isa.hh revision 14133
1/* 2 * Copyright (c) 2010, 2012-2019 ARM Limited 3 * All rights reserved 4 * 5 * The license below extends only to copyright in the software and shall 6 * not be construed as granting a license to any other intellectual 7 * property including but not limited to intellectual property relating 8 * to a hardware implementation of the functionality of the software 9 * licensed hereunder. You may use the software subject to the license 10 * terms below provided that you ensure that this notice is replicated 11 * unmodified and in its entirety in all distributions of the software, 12 * modified or unmodified, in source code or in binary form. 13 * 14 * Copyright (c) 2009 The Regents of The University of Michigan 15 * All rights reserved. 16 * 17 * Redistribution and use in source and binary forms, with or without 18 * modification, are permitted provided that the following conditions are 19 * met: redistributions of source code must retain the above copyright 20 * notice, this list of conditions and the following disclaimer; 21 * redistributions in binary form must reproduce the above copyright 22 * notice, this list of conditions and the following disclaimer in the 23 * documentation and/or other materials provided with the distribution; 24 * neither the name of the copyright holders nor the names of its 25 * contributors may be used to endorse or promote products derived from 26 * this software without specific prior written permission. 27 * 28 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 29 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 30 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 31 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 32 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 33 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 34 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 35 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 36 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 37 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 38 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 39 * 40 * Authors: Gabe Black 41 */ 42 43#ifndef __ARCH_ARM_ISA_HH__ 44#define __ARCH_ARM_ISA_HH__ 45 46#include "arch/arm/isa_device.hh" 47#include "arch/arm/miscregs.hh" 48#include "arch/arm/registers.hh" 49#include "arch/arm/system.hh" 50#include "arch/arm/tlb.hh" 51#include "arch/arm/types.hh" 52#include "arch/generic/traits.hh" 53#include "debug/Checkpoint.hh" 54#include "enums/VecRegRenameMode.hh" 55#include "sim/sim_object.hh" 56#include "enums/DecoderFlavour.hh" 57 58struct ArmISAParams; 59struct DummyArmISADeviceParams; 60class ThreadContext; 61class Checkpoint; 62class EventManager; 63 64namespace ArmISA 65{ 66 class ISA : public SimObject 67 { 68 protected: 69 // Parent system 70 ArmSystem *system; 71 72 // Micro Architecture 73 const Enums::DecoderFlavour _decoderFlavour; 74 const Enums::VecRegRenameMode _vecRegRenameMode; 75 76 /** Dummy device for to handle non-existing ISA devices */ 77 DummyISADevice dummyDevice; 78 79 // PMU belonging to this ISA 80 BaseISADevice *pmu; 81 82 // Generic timer interface belonging to this ISA 83 std::unique_ptr<BaseISADevice> timer; 84 85 // GICv3 CPU interface belonging to this ISA 86 std::unique_ptr<BaseISADevice> gicv3CpuInterface; 87 88 // Cached copies of system-level properties 89 bool highestELIs64; 90 bool haveSecurity; 91 bool haveLPAE; 92 bool haveVirtualization; 93 bool haveCrypto; 94 bool haveLargeAsid64; 95 bool haveGICv3CPUInterface; 96 uint8_t physAddrRange; 97 bool haveSVE; 98 bool haveLSE; 99 bool havePAN; 100 101 /** SVE vector length in quadwords */ 102 unsigned sveVL; 103 104 /** 105 * If true, accesses to IMPLEMENTATION DEFINED registers are treated 106 * as NOP hence not causing UNDEFINED INSTRUCTION. 107 */ 108 bool impdefAsNop; 109 110 bool afterStartup; 111 112 /** MiscReg metadata **/ 113 struct MiscRegLUTEntry { 114 uint32_t lower; // Lower half mapped to this register 115 uint32_t upper; // Upper half mapped to this register 116 uint64_t _reset; // value taken on reset (i.e. initialization) 117 uint64_t _res0; // reserved 118 uint64_t _res1; // reserved 119 uint64_t _raz; // read as zero (fixed at 0) 120 uint64_t _rao; // read as one (fixed at 1) 121 public: 122 MiscRegLUTEntry() : 123 lower(0), upper(0), 124 _reset(0), _res0(0), _res1(0), _raz(0), _rao(0) {} 125 uint64_t reset() const { return _reset; } 126 uint64_t res0() const { return _res0; } 127 uint64_t res1() const { return _res1; } 128 uint64_t raz() const { return _raz; } 129 uint64_t rao() const { return _rao; } 130 // raz/rao implies writes ignored 131 uint64_t wi() const { return _raz | _rao; } 132 }; 133 134 /** Metadata table accessible via the value of the register */ 135 static std::vector<struct MiscRegLUTEntry> lookUpMiscReg; 136 137 class MiscRegLUTEntryInitializer { 138 struct MiscRegLUTEntry &entry; 139 std::bitset<NUM_MISCREG_INFOS> &info; 140 typedef const MiscRegLUTEntryInitializer& chain; 141 public: 142 chain mapsTo(uint32_t l, uint32_t u = 0) const { 143 entry.lower = l; 144 entry.upper = u; 145 return *this; 146 } 147 chain res0(uint64_t mask) const { 148 entry._res0 = mask; 149 return *this; 150 } 151 chain res1(uint64_t mask) const { 152 entry._res1 = mask; 153 return *this; 154 } 155 chain raz(uint64_t mask) const { 156 entry._raz = mask; 157 return *this; 158 } 159 chain rao(uint64_t mask) const { 160 entry._rao = mask; 161 return *this; 162 } 163 chain implemented(bool v = true) const { 164 info[MISCREG_IMPLEMENTED] = v; 165 return *this; 166 } 167 chain unimplemented() const { 168 return implemented(false); 169 } 170 chain unverifiable(bool v = true) const { 171 info[MISCREG_UNVERIFIABLE] = v; 172 return *this; 173 } 174 chain warnNotFail(bool v = true) const { 175 info[MISCREG_WARN_NOT_FAIL] = v; 176 return *this; 177 } 178 chain mutex(bool v = true) const { 179 info[MISCREG_MUTEX] = v; 180 return *this; 181 } 182 chain banked(bool v = true) const { 183 info[MISCREG_BANKED] = v; 184 return *this; 185 } 186 chain bankedChild(bool v = true) const { 187 info[MISCREG_BANKED_CHILD] = v; 188 return *this; 189 } 190 chain userNonSecureRead(bool v = true) const { 191 info[MISCREG_USR_NS_RD] = v; 192 return *this; 193 } 194 chain userNonSecureWrite(bool v = true) const { 195 info[MISCREG_USR_NS_WR] = v; 196 return *this; 197 } 198 chain userSecureRead(bool v = true) const { 199 info[MISCREG_USR_S_RD] = v; 200 return *this; 201 } 202 chain userSecureWrite(bool v = true) const { 203 info[MISCREG_USR_S_WR] = v; 204 return *this; 205 } 206 chain user(bool v = true) const { 207 userNonSecureRead(v); 208 userNonSecureWrite(v); 209 userSecureRead(v); 210 userSecureWrite(v); 211 return *this; 212 } 213 chain privNonSecureRead(bool v = true) const { 214 info[MISCREG_PRI_NS_RD] = v; 215 return *this; 216 } 217 chain privNonSecureWrite(bool v = true) const { 218 info[MISCREG_PRI_NS_WR] = v; 219 return *this; 220 } 221 chain privNonSecure(bool v = true) const { 222 privNonSecureRead(v); 223 privNonSecureWrite(v); 224 return *this; 225 } 226 chain privSecureRead(bool v = true) const { 227 info[MISCREG_PRI_S_RD] = v; 228 return *this; 229 } 230 chain privSecureWrite(bool v = true) const { 231 info[MISCREG_PRI_S_WR] = v; 232 return *this; 233 } 234 chain privSecure(bool v = true) const { 235 privSecureRead(v); 236 privSecureWrite(v); 237 return *this; 238 } 239 chain priv(bool v = true) const { 240 privSecure(v); 241 privNonSecure(v); 242 return *this; 243 } 244 chain privRead(bool v = true) const { 245 privSecureRead(v); 246 privNonSecureRead(v); 247 return *this; 248 } 249 chain hypRead(bool v = true) const { 250 info[MISCREG_HYP_RD] = v; 251 return *this; 252 } 253 chain hypWrite(bool v = true) const { 254 info[MISCREG_HYP_WR] = v; 255 return *this; 256 } 257 chain hyp(bool v = true) const { 258 hypRead(v); 259 hypWrite(v); 260 return *this; 261 } 262 chain monSecureRead(bool v = true) const { 263 info[MISCREG_MON_NS0_RD] = v; 264 return *this; 265 } 266 chain monSecureWrite(bool v = true) const { 267 info[MISCREG_MON_NS0_WR] = v; 268 return *this; 269 } 270 chain monNonSecureRead(bool v = true) const { 271 info[MISCREG_MON_NS1_RD] = v; 272 return *this; 273 } 274 chain monNonSecureWrite(bool v = true) const { 275 info[MISCREG_MON_NS1_WR] = v; 276 return *this; 277 } 278 chain mon(bool v = true) const { 279 monSecureRead(v); 280 monSecureWrite(v); 281 monNonSecureRead(v); 282 monNonSecureWrite(v); 283 return *this; 284 } 285 chain monSecure(bool v = true) const { 286 monSecureRead(v); 287 monSecureWrite(v); 288 return *this; 289 } 290 chain monNonSecure(bool v = true) const { 291 monNonSecureRead(v); 292 monNonSecureWrite(v); 293 return *this; 294 } 295 chain allPrivileges(bool v = true) const { 296 userNonSecureRead(v); 297 userNonSecureWrite(v); 298 userSecureRead(v); 299 userSecureWrite(v); 300 privNonSecureRead(v); 301 privNonSecureWrite(v); 302 privSecureRead(v); 303 privSecureWrite(v); 304 hypRead(v); 305 hypWrite(v); 306 monSecureRead(v); 307 monSecureWrite(v); 308 monNonSecureRead(v); 309 monNonSecureWrite(v); 310 return *this; 311 } 312 chain nonSecure(bool v = true) const { 313 userNonSecureRead(v); 314 userNonSecureWrite(v); 315 privNonSecureRead(v); 316 privNonSecureWrite(v); 317 hypRead(v); 318 hypWrite(v); 319 monNonSecureRead(v); 320 monNonSecureWrite(v); 321 return *this; 322 } 323 chain secure(bool v = true) const { 324 userSecureRead(v); 325 userSecureWrite(v); 326 privSecureRead(v); 327 privSecureWrite(v); 328 monSecureRead(v); 329 monSecureWrite(v); 330 return *this; 331 } 332 chain reads(bool v) const { 333 userNonSecureRead(v); 334 userSecureRead(v); 335 privNonSecureRead(v); 336 privSecureRead(v); 337 hypRead(v); 338 monSecureRead(v); 339 monNonSecureRead(v); 340 return *this; 341 } 342 chain writes(bool v) const { 343 userNonSecureWrite(v); 344 userSecureWrite(v); 345 privNonSecureWrite(v); 346 privSecureWrite(v); 347 hypWrite(v); 348 monSecureWrite(v); 349 monNonSecureWrite(v); 350 return *this; 351 } 352 chain exceptUserMode() const { 353 user(0); 354 return *this; 355 } 356 MiscRegLUTEntryInitializer(struct MiscRegLUTEntry &e, 357 std::bitset<NUM_MISCREG_INFOS> &i) 358 : entry(e), 359 info(i) 360 { 361 // force unimplemented registers to be thusly declared 362 implemented(1); 363 } 364 }; 365 366 const MiscRegLUTEntryInitializer InitReg(uint32_t reg) { 367 return MiscRegLUTEntryInitializer(lookUpMiscReg[reg], 368 miscRegInfo[reg]); 369 } 370 371 void initializeMiscRegMetadata(); 372 373 RegVal miscRegs[NumMiscRegs]; 374 const IntRegIndex *intRegMap; 375 376 void 377 updateRegMap(CPSR cpsr) 378 { 379 if (cpsr.width == 0) { 380 intRegMap = IntReg64Map; 381 } else { 382 switch (cpsr.mode) { 383 case MODE_USER: 384 case MODE_SYSTEM: 385 intRegMap = IntRegUsrMap; 386 break; 387 case MODE_FIQ: 388 intRegMap = IntRegFiqMap; 389 break; 390 case MODE_IRQ: 391 intRegMap = IntRegIrqMap; 392 break; 393 case MODE_SVC: 394 intRegMap = IntRegSvcMap; 395 break; 396 case MODE_MON: 397 intRegMap = IntRegMonMap; 398 break; 399 case MODE_ABORT: 400 intRegMap = IntRegAbtMap; 401 break; 402 case MODE_HYP: 403 intRegMap = IntRegHypMap; 404 break; 405 case MODE_UNDEFINED: 406 intRegMap = IntRegUndMap; 407 break; 408 default: 409 panic("Unrecognized mode setting in CPSR.\n"); 410 } 411 } 412 } 413 414 BaseISADevice &getGenericTimer(ThreadContext *tc); 415 BaseISADevice &getGICv3CPUInterface(ThreadContext *tc); 416 417 418 private: 419 inline void assert32(ThreadContext *tc) { 420 CPSR cpsr M5_VAR_USED = readMiscReg(MISCREG_CPSR, tc); 421 assert(cpsr.width); 422 } 423 424 inline void assert64(ThreadContext *tc) { 425 CPSR cpsr M5_VAR_USED = readMiscReg(MISCREG_CPSR, tc); 426 assert(!cpsr.width); 427 } 428 429 public: 430 void clear(); 431 432 protected: 433 void clear32(const ArmISAParams *p, const SCTLR &sctlr_rst); 434 void clear64(const ArmISAParams *p); 435 void initID32(const ArmISAParams *p); 436 void initID64(const ArmISAParams *p); 437 438 public: 439 RegVal readMiscRegNoEffect(int misc_reg) const; 440 RegVal readMiscReg(int misc_reg, ThreadContext *tc); 441 void setMiscRegNoEffect(int misc_reg, RegVal val); 442 void setMiscReg(int misc_reg, RegVal val, ThreadContext *tc); 443 444 RegId 445 flattenRegId(const RegId& regId) const 446 { 447 switch (regId.classValue()) { 448 case IntRegClass: 449 return RegId(IntRegClass, flattenIntIndex(regId.index())); 450 case FloatRegClass: 451 return RegId(FloatRegClass, flattenFloatIndex(regId.index())); 452 case VecRegClass: 453 return RegId(VecRegClass, flattenVecIndex(regId.index())); 454 case VecElemClass: 455 return RegId(VecElemClass, flattenVecElemIndex(regId.index()), 456 regId.elemIndex()); 457 case VecPredRegClass: 458 return RegId(VecPredRegClass, 459 flattenVecPredIndex(regId.index())); 460 case CCRegClass: 461 return RegId(CCRegClass, flattenCCIndex(regId.index())); 462 case MiscRegClass: 463 return RegId(MiscRegClass, flattenMiscIndex(regId.index())); 464 } 465 return RegId(); 466 } 467 468 int 469 flattenIntIndex(int reg) const 470 { 471 assert(reg >= 0); 472 if (reg < NUM_ARCH_INTREGS) { 473 return intRegMap[reg]; 474 } else if (reg < NUM_INTREGS) { 475 return reg; 476 } else if (reg == INTREG_SPX) { 477 CPSR cpsr = miscRegs[MISCREG_CPSR]; 478 ExceptionLevel el = opModeToEL( 479 (OperatingMode) (uint8_t) cpsr.mode); 480 if (!cpsr.sp && el != EL0) 481 return INTREG_SP0; 482 switch (el) { 483 case EL3: 484 return INTREG_SP3; 485 case EL2: 486 return INTREG_SP2; 487 case EL1: 488 return INTREG_SP1; 489 case EL0: 490 return INTREG_SP0; 491 default: 492 panic("Invalid exception level"); 493 return 0; // Never happens. 494 } 495 } else { 496 return flattenIntRegModeIndex(reg); 497 } 498 } 499 500 int 501 flattenFloatIndex(int reg) const 502 { 503 assert(reg >= 0); 504 return reg; 505 } 506 507 int 508 flattenVecIndex(int reg) const 509 { 510 assert(reg >= 0); 511 return reg; 512 } 513 514 int 515 flattenVecElemIndex(int reg) const 516 { 517 assert(reg >= 0); 518 return reg; 519 } 520 521 int 522 flattenVecPredIndex(int reg) const 523 { 524 assert(reg >= 0); 525 return reg; 526 } 527 528 int 529 flattenCCIndex(int reg) const 530 { 531 assert(reg >= 0); 532 return reg; 533 } 534 535 int 536 flattenMiscIndex(int reg) const 537 { 538 assert(reg >= 0); 539 int flat_idx = reg; 540 541 if (reg == MISCREG_SPSR) { 542 CPSR cpsr = miscRegs[MISCREG_CPSR]; 543 switch (cpsr.mode) { 544 case MODE_EL0T: 545 warn("User mode does not have SPSR\n"); 546 flat_idx = MISCREG_SPSR; 547 break; 548 case MODE_EL1T: 549 case MODE_EL1H: 550 flat_idx = MISCREG_SPSR_EL1; 551 break; 552 case MODE_EL2T: 553 case MODE_EL2H: 554 flat_idx = MISCREG_SPSR_EL2; 555 break; 556 case MODE_EL3T: 557 case MODE_EL3H: 558 flat_idx = MISCREG_SPSR_EL3; 559 break; 560 case MODE_USER: 561 warn("User mode does not have SPSR\n"); 562 flat_idx = MISCREG_SPSR; 563 break; 564 case MODE_FIQ: 565 flat_idx = MISCREG_SPSR_FIQ; 566 break; 567 case MODE_IRQ: 568 flat_idx = MISCREG_SPSR_IRQ; 569 break; 570 case MODE_SVC: 571 flat_idx = MISCREG_SPSR_SVC; 572 break; 573 case MODE_MON: 574 flat_idx = MISCREG_SPSR_MON; 575 break; 576 case MODE_ABORT: 577 flat_idx = MISCREG_SPSR_ABT; 578 break; 579 case MODE_HYP: 580 flat_idx = MISCREG_SPSR_HYP; 581 break; 582 case MODE_UNDEFINED: 583 flat_idx = MISCREG_SPSR_UND; 584 break; 585 default: 586 warn("Trying to access SPSR in an invalid mode: %d\n", 587 cpsr.mode); 588 flat_idx = MISCREG_SPSR; 589 break; 590 } 591 } else if (miscRegInfo[reg][MISCREG_MUTEX]) { 592 // Mutually exclusive CP15 register 593 switch (reg) { 594 case MISCREG_PRRR_MAIR0: 595 case MISCREG_PRRR_MAIR0_NS: 596 case MISCREG_PRRR_MAIR0_S: 597 { 598 TTBCR ttbcr = readMiscRegNoEffect(MISCREG_TTBCR); 599 // If the muxed reg has been flattened, work out the 600 // offset and apply it to the unmuxed reg 601 int idxOffset = reg - MISCREG_PRRR_MAIR0; 602 if (ttbcr.eae) 603 flat_idx = flattenMiscIndex(MISCREG_MAIR0 + 604 idxOffset); 605 else 606 flat_idx = flattenMiscIndex(MISCREG_PRRR + 607 idxOffset); 608 } 609 break; 610 case MISCREG_NMRR_MAIR1: 611 case MISCREG_NMRR_MAIR1_NS: 612 case MISCREG_NMRR_MAIR1_S: 613 { 614 TTBCR ttbcr = readMiscRegNoEffect(MISCREG_TTBCR); 615 // If the muxed reg has been flattened, work out the 616 // offset and apply it to the unmuxed reg 617 int idxOffset = reg - MISCREG_NMRR_MAIR1; 618 if (ttbcr.eae) 619 flat_idx = flattenMiscIndex(MISCREG_MAIR1 + 620 idxOffset); 621 else 622 flat_idx = flattenMiscIndex(MISCREG_NMRR + 623 idxOffset); 624 } 625 break; 626 case MISCREG_PMXEVTYPER_PMCCFILTR: 627 { 628 PMSELR pmselr = miscRegs[MISCREG_PMSELR]; 629 if (pmselr.sel == 31) 630 flat_idx = flattenMiscIndex(MISCREG_PMCCFILTR); 631 else 632 flat_idx = flattenMiscIndex(MISCREG_PMXEVTYPER); 633 } 634 break; 635 default: 636 panic("Unrecognized misc. register.\n"); 637 break; 638 } 639 } else { 640 if (miscRegInfo[reg][MISCREG_BANKED]) { 641 bool secureReg = haveSecurity && !highestELIs64 && 642 inSecureState(miscRegs[MISCREG_SCR], 643 miscRegs[MISCREG_CPSR]); 644 flat_idx += secureReg ? 2 : 1; 645 } 646 } 647 return flat_idx; 648 } 649 650 std::pair<int,int> getMiscIndices(int misc_reg) const 651 { 652 // Note: indexes of AArch64 registers are left unchanged 653 int flat_idx = flattenMiscIndex(misc_reg); 654 655 if (lookUpMiscReg[flat_idx].lower == 0) { 656 return std::make_pair(flat_idx, 0); 657 } 658 659 // do additional S/NS flattenings if mapped to NS while in S 660 bool S = haveSecurity && !highestELIs64 && 661 inSecureState(miscRegs[MISCREG_SCR], 662 miscRegs[MISCREG_CPSR]); 663 int lower = lookUpMiscReg[flat_idx].lower; 664 int upper = lookUpMiscReg[flat_idx].upper; 665 // upper == 0, which is CPSR, is not MISCREG_BANKED_CHILD (no-op) 666 lower += S && miscRegInfo[lower][MISCREG_BANKED_CHILD]; 667 upper += S && miscRegInfo[upper][MISCREG_BANKED_CHILD]; 668 return std::make_pair(lower, upper); 669 } 670 671 unsigned getCurSveVecLenInBits(ThreadContext *tc) const; 672 673 unsigned getCurSveVecLenInBitsAtReset() const { return sveVL * 128; } 674 675 static void zeroSveVecRegUpperPart(VecRegContainer &vc, 676 unsigned eCount); 677 678 void serialize(CheckpointOut &cp) const 679 { 680 DPRINTF(Checkpoint, "Serializing Arm Misc Registers\n"); 681 SERIALIZE_ARRAY(miscRegs, NUM_PHYS_MISCREGS); 682 683 SERIALIZE_SCALAR(highestELIs64); 684 SERIALIZE_SCALAR(haveSecurity); 685 SERIALIZE_SCALAR(haveLPAE); 686 SERIALIZE_SCALAR(haveVirtualization); 687 SERIALIZE_SCALAR(haveLargeAsid64); 688 SERIALIZE_SCALAR(physAddrRange); 689 SERIALIZE_SCALAR(haveSVE); 690 SERIALIZE_SCALAR(sveVL); 691 SERIALIZE_SCALAR(haveLSE); 692 SERIALIZE_SCALAR(havePAN); 693 } 694 void unserialize(CheckpointIn &cp) 695 { 696 DPRINTF(Checkpoint, "Unserializing Arm Misc Registers\n"); 697 UNSERIALIZE_ARRAY(miscRegs, NUM_PHYS_MISCREGS); 698 CPSR tmp_cpsr = miscRegs[MISCREG_CPSR]; 699 updateRegMap(tmp_cpsr); 700 701 UNSERIALIZE_SCALAR(highestELIs64); 702 UNSERIALIZE_SCALAR(haveSecurity); 703 UNSERIALIZE_SCALAR(haveLPAE); 704 UNSERIALIZE_SCALAR(haveVirtualization); 705 UNSERIALIZE_SCALAR(haveLargeAsid64); 706 UNSERIALIZE_SCALAR(physAddrRange); 707 UNSERIALIZE_SCALAR(haveSVE); 708 UNSERIALIZE_SCALAR(sveVL); 709 UNSERIALIZE_SCALAR(haveLSE); 710 UNSERIALIZE_SCALAR(havePAN); 711 } 712 713 void startup(ThreadContext *tc); 714 715 Enums::DecoderFlavour decoderFlavour() const { return _decoderFlavour; } 716 717 /** Getter for haveGICv3CPUInterface */ 718 bool haveGICv3CpuIfc() const 719 { 720 // haveGICv3CPUInterface is initialized at startup time, hence 721 // trying to read its value before the startup stage will lead 722 // to an error 723 assert(afterStartup); 724 return haveGICv3CPUInterface; 725 } 726 727 Enums::VecRegRenameMode 728 vecRegRenameMode() const 729 { 730 return _vecRegRenameMode; 731 } 732 733 /// Explicitly import the otherwise hidden startup 734 using SimObject::startup; 735 736 typedef ArmISAParams Params; 737 738 const Params *params() const; 739 740 ISA(Params *p); 741 }; 742} 743 744template<> 745struct RenameMode<ArmISA::ISA> 746{ 747 static Enums::VecRegRenameMode 748 init(const ArmISA::ISA* isa) 749 { 750 return isa->vecRegRenameMode(); 751 } 752 753 static Enums::VecRegRenameMode 754 mode(const ArmISA::PCState& pc) 755 { 756 if (pc.aarch64()) { 757 return Enums::Full; 758 } else { 759 return Enums::Elem; 760 } 761 } 762 763 static bool 764 equalsInit(const ArmISA::ISA* isa1, const ArmISA::ISA* isa2) 765 { 766 return init(isa1) == init(isa2); 767 } 768}; 769 770#endif 771