RegisterContextDarwin_arm64.cpp revision 355940
1//===-- RegisterContextDarwin_arm64.cpp ---------------------------*- C++ 2//-*-===// 3// 4// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 5// See https://llvm.org/LICENSE.txt for license information. 6// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 7// 8//===----------------------------------------------------------------------===// 9 10#include "RegisterContextDarwin_arm64.h" 11#include "RegisterContextDarwinConstants.h" 12 13#include "lldb/Target/Process.h" 14#include "lldb/Target/Thread.h" 15#include "lldb/Utility/DataBufferHeap.h" 16#include "lldb/Utility/DataExtractor.h" 17#include "lldb/Utility/Endian.h" 18#include "lldb/Utility/Log.h" 19#include "lldb/Utility/RegisterValue.h" 20#include "lldb/Utility/Scalar.h" 21#include "llvm/ADT/STLExtras.h" 22#include "llvm/Support/Compiler.h" 23 24#include "Plugins/Process/Utility/InstructionUtils.h" 25 26#include <memory> 27 28// Support building against older versions of LLVM, this macro was added 29// recently. 30#ifndef LLVM_EXTENSION 31#define LLVM_EXTENSION 32#endif 33 34#include "Utility/ARM64_DWARF_Registers.h" 35 36using namespace lldb; 37using namespace lldb_private; 38 39#define GPR_OFFSET(idx) ((idx)*8) 40#define GPR_OFFSET_NAME(reg) \ 41 (LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::GPR, reg)) 42 43#define FPU_OFFSET(idx) ((idx)*16 + sizeof(RegisterContextDarwin_arm64::GPR)) 44#define FPU_OFFSET_NAME(reg) \ 45 (LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::FPU, reg)) 46 47#define EXC_OFFSET_NAME(reg) \ 48 (LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::EXC, reg) + \ 49 sizeof(RegisterContextDarwin_arm64::GPR) + \ 50 sizeof(RegisterContextDarwin_arm64::FPU)) 51#define DBG_OFFSET_NAME(reg) \ 52 (LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::DBG, reg) + \ 53 sizeof(RegisterContextDarwin_arm64::GPR) + \ 54 sizeof(RegisterContextDarwin_arm64::FPU) + \ 55 sizeof(RegisterContextDarwin_arm64::EXC)) 56 57#define DEFINE_DBG(reg, i) \ 58 #reg, NULL, \ 59 sizeof(((RegisterContextDarwin_arm64::DBG *) NULL)->reg[i]), \ 60 DBG_OFFSET_NAME(reg[i]), eEncodingUint, eFormatHex, \ 61 {LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, \ 62 LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, \ 63 LLDB_INVALID_REGNUM }, \ 64 NULL, NULL, NULL, 0 65#define REG_CONTEXT_SIZE \ 66 (sizeof(RegisterContextDarwin_arm64::GPR) + \ 67 sizeof(RegisterContextDarwin_arm64::FPU) + \ 68 sizeof(RegisterContextDarwin_arm64::EXC)) 69 70// Include RegisterInfos_arm64 to declare our g_register_infos_arm64 structure. 71#define DECLARE_REGISTER_INFOS_ARM64_STRUCT 72#include "RegisterInfos_arm64.h" 73#undef DECLARE_REGISTER_INFOS_ARM64_STRUCT 74 75// General purpose registers 76static uint32_t g_gpr_regnums[] = { 77 gpr_x0, gpr_x1, gpr_x2, gpr_x3, gpr_x4, gpr_x5, gpr_x6, 78 gpr_x7, gpr_x8, gpr_x9, gpr_x10, gpr_x11, gpr_x12, gpr_x13, 79 gpr_x14, gpr_x15, gpr_x16, gpr_x17, gpr_x18, gpr_x19, gpr_x20, 80 gpr_x21, gpr_x22, gpr_x23, gpr_x24, gpr_x25, gpr_x26, gpr_x27, 81 gpr_x28, gpr_fp, gpr_lr, gpr_sp, gpr_pc, gpr_cpsr}; 82 83// Floating point registers 84static uint32_t g_fpu_regnums[] = { 85 fpu_v0, fpu_v1, fpu_v2, fpu_v3, fpu_v4, fpu_v5, fpu_v6, 86 fpu_v7, fpu_v8, fpu_v9, fpu_v10, fpu_v11, fpu_v12, fpu_v13, 87 fpu_v14, fpu_v15, fpu_v16, fpu_v17, fpu_v18, fpu_v19, fpu_v20, 88 fpu_v21, fpu_v22, fpu_v23, fpu_v24, fpu_v25, fpu_v26, fpu_v27, 89 fpu_v28, fpu_v29, fpu_v30, fpu_v31, fpu_fpsr, fpu_fpcr}; 90 91// Exception registers 92 93static uint32_t g_exc_regnums[] = {exc_far, exc_esr, exc_exception}; 94 95static size_t k_num_register_infos = 96 llvm::array_lengthof(g_register_infos_arm64_le); 97 98RegisterContextDarwin_arm64::RegisterContextDarwin_arm64( 99 Thread &thread, uint32_t concrete_frame_idx) 100 : RegisterContext(thread, concrete_frame_idx), gpr(), fpu(), exc() { 101 uint32_t i; 102 for (i = 0; i < kNumErrors; i++) { 103 gpr_errs[i] = -1; 104 fpu_errs[i] = -1; 105 exc_errs[i] = -1; 106 } 107} 108 109RegisterContextDarwin_arm64::~RegisterContextDarwin_arm64() {} 110 111void RegisterContextDarwin_arm64::InvalidateAllRegisters() { 112 InvalidateAllRegisterStates(); 113} 114 115size_t RegisterContextDarwin_arm64::GetRegisterCount() { 116 assert(k_num_register_infos == k_num_registers); 117 return k_num_registers; 118} 119 120const RegisterInfo * 121RegisterContextDarwin_arm64::GetRegisterInfoAtIndex(size_t reg) { 122 assert(k_num_register_infos == k_num_registers); 123 if (reg < k_num_registers) 124 return &g_register_infos_arm64_le[reg]; 125 return nullptr; 126} 127 128size_t RegisterContextDarwin_arm64::GetRegisterInfosCount() { 129 return k_num_register_infos; 130} 131 132const RegisterInfo *RegisterContextDarwin_arm64::GetRegisterInfos() { 133 return g_register_infos_arm64_le; 134} 135 136// Number of registers in each register set 137const size_t k_num_gpr_registers = llvm::array_lengthof(g_gpr_regnums); 138const size_t k_num_fpu_registers = llvm::array_lengthof(g_fpu_regnums); 139const size_t k_num_exc_registers = llvm::array_lengthof(g_exc_regnums); 140 141// Register set definitions. The first definitions at register set index of 142// zero is for all registers, followed by other registers sets. The register 143// information for the all register set need not be filled in. 144static const RegisterSet g_reg_sets[] = { 145 { 146 "General Purpose Registers", "gpr", k_num_gpr_registers, g_gpr_regnums, 147 }, 148 {"Floating Point Registers", "fpu", k_num_fpu_registers, g_fpu_regnums}, 149 {"Exception State Registers", "exc", k_num_exc_registers, g_exc_regnums}}; 150 151const size_t k_num_regsets = llvm::array_lengthof(g_reg_sets); 152 153size_t RegisterContextDarwin_arm64::GetRegisterSetCount() { 154 return k_num_regsets; 155} 156 157const RegisterSet *RegisterContextDarwin_arm64::GetRegisterSet(size_t reg_set) { 158 if (reg_set < k_num_regsets) 159 return &g_reg_sets[reg_set]; 160 return nullptr; 161} 162 163// Register information definitions for arm64 164int RegisterContextDarwin_arm64::GetSetForNativeRegNum(int reg) { 165 if (reg < fpu_v0) 166 return GPRRegSet; 167 else if (reg < exc_far) 168 return FPURegSet; 169 else if (reg < k_num_registers) 170 return EXCRegSet; 171 return -1; 172} 173 174int RegisterContextDarwin_arm64::ReadGPR(bool force) { 175 int set = GPRRegSet; 176 if (force || !RegisterSetIsCached(set)) { 177 SetError(set, Read, DoReadGPR(GetThreadID(), set, gpr)); 178 } 179 return GetError(GPRRegSet, Read); 180} 181 182int RegisterContextDarwin_arm64::ReadFPU(bool force) { 183 int set = FPURegSet; 184 if (force || !RegisterSetIsCached(set)) { 185 SetError(set, Read, DoReadFPU(GetThreadID(), set, fpu)); 186 } 187 return GetError(FPURegSet, Read); 188} 189 190int RegisterContextDarwin_arm64::ReadEXC(bool force) { 191 int set = EXCRegSet; 192 if (force || !RegisterSetIsCached(set)) { 193 SetError(set, Read, DoReadEXC(GetThreadID(), set, exc)); 194 } 195 return GetError(EXCRegSet, Read); 196} 197 198int RegisterContextDarwin_arm64::ReadDBG(bool force) { 199 int set = DBGRegSet; 200 if (force || !RegisterSetIsCached(set)) { 201 SetError(set, Read, DoReadDBG(GetThreadID(), set, dbg)); 202 } 203 return GetError(DBGRegSet, Read); 204} 205 206int RegisterContextDarwin_arm64::WriteGPR() { 207 int set = GPRRegSet; 208 if (!RegisterSetIsCached(set)) { 209 SetError(set, Write, -1); 210 return KERN_INVALID_ARGUMENT; 211 } 212 SetError(set, Write, DoWriteGPR(GetThreadID(), set, gpr)); 213 SetError(set, Read, -1); 214 return GetError(GPRRegSet, Write); 215} 216 217int RegisterContextDarwin_arm64::WriteFPU() { 218 int set = FPURegSet; 219 if (!RegisterSetIsCached(set)) { 220 SetError(set, Write, -1); 221 return KERN_INVALID_ARGUMENT; 222 } 223 SetError(set, Write, DoWriteFPU(GetThreadID(), set, fpu)); 224 SetError(set, Read, -1); 225 return GetError(FPURegSet, Write); 226} 227 228int RegisterContextDarwin_arm64::WriteEXC() { 229 int set = EXCRegSet; 230 if (!RegisterSetIsCached(set)) { 231 SetError(set, Write, -1); 232 return KERN_INVALID_ARGUMENT; 233 } 234 SetError(set, Write, DoWriteEXC(GetThreadID(), set, exc)); 235 SetError(set, Read, -1); 236 return GetError(EXCRegSet, Write); 237} 238 239int RegisterContextDarwin_arm64::WriteDBG() { 240 int set = DBGRegSet; 241 if (!RegisterSetIsCached(set)) { 242 SetError(set, Write, -1); 243 return KERN_INVALID_ARGUMENT; 244 } 245 SetError(set, Write, DoWriteDBG(GetThreadID(), set, dbg)); 246 SetError(set, Read, -1); 247 return GetError(DBGRegSet, Write); 248} 249 250int RegisterContextDarwin_arm64::ReadRegisterSet(uint32_t set, bool force) { 251 switch (set) { 252 case GPRRegSet: 253 return ReadGPR(force); 254 case FPURegSet: 255 return ReadFPU(force); 256 case EXCRegSet: 257 return ReadEXC(force); 258 case DBGRegSet: 259 return ReadDBG(force); 260 default: 261 break; 262 } 263 return KERN_INVALID_ARGUMENT; 264} 265 266int RegisterContextDarwin_arm64::WriteRegisterSet(uint32_t set) { 267 // Make sure we have a valid context to set. 268 if (RegisterSetIsCached(set)) { 269 switch (set) { 270 case GPRRegSet: 271 return WriteGPR(); 272 case FPURegSet: 273 return WriteFPU(); 274 case EXCRegSet: 275 return WriteEXC(); 276 case DBGRegSet: 277 return WriteDBG(); 278 default: 279 break; 280 } 281 } 282 return KERN_INVALID_ARGUMENT; 283} 284 285void RegisterContextDarwin_arm64::LogDBGRegisters(Log *log, const DBG &dbg) { 286 if (log) { 287 for (uint32_t i = 0; i < 16; i++) 288 log->Printf("BVR%-2u/BCR%-2u = { 0x%8.8" PRIu64 ", 0x%8.8" PRIu64 289 " } WVR%-2u/WCR%-2u " 290 "= { 0x%8.8" PRIu64 ", 0x%8.8" PRIu64 " }", 291 i, i, dbg.bvr[i], dbg.bcr[i], i, i, dbg.wvr[i], dbg.wcr[i]); 292 } 293} 294 295bool RegisterContextDarwin_arm64::ReadRegister(const RegisterInfo *reg_info, 296 RegisterValue &value) { 297 const uint32_t reg = reg_info->kinds[eRegisterKindLLDB]; 298 int set = RegisterContextDarwin_arm64::GetSetForNativeRegNum(reg); 299 300 if (set == -1) 301 return false; 302 303 if (ReadRegisterSet(set, false) != KERN_SUCCESS) 304 return false; 305 306 switch (reg) { 307 case gpr_x0: 308 case gpr_x1: 309 case gpr_x2: 310 case gpr_x3: 311 case gpr_x4: 312 case gpr_x5: 313 case gpr_x6: 314 case gpr_x7: 315 case gpr_x8: 316 case gpr_x9: 317 case gpr_x10: 318 case gpr_x11: 319 case gpr_x12: 320 case gpr_x13: 321 case gpr_x14: 322 case gpr_x15: 323 case gpr_x16: 324 case gpr_x17: 325 case gpr_x18: 326 case gpr_x19: 327 case gpr_x20: 328 case gpr_x21: 329 case gpr_x22: 330 case gpr_x23: 331 case gpr_x24: 332 case gpr_x25: 333 case gpr_x26: 334 case gpr_x27: 335 case gpr_x28: 336 value.SetUInt64(gpr.x[reg - gpr_x0]); 337 break; 338 case gpr_fp: 339 value.SetUInt64(gpr.fp); 340 break; 341 case gpr_sp: 342 value.SetUInt64(gpr.sp); 343 break; 344 case gpr_lr: 345 value.SetUInt64(gpr.lr); 346 break; 347 case gpr_pc: 348 value.SetUInt64(gpr.pc); 349 break; 350 case gpr_cpsr: 351 value.SetUInt64(gpr.cpsr); 352 break; 353 354 case gpr_w0: 355 case gpr_w1: 356 case gpr_w2: 357 case gpr_w3: 358 case gpr_w4: 359 case gpr_w5: 360 case gpr_w6: 361 case gpr_w7: 362 case gpr_w8: 363 case gpr_w9: 364 case gpr_w10: 365 case gpr_w11: 366 case gpr_w12: 367 case gpr_w13: 368 case gpr_w14: 369 case gpr_w15: 370 case gpr_w16: 371 case gpr_w17: 372 case gpr_w18: 373 case gpr_w19: 374 case gpr_w20: 375 case gpr_w21: 376 case gpr_w22: 377 case gpr_w23: 378 case gpr_w24: 379 case gpr_w25: 380 case gpr_w26: 381 case gpr_w27: 382 case gpr_w28: { 383 ProcessSP process_sp(m_thread.GetProcess()); 384 if (process_sp.get()) { 385 DataExtractor regdata(&gpr.x[reg - gpr_w0], 8, process_sp->GetByteOrder(), 386 process_sp->GetAddressByteSize()); 387 offset_t offset = 0; 388 uint64_t retval = regdata.GetMaxU64(&offset, 8); 389 uint32_t retval_lower32 = static_cast<uint32_t>(retval & 0xffffffff); 390 value.SetUInt32(retval_lower32); 391 } 392 } break; 393 394 case fpu_v0: 395 case fpu_v1: 396 case fpu_v2: 397 case fpu_v3: 398 case fpu_v4: 399 case fpu_v5: 400 case fpu_v6: 401 case fpu_v7: 402 case fpu_v8: 403 case fpu_v9: 404 case fpu_v10: 405 case fpu_v11: 406 case fpu_v12: 407 case fpu_v13: 408 case fpu_v14: 409 case fpu_v15: 410 case fpu_v16: 411 case fpu_v17: 412 case fpu_v18: 413 case fpu_v19: 414 case fpu_v20: 415 case fpu_v21: 416 case fpu_v22: 417 case fpu_v23: 418 case fpu_v24: 419 case fpu_v25: 420 case fpu_v26: 421 case fpu_v27: 422 case fpu_v28: 423 case fpu_v29: 424 case fpu_v30: 425 case fpu_v31: 426 value.SetBytes(fpu.v[reg - fpu_v0].bytes.buffer, reg_info->byte_size, 427 endian::InlHostByteOrder()); 428 break; 429 430 case fpu_s0: 431 case fpu_s1: 432 case fpu_s2: 433 case fpu_s3: 434 case fpu_s4: 435 case fpu_s5: 436 case fpu_s6: 437 case fpu_s7: 438 case fpu_s8: 439 case fpu_s9: 440 case fpu_s10: 441 case fpu_s11: 442 case fpu_s12: 443 case fpu_s13: 444 case fpu_s14: 445 case fpu_s15: 446 case fpu_s16: 447 case fpu_s17: 448 case fpu_s18: 449 case fpu_s19: 450 case fpu_s20: 451 case fpu_s21: 452 case fpu_s22: 453 case fpu_s23: 454 case fpu_s24: 455 case fpu_s25: 456 case fpu_s26: 457 case fpu_s27: 458 case fpu_s28: 459 case fpu_s29: 460 case fpu_s30: 461 case fpu_s31: { 462 ProcessSP process_sp(m_thread.GetProcess()); 463 if (process_sp.get()) { 464 DataExtractor regdata(&fpu.v[reg - fpu_s0], 4, process_sp->GetByteOrder(), 465 process_sp->GetAddressByteSize()); 466 offset_t offset = 0; 467 value.SetFloat(regdata.GetFloat(&offset)); 468 } 469 } break; 470 471 case fpu_d0: 472 case fpu_d1: 473 case fpu_d2: 474 case fpu_d3: 475 case fpu_d4: 476 case fpu_d5: 477 case fpu_d6: 478 case fpu_d7: 479 case fpu_d8: 480 case fpu_d9: 481 case fpu_d10: 482 case fpu_d11: 483 case fpu_d12: 484 case fpu_d13: 485 case fpu_d14: 486 case fpu_d15: 487 case fpu_d16: 488 case fpu_d17: 489 case fpu_d18: 490 case fpu_d19: 491 case fpu_d20: 492 case fpu_d21: 493 case fpu_d22: 494 case fpu_d23: 495 case fpu_d24: 496 case fpu_d25: 497 case fpu_d26: 498 case fpu_d27: 499 case fpu_d28: 500 case fpu_d29: 501 case fpu_d30: 502 case fpu_d31: { 503 ProcessSP process_sp(m_thread.GetProcess()); 504 if (process_sp.get()) { 505 DataExtractor regdata(&fpu.v[reg - fpu_s0], 8, process_sp->GetByteOrder(), 506 process_sp->GetAddressByteSize()); 507 offset_t offset = 0; 508 value.SetDouble(regdata.GetDouble(&offset)); 509 } 510 } break; 511 512 case fpu_fpsr: 513 value.SetUInt32(fpu.fpsr); 514 break; 515 516 case fpu_fpcr: 517 value.SetUInt32(fpu.fpcr); 518 break; 519 520 case exc_exception: 521 value.SetUInt32(exc.exception); 522 break; 523 case exc_esr: 524 value.SetUInt32(exc.esr); 525 break; 526 case exc_far: 527 value.SetUInt64(exc.far); 528 break; 529 530 default: 531 value.SetValueToInvalid(); 532 return false; 533 } 534 return true; 535} 536 537bool RegisterContextDarwin_arm64::WriteRegister(const RegisterInfo *reg_info, 538 const RegisterValue &value) { 539 const uint32_t reg = reg_info->kinds[eRegisterKindLLDB]; 540 int set = GetSetForNativeRegNum(reg); 541 542 if (set == -1) 543 return false; 544 545 if (ReadRegisterSet(set, false) != KERN_SUCCESS) 546 return false; 547 548 switch (reg) { 549 case gpr_x0: 550 case gpr_x1: 551 case gpr_x2: 552 case gpr_x3: 553 case gpr_x4: 554 case gpr_x5: 555 case gpr_x6: 556 case gpr_x7: 557 case gpr_x8: 558 case gpr_x9: 559 case gpr_x10: 560 case gpr_x11: 561 case gpr_x12: 562 case gpr_x13: 563 case gpr_x14: 564 case gpr_x15: 565 case gpr_x16: 566 case gpr_x17: 567 case gpr_x18: 568 case gpr_x19: 569 case gpr_x20: 570 case gpr_x21: 571 case gpr_x22: 572 case gpr_x23: 573 case gpr_x24: 574 case gpr_x25: 575 case gpr_x26: 576 case gpr_x27: 577 case gpr_x28: 578 case gpr_fp: 579 case gpr_sp: 580 case gpr_lr: 581 case gpr_pc: 582 case gpr_cpsr: 583 gpr.x[reg - gpr_x0] = value.GetAsUInt64(); 584 break; 585 586 case fpu_v0: 587 case fpu_v1: 588 case fpu_v2: 589 case fpu_v3: 590 case fpu_v4: 591 case fpu_v5: 592 case fpu_v6: 593 case fpu_v7: 594 case fpu_v8: 595 case fpu_v9: 596 case fpu_v10: 597 case fpu_v11: 598 case fpu_v12: 599 case fpu_v13: 600 case fpu_v14: 601 case fpu_v15: 602 case fpu_v16: 603 case fpu_v17: 604 case fpu_v18: 605 case fpu_v19: 606 case fpu_v20: 607 case fpu_v21: 608 case fpu_v22: 609 case fpu_v23: 610 case fpu_v24: 611 case fpu_v25: 612 case fpu_v26: 613 case fpu_v27: 614 case fpu_v28: 615 case fpu_v29: 616 case fpu_v30: 617 case fpu_v31: 618 ::memcpy(fpu.v[reg - fpu_v0].bytes.buffer, value.GetBytes(), 619 value.GetByteSize()); 620 break; 621 622 case fpu_fpsr: 623 fpu.fpsr = value.GetAsUInt32(); 624 break; 625 626 case fpu_fpcr: 627 fpu.fpcr = value.GetAsUInt32(); 628 break; 629 630 case exc_exception: 631 exc.exception = value.GetAsUInt32(); 632 break; 633 case exc_esr: 634 exc.esr = value.GetAsUInt32(); 635 break; 636 case exc_far: 637 exc.far = value.GetAsUInt64(); 638 break; 639 640 default: 641 return false; 642 } 643 return WriteRegisterSet(set) == KERN_SUCCESS; 644} 645 646bool RegisterContextDarwin_arm64::ReadAllRegisterValues( 647 lldb::DataBufferSP &data_sp) { 648 data_sp = std::make_shared<DataBufferHeap>(REG_CONTEXT_SIZE, 0); 649 if (ReadGPR(false) == KERN_SUCCESS && ReadFPU(false) == KERN_SUCCESS && 650 ReadEXC(false) == KERN_SUCCESS) { 651 uint8_t *dst = data_sp->GetBytes(); 652 ::memcpy(dst, &gpr, sizeof(gpr)); 653 dst += sizeof(gpr); 654 655 ::memcpy(dst, &fpu, sizeof(fpu)); 656 dst += sizeof(gpr); 657 658 ::memcpy(dst, &exc, sizeof(exc)); 659 return true; 660 } 661 return false; 662} 663 664bool RegisterContextDarwin_arm64::WriteAllRegisterValues( 665 const lldb::DataBufferSP &data_sp) { 666 if (data_sp && data_sp->GetByteSize() == REG_CONTEXT_SIZE) { 667 const uint8_t *src = data_sp->GetBytes(); 668 ::memcpy(&gpr, src, sizeof(gpr)); 669 src += sizeof(gpr); 670 671 ::memcpy(&fpu, src, sizeof(fpu)); 672 src += sizeof(gpr); 673 674 ::memcpy(&exc, src, sizeof(exc)); 675 uint32_t success_count = 0; 676 if (WriteGPR() == KERN_SUCCESS) 677 ++success_count; 678 if (WriteFPU() == KERN_SUCCESS) 679 ++success_count; 680 if (WriteEXC() == KERN_SUCCESS) 681 ++success_count; 682 return success_count == 3; 683 } 684 return false; 685} 686 687uint32_t RegisterContextDarwin_arm64::ConvertRegisterKindToRegisterNumber( 688 RegisterKind kind, uint32_t reg) { 689 if (kind == eRegisterKindGeneric) { 690 switch (reg) { 691 case LLDB_REGNUM_GENERIC_PC: 692 return gpr_pc; 693 case LLDB_REGNUM_GENERIC_SP: 694 return gpr_sp; 695 case LLDB_REGNUM_GENERIC_FP: 696 return gpr_fp; 697 case LLDB_REGNUM_GENERIC_RA: 698 return gpr_lr; 699 case LLDB_REGNUM_GENERIC_FLAGS: 700 return gpr_cpsr; 701 default: 702 break; 703 } 704 } else if (kind == eRegisterKindDWARF) { 705 switch (reg) { 706 case arm64_dwarf::x0: 707 return gpr_x0; 708 case arm64_dwarf::x1: 709 return gpr_x1; 710 case arm64_dwarf::x2: 711 return gpr_x2; 712 case arm64_dwarf::x3: 713 return gpr_x3; 714 case arm64_dwarf::x4: 715 return gpr_x4; 716 case arm64_dwarf::x5: 717 return gpr_x5; 718 case arm64_dwarf::x6: 719 return gpr_x6; 720 case arm64_dwarf::x7: 721 return gpr_x7; 722 case arm64_dwarf::x8: 723 return gpr_x8; 724 case arm64_dwarf::x9: 725 return gpr_x9; 726 case arm64_dwarf::x10: 727 return gpr_x10; 728 case arm64_dwarf::x11: 729 return gpr_x11; 730 case arm64_dwarf::x12: 731 return gpr_x12; 732 case arm64_dwarf::x13: 733 return gpr_x13; 734 case arm64_dwarf::x14: 735 return gpr_x14; 736 case arm64_dwarf::x15: 737 return gpr_x15; 738 case arm64_dwarf::x16: 739 return gpr_x16; 740 case arm64_dwarf::x17: 741 return gpr_x17; 742 case arm64_dwarf::x18: 743 return gpr_x18; 744 case arm64_dwarf::x19: 745 return gpr_x19; 746 case arm64_dwarf::x20: 747 return gpr_x20; 748 case arm64_dwarf::x21: 749 return gpr_x21; 750 case arm64_dwarf::x22: 751 return gpr_x22; 752 case arm64_dwarf::x23: 753 return gpr_x23; 754 case arm64_dwarf::x24: 755 return gpr_x24; 756 case arm64_dwarf::x25: 757 return gpr_x25; 758 case arm64_dwarf::x26: 759 return gpr_x26; 760 case arm64_dwarf::x27: 761 return gpr_x27; 762 case arm64_dwarf::x28: 763 return gpr_x28; 764 765 case arm64_dwarf::fp: 766 return gpr_fp; 767 case arm64_dwarf::sp: 768 return gpr_sp; 769 case arm64_dwarf::lr: 770 return gpr_lr; 771 case arm64_dwarf::pc: 772 return gpr_pc; 773 case arm64_dwarf::cpsr: 774 return gpr_cpsr; 775 776 case arm64_dwarf::v0: 777 return fpu_v0; 778 case arm64_dwarf::v1: 779 return fpu_v1; 780 case arm64_dwarf::v2: 781 return fpu_v2; 782 case arm64_dwarf::v3: 783 return fpu_v3; 784 case arm64_dwarf::v4: 785 return fpu_v4; 786 case arm64_dwarf::v5: 787 return fpu_v5; 788 case arm64_dwarf::v6: 789 return fpu_v6; 790 case arm64_dwarf::v7: 791 return fpu_v7; 792 case arm64_dwarf::v8: 793 return fpu_v8; 794 case arm64_dwarf::v9: 795 return fpu_v9; 796 case arm64_dwarf::v10: 797 return fpu_v10; 798 case arm64_dwarf::v11: 799 return fpu_v11; 800 case arm64_dwarf::v12: 801 return fpu_v12; 802 case arm64_dwarf::v13: 803 return fpu_v13; 804 case arm64_dwarf::v14: 805 return fpu_v14; 806 case arm64_dwarf::v15: 807 return fpu_v15; 808 case arm64_dwarf::v16: 809 return fpu_v16; 810 case arm64_dwarf::v17: 811 return fpu_v17; 812 case arm64_dwarf::v18: 813 return fpu_v18; 814 case arm64_dwarf::v19: 815 return fpu_v19; 816 case arm64_dwarf::v20: 817 return fpu_v20; 818 case arm64_dwarf::v21: 819 return fpu_v21; 820 case arm64_dwarf::v22: 821 return fpu_v22; 822 case arm64_dwarf::v23: 823 return fpu_v23; 824 case arm64_dwarf::v24: 825 return fpu_v24; 826 case arm64_dwarf::v25: 827 return fpu_v25; 828 case arm64_dwarf::v26: 829 return fpu_v26; 830 case arm64_dwarf::v27: 831 return fpu_v27; 832 case arm64_dwarf::v28: 833 return fpu_v28; 834 case arm64_dwarf::v29: 835 return fpu_v29; 836 case arm64_dwarf::v30: 837 return fpu_v30; 838 case arm64_dwarf::v31: 839 return fpu_v31; 840 841 default: 842 break; 843 } 844 } else if (kind == eRegisterKindEHFrame) { 845 switch (reg) { 846 case arm64_ehframe::x0: 847 return gpr_x0; 848 case arm64_ehframe::x1: 849 return gpr_x1; 850 case arm64_ehframe::x2: 851 return gpr_x2; 852 case arm64_ehframe::x3: 853 return gpr_x3; 854 case arm64_ehframe::x4: 855 return gpr_x4; 856 case arm64_ehframe::x5: 857 return gpr_x5; 858 case arm64_ehframe::x6: 859 return gpr_x6; 860 case arm64_ehframe::x7: 861 return gpr_x7; 862 case arm64_ehframe::x8: 863 return gpr_x8; 864 case arm64_ehframe::x9: 865 return gpr_x9; 866 case arm64_ehframe::x10: 867 return gpr_x10; 868 case arm64_ehframe::x11: 869 return gpr_x11; 870 case arm64_ehframe::x12: 871 return gpr_x12; 872 case arm64_ehframe::x13: 873 return gpr_x13; 874 case arm64_ehframe::x14: 875 return gpr_x14; 876 case arm64_ehframe::x15: 877 return gpr_x15; 878 case arm64_ehframe::x16: 879 return gpr_x16; 880 case arm64_ehframe::x17: 881 return gpr_x17; 882 case arm64_ehframe::x18: 883 return gpr_x18; 884 case arm64_ehframe::x19: 885 return gpr_x19; 886 case arm64_ehframe::x20: 887 return gpr_x20; 888 case arm64_ehframe::x21: 889 return gpr_x21; 890 case arm64_ehframe::x22: 891 return gpr_x22; 892 case arm64_ehframe::x23: 893 return gpr_x23; 894 case arm64_ehframe::x24: 895 return gpr_x24; 896 case arm64_ehframe::x25: 897 return gpr_x25; 898 case arm64_ehframe::x26: 899 return gpr_x26; 900 case arm64_ehframe::x27: 901 return gpr_x27; 902 case arm64_ehframe::x28: 903 return gpr_x28; 904 case arm64_ehframe::fp: 905 return gpr_fp; 906 case arm64_ehframe::sp: 907 return gpr_sp; 908 case arm64_ehframe::lr: 909 return gpr_lr; 910 case arm64_ehframe::pc: 911 return gpr_pc; 912 case arm64_ehframe::cpsr: 913 return gpr_cpsr; 914 } 915 } else if (kind == eRegisterKindLLDB) { 916 return reg; 917 } 918 return LLDB_INVALID_REGNUM; 919} 920 921uint32_t RegisterContextDarwin_arm64::NumSupportedHardwareWatchpoints() { 922#if defined(__APPLE__) && (defined(__arm64__) || defined(__aarch64__)) 923 // autodetect how many watchpoints are supported dynamically... 924 static uint32_t g_num_supported_hw_watchpoints = UINT32_MAX; 925 if (g_num_supported_hw_watchpoints == UINT32_MAX) { 926 size_t len; 927 uint32_t n = 0; 928 len = sizeof(n); 929 if (::sysctlbyname("hw.optional.watchpoint", &n, &len, NULL, 0) == 0) { 930 g_num_supported_hw_watchpoints = n; 931 } 932 } 933 return g_num_supported_hw_watchpoints; 934#else 935 // TODO: figure out remote case here! 936 return 2; 937#endif 938} 939 940uint32_t RegisterContextDarwin_arm64::SetHardwareWatchpoint(lldb::addr_t addr, 941 size_t size, 942 bool read, 943 bool write) { 944 // if (log) log->Printf 945 // ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint(addr = %8.8p, 946 // size = %u, read = %u, write = %u)", addr, size, read, write); 947 948 const uint32_t num_hw_watchpoints = NumSupportedHardwareWatchpoints(); 949 950 // Can't watch zero bytes 951 if (size == 0) 952 return LLDB_INVALID_INDEX32; 953 954 // We must watch for either read or write 955 if (!read && !write) 956 return LLDB_INVALID_INDEX32; 957 958 // Can't watch more than 4 bytes per WVR/WCR pair 959 if (size > 4) 960 return LLDB_INVALID_INDEX32; 961 962 // We can only watch up to four bytes that follow a 4 byte aligned address 963 // per watchpoint register pair. Since we have at most so we can only watch 964 // until the next 4 byte boundary and we need to make sure we can properly 965 // encode this. 966 uint32_t addr_word_offset = addr % 4; 967 // if (log) log->Printf 968 // ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint() - 969 // addr_word_offset = 0x%8.8x", addr_word_offset); 970 971 uint32_t byte_mask = ((1u << size) - 1u) << addr_word_offset; 972 // if (log) log->Printf 973 // ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint() - byte_mask = 974 // 0x%8.8x", byte_mask); 975 if (byte_mask > 0xfu) 976 return LLDB_INVALID_INDEX32; 977 978 // Read the debug state 979 int kret = ReadDBG(false); 980 981 if (kret == KERN_SUCCESS) { 982 // Check to make sure we have the needed hardware support 983 uint32_t i = 0; 984 985 for (i = 0; i < num_hw_watchpoints; ++i) { 986 if ((dbg.wcr[i] & WCR_ENABLE) == 0) 987 break; // We found an available hw breakpoint slot (in i) 988 } 989 990 // See if we found an available hw breakpoint slot above 991 if (i < num_hw_watchpoints) { 992 // Make the byte_mask into a valid Byte Address Select mask 993 uint32_t byte_address_select = byte_mask << 5; 994 // Make sure bits 1:0 are clear in our address 995 dbg.wvr[i] = addr & ~((lldb::addr_t)3); 996 dbg.wcr[i] = byte_address_select | // Which bytes that follow the IMVA 997 // that we will watch 998 S_USER | // Stop only in user mode 999 (read ? WCR_LOAD : 0) | // Stop on read access? 1000 (write ? WCR_STORE : 0) | // Stop on write access? 1001 WCR_ENABLE; // Enable this watchpoint; 1002 1003 kret = WriteDBG(); 1004 // if (log) log->Printf 1005 // ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint() 1006 // WriteDBG() => 0x%8.8x.", kret); 1007 1008 if (kret == KERN_SUCCESS) 1009 return i; 1010 } else { 1011 // if (log) log->Printf 1012 // ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint(): 1013 // All hardware resources (%u) are in use.", 1014 // num_hw_watchpoints); 1015 } 1016 } 1017 return LLDB_INVALID_INDEX32; 1018} 1019 1020bool RegisterContextDarwin_arm64::ClearHardwareWatchpoint(uint32_t hw_index) { 1021 int kret = ReadDBG(false); 1022 1023 const uint32_t num_hw_points = NumSupportedHardwareWatchpoints(); 1024 if (kret == KERN_SUCCESS) { 1025 if (hw_index < num_hw_points) { 1026 dbg.wcr[hw_index] = 0; 1027 // if (log) log->Printf 1028 // ("RegisterContextDarwin_arm64::ClearHardwareWatchpoint( %u ) 1029 // - WVR%u = 0x%8.8x WCR%u = 0x%8.8x", 1030 // hw_index, 1031 // hw_index, 1032 // dbg.wvr[hw_index], 1033 // hw_index, 1034 // dbg.wcr[hw_index]); 1035 1036 kret = WriteDBG(); 1037 1038 if (kret == KERN_SUCCESS) 1039 return true; 1040 } 1041 } 1042 return false; 1043} 1044