1 //===-- EmulateInstructionARM.h ---------------------------------*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 9 #ifndef LLDB_SOURCE_PLUGINS_INSTRUCTION_ARM_EMULATEINSTRUCTIONARM_H 10 #define LLDB_SOURCE_PLUGINS_INSTRUCTION_ARM_EMULATEINSTRUCTIONARM_H 11 12 #include "Plugins/Process/Utility/ARMDefines.h" 13 #include "lldb/Core/EmulateInstruction.h" 14 #include "lldb/Utility/Status.h" 15 #include <optional> 16 17 namespace lldb_private { 18 19 // ITSession - Keep track of the IT Block progression. 20 class ITSession { 21 public: 22 ITSession() = default; 23 ~ITSession() = default; 24 25 // InitIT - Initializes ITCounter/ITState. 26 bool InitIT(uint32_t bits7_0); 27 28 // ITAdvance - Updates ITCounter/ITState as IT Block progresses. 29 void ITAdvance(); 30 31 // InITBlock - Returns true if we're inside an IT Block. 32 bool InITBlock(); 33 34 // LastInITBlock - Returns true if we're the last instruction inside an IT 35 // Block. 36 bool LastInITBlock(); 37 38 // GetCond - Gets condition bits for the current thumb instruction. 39 uint32_t GetCond(); 40 41 private: 42 uint32_t ITCounter = 0; // Possible values: 0, 1, 2, 3, 4. 43 uint32_t ITState = 0; // A2.5.2 Consists of IT[7:5] and IT[4:0] initially. 44 }; 45 46 class EmulateInstructionARM : public EmulateInstruction { 47 public: 48 enum ARMEncoding { 49 eEncodingA1, 50 eEncodingA2, 51 eEncodingA3, 52 eEncodingA4, 53 eEncodingA5, 54 eEncodingT1, 55 eEncodingT2, 56 eEncodingT3, 57 eEncodingT4, 58 eEncodingT5 59 }; 60 61 static void Initialize(); 62 63 static void Terminate(); 64 GetPluginNameStatic()65 static llvm::StringRef GetPluginNameStatic() { return "arm"; } 66 67 static llvm::StringRef GetPluginDescriptionStatic(); 68 69 static lldb_private::EmulateInstruction * 70 CreateInstance(const lldb_private::ArchSpec &arch, InstructionType inst_type); 71 72 static bool SupportsEmulatingInstructionsOfTypeStatic(InstructionType inst_type)73 SupportsEmulatingInstructionsOfTypeStatic(InstructionType inst_type) { 74 switch (inst_type) { 75 case eInstructionTypeAny: 76 case eInstructionTypePrologueEpilogue: 77 case eInstructionTypePCModifying: 78 return true; 79 80 case eInstructionTypeAll: 81 return false; 82 } 83 return false; 84 } 85 GetPluginName()86 llvm::StringRef GetPluginName() override { return GetPluginNameStatic(); } 87 88 bool SetTargetTriple(const ArchSpec &arch) override; 89 90 enum Mode { eModeInvalid = -1, eModeARM, eModeThumb }; 91 EmulateInstructionARM(const ArchSpec & arch)92 EmulateInstructionARM(const ArchSpec &arch) 93 : EmulateInstruction(arch), m_arm_isa(0), m_opcode_mode(eModeInvalid), 94 m_opcode_cpsr(0), m_new_inst_cpsr(0), m_it_session(), 95 m_ignore_conditions(false) { 96 SetArchitecture(arch); 97 } 98 99 // EmulateInstructionARM (const ArchSpec &arch, 100 // bool ignore_conditions, 101 // void *baton, 102 // ReadMemory read_mem_callback, 103 // WriteMemory write_mem_callback, 104 // ReadRegister read_reg_callback, 105 // WriteRegister write_reg_callback) : 106 // EmulateInstruction (arch, 107 // ignore_conditions, 108 // baton, 109 // read_mem_callback, 110 // write_mem_callback, 111 // read_reg_callback, 112 // write_reg_callback), 113 // m_arm_isa (0), 114 // m_opcode_mode (eModeInvalid), 115 // m_opcode_cpsr (0), 116 // m_it_session () 117 // { 118 // } 119 SupportsEmulatingInstructionsOfType(InstructionType inst_type)120 bool SupportsEmulatingInstructionsOfType(InstructionType inst_type) override { 121 return SupportsEmulatingInstructionsOfTypeStatic(inst_type); 122 } 123 124 virtual bool SetArchitecture(const ArchSpec &arch); 125 126 bool ReadInstruction() override; 127 128 bool SetInstruction(const Opcode &insn_opcode, const Address &inst_addr, 129 Target *target) override; 130 131 bool EvaluateInstruction(uint32_t evaluate_options) override; 132 133 InstructionCondition GetInstructionCondition() override; 134 135 bool TestEmulation(Stream &out_stream, ArchSpec &arch, 136 OptionValueDictionary *test_data) override; 137 138 std::optional<RegisterInfo> GetRegisterInfo(lldb::RegisterKind reg_kind, 139 uint32_t reg_num) override; 140 141 bool CreateFunctionEntryUnwind(UnwindPlan &unwind_plan) override; 142 143 uint32_t ArchVersion(); 144 145 bool ConditionPassed(const uint32_t opcode); 146 147 uint32_t CurrentCond(const uint32_t opcode); 148 149 // InITBlock - Returns true if we're in Thumb mode and inside an IT Block. 150 bool InITBlock(); 151 152 // LastInITBlock - Returns true if we're in Thumb mode and the last 153 // instruction inside an IT Block. 154 bool LastInITBlock(); 155 156 bool BadMode(uint32_t mode); 157 158 bool CurrentModeIsPrivileged(); 159 160 void CPSRWriteByInstr(uint32_t value, uint32_t bytemask, 161 bool affect_execstate); 162 163 bool BranchWritePC(const Context &context, uint32_t addr); 164 165 bool BXWritePC(Context &context, uint32_t addr); 166 167 bool LoadWritePC(Context &context, uint32_t addr); 168 169 bool ALUWritePC(Context &context, uint32_t addr); 170 171 Mode CurrentInstrSet(); 172 173 bool SelectInstrSet(Mode arm_or_thumb); 174 175 bool WriteBits32Unknown(int n); 176 177 bool WriteBits32UnknownToMemory(lldb::addr_t address); 178 179 bool UnalignedSupport(); 180 181 typedef struct { 182 uint32_t result; 183 uint8_t carry_out; 184 uint8_t overflow; 185 } AddWithCarryResult; 186 187 AddWithCarryResult AddWithCarry(uint32_t x, uint32_t y, uint8_t carry_in); 188 189 // Helper method to read the content of an ARM core register. 190 uint32_t ReadCoreReg(uint32_t regnum, bool *success); 191 192 // See A8.6.96 MOV (immediate) Operation. 193 // Default arguments are specified for carry and overflow parameters, which 194 // means 195 // not to update the respective flags even if setflags is true. 196 bool WriteCoreRegOptionalFlags(Context &context, const uint32_t result, 197 const uint32_t Rd, bool setflags, 198 const uint32_t carry = ~0u, 199 const uint32_t overflow = ~0u); 200 WriteCoreReg(Context & context,const uint32_t result,const uint32_t Rd)201 bool WriteCoreReg(Context &context, const uint32_t result, 202 const uint32_t Rd) { 203 // Don't set the flags. 204 return WriteCoreRegOptionalFlags(context, result, Rd, false); 205 } 206 207 // See A8.6.35 CMP (immediate) Operation. 208 // Default arguments are specified for carry and overflow parameters, which 209 // means 210 // not to update the respective flags. 211 bool WriteFlags(Context &context, const uint32_t result, 212 const uint32_t carry = ~0u, const uint32_t overflow = ~0u); 213 MemARead(EmulateInstruction::Context & context,lldb::addr_t address,uint32_t size,uint64_t fail_value,bool * success_ptr)214 inline uint64_t MemARead(EmulateInstruction::Context &context, 215 lldb::addr_t address, uint32_t size, 216 uint64_t fail_value, bool *success_ptr) { 217 // This is a stub function corresponding to "MemA[]" in the ARM manual 218 // pseudocode, for 219 // aligned reads from memory. Since we are not trying to write a full 220 // hardware simulator, and since 221 // we are running in User mode (rather than Kernel mode) and therefore won't 222 // have access to many of the 223 // system registers we would need in order to fully implement this function, 224 // we will just call 225 // ReadMemoryUnsigned from here. In the future, if we decide we do need to 226 // do more faithful emulation of 227 // the hardware, we can update this function appropriately. 228 229 return ReadMemoryUnsigned(context, address, size, fail_value, success_ptr); 230 } 231 MemAWrite(EmulateInstruction::Context & context,lldb::addr_t address,uint64_t data_val,uint32_t size)232 inline bool MemAWrite(EmulateInstruction::Context &context, 233 lldb::addr_t address, uint64_t data_val, uint32_t size) 234 235 { 236 // This is a stub function corresponding to "MemA[]" in the ARM manual 237 // pseudocode, for 238 // aligned writes to memory. Since we are not trying to write a full 239 // hardware simulator, and since 240 // we are running in User mode (rather than Kernel mode) and therefore won't 241 // have access to many of the 242 // system registers we would need in order to fully implement this function, 243 // we will just call 244 // WriteMemoryUnsigned from here. In the future, if we decide we do need to 245 // do more faithful emulation of 246 // the hardware, we can update this function appropriately. 247 248 return WriteMemoryUnsigned(context, address, data_val, size); 249 } 250 MemURead(EmulateInstruction::Context & context,lldb::addr_t address,uint32_t size,uint64_t fail_value,bool * success_ptr)251 inline uint64_t MemURead(EmulateInstruction::Context &context, 252 lldb::addr_t address, uint32_t size, 253 uint64_t fail_value, bool *success_ptr) { 254 // This is a stub function corresponding to "MemU[]" in the ARM manual 255 // pseudocode, for 256 // unaligned reads from memory. Since we are not trying to write a full 257 // hardware simulator, and since 258 // we are running in User mode (rather than Kernel mode) and therefore won't 259 // have access to many of the 260 // system registers we would need in order to fully implement this function, 261 // we will just call 262 // ReadMemoryUnsigned from here. In the future, if we decide we do need to 263 // do more faithful emulation of 264 // the hardware, we can update this function appropriately. 265 266 return ReadMemoryUnsigned(context, address, size, fail_value, success_ptr); 267 } 268 MemUWrite(EmulateInstruction::Context & context,lldb::addr_t address,uint64_t data_val,uint32_t size)269 inline bool MemUWrite(EmulateInstruction::Context &context, 270 lldb::addr_t address, uint64_t data_val, uint32_t size) 271 272 { 273 // This is a stub function corresponding to "MemU[]" in the ARM manual 274 // pseudocode, for 275 // unaligned writes to memory. Since we are not trying to write a full 276 // hardware simulator, and since 277 // we are running in User mode (rather than Kernel mode) and therefore won't 278 // have access to many of the 279 // system registers we would need in order to fully implement this function, 280 // we will just call 281 // WriteMemoryUnsigned from here. In the future, if we decide we do need to 282 // do more faithful emulation of 283 // the hardware, we can update this function appropriately. 284 285 return WriteMemoryUnsigned(context, address, data_val, size); 286 } 287 288 protected: 289 // Typedef for the callback function used during the emulation. 290 // Pass along (ARMEncoding)encoding as the callback data. 291 enum ARMInstrSize { eSize16, eSize32 }; 292 293 typedef struct { 294 uint32_t mask; 295 uint32_t value; 296 uint32_t variants; 297 EmulateInstructionARM::ARMEncoding encoding; 298 uint32_t vfp_variants; 299 ARMInstrSize size; 300 bool (EmulateInstructionARM::*callback)( 301 const uint32_t opcode, 302 const EmulateInstructionARM::ARMEncoding encoding); 303 const char *name; 304 } ARMOpcode; 305 306 uint32_t GetFramePointerRegisterNumber() const; 307 308 uint32_t GetFramePointerDWARFRegisterNumber() const; 309 310 static ARMOpcode *GetARMOpcodeForInstruction(const uint32_t opcode, 311 uint32_t isa_mask); 312 313 static ARMOpcode *GetThumbOpcodeForInstruction(const uint32_t opcode, 314 uint32_t isa_mask); 315 316 // A8.6.123 PUSH 317 bool EmulatePUSH(const uint32_t opcode, const ARMEncoding encoding); 318 319 // A8.6.122 POP 320 bool EmulatePOP(const uint32_t opcode, const ARMEncoding encoding); 321 322 // A8.6.8 ADD (SP plus immediate) 323 bool EmulateADDRdSPImm(const uint32_t opcode, const ARMEncoding encoding); 324 325 // A8.6.97 MOV (register) -- Rd == r7|ip and Rm == sp 326 bool EmulateMOVRdSP(const uint32_t opcode, const ARMEncoding encoding); 327 328 // A8.6.97 MOV (register) -- move from r8-r15 to r0-r7 329 bool EmulateMOVLowHigh(const uint32_t opcode, const ARMEncoding encoding); 330 331 // A8.6.59 LDR (literal) 332 bool EmulateLDRRtPCRelative(const uint32_t opcode, 333 const ARMEncoding encoding); 334 335 // A8.6.8 ADD (SP plus immediate) 336 bool EmulateADDSPImm(const uint32_t opcode, const ARMEncoding encoding); 337 338 // A8.6.9 ADD (SP plus register) 339 bool EmulateADDSPRm(const uint32_t opcode, const ARMEncoding encoding); 340 341 // A8.6.23 BL, BLX (immediate) 342 bool EmulateBLXImmediate(const uint32_t opcode, const ARMEncoding encoding); 343 344 // A8.6.24 BLX (register) 345 bool EmulateBLXRm(const uint32_t opcode, const ARMEncoding encoding); 346 347 // A8.6.25 BX 348 bool EmulateBXRm(const uint32_t opcode, const ARMEncoding encoding); 349 350 // A8.6.26 BXJ 351 bool EmulateBXJRm(const uint32_t opcode, const ARMEncoding encoding); 352 353 // A8.6.212 SUB (immediate, ARM) -- Rd == r7 and Rm == ip 354 bool EmulateSUBR7IPImm(const uint32_t opcode, const ARMEncoding encoding); 355 356 // A8.6.215 SUB (SP minus immediate) -- Rd == ip 357 bool EmulateSUBIPSPImm(const uint32_t opcode, const ARMEncoding encoding); 358 359 // A8.6.215 SUB (SP minus immediate) 360 bool EmulateSUBSPImm(const uint32_t opcode, const ARMEncoding encoding); 361 362 // A8.6.216 SUB (SP minus register) 363 bool EmulateSUBSPReg(const uint32_t opcode, const ARMEncoding encoding); 364 365 // A8.6.194 STR (immediate, ARM) -- Rn == sp 366 bool EmulateSTRRtSP(const uint32_t opcode, const ARMEncoding encoding); 367 368 // A8.6.355 VPUSH 369 bool EmulateVPUSH(const uint32_t opcode, const ARMEncoding encoding); 370 371 // A8.6.354 VPOP 372 bool EmulateVPOP(const uint32_t opcode, const ARMEncoding encoding); 373 374 // A8.6.218 SVC (previously SWI) 375 bool EmulateSVC(const uint32_t opcode, const ARMEncoding encoding); 376 377 // A8.6.50 IT 378 bool EmulateIT(const uint32_t opcode, const ARMEncoding encoding); 379 380 // NOP 381 bool EmulateNop(const uint32_t opcode, const ARMEncoding encoding); 382 383 // A8.6.16 B 384 bool EmulateB(const uint32_t opcode, const ARMEncoding encoding); 385 386 // A8.6.27 CBNZ, CBZ 387 bool EmulateCB(const uint32_t opcode, const ARMEncoding encoding); 388 389 // A8.6.226 TBB, TBH 390 bool EmulateTB(const uint32_t opcode, const ARMEncoding encoding); 391 392 // A8.6.4 ADD (immediate, Thumb) 393 bool EmulateADDImmThumb(const uint32_t opcode, const ARMEncoding encoding); 394 395 // A8.6.5 ADD (immediate, ARM) 396 bool EmulateADDImmARM(const uint32_t opcode, const ARMEncoding encoding); 397 398 // A8.6.6 ADD (register) 399 bool EmulateADDReg(const uint32_t opcode, const ARMEncoding encoding); 400 401 // A8.6.7 ADD (register-shifted register) 402 bool EmulateADDRegShift(const uint32_t opcode, const ARMEncoding encoding); 403 404 // A8.6.97 MOV (register) 405 bool EmulateMOVRdRm(const uint32_t opcode, const ARMEncoding encoding); 406 407 // A8.6.96 MOV (immediate) 408 bool EmulateMOVRdImm(const uint32_t opcode, const ARMEncoding encoding); 409 410 // A8.6.35 CMP (immediate) 411 bool EmulateCMPImm(const uint32_t opcode, const ARMEncoding encoding); 412 413 // A8.6.36 CMP (register) 414 bool EmulateCMPReg(const uint32_t opcode, const ARMEncoding encoding); 415 416 // A8.6.14 ASR (immediate) 417 bool EmulateASRImm(const uint32_t opcode, const ARMEncoding encoding); 418 419 // A8.6.15 ASR (register) 420 bool EmulateASRReg(const uint32_t opcode, const ARMEncoding encoding); 421 422 // A8.6.88 LSL (immediate) 423 bool EmulateLSLImm(const uint32_t opcode, const ARMEncoding encoding); 424 425 // A8.6.89 LSL (register) 426 bool EmulateLSLReg(const uint32_t opcode, const ARMEncoding encoding); 427 428 // A8.6.90 LSR (immediate) 429 bool EmulateLSRImm(const uint32_t opcode, const ARMEncoding encoding); 430 431 // A8.6.91 LSR (register) 432 bool EmulateLSRReg(const uint32_t opcode, const ARMEncoding encoding); 433 434 // A8.6.139 ROR (immediate) 435 bool EmulateRORImm(const uint32_t opcode, const ARMEncoding encoding); 436 437 // A8.6.140 ROR (register) 438 bool EmulateRORReg(const uint32_t opcode, const ARMEncoding encoding); 439 440 // A8.6.141 RRX 441 bool EmulateRRX(const uint32_t opcode, const ARMEncoding encoding); 442 443 // Helper method for ASR, LSL, LSR, ROR (immediate), and RRX 444 bool EmulateShiftImm(const uint32_t opcode, const ARMEncoding encoding, 445 ARM_ShifterType shift_type); 446 447 // Helper method for ASR, LSL, LSR, and ROR (register) 448 bool EmulateShiftReg(const uint32_t opcode, const ARMEncoding encoding, 449 ARM_ShifterType shift_type); 450 451 // LOAD FUNCTIONS 452 453 // A8.6.53 LDM/LDMIA/LDMFD 454 bool EmulateLDM(const uint32_t opcode, const ARMEncoding encoding); 455 456 // A8.6.54 LDMDA/LDMFA 457 bool EmulateLDMDA(const uint32_t opcode, const ARMEncoding encoding); 458 459 // A8.6.55 LDMDB/LDMEA 460 bool EmulateLDMDB(const uint32_t opcode, const ARMEncoding encoding); 461 462 // A8.6.56 LDMIB/LDMED 463 bool EmulateLDMIB(const uint32_t opcode, const ARMEncoding encoding); 464 465 // A8.6.57 LDR (immediate, Thumb) -- Encoding T1 466 bool EmulateLDRRtRnImm(const uint32_t opcode, const ARMEncoding encoding); 467 468 // A8.6.58 LDR (immediate, ARM) - Encoding A1 469 bool EmulateLDRImmediateARM(const uint32_t opcode, 470 const ARMEncoding encoding); 471 472 // A8.6.59 LDR (literal) 473 bool EmulateLDRLiteral(const uint32_t, const ARMEncoding encoding); 474 475 // A8.6.60 LDR (register) - Encoding T1, T2, A1 476 bool EmulateLDRRegister(const uint32_t opcode, const ARMEncoding encoding); 477 478 // A8.6.61 LDRB (immediate, Thumb) - Encoding T1, T2, T3 479 bool EmulateLDRBImmediate(const uint32_t opcode, const ARMEncoding encoding); 480 481 // A8.6.62 LDRB (immediate, ARM) 482 bool EmulateLDRBImmediateARM(const uint32_t opcode, 483 const ARMEncoding encoding); 484 485 // A8.6.63 LDRB (literal) - Encoding T1, A1 486 bool EmulateLDRBLiteral(const uint32_t opcode, const ARMEncoding encoding); 487 488 // A8.6.64 LDRB (register) - Encoding T1, T2, A1 489 bool EmulateLDRBRegister(const uint32_t opcode, const ARMEncoding encoding); 490 491 // A8.6.65 LDRBT 492 bool EmulateLDRBT(const uint32_t opcode, const ARMEncoding encoding); 493 494 // A8.6.66 LDRD (immediate) 495 bool EmulateLDRDImmediate(const uint32_t opcode, const ARMEncoding encoding); 496 497 // A8.6.67 498 bool EmulateLDRDLiteral(const uint32_t opcode, const ARMEncoding encoding); 499 500 // A8.6.68 LDRD (register) 501 bool EmulateLDRDRegister(const uint32_t opcode, const ARMEncoding encoding); 502 503 // A8.6.69 LDREX 504 bool EmulateLDREX(const uint32_t opcode, const ARMEncoding encoding); 505 506 // A8.6.70 LDREXB 507 bool EmulateLDREXB(const uint32_t opcode, const ARMEncoding encoding); 508 509 // A8.6.71 LDREXD 510 bool EmulateLDREXD(const uint32_t opcode, const ARMEncoding encoding); 511 512 // A8.6.72 LDREXH 513 bool EmulateLDREXH(const uint32_t opcode, const ARMEncoding encoding); 514 515 // A8.6.73 LDRH (immediate, Thumb) - Encoding T1, T2, T3 516 bool EmulateLDRHImmediate(const uint32_t opcode, const ARMEncoding encoding); 517 518 // A8.6.74 LDRS (immediate, ARM) 519 bool EmulateLDRHImmediateARM(const uint32_t opcode, 520 const ARMEncoding encoding); 521 522 // A8.6.75 LDRH (literal) - Encoding T1, A1 523 bool EmulateLDRHLiteral(const uint32_t opcode, const ARMEncoding encoding); 524 525 // A8.6.76 LDRH (register) - Encoding T1, T2, A1 526 bool EmulateLDRHRegister(const uint32_t opcode, const ARMEncoding encoding); 527 528 // A8.6.77 LDRHT 529 bool EmulateLDRHT(const uint32_t opcode, const ARMEncoding encoding); 530 531 // A8.6.78 LDRSB (immediate) - Encoding T1, T2, A1 532 bool EmulateLDRSBImmediate(const uint32_t opcode, const ARMEncoding encoding); 533 534 // A8.6.79 LDRSB (literal) - Encoding T1, A1 535 bool EmulateLDRSBLiteral(const uint32_t opcode, const ARMEncoding encoding); 536 537 // A8.6.80 LDRSB (register) - Encoding T1, T2, A1 538 bool EmulateLDRSBRegister(const uint32_t opcode, const ARMEncoding encoding); 539 540 // A8.6.81 LDRSBT 541 bool EmulateLDRSBT(const uint32_t opcode, const ARMEncoding encoding); 542 543 // A8.6.82 LDRSH (immediate) - Encoding T1, T2, A1 544 bool EmulateLDRSHImmediate(const uint32_t opcode, const ARMEncoding encoding); 545 546 // A8.6.83 LDRSH (literal) - Encoding T1, A1 547 bool EmulateLDRSHLiteral(const uint32_t opcode, const ARMEncoding encoding); 548 549 // A8.6.84 LDRSH (register) - Encoding T1, T2, A1 550 bool EmulateLDRSHRegister(const uint32_t opcode, const ARMEncoding encoding); 551 552 // A8.6.85 LDRSHT 553 bool EmulateLDRSHT(const uint32_t opcode, const ARMEncoding encoding); 554 555 // A8.6.86 556 bool EmulateLDRT(const uint32_t opcode, const ARMEncoding encoding); 557 558 // STORE FUNCTIONS 559 560 // A8.6.189 STM/STMIA/STMEA 561 bool EmulateSTM(const uint32_t opcode, const ARMEncoding encoding); 562 563 // A8.6.190 STMDA/STMED 564 bool EmulateSTMDA(const uint32_t opcode, const ARMEncoding encoding); 565 566 // A8.6.191 STMDB/STMFD 567 bool EmulateSTMDB(const uint32_t opcode, const ARMEncoding encoding); 568 569 // A8.6.192 STMIB/STMFA 570 bool EmulateSTMIB(const uint32_t opcode, const ARMEncoding encoding); 571 572 // A8.6.193 STR (immediate, Thumb) 573 bool EmulateSTRThumb(const uint32_t opcode, const ARMEncoding encoding); 574 575 // A8.6.194 STR (immediate, ARM) 576 bool EmulateSTRImmARM(const uint32_t opcode, const ARMEncoding encoding); 577 578 // A8.6.195 STR (register) 579 bool EmulateSTRRegister(const uint32_t opcode, const ARMEncoding encoding); 580 581 // A8.6.196 STRB (immediate, Thumb) 582 bool EmulateSTRBThumb(const uint32_t opcode, const ARMEncoding encoding); 583 584 // A8.6.197 STRB (immediate, ARM) 585 bool EmulateSTRBImmARM(const uint32_t opcode, const ARMEncoding encoding); 586 587 // A8.6.198 STRB (register) 588 bool EmulateSTRBReg(const uint32_t opcode, const ARMEncoding encoding); 589 590 // A8.6.199 STRBT 591 bool EmulateSTRBT(const uint32_t opcode, const ARMEncoding encoding); 592 593 // A8.6.200 STRD (immediate) 594 bool EmulateSTRDImm(const uint32_t opcode, const ARMEncoding encoding); 595 596 // A8.6.201 STRD (register) 597 bool EmulateSTRDReg(const uint32_t opcode, const ARMEncoding encoding); 598 599 // A8.6.202 STREX 600 bool EmulateSTREX(const uint32_t opcode, const ARMEncoding encoding); 601 602 // A8.6.203 STREXB 603 bool EmulateSTREXB(const uint32_t opcode, const ARMEncoding encoding); 604 605 // A8.6.204 STREXD 606 bool EmulateSTREXD(const uint32_t opcode, const ARMEncoding encoding); 607 608 // A8.6.205 STREXH 609 bool EmulateSTREXH(const uint32_t opcode, const ARMEncoding encoding); 610 611 // A8.6.206 STRH (immediate, Thumb) 612 bool EmulateSTRHImmThumb(const uint32_t opcode, const ARMEncoding encoding); 613 614 // A8.6.207 STRH (immediate, ARM) 615 bool EmulateSTRHImmARM(const uint32_t opcode, const ARMEncoding encoding); 616 617 // A8.6.208 STRH (register) 618 bool EmulateSTRHRegister(const uint32_t opcode, const ARMEncoding encoding); 619 620 // A8.6.209 STRHT 621 bool EmulateSTRHT(const uint32_t opcode, const ARMEncoding encoding); 622 623 // A8.6.210 STRT 624 bool EmulateSTRT(const uint32_t opcode, const ARMEncoding encoding); 625 626 // A8.6.1 ADC (immediate) 627 bool EmulateADCImm(const uint32_t opcode, const ARMEncoding encoding); 628 629 // A8.6.2 ADC (Register) 630 bool EmulateADCReg(const uint32_t opcode, const ARMEncoding encoding); 631 632 // A8.6.10 ADR 633 bool EmulateADR(const uint32_t opcode, const ARMEncoding encoding); 634 635 // A8.6.11 AND (immediate) 636 bool EmulateANDImm(const uint32_t opcode, const ARMEncoding encoding); 637 638 // A8.6.12 AND (register) 639 bool EmulateANDReg(const uint32_t opcode, const ARMEncoding encoding); 640 641 // A8.6.19 BIC (immediate) 642 bool EmulateBICImm(const uint32_t opcode, const ARMEncoding encoding); 643 644 // A8.6.20 BIC (register) 645 bool EmulateBICReg(const uint32_t opcode, const ARMEncoding encoding); 646 647 // A8.6.26 BXJ 648 bool EmulateBXJ(const uint32_t opcode, const ARMEncoding encoding); 649 650 // A8.6.32 CMN (immediate) 651 bool EmulateCMNImm(const uint32_t opcode, const ARMEncoding encoding); 652 653 // A8.6.33 CMN (register) 654 bool EmulateCMNReg(const uint32_t opcode, const ARMEncoding encoding); 655 656 // A8.6.44 EOR (immediate) 657 bool EmulateEORImm(const uint32_t opcode, const ARMEncoding encoding); 658 659 // A8.6.45 EOR (register) 660 bool EmulateEORReg(const uint32_t opcode, const ARMEncoding encoding); 661 662 // A8.6.105 MUL 663 bool EmulateMUL(const uint32_t opcode, const ARMEncoding encoding); 664 665 // A8.6.106 MVN (immediate) 666 bool EmulateMVNImm(const uint32_t opcode, const ARMEncoding encoding); 667 668 // A8.6.107 MVN (register) 669 bool EmulateMVNReg(const uint32_t opcode, const ARMEncoding encoding); 670 671 // A8.6.113 ORR (immediate) 672 bool EmulateORRImm(const uint32_t opcode, const ARMEncoding encoding); 673 674 // A8.6.114 ORR (register) 675 bool EmulateORRReg(const uint32_t opcode, const ARMEncoding encoding); 676 677 // A8.6.117 PLD (immediate, literal) - Encoding T1, T2, T3, A1 678 bool EmulatePLDImmediate(const uint32_t opcode, const ARMEncoding encoding); 679 680 // A8.6.119 PLI (immediate,literal) - Encoding T3, A1 681 bool EmulatePLIImmediate(const uint32_t opcode, const ARMEncoding encoding); 682 683 // A8.6.120 PLI (register) - Encoding T1, A1 684 bool EmulatePLIRegister(const uint32_t opcode, const ARMEncoding encoding); 685 686 // A8.6.141 RSB (immediate) 687 bool EmulateRSBImm(const uint32_t opcode, const ARMEncoding encoding); 688 689 // A8.6.142 RSB (register) 690 bool EmulateRSBReg(const uint32_t opcode, const ARMEncoding encoding); 691 692 // A8.6.144 RSC (immediate) 693 bool EmulateRSCImm(const uint32_t opcode, const ARMEncoding encoding); 694 695 // A8.6.145 RSC (register) 696 bool EmulateRSCReg(const uint32_t opcode, const ARMEncoding encoding); 697 698 // A8.6.150 SBC (immediate) 699 bool EmulateSBCImm(const uint32_t opcode, const ARMEncoding encoding); 700 701 // A8.6.151 SBC (register) 702 bool EmulateSBCReg(const uint32_t opcode, const ARMEncoding encoding); 703 704 // A8.6.211 SUB (immediate, Thumb) 705 bool EmulateSUBImmThumb(const uint32_t opcode, const ARMEncoding encoding); 706 707 // A8.6.212 SUB (immediate, ARM) 708 bool EmulateSUBImmARM(const uint32_t opcode, const ARMEncoding encoding); 709 710 // A8.6.213 SUB (register) 711 bool EmulateSUBReg(const uint32_t opcode, const ARMEncoding encoding); 712 713 // A8.6.214 SUB (register-shifted register) 714 bool EmulateSUBRegShift(const uint32_t opcode, const ARMEncoding encoding); 715 716 // A8.6.222 SXTB - Encoding T1 717 bool EmulateSXTB(const uint32_t opcode, const ARMEncoding encoding); 718 719 // A8.6.224 SXTH - EncodingT1 720 bool EmulateSXTH(const uint32_t opcode, const ARMEncoding encoding); 721 722 // A8.6.227 TEQ (immediate) - Encoding A1 723 bool EmulateTEQImm(const uint32_t opcode, const ARMEncoding encoding); 724 725 // A8.6.228 TEQ (register) - Encoding A1 726 bool EmulateTEQReg(const uint32_t opcode, const ARMEncoding encoding); 727 728 // A8.6.230 TST (immediate) - Encoding A1 729 bool EmulateTSTImm(const uint32_t opcode, const ARMEncoding encoding); 730 731 // A8.6.231 TST (register) - Encoding T1, A1 732 bool EmulateTSTReg(const uint32_t opcode, const ARMEncoding encoding); 733 734 // A8.6.262 UXTB - Encoding T1 735 bool EmulateUXTB(const uint32_t opcode, const ARMEncoding encoding); 736 737 // A8.6.264 UXTH - Encoding T1 738 bool EmulateUXTH(const uint32_t opcode, const ARMEncoding encoding); 739 740 // B6.1.8 RFE 741 bool EmulateRFE(const uint32_t opcode, const ARMEncoding encoding); 742 743 // A8.6.319 VLDM 744 bool EmulateVLDM(const uint32_t opcode, const ARMEncoding encoding); 745 746 // A8.6.399 VSTM 747 bool EmulateVSTM(const uint32_t opcode, const ARMEncoding encoding); 748 749 // A8.6.307 VLD1 (multiple single elements) 750 bool EmulateVLD1Multiple(const uint32_t opcode, const ARMEncoding encoding); 751 752 // A8.6.308 VLD1 (single element to one lane) 753 bool EmulateVLD1Single(const uint32_t opcode, const ARMEncoding encoding); 754 755 // A8.6.309 VLD1 (single element to all lanes) 756 bool EmulateVLD1SingleAll(const uint32_t opcode, const ARMEncoding encoding); 757 758 // A8.6.391 VST1 (multiple single elements) 759 bool EmulateVST1Multiple(const uint32_t opcode, const ARMEncoding encoding); 760 761 // A8.6.392 VST1 (single element from one lane) 762 bool EmulateVST1Single(const uint32_t opcode, const ARMEncoding encoding); 763 764 // A8.6.317 VLDR 765 bool EmulateVLDR(const uint32_t opcode, const ARMEncoding encoding); 766 767 // A8.6.400 VSTR 768 bool EmulateVSTR(const uint32_t opcode, const ARMEncoding encoding); 769 770 // B6.2.13 SUBS PC, LR and related instructions 771 bool EmulateSUBSPcLrEtc(const uint32_t opcode, const ARMEncoding encoding); 772 773 uint32_t m_arm_isa; 774 Mode m_opcode_mode; 775 uint32_t m_opcode_cpsr; 776 uint32_t m_new_inst_cpsr; // This can get updated by the opcode. 777 ITSession m_it_session; 778 bool m_ignore_conditions; 779 }; 780 781 } // namespace lldb_private 782 783 #endif // LLDB_SOURCE_PLUGINS_INSTRUCTION_ARM_EMULATEINSTRUCTIONARM_H 784