1 //===- Thunks.cpp --------------------------------------------------------===// 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 // This file contains Thunk subclasses. 10 // 11 // A thunk is a small piece of code written after an input section 12 // which is used to jump between "incompatible" functions 13 // such as MIPS PIC and non-PIC or ARM non-Thumb and Thumb functions. 14 // 15 // If a jump target is too far and its address doesn't fit to a 16 // short jump instruction, we need to create a thunk too, but we 17 // haven't supported it yet. 18 // 19 // i386 and x86-64 don't need thunks. 20 // 21 //===---------------------------------------------------------------------===// 22 23 #include "Thunks.h" 24 #include "Config.h" 25 #include "InputFiles.h" 26 #include "InputSection.h" 27 #include "OutputSections.h" 28 #include "Symbols.h" 29 #include "SyntheticSections.h" 30 #include "Target.h" 31 #include "lld/Common/CommonLinkerContext.h" 32 #include "llvm/BinaryFormat/ELF.h" 33 #include "llvm/Support/Casting.h" 34 #include "llvm/Support/ErrorHandling.h" 35 #include "llvm/Support/MathExtras.h" 36 #include <cstdint> 37 #include <cstring> 38 39 using namespace llvm; 40 using namespace llvm::object; 41 using namespace llvm::ELF; 42 using namespace lld; 43 using namespace lld::elf; 44 45 namespace { 46 47 // Base class for AArch64 thunks. 48 // 49 // An AArch64 thunk may be either short or long. A short thunk is simply a 50 // branch (B) instruction, and it may be used to call AArch64 functions when the 51 // distance from the thunk to the target is less than 128MB. Long thunks can 52 // branch to any virtual address and they are implemented in the derived 53 // classes. This class tries to create a short thunk if the target is in range, 54 // otherwise it creates a long thunk. 55 class AArch64Thunk : public Thunk { 56 public: 57 AArch64Thunk(Symbol &dest, int64_t addend) : Thunk(dest, addend) {} 58 bool getMayUseShortThunk(); 59 void writeTo(uint8_t *buf) override; 60 61 private: 62 bool mayUseShortThunk = true; 63 virtual void writeLong(uint8_t *buf) = 0; 64 }; 65 66 // AArch64 long range Thunks. 67 class AArch64ABSLongThunk final : public AArch64Thunk { 68 public: 69 AArch64ABSLongThunk(Symbol &dest, int64_t addend) 70 : AArch64Thunk(dest, addend) {} 71 uint32_t size() override { return getMayUseShortThunk() ? 4 : 16; } 72 void addSymbols(ThunkSection &isec) override; 73 74 private: 75 void writeLong(uint8_t *buf) override; 76 }; 77 78 class AArch64ADRPThunk final : public AArch64Thunk { 79 public: 80 AArch64ADRPThunk(Symbol &dest, int64_t addend) : AArch64Thunk(dest, addend) {} 81 uint32_t size() override { return getMayUseShortThunk() ? 4 : 12; } 82 void addSymbols(ThunkSection &isec) override; 83 84 private: 85 void writeLong(uint8_t *buf) override; 86 }; 87 88 // Base class for ARM thunks. 89 // 90 // An ARM thunk may be either short or long. A short thunk is simply a branch 91 // (B) instruction, and it may be used to call ARM functions when the distance 92 // from the thunk to the target is less than 32MB. Long thunks can branch to any 93 // virtual address and can switch between ARM and Thumb, and they are 94 // implemented in the derived classes. This class tries to create a short thunk 95 // if the target is in range, otherwise it creates a long thunk. 96 class ARMThunk : public Thunk { 97 public: 98 ARMThunk(Symbol &dest, int64_t addend) : Thunk(dest, addend) {} 99 100 bool getMayUseShortThunk(); 101 uint32_t size() override { return getMayUseShortThunk() ? 4 : sizeLong(); } 102 void writeTo(uint8_t *buf) override; 103 bool isCompatibleWith(const InputSection &isec, 104 const Relocation &rel) const override; 105 106 // Returns the size of a long thunk. 107 virtual uint32_t sizeLong() = 0; 108 109 // Writes a long thunk to Buf. 110 virtual void writeLong(uint8_t *buf) = 0; 111 112 private: 113 // This field tracks whether all previously considered layouts would allow 114 // this thunk to be short. If we have ever needed a long thunk, we always 115 // create a long thunk, even if the thunk may be short given the current 116 // distance to the target. We do this because transitioning from long to short 117 // can create layout oscillations in certain corner cases which would prevent 118 // the layout from converging. 119 bool mayUseShortThunk = true; 120 }; 121 122 // Base class for Thumb-2 thunks. 123 // 124 // This class is similar to ARMThunk, but it uses the Thumb-2 B.W instruction 125 // which has a range of 16MB. 126 class ThumbThunk : public Thunk { 127 public: 128 ThumbThunk(Symbol &dest, int64_t addend) : Thunk(dest, addend) { 129 alignment = 2; 130 } 131 132 bool getMayUseShortThunk(); 133 uint32_t size() override { return getMayUseShortThunk() ? 4 : sizeLong(); } 134 void writeTo(uint8_t *buf) override; 135 bool isCompatibleWith(const InputSection &isec, 136 const Relocation &rel) const override; 137 138 // Returns the size of a long thunk. 139 virtual uint32_t sizeLong() = 0; 140 141 // Writes a long thunk to Buf. 142 virtual void writeLong(uint8_t *buf) = 0; 143 144 private: 145 // See comment in ARMThunk above. 146 bool mayUseShortThunk = true; 147 }; 148 149 // Specific ARM Thunk implementations. The naming convention is: 150 // Source State, TargetState, Target Requirement, ABS or PI, Range 151 class ARMV7ABSLongThunk final : public ARMThunk { 152 public: 153 ARMV7ABSLongThunk(Symbol &dest, int64_t addend) : ARMThunk(dest, addend) {} 154 155 uint32_t sizeLong() override { return 12; } 156 void writeLong(uint8_t *buf) override; 157 void addSymbols(ThunkSection &isec) override; 158 }; 159 160 class ARMV7PILongThunk final : public ARMThunk { 161 public: 162 ARMV7PILongThunk(Symbol &dest, int64_t addend) : ARMThunk(dest, addend) {} 163 164 uint32_t sizeLong() override { return 16; } 165 void writeLong(uint8_t *buf) override; 166 void addSymbols(ThunkSection &isec) override; 167 }; 168 169 class ThumbV7ABSLongThunk final : public ThumbThunk { 170 public: 171 ThumbV7ABSLongThunk(Symbol &dest, int64_t addend) 172 : ThumbThunk(dest, addend) {} 173 174 uint32_t sizeLong() override { return 10; } 175 void writeLong(uint8_t *buf) override; 176 void addSymbols(ThunkSection &isec) override; 177 }; 178 179 class ThumbV7PILongThunk final : public ThumbThunk { 180 public: 181 ThumbV7PILongThunk(Symbol &dest, int64_t addend) : ThumbThunk(dest, addend) {} 182 183 uint32_t sizeLong() override { return 12; } 184 void writeLong(uint8_t *buf) override; 185 void addSymbols(ThunkSection &isec) override; 186 }; 187 188 // Implementations of Thunks for Arm v6-M. Only Thumb instructions are permitted 189 class ThumbV6MABSLongThunk final : public ThumbThunk { 190 public: 191 ThumbV6MABSLongThunk(Symbol &dest, int64_t addend) 192 : ThumbThunk(dest, addend) {} 193 194 uint32_t sizeLong() override { return 12; } 195 void writeLong(uint8_t *buf) override; 196 void addSymbols(ThunkSection &isec) override; 197 }; 198 199 class ThumbV6MABSXOLongThunk final : public ThumbThunk { 200 public: 201 ThumbV6MABSXOLongThunk(Symbol &dest, int64_t addend) 202 : ThumbThunk(dest, addend) {} 203 204 uint32_t sizeLong() override { return 20; } 205 void writeLong(uint8_t *buf) override; 206 void addSymbols(ThunkSection &isec) override; 207 }; 208 209 class ThumbV6MPILongThunk final : public ThumbThunk { 210 public: 211 ThumbV6MPILongThunk(Symbol &dest, int64_t addend) 212 : ThumbThunk(dest, addend) {} 213 214 uint32_t sizeLong() override { return 16; } 215 void writeLong(uint8_t *buf) override; 216 void addSymbols(ThunkSection &isec) override; 217 }; 218 219 // Architectures v4, v5 and v6 do not support the movt/movw instructions. v5 and 220 // v6 support BLX to which BL instructions can be rewritten inline. There are no 221 // Thumb entrypoints for v5 and v6 as there is no Thumb branch instruction on 222 // these architecture that can result in a thunk. 223 224 // LDR on v5 and v6 can switch processor state, so for v5 and v6, 225 // ARMV5LongLdrPcThunk can be used for both Arm->Arm and Arm->Thumb calls. v4 226 // can also use this thunk, but only for Arm->Arm calls. 227 class ARMV5LongLdrPcThunk final : public ARMThunk { 228 public: 229 ARMV5LongLdrPcThunk(Symbol &dest, int64_t addend) : ARMThunk(dest, addend) {} 230 231 uint32_t sizeLong() override { return 8; } 232 void writeLong(uint8_t *buf) override; 233 void addSymbols(ThunkSection &isec) override; 234 }; 235 236 // Implementations of Thunks for v4. BLX is not supported, and loads 237 // will not invoke Arm/Thumb state changes. 238 class ARMV4PILongBXThunk final : public ARMThunk { 239 public: 240 ARMV4PILongBXThunk(Symbol &dest, int64_t addend) : ARMThunk(dest, addend) {} 241 242 uint32_t sizeLong() override { return 16; } 243 void writeLong(uint8_t *buf) override; 244 void addSymbols(ThunkSection &isec) override; 245 }; 246 247 class ARMV4PILongThunk final : public ARMThunk { 248 public: 249 ARMV4PILongThunk(Symbol &dest, int64_t addend) : ARMThunk(dest, addend) {} 250 251 uint32_t sizeLong() override { return 12; } 252 void writeLong(uint8_t *buf) override; 253 void addSymbols(ThunkSection &isec) override; 254 }; 255 256 class ThumbV4PILongBXThunk final : public ThumbThunk { 257 public: 258 ThumbV4PILongBXThunk(Symbol &dest, int64_t addend) 259 : ThumbThunk(dest, addend) {} 260 261 uint32_t sizeLong() override { return 16; } 262 void writeLong(uint8_t *buf) override; 263 void addSymbols(ThunkSection &isec) override; 264 }; 265 266 class ThumbV4PILongThunk final : public ThumbThunk { 267 public: 268 ThumbV4PILongThunk(Symbol &dest, int64_t addend) 269 : ThumbThunk(dest, addend) {} 270 271 uint32_t sizeLong() override { return 20; } 272 void writeLong(uint8_t *buf) override; 273 void addSymbols(ThunkSection &isec) override; 274 }; 275 276 class ARMV4ABSLongBXThunk final : public ARMThunk { 277 public: 278 ARMV4ABSLongBXThunk(Symbol &dest, int64_t addend) : ARMThunk(dest, addend) {} 279 280 uint32_t sizeLong() override { return 12; } 281 void writeLong(uint8_t *buf) override; 282 void addSymbols(ThunkSection &isec) override; 283 }; 284 285 class ThumbV4ABSLongBXThunk final : public ThumbThunk { 286 public: 287 ThumbV4ABSLongBXThunk(Symbol &dest, int64_t addend) 288 : ThumbThunk(dest, addend) {} 289 290 uint32_t sizeLong() override { return 12; } 291 void writeLong(uint8_t *buf) override; 292 void addSymbols(ThunkSection &isec) override; 293 }; 294 295 class ThumbV4ABSLongThunk final : public ThumbThunk { 296 public: 297 ThumbV4ABSLongThunk(Symbol &dest, int64_t addend) 298 : ThumbThunk(dest, addend) {} 299 300 uint32_t sizeLong() override { return 16; } 301 void writeLong(uint8_t *buf) override; 302 void addSymbols(ThunkSection &isec) override; 303 }; 304 305 // The AVR devices need thunks for R_AVR_LO8_LDI_GS/R_AVR_HI8_LDI_GS 306 // when their destination is out of range [0, 0x1ffff]. 307 class AVRThunk : public Thunk { 308 public: 309 AVRThunk(Symbol &dest, int64_t addend) : Thunk(dest, addend) {} 310 uint32_t size() override { return 4; } 311 void writeTo(uint8_t *buf) override; 312 void addSymbols(ThunkSection &isec) override; 313 }; 314 315 // MIPS LA25 thunk 316 class MipsThunk final : public Thunk { 317 public: 318 MipsThunk(Symbol &dest) : Thunk(dest, 0) {} 319 320 uint32_t size() override { return 16; } 321 void writeTo(uint8_t *buf) override; 322 void addSymbols(ThunkSection &isec) override; 323 InputSection *getTargetInputSection() const override; 324 }; 325 326 // microMIPS R2-R5 LA25 thunk 327 class MicroMipsThunk final : public Thunk { 328 public: 329 MicroMipsThunk(Symbol &dest) : Thunk(dest, 0) {} 330 331 uint32_t size() override { return 14; } 332 void writeTo(uint8_t *buf) override; 333 void addSymbols(ThunkSection &isec) override; 334 InputSection *getTargetInputSection() const override; 335 }; 336 337 // microMIPS R6 LA25 thunk 338 class MicroMipsR6Thunk final : public Thunk { 339 public: 340 MicroMipsR6Thunk(Symbol &dest) : Thunk(dest, 0) {} 341 342 uint32_t size() override { return 12; } 343 void writeTo(uint8_t *buf) override; 344 void addSymbols(ThunkSection &isec) override; 345 InputSection *getTargetInputSection() const override; 346 }; 347 348 class PPC32PltCallStub final : public Thunk { 349 public: 350 // For R_PPC_PLTREL24, Thunk::addend records the addend which will be used to 351 // decide the offsets in the call stub. 352 PPC32PltCallStub(const InputSection &isec, const Relocation &rel, 353 Symbol &dest) 354 : Thunk(dest, rel.addend), file(isec.file) {} 355 uint32_t size() override { return 16; } 356 void writeTo(uint8_t *buf) override; 357 void addSymbols(ThunkSection &isec) override; 358 bool isCompatibleWith(const InputSection &isec, const Relocation &rel) const override; 359 360 private: 361 // Records the call site of the call stub. 362 const InputFile *file; 363 }; 364 365 class PPC32LongThunk final : public Thunk { 366 public: 367 PPC32LongThunk(Symbol &dest, int64_t addend) : Thunk(dest, addend) {} 368 uint32_t size() override { return config->isPic ? 32 : 16; } 369 void writeTo(uint8_t *buf) override; 370 void addSymbols(ThunkSection &isec) override; 371 }; 372 373 // PPC64 Plt call stubs. 374 // Any call site that needs to call through a plt entry needs a call stub in 375 // the .text section. The call stub is responsible for: 376 // 1) Saving the toc-pointer to the stack. 377 // 2) Loading the target functions address from the procedure linkage table into 378 // r12 for use by the target functions global entry point, and into the count 379 // register. 380 // 3) Transferring control to the target function through an indirect branch. 381 class PPC64PltCallStub final : public Thunk { 382 public: 383 PPC64PltCallStub(Symbol &dest) : Thunk(dest, 0) {} 384 uint32_t size() override { return 20; } 385 void writeTo(uint8_t *buf) override; 386 void addSymbols(ThunkSection &isec) override; 387 bool isCompatibleWith(const InputSection &isec, 388 const Relocation &rel) const override; 389 }; 390 391 // PPC64 R2 Save Stub 392 // When the caller requires a valid R2 TOC pointer but the callee does not 393 // require a TOC pointer and the callee cannot guarantee that it doesn't 394 // clobber R2 then we need to save R2. This stub: 395 // 1) Saves the TOC pointer to the stack. 396 // 2) Tail calls the callee. 397 class PPC64R2SaveStub final : public Thunk { 398 public: 399 PPC64R2SaveStub(Symbol &dest, int64_t addend) : Thunk(dest, addend) { 400 alignment = 16; 401 } 402 403 // To prevent oscillations in layout when moving from short to long thunks 404 // we make sure that once a thunk has been set to long it cannot go back. 405 bool getMayUseShortThunk() { 406 if (!mayUseShortThunk) 407 return false; 408 if (!isInt<26>(computeOffset())) { 409 mayUseShortThunk = false; 410 return false; 411 } 412 return true; 413 } 414 uint32_t size() override { return getMayUseShortThunk() ? 8 : 32; } 415 void writeTo(uint8_t *buf) override; 416 void addSymbols(ThunkSection &isec) override; 417 bool isCompatibleWith(const InputSection &isec, 418 const Relocation &rel) const override; 419 420 private: 421 // Transitioning from long to short can create layout oscillations in 422 // certain corner cases which would prevent the layout from converging. 423 // This is similar to the handling for ARMThunk. 424 bool mayUseShortThunk = true; 425 int64_t computeOffset() const { 426 return destination.getVA() - (getThunkTargetSym()->getVA() + 4); 427 } 428 }; 429 430 // PPC64 R12 Setup Stub 431 // When a caller that does not maintain TOC calls a target which may possibly 432 // use TOC (either non-preemptible with localentry>1 or preemptible), we need to 433 // set r12 to satisfy the requirement of the global entry point. 434 class PPC64R12SetupStub final : public Thunk { 435 public: 436 PPC64R12SetupStub(Symbol &dest, bool gotPlt) 437 : Thunk(dest, 0), gotPlt(gotPlt) { 438 alignment = 16; 439 } 440 uint32_t size() override { return 32; } 441 void writeTo(uint8_t *buf) override; 442 void addSymbols(ThunkSection &isec) override; 443 bool isCompatibleWith(const InputSection &isec, 444 const Relocation &rel) const override; 445 446 private: 447 bool gotPlt; 448 }; 449 450 // A bl instruction uses a signed 24 bit offset, with an implicit 4 byte 451 // alignment. This gives a possible 26 bits of 'reach'. If the call offset is 452 // larger than that we need to emit a long-branch thunk. The target address 453 // of the callee is stored in a table to be accessed TOC-relative. Since the 454 // call must be local (a non-local call will have a PltCallStub instead) the 455 // table stores the address of the callee's local entry point. For 456 // position-independent code a corresponding relative dynamic relocation is 457 // used. 458 class PPC64LongBranchThunk : public Thunk { 459 public: 460 uint32_t size() override { return 32; } 461 void writeTo(uint8_t *buf) override; 462 void addSymbols(ThunkSection &isec) override; 463 bool isCompatibleWith(const InputSection &isec, 464 const Relocation &rel) const override; 465 466 protected: 467 PPC64LongBranchThunk(Symbol &dest, int64_t addend) : Thunk(dest, addend) {} 468 }; 469 470 class PPC64PILongBranchThunk final : public PPC64LongBranchThunk { 471 public: 472 PPC64PILongBranchThunk(Symbol &dest, int64_t addend) 473 : PPC64LongBranchThunk(dest, addend) { 474 assert(!dest.isPreemptible); 475 if (std::optional<uint32_t> index = 476 in.ppc64LongBranchTarget->addEntry(&dest, addend)) { 477 mainPart->relaDyn->addRelativeReloc( 478 target->relativeRel, *in.ppc64LongBranchTarget, *index * UINT64_C(8), 479 dest, addend + getPPC64GlobalEntryToLocalEntryOffset(dest.stOther), 480 target->symbolicRel, R_ABS); 481 } 482 } 483 }; 484 485 class PPC64PDLongBranchThunk final : public PPC64LongBranchThunk { 486 public: 487 PPC64PDLongBranchThunk(Symbol &dest, int64_t addend) 488 : PPC64LongBranchThunk(dest, addend) { 489 in.ppc64LongBranchTarget->addEntry(&dest, addend); 490 } 491 }; 492 493 } // end anonymous namespace 494 495 Defined *Thunk::addSymbol(StringRef name, uint8_t type, uint64_t value, 496 InputSectionBase §ion) { 497 Defined *d = addSyntheticLocal(name, type, value, /*size=*/0, section); 498 syms.push_back(d); 499 return d; 500 } 501 502 void Thunk::setOffset(uint64_t newOffset) { 503 for (Defined *d : syms) 504 d->value = d->value - offset + newOffset; 505 offset = newOffset; 506 } 507 508 // AArch64 Thunk base class. 509 static uint64_t getAArch64ThunkDestVA(const Symbol &s, int64_t a) { 510 uint64_t v = s.isInPlt() ? s.getPltVA() : s.getVA(a); 511 return v; 512 } 513 514 bool AArch64Thunk::getMayUseShortThunk() { 515 if (!mayUseShortThunk) 516 return false; 517 uint64_t s = getAArch64ThunkDestVA(destination, addend); 518 uint64_t p = getThunkTargetSym()->getVA(); 519 mayUseShortThunk = llvm::isInt<28>(s - p); 520 return mayUseShortThunk; 521 } 522 523 void AArch64Thunk::writeTo(uint8_t *buf) { 524 if (!getMayUseShortThunk()) { 525 writeLong(buf); 526 return; 527 } 528 uint64_t s = getAArch64ThunkDestVA(destination, addend); 529 uint64_t p = getThunkTargetSym()->getVA(); 530 write32(buf, 0x14000000); // b S 531 target->relocateNoSym(buf, R_AARCH64_CALL26, s - p); 532 } 533 534 // AArch64 long range Thunks. 535 void AArch64ABSLongThunk::writeLong(uint8_t *buf) { 536 const uint8_t data[] = { 537 0x50, 0x00, 0x00, 0x58, // ldr x16, L0 538 0x00, 0x02, 0x1f, 0xd6, // br x16 539 0x00, 0x00, 0x00, 0x00, // L0: .xword S 540 0x00, 0x00, 0x00, 0x00, 541 }; 542 uint64_t s = getAArch64ThunkDestVA(destination, addend); 543 memcpy(buf, data, sizeof(data)); 544 target->relocateNoSym(buf + 8, R_AARCH64_ABS64, s); 545 } 546 547 void AArch64ABSLongThunk::addSymbols(ThunkSection &isec) { 548 addSymbol(saver().save("__AArch64AbsLongThunk_" + destination.getName()), 549 STT_FUNC, 0, isec); 550 addSymbol("$x", STT_NOTYPE, 0, isec); 551 if (!getMayUseShortThunk()) 552 addSymbol("$d", STT_NOTYPE, 8, isec); 553 } 554 555 // This Thunk has a maximum range of 4Gb, this is sufficient for all programs 556 // using the small code model, including pc-relative ones. At time of writing 557 // clang and gcc do not support the large code model for position independent 558 // code so it is safe to use this for position independent thunks without 559 // worrying about the destination being more than 4Gb away. 560 void AArch64ADRPThunk::writeLong(uint8_t *buf) { 561 const uint8_t data[] = { 562 0x10, 0x00, 0x00, 0x90, // adrp x16, Dest R_AARCH64_ADR_PREL_PG_HI21(Dest) 563 0x10, 0x02, 0x00, 0x91, // add x16, x16, R_AARCH64_ADD_ABS_LO12_NC(Dest) 564 0x00, 0x02, 0x1f, 0xd6, // br x16 565 }; 566 uint64_t s = getAArch64ThunkDestVA(destination, addend); 567 uint64_t p = getThunkTargetSym()->getVA(); 568 memcpy(buf, data, sizeof(data)); 569 target->relocateNoSym(buf, R_AARCH64_ADR_PREL_PG_HI21, 570 getAArch64Page(s) - getAArch64Page(p)); 571 target->relocateNoSym(buf + 4, R_AARCH64_ADD_ABS_LO12_NC, s); 572 } 573 574 void AArch64ADRPThunk::addSymbols(ThunkSection &isec) { 575 addSymbol(saver().save("__AArch64ADRPThunk_" + destination.getName()), 576 STT_FUNC, 0, isec); 577 addSymbol("$x", STT_NOTYPE, 0, isec); 578 } 579 580 // ARM Target Thunks 581 static uint64_t getARMThunkDestVA(const Symbol &s) { 582 uint64_t v = s.isInPlt() ? s.getPltVA() : s.getVA(); 583 return SignExtend64<32>(v); 584 } 585 586 // This function returns true if the target is not Thumb and is within 2^26, and 587 // it has not previously returned false (see comment for mayUseShortThunk). 588 bool ARMThunk::getMayUseShortThunk() { 589 if (!mayUseShortThunk) 590 return false; 591 uint64_t s = getARMThunkDestVA(destination); 592 if (s & 1) { 593 mayUseShortThunk = false; 594 return false; 595 } 596 uint64_t p = getThunkTargetSym()->getVA(); 597 int64_t offset = s - p - 8; 598 mayUseShortThunk = llvm::isInt<26>(offset); 599 return mayUseShortThunk; 600 } 601 602 void ARMThunk::writeTo(uint8_t *buf) { 603 if (!getMayUseShortThunk()) { 604 writeLong(buf); 605 return; 606 } 607 608 uint64_t s = getARMThunkDestVA(destination); 609 uint64_t p = getThunkTargetSym()->getVA(); 610 int64_t offset = s - p - 8; 611 write32(buf, 0xea000000); // b S 612 target->relocateNoSym(buf, R_ARM_JUMP24, offset); 613 } 614 615 bool ARMThunk::isCompatibleWith(const InputSection &isec, 616 const Relocation &rel) const { 617 // v4T does not have BLX, so also deny R_ARM_THM_CALL 618 if (!config->armHasBlx && rel.type == R_ARM_THM_CALL) 619 return false; 620 621 // Thumb branch relocations can't use BLX 622 return rel.type != R_ARM_THM_JUMP19 && rel.type != R_ARM_THM_JUMP24; 623 } 624 625 // This function returns true if: 626 // the target is Thumb 627 // && is within branch range 628 // && this function has not previously returned false 629 // (see comment for mayUseShortThunk) 630 // && the arch supports Thumb branch range extension. 631 bool ThumbThunk::getMayUseShortThunk() { 632 if (!mayUseShortThunk || !config->armJ1J2BranchEncoding) 633 return false; 634 uint64_t s = getARMThunkDestVA(destination); 635 if ((s & 1) == 0) { 636 mayUseShortThunk = false; 637 return false; 638 } 639 uint64_t p = getThunkTargetSym()->getVA() & ~1; 640 int64_t offset = s - p - 4; 641 mayUseShortThunk = llvm::isInt<25>(offset); 642 return mayUseShortThunk; 643 } 644 645 void ThumbThunk::writeTo(uint8_t *buf) { 646 if (!getMayUseShortThunk()) { 647 writeLong(buf); 648 return; 649 } 650 651 uint64_t s = getARMThunkDestVA(destination); 652 uint64_t p = getThunkTargetSym()->getVA(); 653 int64_t offset = s - p - 4; 654 write16(buf + 0, 0xf000); // b.w S 655 write16(buf + 2, 0xb000); 656 target->relocateNoSym(buf, R_ARM_THM_JUMP24, offset); 657 } 658 659 bool ThumbThunk::isCompatibleWith(const InputSection &isec, 660 const Relocation &rel) const { 661 // v4T does not have BLX, so also deny R_ARM_CALL 662 if (!config->armHasBlx && rel.type == R_ARM_CALL) 663 return false; 664 665 // ARM branch relocations can't use BLX 666 return rel.type != R_ARM_JUMP24 && rel.type != R_ARM_PC24 && rel.type != R_ARM_PLT32; 667 } 668 669 void ARMV7ABSLongThunk::writeLong(uint8_t *buf) { 670 write32(buf + 0, 0xe300c000); // movw ip,:lower16:S 671 write32(buf + 4, 0xe340c000); // movt ip,:upper16:S 672 write32(buf + 8, 0xe12fff1c); // bx ip 673 uint64_t s = getARMThunkDestVA(destination); 674 target->relocateNoSym(buf, R_ARM_MOVW_ABS_NC, s); 675 target->relocateNoSym(buf + 4, R_ARM_MOVT_ABS, s); 676 } 677 678 void ARMV7ABSLongThunk::addSymbols(ThunkSection &isec) { 679 addSymbol(saver().save("__ARMv7ABSLongThunk_" + destination.getName()), 680 STT_FUNC, 0, isec); 681 addSymbol("$a", STT_NOTYPE, 0, isec); 682 } 683 684 void ThumbV7ABSLongThunk::writeLong(uint8_t *buf) { 685 write16(buf + 0, 0xf240); // movw ip, :lower16:S 686 write16(buf + 2, 0x0c00); 687 write16(buf + 4, 0xf2c0); // movt ip, :upper16:S 688 write16(buf + 6, 0x0c00); 689 write16(buf + 8, 0x4760); // bx ip 690 uint64_t s = getARMThunkDestVA(destination); 691 target->relocateNoSym(buf, R_ARM_THM_MOVW_ABS_NC, s); 692 target->relocateNoSym(buf + 4, R_ARM_THM_MOVT_ABS, s); 693 } 694 695 void ThumbV7ABSLongThunk::addSymbols(ThunkSection &isec) { 696 addSymbol(saver().save("__Thumbv7ABSLongThunk_" + destination.getName()), 697 STT_FUNC, 1, isec); 698 addSymbol("$t", STT_NOTYPE, 0, isec); 699 } 700 701 void ARMV7PILongThunk::writeLong(uint8_t *buf) { 702 write32(buf + 0, 0xe30fcff0); // P: movw ip,:lower16:S - (P + (L1-P) + 8) 703 write32(buf + 4, 0xe340c000); // movt ip,:upper16:S - (P + (L1-P) + 8) 704 write32(buf + 8, 0xe08cc00f); // L1: add ip, ip, pc 705 write32(buf + 12, 0xe12fff1c); // bx ip 706 uint64_t s = getARMThunkDestVA(destination); 707 uint64_t p = getThunkTargetSym()->getVA(); 708 int64_t offset = s - p - 16; 709 target->relocateNoSym(buf, R_ARM_MOVW_PREL_NC, offset); 710 target->relocateNoSym(buf + 4, R_ARM_MOVT_PREL, offset); 711 } 712 713 void ARMV7PILongThunk::addSymbols(ThunkSection &isec) { 714 addSymbol(saver().save("__ARMV7PILongThunk_" + destination.getName()), 715 STT_FUNC, 0, isec); 716 addSymbol("$a", STT_NOTYPE, 0, isec); 717 } 718 719 void ThumbV7PILongThunk::writeLong(uint8_t *buf) { 720 write16(buf + 0, 0xf64f); // P: movw ip,:lower16:S - (P + (L1-P) + 4) 721 write16(buf + 2, 0x7cf4); 722 write16(buf + 4, 0xf2c0); // movt ip,:upper16:S - (P + (L1-P) + 4) 723 write16(buf + 6, 0x0c00); 724 write16(buf + 8, 0x44fc); // L1: add ip, pc 725 write16(buf + 10, 0x4760); // bx ip 726 uint64_t s = getARMThunkDestVA(destination); 727 uint64_t p = getThunkTargetSym()->getVA() & ~0x1; 728 int64_t offset = s - p - 12; 729 target->relocateNoSym(buf, R_ARM_THM_MOVW_PREL_NC, offset); 730 target->relocateNoSym(buf + 4, R_ARM_THM_MOVT_PREL, offset); 731 } 732 733 void ThumbV7PILongThunk::addSymbols(ThunkSection &isec) { 734 addSymbol(saver().save("__ThumbV7PILongThunk_" + destination.getName()), 735 STT_FUNC, 1, isec); 736 addSymbol("$t", STT_NOTYPE, 0, isec); 737 } 738 739 void ThumbV6MABSLongThunk::writeLong(uint8_t *buf) { 740 // Most Thumb instructions cannot access the high registers r8 - r15. As the 741 // only register we can corrupt is r12 we must instead spill a low register 742 // to the stack to use as a scratch register. We push r1 even though we 743 // don't need to get some space to use for the return address. 744 write16(buf + 0, 0xb403); // push {r0, r1} ; Obtain scratch registers 745 write16(buf + 2, 0x4801); // ldr r0, [pc, #4] ; L1 746 write16(buf + 4, 0x9001); // str r0, [sp, #4] ; SP + 4 = S 747 write16(buf + 6, 0xbd01); // pop {r0, pc} ; restore r0 and branch to dest 748 write32(buf + 8, 0x00000000); // L1: .word S 749 uint64_t s = getARMThunkDestVA(destination); 750 target->relocateNoSym(buf + 8, R_ARM_ABS32, s); 751 } 752 753 void ThumbV6MABSLongThunk::addSymbols(ThunkSection &isec) { 754 addSymbol(saver().save("__Thumbv6MABSLongThunk_" + destination.getName()), 755 STT_FUNC, 1, isec); 756 addSymbol("$t", STT_NOTYPE, 0, isec); 757 if (!getMayUseShortThunk()) 758 addSymbol("$d", STT_NOTYPE, 8, isec); 759 } 760 761 void ThumbV6MABSXOLongThunk::writeLong(uint8_t *buf) { 762 // Most Thumb instructions cannot access the high registers r8 - r15. As the 763 // only register we can corrupt is r12 we must instead spill a low register 764 // to the stack to use as a scratch register. We push r1 even though we 765 // don't need to get some space to use for the return address. 766 write16(buf + 0, 0xb403); // push {r0, r1} ; Obtain scratch registers 767 write16(buf + 2, 0x2000); // movs r0, :upper8_15:S 768 write16(buf + 4, 0x0200); // lsls r0, r0, #8 769 write16(buf + 6, 0x3000); // adds r0, :upper0_7:S 770 write16(buf + 8, 0x0200); // lsls r0, r0, #8 771 write16(buf + 10, 0x3000); // adds r0, :lower8_15:S 772 write16(buf + 12, 0x0200); // lsls r0, r0, #8 773 write16(buf + 14, 0x3000); // adds r0, :lower0_7:S 774 write16(buf + 16, 0x9001); // str r0, [sp, #4] ; SP + 4 = S 775 write16(buf + 18, 0xbd01); // pop {r0, pc} ; restore r0 and branch to dest 776 uint64_t s = getARMThunkDestVA(destination); 777 target->relocateNoSym(buf + 2, R_ARM_THM_ALU_ABS_G3, s); 778 target->relocateNoSym(buf + 6, R_ARM_THM_ALU_ABS_G2_NC, s); 779 target->relocateNoSym(buf + 10, R_ARM_THM_ALU_ABS_G1_NC, s); 780 target->relocateNoSym(buf + 14, R_ARM_THM_ALU_ABS_G0_NC, s); 781 } 782 783 void ThumbV6MABSXOLongThunk::addSymbols(ThunkSection &isec) { 784 addSymbol(saver().save("__Thumbv6MABSXOLongThunk_" + destination.getName()), 785 STT_FUNC, 1, isec); 786 addSymbol("$t", STT_NOTYPE, 0, isec); 787 } 788 789 void ThumbV6MPILongThunk::writeLong(uint8_t *buf) { 790 // Most Thumb instructions cannot access the high registers r8 - r15. As the 791 // only register we can corrupt is ip (r12) we must instead spill a low 792 // register to the stack to use as a scratch register. 793 write16(buf + 0, 0xb401); // P: push {r0} ; Obtain scratch register 794 write16(buf + 2, 0x4802); // ldr r0, [pc, #8] ; L2 795 write16(buf + 4, 0x4684); // mov ip, r0 ; high to low register 796 write16(buf + 6, 0xbc01); // pop {r0} ; restore scratch register 797 write16(buf + 8, 0x44e7); // L1: add pc, ip ; transfer control 798 write16(buf + 10, 0x46c0); // nop ; pad to 4-byte boundary 799 write32(buf + 12, 0x00000000); // L2: .word S - (P + (L1 - P) + 4) 800 uint64_t s = getARMThunkDestVA(destination); 801 uint64_t p = getThunkTargetSym()->getVA() & ~0x1; 802 target->relocateNoSym(buf + 12, R_ARM_REL32, s - p - 12); 803 } 804 805 void ThumbV6MPILongThunk::addSymbols(ThunkSection &isec) { 806 addSymbol(saver().save("__Thumbv6MPILongThunk_" + destination.getName()), 807 STT_FUNC, 1, isec); 808 addSymbol("$t", STT_NOTYPE, 0, isec); 809 if (!getMayUseShortThunk()) 810 addSymbol("$d", STT_NOTYPE, 12, isec); 811 } 812 813 void ARMV5LongLdrPcThunk::writeLong(uint8_t *buf) { 814 write32(buf + 0, 0xe51ff004); // ldr pc, [pc,#-4] ; L1 815 write32(buf + 4, 0x00000000); // L1: .word S 816 target->relocateNoSym(buf + 4, R_ARM_ABS32, getARMThunkDestVA(destination)); 817 } 818 819 void ARMV5LongLdrPcThunk::addSymbols(ThunkSection &isec) { 820 addSymbol(saver().save("__ARMv5LongLdrPcThunk_" + destination.getName()), 821 STT_FUNC, 0, isec); 822 addSymbol("$a", STT_NOTYPE, 0, isec); 823 if (!getMayUseShortThunk()) 824 addSymbol("$d", STT_NOTYPE, 4, isec); 825 } 826 827 void ARMV4ABSLongBXThunk::writeLong(uint8_t *buf) { 828 write32(buf + 0, 0xe59fc000); // ldr r12, [pc] ; L1 829 write32(buf + 4, 0xe12fff1c); // bx r12 830 write32(buf + 8, 0x00000000); // L1: .word S 831 target->relocateNoSym(buf + 8, R_ARM_ABS32, getARMThunkDestVA(destination)); 832 } 833 834 void ARMV4ABSLongBXThunk::addSymbols(ThunkSection &isec) { 835 addSymbol(saver().save("__ARMv4ABSLongBXThunk_" + destination.getName()), 836 STT_FUNC, 0, isec); 837 addSymbol("$a", STT_NOTYPE, 0, isec); 838 if (!getMayUseShortThunk()) 839 addSymbol("$d", STT_NOTYPE, 8, isec); 840 } 841 842 void ThumbV4ABSLongBXThunk::writeLong(uint8_t *buf) { 843 write16(buf + 0, 0x4778); // bx pc 844 write16(buf + 2, 0xe7fd); // b #-6 ; Arm recommended sequence to follow bx pc 845 write32(buf + 4, 0xe51ff004); // ldr pc, [pc, #-4] ; L1 846 write32(buf + 8, 0x00000000); // L1: .word S 847 target->relocateNoSym(buf + 8, R_ARM_ABS32, getARMThunkDestVA(destination)); 848 } 849 850 void ThumbV4ABSLongBXThunk::addSymbols(ThunkSection &isec) { 851 addSymbol(saver().save("__Thumbv4ABSLongBXThunk_" + destination.getName()), 852 STT_FUNC, 1, isec); 853 addSymbol("$t", STT_NOTYPE, 0, isec); 854 addSymbol("$a", STT_NOTYPE, 4, isec); 855 if (!getMayUseShortThunk()) 856 addSymbol("$d", STT_NOTYPE, 8, isec); 857 } 858 859 void ThumbV4ABSLongThunk::writeLong(uint8_t *buf) { 860 write16(buf + 0, 0x4778); // bx pc 861 write16(buf + 2, 0xe7fd); // b #-6 ; Arm recommended sequence to follow bx pc 862 write32(buf + 4, 0xe59fc000); // ldr r12, [pc] ; L1 863 write32(buf + 8, 0xe12fff1c); // bx r12 864 write32(buf + 12, 0x00000000); // L1: .word S 865 target->relocateNoSym(buf + 12, R_ARM_ABS32, getARMThunkDestVA(destination)); 866 } 867 868 void ThumbV4ABSLongThunk::addSymbols(ThunkSection &isec) { 869 addSymbol(saver().save("__Thumbv4ABSLongThunk_" + destination.getName()), 870 STT_FUNC, 1, isec); 871 addSymbol("$t", STT_NOTYPE, 0, isec); 872 addSymbol("$a", STT_NOTYPE, 4, isec); 873 if (!getMayUseShortThunk()) 874 addSymbol("$d", STT_NOTYPE, 12, isec); 875 } 876 877 void ARMV4PILongBXThunk::writeLong(uint8_t *buf) { 878 write32(buf + 0, 0xe59fc004); // P: ldr ip, [pc,#4] ; L2 879 write32(buf + 4, 0xe08fc00c); // L1: add ip, pc, ip 880 write32(buf + 8, 0xe12fff1c); // bx ip 881 write32(buf + 12, 0x00000000); // L2: .word S - (P + (L1 - P) + 8) 882 uint64_t s = getARMThunkDestVA(destination); 883 uint64_t p = getThunkTargetSym()->getVA() & ~0x1; 884 target->relocateNoSym(buf + 12, R_ARM_REL32, s - p - 12); 885 } 886 887 void ARMV4PILongBXThunk::addSymbols(ThunkSection &isec) { 888 addSymbol(saver().save("__ARMv4PILongBXThunk_" + destination.getName()), 889 STT_FUNC, 0, isec); 890 addSymbol("$a", STT_NOTYPE, 0, isec); 891 if (!getMayUseShortThunk()) 892 addSymbol("$d", STT_NOTYPE, 12, isec); 893 } 894 895 void ARMV4PILongThunk::writeLong(uint8_t *buf) { 896 write32(buf + 0, 0xe59fc000); // P: ldr ip, [pc] ; L2 897 write32(buf + 4, 0xe08ff00c); // L1: add pc, pc, r12 898 write32(buf + 8, 0x00000000); // L2: .word S - (P + (L1 - P) + 8) 899 uint64_t s = getARMThunkDestVA(destination); 900 uint64_t p = getThunkTargetSym()->getVA() & ~0x1; 901 target->relocateNoSym(buf + 8, R_ARM_REL32, s - p - 12); 902 } 903 904 void ARMV4PILongThunk::addSymbols(ThunkSection &isec) { 905 addSymbol(saver().save("__ARMv4PILongThunk_" + destination.getName()), 906 STT_FUNC, 0, isec); 907 addSymbol("$a", STT_NOTYPE, 0, isec); 908 if (!getMayUseShortThunk()) 909 addSymbol("$d", STT_NOTYPE, 8, isec); 910 } 911 912 void ThumbV4PILongBXThunk::writeLong(uint8_t *buf) { 913 write16(buf + 0, 0x4778); // P: bx pc 914 write16(buf + 2, 0xe7fd); // b #-6 ; Arm recommended sequence to follow bx pc 915 write32(buf + 4, 0xe59fc000); // ldr r12, [pc] ; L2 916 write32(buf + 8, 0xe08cf00f); // L1: add pc, r12, pc 917 write32(buf + 12, 0x00000000); // L2: .word S - (P + (L1 - P) + 8) 918 uint64_t s = getARMThunkDestVA(destination); 919 uint64_t p = getThunkTargetSym()->getVA() & ~0x1; 920 target->relocateNoSym(buf + 12, R_ARM_REL32, s - p - 16); 921 } 922 923 void ThumbV4PILongBXThunk::addSymbols(ThunkSection &isec) { 924 addSymbol(saver().save("__Thumbv4PILongBXThunk_" + destination.getName()), 925 STT_FUNC, 1, isec); 926 addSymbol("$t", STT_NOTYPE, 0, isec); 927 addSymbol("$a", STT_NOTYPE, 4, isec); 928 if (!getMayUseShortThunk()) 929 addSymbol("$d", STT_NOTYPE, 12, isec); 930 } 931 932 void ThumbV4PILongThunk::writeLong(uint8_t *buf) { 933 write16(buf + 0, 0x4778); // P: bx pc 934 write16(buf + 2, 0xe7fd); // b #-6 ; Arm recommended sequence to follow bx pc 935 write32(buf + 4, 0xe59fc004); // ldr ip, [pc,#4] ; L2 936 write32(buf + 8, 0xe08fc00c); // L1: add ip, pc, ip 937 write32(buf + 12, 0xe12fff1c); // bx ip 938 write32(buf + 16, 0x00000000); // L2: .word S - (P + (L1 - P) + 8) 939 uint64_t s = getARMThunkDestVA(destination); 940 uint64_t p = getThunkTargetSym()->getVA() & ~0x1; 941 target->relocateNoSym(buf + 16, R_ARM_REL32, s - p - 16); 942 } 943 944 void ThumbV4PILongThunk::addSymbols(ThunkSection &isec) { 945 addSymbol(saver().save("__Thumbv4PILongThunk_" + destination.getName()), 946 STT_FUNC, 1, isec); 947 addSymbol("$t", STT_NOTYPE, 0, isec); 948 addSymbol("$a", STT_NOTYPE, 4, isec); 949 if (!getMayUseShortThunk()) 950 addSymbol("$d", STT_NOTYPE, 16, isec); 951 } 952 953 // Use the long jump which covers a range up to 8MiB. 954 void AVRThunk::writeTo(uint8_t *buf) { 955 write32(buf, 0x940c); // jmp func 956 target->relocateNoSym(buf, R_AVR_CALL, destination.getVA()); 957 } 958 959 void AVRThunk::addSymbols(ThunkSection &isec) { 960 addSymbol(saver().save("__AVRThunk_" + destination.getName()), STT_FUNC, 0, 961 isec); 962 } 963 964 // Write MIPS LA25 thunk code to call PIC function from the non-PIC one. 965 void MipsThunk::writeTo(uint8_t *buf) { 966 uint64_t s = destination.getVA(); 967 write32(buf, 0x3c190000); // lui $25, %hi(func) 968 write32(buf + 4, 0x08000000 | (s >> 2)); // j func 969 write32(buf + 8, 0x27390000); // addiu $25, $25, %lo(func) 970 write32(buf + 12, 0x00000000); // nop 971 target->relocateNoSym(buf, R_MIPS_HI16, s); 972 target->relocateNoSym(buf + 8, R_MIPS_LO16, s); 973 } 974 975 void MipsThunk::addSymbols(ThunkSection &isec) { 976 addSymbol(saver().save("__LA25Thunk_" + destination.getName()), STT_FUNC, 0, 977 isec); 978 } 979 980 InputSection *MipsThunk::getTargetInputSection() const { 981 auto &dr = cast<Defined>(destination); 982 return dyn_cast<InputSection>(dr.section); 983 } 984 985 // Write microMIPS R2-R5 LA25 thunk code 986 // to call PIC function from the non-PIC one. 987 void MicroMipsThunk::writeTo(uint8_t *buf) { 988 uint64_t s = destination.getVA(); 989 write16(buf, 0x41b9); // lui $25, %hi(func) 990 write16(buf + 4, 0xd400); // j func 991 write16(buf + 8, 0x3339); // addiu $25, $25, %lo(func) 992 write16(buf + 12, 0x0c00); // nop 993 target->relocateNoSym(buf, R_MICROMIPS_HI16, s); 994 target->relocateNoSym(buf + 4, R_MICROMIPS_26_S1, s); 995 target->relocateNoSym(buf + 8, R_MICROMIPS_LO16, s); 996 } 997 998 void MicroMipsThunk::addSymbols(ThunkSection &isec) { 999 Defined *d = 1000 addSymbol(saver().save("__microLA25Thunk_" + destination.getName()), 1001 STT_FUNC, 0, isec); 1002 d->stOther |= STO_MIPS_MICROMIPS; 1003 } 1004 1005 InputSection *MicroMipsThunk::getTargetInputSection() const { 1006 auto &dr = cast<Defined>(destination); 1007 return dyn_cast<InputSection>(dr.section); 1008 } 1009 1010 // Write microMIPS R6 LA25 thunk code 1011 // to call PIC function from the non-PIC one. 1012 void MicroMipsR6Thunk::writeTo(uint8_t *buf) { 1013 uint64_t s = destination.getVA(); 1014 uint64_t p = getThunkTargetSym()->getVA(); 1015 write16(buf, 0x1320); // lui $25, %hi(func) 1016 write16(buf + 4, 0x3339); // addiu $25, $25, %lo(func) 1017 write16(buf + 8, 0x9400); // bc func 1018 target->relocateNoSym(buf, R_MICROMIPS_HI16, s); 1019 target->relocateNoSym(buf + 4, R_MICROMIPS_LO16, s); 1020 target->relocateNoSym(buf + 8, R_MICROMIPS_PC26_S1, s - p - 12); 1021 } 1022 1023 void MicroMipsR6Thunk::addSymbols(ThunkSection &isec) { 1024 Defined *d = 1025 addSymbol(saver().save("__microLA25Thunk_" + destination.getName()), 1026 STT_FUNC, 0, isec); 1027 d->stOther |= STO_MIPS_MICROMIPS; 1028 } 1029 1030 InputSection *MicroMipsR6Thunk::getTargetInputSection() const { 1031 auto &dr = cast<Defined>(destination); 1032 return dyn_cast<InputSection>(dr.section); 1033 } 1034 1035 void elf::writePPC32PltCallStub(uint8_t *buf, uint64_t gotPltVA, 1036 const InputFile *file, int64_t addend) { 1037 if (!config->isPic) { 1038 write32(buf + 0, 0x3d600000 | (gotPltVA + 0x8000) >> 16); // lis r11,ha 1039 write32(buf + 4, 0x816b0000 | (uint16_t)gotPltVA); // lwz r11,l(r11) 1040 write32(buf + 8, 0x7d6903a6); // mtctr r11 1041 write32(buf + 12, 0x4e800420); // bctr 1042 return; 1043 } 1044 uint32_t offset; 1045 if (addend >= 0x8000) { 1046 // The stub loads an address relative to r30 (.got2+Addend). Addend is 1047 // almost always 0x8000. The address of .got2 is different in another object 1048 // file, so a stub cannot be shared. 1049 offset = gotPltVA - 1050 (in.ppc32Got2->getParent()->getVA() + 1051 (file->ppc32Got2 ? file->ppc32Got2->outSecOff : 0) + addend); 1052 } else { 1053 // The stub loads an address relative to _GLOBAL_OFFSET_TABLE_ (which is 1054 // currently the address of .got). 1055 offset = gotPltVA - in.got->getVA(); 1056 } 1057 uint16_t ha = (offset + 0x8000) >> 16, l = (uint16_t)offset; 1058 if (ha == 0) { 1059 write32(buf + 0, 0x817e0000 | l); // lwz r11,l(r30) 1060 write32(buf + 4, 0x7d6903a6); // mtctr r11 1061 write32(buf + 8, 0x4e800420); // bctr 1062 write32(buf + 12, 0x60000000); // nop 1063 } else { 1064 write32(buf + 0, 0x3d7e0000 | ha); // addis r11,r30,ha 1065 write32(buf + 4, 0x816b0000 | l); // lwz r11,l(r11) 1066 write32(buf + 8, 0x7d6903a6); // mtctr r11 1067 write32(buf + 12, 0x4e800420); // bctr 1068 } 1069 } 1070 1071 void PPC32PltCallStub::writeTo(uint8_t *buf) { 1072 writePPC32PltCallStub(buf, destination.getGotPltVA(), file, addend); 1073 } 1074 1075 void PPC32PltCallStub::addSymbols(ThunkSection &isec) { 1076 std::string buf; 1077 raw_string_ostream os(buf); 1078 os << format_hex_no_prefix(addend, 8); 1079 if (!config->isPic) 1080 os << ".plt_call32."; 1081 else if (addend >= 0x8000) 1082 os << ".got2.plt_pic32."; 1083 else 1084 os << ".plt_pic32."; 1085 os << destination.getName(); 1086 addSymbol(saver().save(os.str()), STT_FUNC, 0, isec); 1087 } 1088 1089 bool PPC32PltCallStub::isCompatibleWith(const InputSection &isec, 1090 const Relocation &rel) const { 1091 return !config->isPic || (isec.file == file && rel.addend == addend); 1092 } 1093 1094 void PPC32LongThunk::addSymbols(ThunkSection &isec) { 1095 addSymbol(saver().save("__LongThunk_" + destination.getName()), STT_FUNC, 0, 1096 isec); 1097 } 1098 1099 void PPC32LongThunk::writeTo(uint8_t *buf) { 1100 auto ha = [](uint32_t v) -> uint16_t { return (v + 0x8000) >> 16; }; 1101 auto lo = [](uint32_t v) -> uint16_t { return v; }; 1102 uint32_t d = destination.getVA(addend); 1103 if (config->isPic) { 1104 uint32_t off = d - (getThunkTargetSym()->getVA() + 8); 1105 write32(buf + 0, 0x7c0802a6); // mflr r12,0 1106 write32(buf + 4, 0x429f0005); // bcl r20,r31,.+4 1107 write32(buf + 8, 0x7d8802a6); // mtctr r12 1108 write32(buf + 12, 0x3d8c0000 | ha(off)); // addis r12,r12,off@ha 1109 write32(buf + 16, 0x398c0000 | lo(off)); // addi r12,r12,off@l 1110 write32(buf + 20, 0x7c0803a6); // mtlr r0 1111 buf += 24; 1112 } else { 1113 write32(buf + 0, 0x3d800000 | ha(d)); // lis r12,d@ha 1114 write32(buf + 4, 0x398c0000 | lo(d)); // addi r12,r12,d@l 1115 buf += 8; 1116 } 1117 write32(buf + 0, 0x7d8903a6); // mtctr r12 1118 write32(buf + 4, 0x4e800420); // bctr 1119 } 1120 1121 void elf::writePPC64LoadAndBranch(uint8_t *buf, int64_t offset) { 1122 uint16_t offHa = (offset + 0x8000) >> 16; 1123 uint16_t offLo = offset & 0xffff; 1124 1125 write32(buf + 0, 0x3d820000 | offHa); // addis r12, r2, OffHa 1126 write32(buf + 4, 0xe98c0000 | offLo); // ld r12, OffLo(r12) 1127 write32(buf + 8, 0x7d8903a6); // mtctr r12 1128 write32(buf + 12, 0x4e800420); // bctr 1129 } 1130 1131 void PPC64PltCallStub::writeTo(uint8_t *buf) { 1132 int64_t offset = destination.getGotPltVA() - getPPC64TocBase(); 1133 // Save the TOC pointer to the save-slot reserved in the call frame. 1134 write32(buf + 0, 0xf8410018); // std r2,24(r1) 1135 writePPC64LoadAndBranch(buf + 4, offset); 1136 } 1137 1138 void PPC64PltCallStub::addSymbols(ThunkSection &isec) { 1139 Defined *s = addSymbol(saver().save("__plt_" + destination.getName()), 1140 STT_FUNC, 0, isec); 1141 s->setNeedsTocRestore(true); 1142 s->file = destination.file; 1143 } 1144 1145 bool PPC64PltCallStub::isCompatibleWith(const InputSection &isec, 1146 const Relocation &rel) const { 1147 return rel.type == R_PPC64_REL24 || rel.type == R_PPC64_REL14; 1148 } 1149 1150 void PPC64R2SaveStub::writeTo(uint8_t *buf) { 1151 const int64_t offset = computeOffset(); 1152 write32(buf + 0, 0xf8410018); // std r2,24(r1) 1153 // The branch offset needs to fit in 26 bits. 1154 if (getMayUseShortThunk()) { 1155 write32(buf + 4, 0x48000000 | (offset & 0x03fffffc)); // b <offset> 1156 } else if (isInt<34>(offset)) { 1157 int nextInstOffset; 1158 uint64_t tocOffset = destination.getVA() - getPPC64TocBase(); 1159 if (tocOffset >> 16 > 0) { 1160 const uint64_t addi = ADDI_R12_TO_R12_NO_DISP | (tocOffset & 0xffff); 1161 const uint64_t addis = 1162 ADDIS_R12_TO_R2_NO_DISP | ((tocOffset >> 16) & 0xffff); 1163 write32(buf + 4, addis); // addis r12, r2 , top of offset 1164 write32(buf + 8, addi); // addi r12, r12, bottom of offset 1165 nextInstOffset = 12; 1166 } else { 1167 const uint64_t addi = ADDI_R12_TO_R2_NO_DISP | (tocOffset & 0xffff); 1168 write32(buf + 4, addi); // addi r12, r2, offset 1169 nextInstOffset = 8; 1170 } 1171 write32(buf + nextInstOffset, MTCTR_R12); // mtctr r12 1172 write32(buf + nextInstOffset + 4, BCTR); // bctr 1173 } else { 1174 in.ppc64LongBranchTarget->addEntry(&destination, addend); 1175 const int64_t offsetFromTOC = 1176 in.ppc64LongBranchTarget->getEntryVA(&destination, addend) - 1177 getPPC64TocBase(); 1178 writePPC64LoadAndBranch(buf + 4, offsetFromTOC); 1179 } 1180 } 1181 1182 void PPC64R2SaveStub::addSymbols(ThunkSection &isec) { 1183 Defined *s = addSymbol(saver().save("__toc_save_" + destination.getName()), 1184 STT_FUNC, 0, isec); 1185 s->setNeedsTocRestore(true); 1186 } 1187 1188 bool PPC64R2SaveStub::isCompatibleWith(const InputSection &isec, 1189 const Relocation &rel) const { 1190 return rel.type == R_PPC64_REL24 || rel.type == R_PPC64_REL14; 1191 } 1192 1193 void PPC64R12SetupStub::writeTo(uint8_t *buf) { 1194 int64_t offset = (gotPlt ? destination.getGotPltVA() : destination.getVA()) - 1195 getThunkTargetSym()->getVA(); 1196 if (!isInt<34>(offset)) 1197 reportRangeError(buf, offset, 34, destination, "R12 setup stub offset"); 1198 1199 int nextInstOffset; 1200 if (config->power10Stubs) { 1201 const uint64_t imm = (((offset >> 16) & 0x3ffff) << 32) | (offset & 0xffff); 1202 // pld 12, func@plt@pcrel or paddi r12, 0, func@pcrel 1203 writePrefixedInstruction( 1204 buf, (gotPlt ? PLD_R12_NO_DISP : PADDI_R12_NO_DISP) | imm); 1205 nextInstOffset = 8; 1206 } else { 1207 uint32_t off = offset - 8; 1208 write32(buf + 0, 0x7d8802a6); // mflr 12 1209 write32(buf + 4, 0x429f0005); // bcl 20,31,.+4 1210 write32(buf + 8, 0x7d6802a6); // mflr 11 1211 write32(buf + 12, 0x7d8803a6); // mtlr 12 1212 write32(buf + 16, 1213 0x3d8b0000 | ((off + 0x8000) >> 16)); // addis 12,11,off@ha 1214 if (gotPlt) 1215 write32(buf + 20, 0xe98c0000 | (off & 0xffff)); // ld 12, off@l(12) 1216 else 1217 write32(buf + 20, 0x398c0000 | (off & 0xffff)); // addi 12,12,off@l 1218 nextInstOffset = 24; 1219 } 1220 write32(buf + nextInstOffset, MTCTR_R12); // mtctr r12 1221 write32(buf + nextInstOffset + 4, BCTR); // bctr 1222 } 1223 1224 void PPC64R12SetupStub::addSymbols(ThunkSection &isec) { 1225 addSymbol(saver().save((gotPlt ? "__plt_pcrel_" : "__gep_setup_") + 1226 destination.getName()), 1227 STT_FUNC, 0, isec); 1228 } 1229 1230 bool PPC64R12SetupStub::isCompatibleWith(const InputSection &isec, 1231 const Relocation &rel) const { 1232 return rel.type == R_PPC64_REL24_NOTOC; 1233 } 1234 1235 void PPC64LongBranchThunk::writeTo(uint8_t *buf) { 1236 int64_t offset = in.ppc64LongBranchTarget->getEntryVA(&destination, addend) - 1237 getPPC64TocBase(); 1238 writePPC64LoadAndBranch(buf, offset); 1239 } 1240 1241 void PPC64LongBranchThunk::addSymbols(ThunkSection &isec) { 1242 addSymbol(saver().save("__long_branch_" + destination.getName()), STT_FUNC, 0, 1243 isec); 1244 } 1245 1246 bool PPC64LongBranchThunk::isCompatibleWith(const InputSection &isec, 1247 const Relocation &rel) const { 1248 return rel.type == R_PPC64_REL24 || rel.type == R_PPC64_REL14; 1249 } 1250 1251 Thunk::Thunk(Symbol &d, int64_t a) : destination(d), addend(a), offset(0) { 1252 destination.thunkAccessed = true; 1253 } 1254 1255 Thunk::~Thunk() = default; 1256 1257 static Thunk *addThunkAArch64(RelType type, Symbol &s, int64_t a) { 1258 if (type != R_AARCH64_CALL26 && type != R_AARCH64_JUMP26 && 1259 type != R_AARCH64_PLT32) 1260 fatal("unrecognized relocation type"); 1261 if (config->picThunk) 1262 return make<AArch64ADRPThunk>(s, a); 1263 return make<AArch64ABSLongThunk>(s, a); 1264 } 1265 1266 // Creates a thunk for long branches or Thumb-ARM interworking. 1267 // Arm Architectures v4t does not support Thumb2 technology, and does not 1268 // support BLX or LDR Arm/Thumb state switching. This means that 1269 // - MOVT and MOVW instructions cannot be used. 1270 // - We can't rewrite BL in place to BLX. We will need thunks. 1271 // 1272 // TODO: use B for short Thumb->Arm thunks instead of LDR (this doesn't work for 1273 // Arm->Thumb, as in Arm state no BX PC trick; it doesn't switch state). 1274 static Thunk *addThunkArmv4(RelType reloc, Symbol &s, int64_t a) { 1275 bool thumb_target = s.getVA(a) & 1; 1276 1277 switch (reloc) { 1278 case R_ARM_PC24: 1279 case R_ARM_PLT32: 1280 case R_ARM_JUMP24: 1281 case R_ARM_CALL: 1282 if (config->picThunk) { 1283 if (thumb_target) 1284 return make<ARMV4PILongBXThunk>(s, a); 1285 return make<ARMV4PILongThunk>(s, a); 1286 } 1287 if (thumb_target) 1288 return make<ARMV4ABSLongBXThunk>(s, a); 1289 return make<ARMV5LongLdrPcThunk>(s, a); 1290 case R_ARM_THM_CALL: 1291 if (config->picThunk) { 1292 if (thumb_target) 1293 return make<ThumbV4PILongThunk>(s, a); 1294 return make<ThumbV4PILongBXThunk>(s, a); 1295 } 1296 if (thumb_target) 1297 return make<ThumbV4ABSLongThunk>(s, a); 1298 return make<ThumbV4ABSLongBXThunk>(s, a); 1299 } 1300 fatal("relocation " + toString(reloc) + " to " + toString(s) + 1301 " not supported for Armv4 or Armv4T target"); 1302 } 1303 1304 // Creates a thunk for Thumb-ARM interworking compatible with Armv5 and Armv6. 1305 // Arm Architectures v5 and v6 do not support Thumb2 technology. This means that 1306 // - MOVT and MOVW instructions cannot be used 1307 // - Only Thumb relocation that can generate a Thunk is a BL, this can always 1308 // be transformed into a BLX 1309 static Thunk *addThunkArmv5v6(RelType reloc, Symbol &s, int64_t a) { 1310 switch (reloc) { 1311 case R_ARM_PC24: 1312 case R_ARM_PLT32: 1313 case R_ARM_JUMP24: 1314 case R_ARM_CALL: 1315 case R_ARM_THM_CALL: 1316 if (config->picThunk) 1317 return make<ARMV4PILongBXThunk>(s, a); 1318 return make<ARMV5LongLdrPcThunk>(s, a); 1319 } 1320 fatal("relocation " + toString(reloc) + " to " + toString(s) + 1321 " not supported for Armv5 or Armv6 targets"); 1322 } 1323 1324 // Create a thunk for Thumb long branch on V6-M. 1325 // Arm Architecture v6-M only supports Thumb instructions. This means 1326 // - MOVT and MOVW instructions cannot be used. 1327 // - Only a limited number of instructions can access registers r8 and above 1328 // - No interworking support is needed (all Thumb). 1329 static Thunk *addThunkV6M(const InputSection &isec, RelType reloc, Symbol &s, 1330 int64_t a) { 1331 const bool isPureCode = isec.getParent()->flags & SHF_ARM_PURECODE; 1332 switch (reloc) { 1333 case R_ARM_THM_JUMP19: 1334 case R_ARM_THM_JUMP24: 1335 case R_ARM_THM_CALL: 1336 if (config->isPic) { 1337 if (!isPureCode) 1338 return make<ThumbV6MPILongThunk>(s, a); 1339 1340 fatal("relocation " + toString(reloc) + " to " + toString(s) + 1341 " not supported for Armv6-M targets for position independant" 1342 " and execute only code"); 1343 } 1344 if (isPureCode) 1345 return make<ThumbV6MABSXOLongThunk>(s, a); 1346 return make<ThumbV6MABSLongThunk>(s, a); 1347 } 1348 fatal("relocation " + toString(reloc) + " to " + toString(s) + 1349 " not supported for Armv6-M targets"); 1350 } 1351 1352 // Creates a thunk for Thumb-ARM interworking or branch range extension. 1353 static Thunk *addThunkArm(const InputSection &isec, RelType reloc, Symbol &s, 1354 int64_t a) { 1355 // Decide which Thunk is needed based on: 1356 // Available instruction set 1357 // - An Arm Thunk can only be used if Arm state is available. 1358 // - A Thumb Thunk can only be used if Thumb state is available. 1359 // - Can only use a Thunk if it uses instructions that the Target supports. 1360 // Relocation is branch or branch and link 1361 // - Branch instructions cannot change state, can only select Thunk that 1362 // starts in the same state as the caller. 1363 // - Branch and link relocations can change state, can select Thunks from 1364 // either Arm or Thumb. 1365 // Position independent Thunks if we require position independent code. 1366 // Execute Only Thunks if the output section is execute only code. 1367 1368 // Handle architectures that have restrictions on the instructions that they 1369 // can use in Thunks. The flags below are set by reading the BuildAttributes 1370 // of the input objects. InputFiles.cpp contains the mapping from ARM 1371 // architecture to flag. 1372 if (!config->armHasMovtMovw) { 1373 if (config->armJ1J2BranchEncoding) 1374 return addThunkV6M(isec, reloc, s, a); 1375 if (config->armHasBlx) 1376 return addThunkArmv5v6(reloc, s, a); 1377 return addThunkArmv4(reloc, s, a); 1378 } 1379 1380 switch (reloc) { 1381 case R_ARM_PC24: 1382 case R_ARM_PLT32: 1383 case R_ARM_JUMP24: 1384 case R_ARM_CALL: 1385 if (config->picThunk) 1386 return make<ARMV7PILongThunk>(s, a); 1387 return make<ARMV7ABSLongThunk>(s, a); 1388 case R_ARM_THM_JUMP19: 1389 case R_ARM_THM_JUMP24: 1390 case R_ARM_THM_CALL: 1391 if (config->picThunk) 1392 return make<ThumbV7PILongThunk>(s, a); 1393 return make<ThumbV7ABSLongThunk>(s, a); 1394 } 1395 fatal("unrecognized relocation type"); 1396 } 1397 1398 static Thunk *addThunkAVR(RelType type, Symbol &s, int64_t a) { 1399 switch (type) { 1400 case R_AVR_LO8_LDI_GS: 1401 case R_AVR_HI8_LDI_GS: 1402 return make<AVRThunk>(s, a); 1403 default: 1404 fatal("unrecognized relocation type " + toString(type)); 1405 } 1406 } 1407 1408 static Thunk *addThunkMips(RelType type, Symbol &s) { 1409 if ((s.stOther & STO_MIPS_MICROMIPS) && isMipsR6()) 1410 return make<MicroMipsR6Thunk>(s); 1411 if (s.stOther & STO_MIPS_MICROMIPS) 1412 return make<MicroMipsThunk>(s); 1413 return make<MipsThunk>(s); 1414 } 1415 1416 static Thunk *addThunkPPC32(const InputSection &isec, const Relocation &rel, 1417 Symbol &s) { 1418 assert((rel.type == R_PPC_LOCAL24PC || rel.type == R_PPC_REL24 || 1419 rel.type == R_PPC_PLTREL24) && 1420 "unexpected relocation type for thunk"); 1421 if (s.isInPlt()) 1422 return make<PPC32PltCallStub>(isec, rel, s); 1423 return make<PPC32LongThunk>(s, rel.addend); 1424 } 1425 1426 static Thunk *addThunkPPC64(RelType type, Symbol &s, int64_t a) { 1427 assert((type == R_PPC64_REL14 || type == R_PPC64_REL24 || 1428 type == R_PPC64_REL24_NOTOC) && 1429 "unexpected relocation type for thunk"); 1430 1431 // If we are emitting stubs for NOTOC relocations, we need to tell 1432 // the PLT resolver that there can be multiple TOCs. 1433 if (type == R_PPC64_REL24_NOTOC) 1434 getPPC64TargetInfo()->ppc64DynamicSectionOpt = 0x2; 1435 1436 if (s.isInPlt()) 1437 return type == R_PPC64_REL24_NOTOC 1438 ? (Thunk *)make<PPC64R12SetupStub>(s, /*gotPlt=*/true) 1439 : (Thunk *)make<PPC64PltCallStub>(s); 1440 1441 // This check looks at the st_other bits of the callee. If the value is 1 1442 // then the callee clobbers the TOC and we need an R2 save stub when RelType 1443 // is R_PPC64_REL14 or R_PPC64_REL24. 1444 if ((type == R_PPC64_REL14 || type == R_PPC64_REL24) && (s.stOther >> 5) == 1) 1445 return make<PPC64R2SaveStub>(s, a); 1446 1447 if (type == R_PPC64_REL24_NOTOC) 1448 return make<PPC64R12SetupStub>(s, /*gotPlt=*/false); 1449 1450 if (config->picThunk) 1451 return make<PPC64PILongBranchThunk>(s, a); 1452 1453 return make<PPC64PDLongBranchThunk>(s, a); 1454 } 1455 1456 Thunk *elf::addThunk(const InputSection &isec, Relocation &rel) { 1457 Symbol &s = *rel.sym; 1458 int64_t a = rel.addend; 1459 1460 switch (config->emachine) { 1461 case EM_AARCH64: 1462 return addThunkAArch64(rel.type, s, a); 1463 case EM_ARM: 1464 return addThunkArm(isec, rel.type, s, a); 1465 case EM_AVR: 1466 return addThunkAVR(rel.type, s, a); 1467 case EM_MIPS: 1468 return addThunkMips(rel.type, s); 1469 case EM_PPC: 1470 return addThunkPPC32(isec, rel, s); 1471 case EM_PPC64: 1472 return addThunkPPC64(rel.type, s, a); 1473 default: 1474 llvm_unreachable("add Thunk only supported for ARM, AVR, Mips and PowerPC"); 1475 } 1476 } 1477