1 // Copyright 2014 the V8 project authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 #ifndef V8_ARM64_DECODER_ARM64_INL_H_ 6 #define V8_ARM64_DECODER_ARM64_INL_H_ 7 8 #include "src/arm64/decoder-arm64.h" 9 #include "src/globals.h" 10 #include "src/utils.h" 11 12 13 namespace v8 { 14 namespace internal { 15 16 17 // Top-level instruction decode function. 18 template<typename V> 19 void Decoder<V>::Decode(Instruction *instr) { 20 if (instr->Bits(28, 27) == 0) { 21 V::VisitUnallocated(instr); 22 } else { 23 switch (instr->Bits(27, 24)) { 24 // 0: PC relative addressing. 25 case 0x0: DecodePCRelAddressing(instr); break; 26 27 // 1: Add/sub immediate. 28 case 0x1: DecodeAddSubImmediate(instr); break; 29 30 // A: Logical shifted register. 31 // Add/sub with carry. 32 // Conditional compare register. 33 // Conditional compare immediate. 34 // Conditional select. 35 // Data processing 1 source. 36 // Data processing 2 source. 37 // B: Add/sub shifted register. 38 // Add/sub extended register. 39 // Data processing 3 source. 40 case 0xA: 41 case 0xB: DecodeDataProcessing(instr); break; 42 43 // 2: Logical immediate. 44 // Move wide immediate. 45 case 0x2: DecodeLogical(instr); break; 46 47 // 3: Bitfield. 48 // Extract. 49 case 0x3: DecodeBitfieldExtract(instr); break; 50 51 // 4: Unconditional branch immediate. 52 // Exception generation. 53 // Compare and branch immediate. 54 // 5: Compare and branch immediate. 55 // Conditional branch. 56 // System. 57 // 6,7: Unconditional branch. 58 // Test and branch immediate. 59 case 0x4: 60 case 0x5: 61 case 0x6: 62 case 0x7: DecodeBranchSystemException(instr); break; 63 64 // 8,9: Load/store register pair post-index. 65 // Load register literal. 66 // Load/store register unscaled immediate. 67 // Load/store register immediate post-index. 68 // Load/store register immediate pre-index. 69 // Load/store register offset. 70 // C,D: Load/store register pair offset. 71 // Load/store register pair pre-index. 72 // Load/store register unsigned immediate. 73 // Advanced SIMD. 74 case 0x8: 75 case 0x9: 76 case 0xC: 77 case 0xD: DecodeLoadStore(instr); break; 78 79 // E: FP fixed point conversion. 80 // FP integer conversion. 81 // FP data processing 1 source. 82 // FP compare. 83 // FP immediate. 84 // FP data processing 2 source. 85 // FP conditional compare. 86 // FP conditional select. 87 // Advanced SIMD. 88 // F: FP data processing 3 source. 89 // Advanced SIMD. 90 case 0xE: 91 case 0xF: DecodeFP(instr); break; 92 } 93 } 94 } 95 96 97 template<typename V> 98 void Decoder<V>::DecodePCRelAddressing(Instruction* instr) { 99 DCHECK(instr->Bits(27, 24) == 0x0); 100 // We know bit 28 is set, as <b28:b27> = 0 is filtered out at the top level 101 // decode. 102 DCHECK(instr->Bit(28) == 0x1); 103 V::VisitPCRelAddressing(instr); 104 } 105 106 107 template<typename V> 108 void Decoder<V>::DecodeBranchSystemException(Instruction* instr) { 109 DCHECK((instr->Bits(27, 24) == 0x4) || 110 (instr->Bits(27, 24) == 0x5) || 111 (instr->Bits(27, 24) == 0x6) || 112 (instr->Bits(27, 24) == 0x7) ); 113 114 switch (instr->Bits(31, 29)) { 115 case 0: 116 case 4: { 117 V::VisitUnconditionalBranch(instr); 118 break; 119 } 120 case 1: 121 case 5: { 122 if (instr->Bit(25) == 0) { 123 V::VisitCompareBranch(instr); 124 } else { 125 V::VisitTestBranch(instr); 126 } 127 break; 128 } 129 case 2: { 130 if (instr->Bit(25) == 0) { 131 if ((instr->Bit(24) == 0x1) || 132 (instr->Mask(0x01000010) == 0x00000010)) { 133 V::VisitUnallocated(instr); 134 } else { 135 V::VisitConditionalBranch(instr); 136 } 137 } else { 138 V::VisitUnallocated(instr); 139 } 140 break; 141 } 142 case 6: { 143 if (instr->Bit(25) == 0) { 144 if (instr->Bit(24) == 0) { 145 if ((instr->Bits(4, 2) != 0) || 146 (instr->Mask(0x00E0001D) == 0x00200001) || 147 (instr->Mask(0x00E0001D) == 0x00400001) || 148 (instr->Mask(0x00E0001E) == 0x00200002) || 149 (instr->Mask(0x00E0001E) == 0x00400002) || 150 (instr->Mask(0x00E0001C) == 0x00600000) || 151 (instr->Mask(0x00E0001C) == 0x00800000) || 152 (instr->Mask(0x00E0001F) == 0x00A00000) || 153 (instr->Mask(0x00C0001C) == 0x00C00000)) { 154 V::VisitUnallocated(instr); 155 } else { 156 V::VisitException(instr); 157 } 158 } else { 159 if (instr->Bits(23, 22) == 0) { 160 const Instr masked_003FF0E0 = instr->Mask(0x003FF0E0); 161 if ((instr->Bits(21, 19) == 0x4) || 162 (masked_003FF0E0 == 0x00033000) || 163 (masked_003FF0E0 == 0x003FF020) || 164 (masked_003FF0E0 == 0x003FF060) || 165 (masked_003FF0E0 == 0x003FF0E0) || 166 (instr->Mask(0x00388000) == 0x00008000) || 167 (instr->Mask(0x0038E000) == 0x00000000) || 168 (instr->Mask(0x0039E000) == 0x00002000) || 169 (instr->Mask(0x003AE000) == 0x00002000) || 170 (instr->Mask(0x003CE000) == 0x00042000) || 171 (instr->Mask(0x003FFFC0) == 0x000320C0) || 172 (instr->Mask(0x003FF100) == 0x00032100) || 173 (instr->Mask(0x003FF200) == 0x00032200) || 174 (instr->Mask(0x003FF400) == 0x00032400) || 175 (instr->Mask(0x003FF800) == 0x00032800) || 176 (instr->Mask(0x0038F000) == 0x00005000) || 177 (instr->Mask(0x0038E000) == 0x00006000)) { 178 V::VisitUnallocated(instr); 179 } else { 180 V::VisitSystem(instr); 181 } 182 } else { 183 V::VisitUnallocated(instr); 184 } 185 } 186 } else { 187 if ((instr->Bit(24) == 0x1) || 188 (instr->Bits(20, 16) != 0x1F) || 189 (instr->Bits(15, 10) != 0) || 190 (instr->Bits(4, 0) != 0) || 191 (instr->Bits(24, 21) == 0x3) || 192 (instr->Bits(24, 22) == 0x3)) { 193 V::VisitUnallocated(instr); 194 } else { 195 V::VisitUnconditionalBranchToRegister(instr); 196 } 197 } 198 break; 199 } 200 case 3: 201 case 7: { 202 V::VisitUnallocated(instr); 203 break; 204 } 205 } 206 } 207 208 209 template<typename V> 210 void Decoder<V>::DecodeLoadStore(Instruction* instr) { 211 DCHECK((instr->Bits(27, 24) == 0x8) || 212 (instr->Bits(27, 24) == 0x9) || 213 (instr->Bits(27, 24) == 0xC) || 214 (instr->Bits(27, 24) == 0xD) ); 215 216 if (instr->Bit(24) == 0) { 217 if (instr->Bit(28) == 0) { 218 if (instr->Bit(29) == 0) { 219 if (instr->Bit(26) == 0) { 220 if (instr->Mask(0xA08000) == 0x800000 || 221 instr->Mask(0xA00000) == 0xA00000) { 222 V::VisitUnallocated(instr); 223 } else if (instr->Mask(0x808000) == 0) { 224 // Load/Store exclusive without acquire/release are unimplemented. 225 V::VisitUnimplemented(instr); 226 } else { 227 V::VisitLoadStoreAcquireRelease(instr); 228 } 229 } else { 230 DecodeAdvSIMDLoadStore(instr); 231 } 232 } else { 233 if ((instr->Bits(31, 30) == 0x3) || 234 (instr->Mask(0xC4400000) == 0x40000000)) { 235 V::VisitUnallocated(instr); 236 } else { 237 if (instr->Bit(23) == 0) { 238 if (instr->Mask(0xC4400000) == 0xC0400000) { 239 V::VisitUnallocated(instr); 240 } else { 241 // Nontemporals are unimplemented. 242 V::VisitUnimplemented(instr); 243 } 244 } else { 245 V::VisitLoadStorePairPostIndex(instr); 246 } 247 } 248 } 249 } else { 250 if (instr->Bit(29) == 0) { 251 if (instr->Mask(0xC4000000) == 0xC4000000) { 252 V::VisitUnallocated(instr); 253 } else { 254 V::VisitLoadLiteral(instr); 255 } 256 } else { 257 if ((instr->Mask(0x84C00000) == 0x80C00000) || 258 (instr->Mask(0x44800000) == 0x44800000) || 259 (instr->Mask(0x84800000) == 0x84800000)) { 260 V::VisitUnallocated(instr); 261 } else { 262 if (instr->Bit(21) == 0) { 263 switch (instr->Bits(11, 10)) { 264 case 0: { 265 V::VisitLoadStoreUnscaledOffset(instr); 266 break; 267 } 268 case 1: { 269 if (instr->Mask(0xC4C00000) == 0xC0800000) { 270 V::VisitUnallocated(instr); 271 } else { 272 V::VisitLoadStorePostIndex(instr); 273 } 274 break; 275 } 276 case 2: { 277 // TODO(all): VisitLoadStoreRegisterOffsetUnpriv. 278 V::VisitUnimplemented(instr); 279 break; 280 } 281 case 3: { 282 if (instr->Mask(0xC4C00000) == 0xC0800000) { 283 V::VisitUnallocated(instr); 284 } else { 285 V::VisitLoadStorePreIndex(instr); 286 } 287 break; 288 } 289 } 290 } else { 291 if (instr->Bits(11, 10) == 0x2) { 292 if (instr->Bit(14) == 0) { 293 V::VisitUnallocated(instr); 294 } else { 295 V::VisitLoadStoreRegisterOffset(instr); 296 } 297 } else { 298 V::VisitUnallocated(instr); 299 } 300 } 301 } 302 } 303 } 304 } else { 305 if (instr->Bit(28) == 0) { 306 if (instr->Bit(29) == 0) { 307 V::VisitUnallocated(instr); 308 } else { 309 if ((instr->Bits(31, 30) == 0x3) || 310 (instr->Mask(0xC4400000) == 0x40000000)) { 311 V::VisitUnallocated(instr); 312 } else { 313 if (instr->Bit(23) == 0) { 314 V::VisitLoadStorePairOffset(instr); 315 } else { 316 V::VisitLoadStorePairPreIndex(instr); 317 } 318 } 319 } 320 } else { 321 if (instr->Bit(29) == 0) { 322 V::VisitUnallocated(instr); 323 } else { 324 if ((instr->Mask(0x84C00000) == 0x80C00000) || 325 (instr->Mask(0x44800000) == 0x44800000) || 326 (instr->Mask(0x84800000) == 0x84800000)) { 327 V::VisitUnallocated(instr); 328 } else { 329 V::VisitLoadStoreUnsignedOffset(instr); 330 } 331 } 332 } 333 } 334 } 335 336 337 template<typename V> 338 void Decoder<V>::DecodeLogical(Instruction* instr) { 339 DCHECK(instr->Bits(27, 24) == 0x2); 340 341 if (instr->Mask(0x80400000) == 0x00400000) { 342 V::VisitUnallocated(instr); 343 } else { 344 if (instr->Bit(23) == 0) { 345 V::VisitLogicalImmediate(instr); 346 } else { 347 if (instr->Bits(30, 29) == 0x1) { 348 V::VisitUnallocated(instr); 349 } else { 350 V::VisitMoveWideImmediate(instr); 351 } 352 } 353 } 354 } 355 356 357 template<typename V> 358 void Decoder<V>::DecodeBitfieldExtract(Instruction* instr) { 359 DCHECK(instr->Bits(27, 24) == 0x3); 360 361 if ((instr->Mask(0x80400000) == 0x80000000) || 362 (instr->Mask(0x80400000) == 0x00400000) || 363 (instr->Mask(0x80008000) == 0x00008000)) { 364 V::VisitUnallocated(instr); 365 } else if (instr->Bit(23) == 0) { 366 if ((instr->Mask(0x80200000) == 0x00200000) || 367 (instr->Mask(0x60000000) == 0x60000000)) { 368 V::VisitUnallocated(instr); 369 } else { 370 V::VisitBitfield(instr); 371 } 372 } else { 373 if ((instr->Mask(0x60200000) == 0x00200000) || 374 (instr->Mask(0x60000000) != 0x00000000)) { 375 V::VisitUnallocated(instr); 376 } else { 377 V::VisitExtract(instr); 378 } 379 } 380 } 381 382 383 template<typename V> 384 void Decoder<V>::DecodeAddSubImmediate(Instruction* instr) { 385 DCHECK(instr->Bits(27, 24) == 0x1); 386 if (instr->Bit(23) == 1) { 387 V::VisitUnallocated(instr); 388 } else { 389 V::VisitAddSubImmediate(instr); 390 } 391 } 392 393 394 template<typename V> 395 void Decoder<V>::DecodeDataProcessing(Instruction* instr) { 396 DCHECK((instr->Bits(27, 24) == 0xA) || 397 (instr->Bits(27, 24) == 0xB) ); 398 399 if (instr->Bit(24) == 0) { 400 if (instr->Bit(28) == 0) { 401 if (instr->Mask(0x80008000) == 0x00008000) { 402 V::VisitUnallocated(instr); 403 } else { 404 V::VisitLogicalShifted(instr); 405 } 406 } else { 407 switch (instr->Bits(23, 21)) { 408 case 0: { 409 if (instr->Mask(0x0000FC00) != 0) { 410 V::VisitUnallocated(instr); 411 } else { 412 V::VisitAddSubWithCarry(instr); 413 } 414 break; 415 } 416 case 2: { 417 if ((instr->Bit(29) == 0) || 418 (instr->Mask(0x00000410) != 0)) { 419 V::VisitUnallocated(instr); 420 } else { 421 if (instr->Bit(11) == 0) { 422 V::VisitConditionalCompareRegister(instr); 423 } else { 424 V::VisitConditionalCompareImmediate(instr); 425 } 426 } 427 break; 428 } 429 case 4: { 430 if (instr->Mask(0x20000800) != 0x00000000) { 431 V::VisitUnallocated(instr); 432 } else { 433 V::VisitConditionalSelect(instr); 434 } 435 break; 436 } 437 case 6: { 438 if (instr->Bit(29) == 0x1) { 439 V::VisitUnallocated(instr); 440 } else { 441 if (instr->Bit(30) == 0) { 442 if ((instr->Bit(15) == 0x1) || 443 (instr->Bits(15, 11) == 0) || 444 (instr->Bits(15, 12) == 0x1) || 445 (instr->Bits(15, 12) == 0x3) || 446 (instr->Bits(15, 13) == 0x3) || 447 (instr->Mask(0x8000EC00) == 0x00004C00) || 448 (instr->Mask(0x8000E800) == 0x80004000) || 449 (instr->Mask(0x8000E400) == 0x80004000)) { 450 V::VisitUnallocated(instr); 451 } else { 452 V::VisitDataProcessing2Source(instr); 453 } 454 } else { 455 if ((instr->Bit(13) == 1) || 456 (instr->Bits(20, 16) != 0) || 457 (instr->Bits(15, 14) != 0) || 458 (instr->Mask(0xA01FFC00) == 0x00000C00) || 459 (instr->Mask(0x201FF800) == 0x00001800)) { 460 V::VisitUnallocated(instr); 461 } else { 462 V::VisitDataProcessing1Source(instr); 463 } 464 } 465 break; 466 } 467 } 468 case 1: 469 case 3: 470 case 5: 471 case 7: V::VisitUnallocated(instr); break; 472 } 473 } 474 } else { 475 if (instr->Bit(28) == 0) { 476 if (instr->Bit(21) == 0) { 477 if ((instr->Bits(23, 22) == 0x3) || 478 (instr->Mask(0x80008000) == 0x00008000)) { 479 V::VisitUnallocated(instr); 480 } else { 481 V::VisitAddSubShifted(instr); 482 } 483 } else { 484 if ((instr->Mask(0x00C00000) != 0x00000000) || 485 (instr->Mask(0x00001400) == 0x00001400) || 486 (instr->Mask(0x00001800) == 0x00001800)) { 487 V::VisitUnallocated(instr); 488 } else { 489 V::VisitAddSubExtended(instr); 490 } 491 } 492 } else { 493 if ((instr->Bit(30) == 0x1) || 494 (instr->Bits(30, 29) == 0x1) || 495 (instr->Mask(0xE0600000) == 0x00200000) || 496 (instr->Mask(0xE0608000) == 0x00400000) || 497 (instr->Mask(0x60608000) == 0x00408000) || 498 (instr->Mask(0x60E00000) == 0x00E00000) || 499 (instr->Mask(0x60E00000) == 0x00800000) || 500 (instr->Mask(0x60E00000) == 0x00600000)) { 501 V::VisitUnallocated(instr); 502 } else { 503 V::VisitDataProcessing3Source(instr); 504 } 505 } 506 } 507 } 508 509 510 template<typename V> 511 void Decoder<V>::DecodeFP(Instruction* instr) { 512 DCHECK((instr->Bits(27, 24) == 0xE) || 513 (instr->Bits(27, 24) == 0xF) ); 514 515 if (instr->Bit(28) == 0) { 516 DecodeAdvSIMDDataProcessing(instr); 517 } else { 518 if (instr->Bit(29) == 1) { 519 V::VisitUnallocated(instr); 520 } else { 521 if (instr->Bits(31, 30) == 0x3) { 522 V::VisitUnallocated(instr); 523 } else if (instr->Bits(31, 30) == 0x1) { 524 DecodeAdvSIMDDataProcessing(instr); 525 } else { 526 if (instr->Bit(24) == 0) { 527 if (instr->Bit(21) == 0) { 528 if ((instr->Bit(23) == 1) || 529 (instr->Bit(18) == 1) || 530 (instr->Mask(0x80008000) == 0x00000000) || 531 (instr->Mask(0x000E0000) == 0x00000000) || 532 (instr->Mask(0x000E0000) == 0x000A0000) || 533 (instr->Mask(0x00160000) == 0x00000000) || 534 (instr->Mask(0x00160000) == 0x00120000)) { 535 V::VisitUnallocated(instr); 536 } else { 537 V::VisitFPFixedPointConvert(instr); 538 } 539 } else { 540 if (instr->Bits(15, 10) == 32) { 541 V::VisitUnallocated(instr); 542 } else if (instr->Bits(15, 10) == 0) { 543 if ((instr->Bits(23, 22) == 0x3) || 544 (instr->Mask(0x000E0000) == 0x000A0000) || 545 (instr->Mask(0x000E0000) == 0x000C0000) || 546 (instr->Mask(0x00160000) == 0x00120000) || 547 (instr->Mask(0x00160000) == 0x00140000) || 548 (instr->Mask(0x20C40000) == 0x00800000) || 549 (instr->Mask(0x20C60000) == 0x00840000) || 550 (instr->Mask(0xA0C60000) == 0x80060000) || 551 (instr->Mask(0xA0C60000) == 0x00860000) || 552 (instr->Mask(0xA0C60000) == 0x00460000) || 553 (instr->Mask(0xA0CE0000) == 0x80860000) || 554 (instr->Mask(0xA0CE0000) == 0x804E0000) || 555 (instr->Mask(0xA0CE0000) == 0x000E0000) || 556 (instr->Mask(0xA0D60000) == 0x00160000) || 557 (instr->Mask(0xA0D60000) == 0x80560000) || 558 (instr->Mask(0xA0D60000) == 0x80960000)) { 559 V::VisitUnallocated(instr); 560 } else { 561 V::VisitFPIntegerConvert(instr); 562 } 563 } else if (instr->Bits(14, 10) == 16) { 564 const Instr masked_A0DF8000 = instr->Mask(0xA0DF8000); 565 if ((instr->Mask(0x80180000) != 0) || 566 (masked_A0DF8000 == 0x00020000) || 567 (masked_A0DF8000 == 0x00030000) || 568 (masked_A0DF8000 == 0x00068000) || 569 (masked_A0DF8000 == 0x00428000) || 570 (masked_A0DF8000 == 0x00430000) || 571 (masked_A0DF8000 == 0x00468000) || 572 (instr->Mask(0xA0D80000) == 0x00800000) || 573 (instr->Mask(0xA0DE0000) == 0x00C00000) || 574 (instr->Mask(0xA0DF0000) == 0x00C30000) || 575 (instr->Mask(0xA0DC0000) == 0x00C40000)) { 576 V::VisitUnallocated(instr); 577 } else { 578 V::VisitFPDataProcessing1Source(instr); 579 } 580 } else if (instr->Bits(13, 10) == 8) { 581 if ((instr->Bits(15, 14) != 0) || 582 (instr->Bits(2, 0) != 0) || 583 (instr->Mask(0x80800000) != 0x00000000)) { 584 V::VisitUnallocated(instr); 585 } else { 586 V::VisitFPCompare(instr); 587 } 588 } else if (instr->Bits(12, 10) == 4) { 589 if ((instr->Bits(9, 5) != 0) || 590 (instr->Mask(0x80800000) != 0x00000000)) { 591 V::VisitUnallocated(instr); 592 } else { 593 V::VisitFPImmediate(instr); 594 } 595 } else { 596 if (instr->Mask(0x80800000) != 0x00000000) { 597 V::VisitUnallocated(instr); 598 } else { 599 switch (instr->Bits(11, 10)) { 600 case 1: { 601 V::VisitFPConditionalCompare(instr); 602 break; 603 } 604 case 2: { 605 if ((instr->Bits(15, 14) == 0x3) || 606 (instr->Mask(0x00009000) == 0x00009000) || 607 (instr->Mask(0x0000A000) == 0x0000A000)) { 608 V::VisitUnallocated(instr); 609 } else { 610 V::VisitFPDataProcessing2Source(instr); 611 } 612 break; 613 } 614 case 3: { 615 V::VisitFPConditionalSelect(instr); 616 break; 617 } 618 default: UNREACHABLE(); 619 } 620 } 621 } 622 } 623 } else { 624 // Bit 30 == 1 has been handled earlier. 625 DCHECK(instr->Bit(30) == 0); 626 if (instr->Mask(0xA0800000) != 0) { 627 V::VisitUnallocated(instr); 628 } else { 629 V::VisitFPDataProcessing3Source(instr); 630 } 631 } 632 } 633 } 634 } 635 } 636 637 638 template<typename V> 639 void Decoder<V>::DecodeAdvSIMDLoadStore(Instruction* instr) { 640 // TODO(all): Implement Advanced SIMD load/store instruction decode. 641 DCHECK(instr->Bits(29, 25) == 0x6); 642 V::VisitUnimplemented(instr); 643 } 644 645 646 template<typename V> 647 void Decoder<V>::DecodeAdvSIMDDataProcessing(Instruction* instr) { 648 // TODO(all): Implement Advanced SIMD data processing instruction decode. 649 DCHECK(instr->Bits(27, 25) == 0x7); 650 V::VisitUnimplemented(instr); 651 } 652 653 654 } // namespace internal 655 } // namespace v8 656 657 #endif // V8_ARM64_DECODER_ARM64_INL_H_ 658