIDE: 1881 decode->addr_size_override = byte; 1882 decode->rex.rex = 0; 1883 break; 1884 case PREFIX_REX ... (PREFIX_REX + 0xf): 1885 if (x86_is_long_mode(env_cpu(env))) { 1886 decode->rex.rex = byte; 1887 break; 1888 } 1889 /* fall through when not in long mode */ 1890 default: 1891 decode->len--; 1892 return; 1893 } 1894 } 1895 } 1896 1897 void set_addressing_size(CPUX86State *env, struct x86_decode *decode) 1898 { 1899 decode->addressing_size = -1; 1900 if (x86_is_real(env_cpu(env)) || x86_is_v8086(env_cpu(env))) { 1901 if (decode->addr_size_override) { 1902 decode->addressing_size = 4; 1903 } else { 1904 decode->addressing_size = 2; 1905 } 1906 } else if (!x86_is_long_mode(env_cpu(env))) { 1907 /* protected */ 1908 struct vmx_segment cs; 1909 vmx_read_segment_descriptor(env_cpu(env), &cs, R_CS); 1910 /* check db */ 1911 if ((cs.ar >> 14) & 1) { 1912 if (decode->addr_size_override) { 1913 decode->addressing_size = 2; 1914 } else { 1915 decode->addressing_size = 4; 1916 } 1917 } else { 1918 if (decode->addr_size_override) { 1919 decode->addressing_size = 4; 1920 } else { 1921 decode->addressing_size = 2; 1922 } 1923 } 1924 } else { 1925 /* long */ 1926 if (decode->addr_size_override) { 1927 decode->addressing_size = 4; 1928 } else { 1929 decode->addressing_size = 8; 1930 } 1931 } 1932 } 1933 1934 void set_operand_size(CPUX86State *env, struct x86_decode *decode) 1935 { 1936 decode->operand_size = -1; 1937 if (x86_is_real(env_cpu(env)) || x86_is_v8086(env_cpu(env))) { 1938 if (decode->op_size_override) { 1939 decode->operand_size = 4; 1940 } else { 1941 decode->operand_size = 2; 1942 } 1943 } else if (!x86_is_long_mode(env_cpu(env))) { 1944 /* protected */ 1945 struct vmx_segment cs; 1946 vmx_read_segment_descriptor(env_cpu(env), &cs, R_CS); 1947 /* check db */ 1948 if ((cs.ar >> 14) & 1) { 1949 if (decode->op_size_override) { 1950 decode->operand_size = 2; 1951 } else{ 1952 decode->operand_size = 4; 1953 } 1954 } else { 1955 if (decode->op_size_override) { 1956 decode->operand_size = 4; 1957 } else { 1958 decode->operand_size = 2; 1959 } 1960 } 1961 } else { 1962 /* long */ 1963 if (decode->op_size_override) { 1964 decode->operand_size = 2; 1965 } else { 1966 decode->operand_size = 4; 1967 } 1968 1969 if (decode->rex.w) { 1970 decode->operand_size = 8; 1971 } 1972 } 1973 } 1974 1975 static void decode_sib(CPUX86State *env, struct x86_decode *decode) 1976 { 1977 if ((decode->modrm.mod != 3) && (4 == decode->modrm.rm) && 1978 (decode->addressing_size != 2)) { 1979 decode->sib.sib = decode_byte(env, decode); 1980 decode->sib_present = true; 1981 } 1982 } 1983 1984 /* 16 bit modrm */ 1985 int disp16_tbl[4][8] = { 1986 {0, 0, 0, 0, 0, 0, 2, 0}, 1987 {1, 1, 1, 1, 1, 1, 1, 1}, 1988 {2, 2, 2, 2, 2, 2, 2, 2}, 1989 {0, 0, 0, 0, 0, 0, 0, 0} 1990 }; 1991 1992 /* 32/64-bit modrm */ 1993 int disp32_tbl[4][8] = { 1994 {0, 0, 0, 0, -1, 4, 0, 0}, 1995 {1, 1, 1, 1, 1, 1, 1, 1}, 1996 {4, 4, 4, 4, 4, 4, 4, 4}, 1997 {0, 0, 0, 0, 0, 0, 0, 0} 1998 }; 1999 2000 static inline void decode_displacement(CPUX86State *env, struct x86_decode *decode) 2001 { 2002 int addressing_size = decode->addressing_size; 2003 int mod = decode->modrm.mod; 2004 int rm = decode->modrm.rm; 2005 2006 decode->displacement_size = 0; 2007 switch (addressing_size) { 2008 case 2: 2009 decode->displacement_size = disp16_tbl[mod][rm]; 2010 if (decode->displacement_size) { 2011 decode->displacement = (uint16_t)decode_bytes(env, decode, 2012 decode->displacement_size); 2013 } 2014 break; 2015 case 4: 2016 case 8: 2017 if (-1 == disp32_tbl[mod][rm]) { 2018 if (5 == decode->sib.base) { 2019 decode->displacement_size = 4; 2020 } 2021 } else { 2022 decode->displacement_size = disp32_tbl[mod][rm]; 2023 } 2024 2025 if (decode->displacement_size) { 2026 decode->displacement = (uint32_t)decode_bytes(env, decode, 2027 decode->displacement_size); 2028 } 2029 break; 2030 } 2031 } 2032 2033 static inline void decode_modrm(CPUX86State *env, struct x86_decode *decode) 2034 { 2035 decode->modrm.modrm = decode_byte(env, decode); 2036 decode->is_modrm = true; 2037 2038 decode_sib(env, decode); 2039 decode_displacement(env, decode); 2040 } 2041 2042 static inline void decode_opcode_general(CPUX86State *env, 2043 struct x86_decode *decode, 2044 uint8_t opcode, 2045 struct decode_tbl *inst_decoder) 2046 { 2047 decode->cmd = inst_decoder->cmd; 2048 if (inst_decoder->operand_size) { 2049 decode->operand_size = inst_decoder->operand_size; 2050 } 2051 decode->flags_mask = inst_decoder->flags_mask; 2052 2053 if (inst_decoder->is_modrm) { 2054 decode_modrm(env, decode); 2055 } 2056 if (inst_decoder->decode_op1) { 2057 inst_decoder->decode_op1(env, decode, &decode->op[0]); 2058 } 2059 if (inst_decoder->decode_op2) { 2060 inst_decoder->decode_op2(env, decode, &decode->op[1]); 2061 } 2062 if (inst_decoder->decode_op3) { 2063 inst_decoder->decode_op3(env, decode, &decode->op[2]); 2064 } 2065 if (inst_decoder->decode_op4) { 2066 inst_decoder->decode_op4(env, decode, &decode->op[3]); 2067 } 2068 if (inst_decoder->decode_postfix) { 2069 inst_decoder->decode_postfix(env, decode); 2070 } 2071 } 2072 2073 static inline void decode_opcode_1(CPUX86State *env, struct x86_decode *decode, 2074 uint8_t opcode) 2075 { 2076 struct decode_tbl *inst_decoder = &_decode_tbl1[opcode]; 2077 decode_opcode_general(env, decode, opcode, inst_decoder); 2078 } 2079 2080 2081 static inline void decode_opcode_2(CPUX86State *env, struct x86_decode *decode, 2082 uint8_t opcode) 2083 { 2084 struct decode_tbl *inst_decoder = &_decode_tbl2[opcode]; 2085 decode_opcode_general(env, decode, opcode, inst_decoder); 2086 } 2087 2088 static void decode_opcodes(CPUX86State *env, struct x86_decode *decode) 2089 { 2090 uint8_t opcode; 2091 2092 opcode = decode_byte(env, decode); 2093 decode->opcode[decode->opcode_len++] = opcode; 2094 if (opcode != OPCODE_ESCAPE) { 2095 decode_opcode_1(env, decode, opcode); 2096 } else { 2097 opcode = decode_byte(env, decode); 2098 decode->opcode[decode->opcode_len++] = opcode; 2099 decode_opcode_2(env, decode, opcode); 2100 } 2101 } 2102 2103 uint32_t decode_instruction(CPUX86State *env, struct x86_decode *decode) 2104 { 2105 memset(decode, 0, sizeof(*decode)); 2106 decode_prefix(env, decode); 2107 set_addressing_size(env, decode); 2108 set_operand_size(env, decode); 2109 2110 decode_opcodes(env, decode); 2111 2112 return decode->len; 2113 } 2114 2115 void init_decoder() 2116 { 2117 int i; 2118 2119 for (i = 0; i < ARRAY_SIZE(_decode_tbl1); i++) { 2120 memcpy(&_decode_tbl1[i], &invl_inst, sizeof(invl_inst)); 2121 } 2122 for (i = 0; i < ARRAY_SIZE(_decode_tbl2); i++) { 2123 memcpy(&_decode_tbl2[i], &invl_inst, sizeof(invl_inst)); 2124 } 2125 for (i = 0; i < ARRAY_SIZE(_decode_tbl3); i++) { 2126 memcpy(&_decode_tbl3[i], &invl_inst_x87, sizeof(invl_inst_x87)); 2127 2128 } 2129 for (i = 0; i < ARRAY_SIZE(_1op_inst); i++) { 2130 _decode_tbl1[_1op_inst[i].opcode] = _1op_inst[i]; 2131 } 2132 for (i = 0; i < ARRAY_SIZE(_2op_inst); i++) { 2133 _decode_tbl2[_2op_inst[i].opcode] = _2op_inst[i]; 2134 } 2135 for (i = 0; i < ARRAY_SIZE(_x87_inst); i++) { 2136 int index = ((_x87_inst[i].opcode & 0xf) << 4) | 2137 ((_x87_inst[i].modrm_mod & 1) << 3) | 2138 _x87_inst[i].modrm_reg; 2139 _decode_tbl3[index] = _x87_inst[i]; 2140 } 2141 } 2142 2143 2144 const char *decode_cmd_to_string(enum x86_decode_cmd cmd) 2145 { 2146 static const char *cmds[] = {"INVL", "PUSH", "PUSH_SEG", "POP", "POP_SEG", 2147 "MOV", "MOVSX", "MOVZX", "CALL_NEAR", "CALL_NEAR_ABS_INDIRECT", 2148 "CALL_FAR_ABS_INDIRECT", "CMD_CALL_FAR", "RET_NEAR", "RET_FAR", "ADD", 2149 "OR", "ADC", "SBB", "AND", "SUB", "XOR", "CMP", "INC", "DEC", "TST", 2150 "NOT", "NEG", "JMP_NEAR", "JMP_NEAR_ABS_INDIRECT", "JMP_FAR", 2151 "JMP_FAR_ABS_INDIRECT", "LEA", "JXX", "JCXZ", "SETXX", "MOV_TO_SEG", 2152 "MOV_FROM_SEG", "CLI", "STI", "CLD", "STD", "STC", "CLC", "OUT", "IN", 2153 "INS", "OUTS", "LIDT", "SIDT", "LGDT", "SGDT", "SMSW", "LMSW", 2154 "RDTSCP", "INVLPG", "MOV_TO_CR", "MOV_FROM_CR", "MOV_TO_DR", 2155 "MOV_FROM_DR", "PUSHF", "POPF", "CPUID", "ROL", "ROR", "RCL", "RCR", 2156 "SHL", "SAL", "SHR", "SHRD", "SHLD", "SAR", "DIV", "IDIV", "MUL", 2157 "IMUL_3", "IMUL_2", "IMUL_1", "MOVS", "CMPS", "SCAS", "LODS", "STOS", 2158 "BSWAP", "XCHG", "RDTSC", "RDMSR", "WRMSR", "ENTER", "LEAVE", "BT", 2159 "BTS", "BTC", "BTR", "BSF", "BSR", "IRET", "INT", "POPA", "PUSHA", 2160 "CWD", "CBW", "DAS", "AAD", "AAM", "AAS", "LOOP", "SLDT", "STR", "LLDT", 2161 "LTR", "VERR", "VERW", "SAHF", "LAHF", "WBINVD", "LDS", "LSS", "LES", 2162 "LGS", "LFS", "CMC", "XLAT", "NOP", "CMOV", "CLTS", "XADD", "HLT", 2163 "CMPXCHG8B", "CMPXCHG", "POPCNT", "FNINIT", "FLD", "FLDxx", "FNSTCW", 2164 "FNSTSW", "FNSETPM", "FSAVE", "FRSTOR", "FXSAVE", "FXRSTOR", "FDIV", 2165 "FMUL", "FSUB", "FADD", "EMMS", "MFENCE", "SFENCE", "LFENCE", 2166 "PREFETCH", "FST", "FABS", "FUCOM", "FUCOMI", "FLDCW", 2167 "FXCH", "FCHS", "FCMOV", "FRNDINT", "FXAM", "LAST"}; 2168 return cmds[cmd]; 2169 } 2170 2171 target_ulong decode_linear_addr(CPUX86State *env, struct x86_decode *decode, 2172 target_ulong addr, X86Seg seg) 2173 { 2174 switch (decode->segment_override) { 2175 case PREFIX_CS_SEG_OVERRIDE: 2176 seg = R_CS; 2177 break; 2178 case PREFIX_SS_SEG_OVERRIDE: 2179 seg = R_SS; 2180 break; 2181 case PREFIX_DS_SEG_OVERRIDE: 2182 seg = R_DS; 2183 break; 2184 case PREFIX_ES_SEG_OVERRIDE: 2185 seg = R_ES; 2186 break; 2187 case PREFIX_FS_SEG_OVERRIDE: 2188 seg = R_FS; 2189 break; 2190 case PREFIX_GS_SEG_OVERRIDE: 2191 seg = R_GS; 2192 break; 2193 default: 2194 break; 2195 } 2196 return linear_addr_size(env_cpu(env), addr, decode->addressing_size, seg); 2197 } 2198