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Rafael Espindola01205f72015-09-22 18:19:46 +00001//===- Target.cpp ---------------------------------------------------------===//
2//
3// The LLVM Linker
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
Rui Ueyama34f29242015-10-13 19:51:57 +00009//
Rui Ueyama66072272015-10-15 19:52:27 +000010// Machine-specific things, such as applying relocations, creation of
11// GOT or PLT entries, etc., are handled in this file.
12//
Nico Weberd08aa5c2016-08-24 16:36:41 +000013// Refer the ELF spec for the single letter variables, S, A or P, used
Rafael Espindola22ef9562016-04-13 01:40:19 +000014// in this file.
Rui Ueyama34f29242015-10-13 19:51:57 +000015//
Rui Ueyama55274e32016-04-23 01:10:15 +000016// Some functions defined in this file has "relaxTls" as part of their names.
17// They do peephole optimization for TLS variables by rewriting instructions.
18// They are not part of the ABI but optional optimization, so you can skip
19// them if you are not interested in how TLS variables are optimized.
20// See the following paper for the details.
21//
22// Ulrich Drepper, ELF Handling For Thread-Local Storage
23// http://www.akkadia.org/drepper/tls.pdf
24//
Rui Ueyama34f29242015-10-13 19:51:57 +000025//===----------------------------------------------------------------------===//
Rafael Espindola01205f72015-09-22 18:19:46 +000026
27#include "Target.h"
Rafael Espindolac4010882015-09-22 20:54:08 +000028#include "Error.h"
Simon Atanasyan13f6da12016-03-31 21:26:23 +000029#include "InputFiles.h"
Rui Ueyamaaf21d922015-10-08 20:06:07 +000030#include "OutputSections.h"
Rafael Espindola3ef3a4c2015-09-29 23:22:16 +000031#include "Symbols.h"
Eugene Leviant41ca3272016-11-10 09:48:29 +000032#include "SyntheticSections.h"
Peter Smithfb05cd92016-07-08 16:10:27 +000033#include "Thunks.h"
Simon Atanasyan9e0297b2016-11-05 22:58:01 +000034#include "Writer.h"
Rafael Espindola01205f72015-09-22 18:19:46 +000035
36#include "llvm/ADT/ArrayRef.h"
Rafael Espindolac4010882015-09-22 20:54:08 +000037#include "llvm/Object/ELF.h"
Rafael Espindola01205f72015-09-22 18:19:46 +000038#include "llvm/Support/Endian.h"
39#include "llvm/Support/ELF.h"
40
41using namespace llvm;
Rafael Espindolac4010882015-09-22 20:54:08 +000042using namespace llvm::object;
Rafael Espindola0872ea32015-09-24 14:16:02 +000043using namespace llvm::support::endian;
Rafael Espindola01205f72015-09-22 18:19:46 +000044using namespace llvm::ELF;
45
46namespace lld {
Rafael Espindolae0df00b2016-02-28 00:25:54 +000047namespace elf {
Rafael Espindola01205f72015-09-22 18:19:46 +000048
Rui Ueyamac1c282a2016-02-11 21:18:01 +000049TargetInfo *Target;
Rafael Espindola01205f72015-09-22 18:19:46 +000050
Rafael Espindolae7e57b22015-11-09 21:43:00 +000051static void or32le(uint8_t *P, int32_t V) { write32le(P, read32le(P) | V); }
Rui Ueyama7fd5c84f2016-11-01 18:30:26 +000052static void or32be(uint8_t *P, int32_t V) { write32be(P, read32be(P) | V); }
Rui Ueyamaefc23de2015-10-14 21:30:32 +000053
Rui Ueyama3fc0f7e2016-11-23 18:07:33 +000054std::string toString(uint32_t Type) {
Rui Ueyama12ebff22016-06-07 18:10:12 +000055 return getELFRelocationTypeName(Config->EMachine, Type);
56}
57
Igor Kudrin9b7e7db2015-11-26 09:49:44 +000058template <unsigned N> static void checkInt(int64_t V, uint32_t Type) {
Rui Ueyamabebf4892016-06-16 23:28:03 +000059 if (!isInt<N>(V))
Rui Ueyama3fc0f7e2016-11-23 18:07:33 +000060 error("relocation " + toString(Type) + " out of range");
Igor Kudrin9b7e7db2015-11-26 09:49:44 +000061}
62
63template <unsigned N> static void checkUInt(uint64_t V, uint32_t Type) {
Rui Ueyamabebf4892016-06-16 23:28:03 +000064 if (!isUInt<N>(V))
Rui Ueyama3fc0f7e2016-11-23 18:07:33 +000065 error("relocation " + toString(Type) + " out of range");
Igor Kudrin9b7e7db2015-11-26 09:49:44 +000066}
67
Igor Kudrinfea8ed52015-11-26 10:05:24 +000068template <unsigned N> static void checkIntUInt(uint64_t V, uint32_t Type) {
Rui Ueyamabebf4892016-06-16 23:28:03 +000069 if (!isInt<N>(V) && !isUInt<N>(V))
Rui Ueyama3fc0f7e2016-11-23 18:07:33 +000070 error("relocation " + toString(Type) + " out of range");
Igor Kudrinfea8ed52015-11-26 10:05:24 +000071}
72
Igor Kudrin9b7e7db2015-11-26 09:49:44 +000073template <unsigned N> static void checkAlignment(uint64_t V, uint32_t Type) {
Rui Ueyamabebf4892016-06-16 23:28:03 +000074 if ((V & (N - 1)) != 0)
Rui Ueyama3fc0f7e2016-11-23 18:07:33 +000075 error("improper alignment for relocation " + toString(Type));
Igor Kudrin9b7e7db2015-11-26 09:49:44 +000076}
77
Rui Ueyamaefc23de2015-10-14 21:30:32 +000078namespace {
79class X86TargetInfo final : public TargetInfo {
80public:
81 X86TargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +000082 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Rafael Espindola666625b2016-04-01 14:36:09 +000083 uint64_t getImplicitAddend(const uint8_t *Buf, uint32_t Type) const override;
Rui Ueyamac516ae12016-01-29 02:33:45 +000084 void writeGotPltHeader(uint8_t *Buf) const override;
George Rimar98b060d2016-03-06 06:01:07 +000085 uint32_t getDynRel(uint32_t Type) const override;
George Rimar98b060d2016-03-06 06:01:07 +000086 bool isTlsLocalDynamicRel(uint32_t Type) const override;
87 bool isTlsGlobalDynamicRel(uint32_t Type) const override;
88 bool isTlsInitialExecRel(uint32_t Type) const override;
Rui Ueyamac9fee5f2016-06-16 16:14:50 +000089 void writeGotPlt(uint8_t *Buf, const SymbolBody &S) const override;
Rui Ueyama4a90f572016-06-16 16:28:50 +000090 void writePltHeader(uint8_t *Buf) const override;
Rui Ueyama9398f862016-01-29 04:15:02 +000091 void writePlt(uint8_t *Buf, uint64_t GotEntryAddr, uint64_t PltEntryAddr,
92 int32_t Index, unsigned RelOff) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +000093 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rafael Espindola89cc14f2016-03-16 19:03:58 +000094
Rafael Espindola69f54022016-06-04 23:22:34 +000095 RelExpr adjustRelaxExpr(uint32_t Type, const uint8_t *Data,
96 RelExpr Expr) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +000097 void relaxTlsGdToIe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
98 void relaxTlsGdToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
99 void relaxTlsIeToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
100 void relaxTlsLdToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000101};
102
Rui Ueyama46626e12016-07-12 23:28:31 +0000103template <class ELFT> class X86_64TargetInfo final : public TargetInfo {
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000104public:
105 X86_64TargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000106 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Eugene Leviantab024a32016-11-25 08:56:36 +0000107 bool isPicRel(uint32_t Type) const override;
George Rimar98b060d2016-03-06 06:01:07 +0000108 bool isTlsLocalDynamicRel(uint32_t Type) const override;
109 bool isTlsGlobalDynamicRel(uint32_t Type) const override;
110 bool isTlsInitialExecRel(uint32_t Type) const override;
Rui Ueyamac516ae12016-01-29 02:33:45 +0000111 void writeGotPltHeader(uint8_t *Buf) const override;
Rui Ueyamac9fee5f2016-06-16 16:14:50 +0000112 void writeGotPlt(uint8_t *Buf, const SymbolBody &S) const override;
Rui Ueyama4a90f572016-06-16 16:28:50 +0000113 void writePltHeader(uint8_t *Buf) const override;
Rui Ueyama9398f862016-01-29 04:15:02 +0000114 void writePlt(uint8_t *Buf, uint64_t GotEntryAddr, uint64_t PltEntryAddr,
115 int32_t Index, unsigned RelOff) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000116 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
George Rimar6713cf82015-11-25 21:46:05 +0000117
Rafael Espindola5c66b822016-06-04 22:58:54 +0000118 RelExpr adjustRelaxExpr(uint32_t Type, const uint8_t *Data,
119 RelExpr Expr) const override;
George Rimar5c33b912016-05-25 14:31:37 +0000120 void relaxGot(uint8_t *Loc, uint64_t Val) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000121 void relaxTlsGdToIe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
122 void relaxTlsGdToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
123 void relaxTlsIeToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
124 void relaxTlsLdToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
George Rimarb7204302016-06-02 09:22:00 +0000125
126private:
127 void relaxGotNoPic(uint8_t *Loc, uint64_t Val, uint8_t Op,
128 uint8_t ModRm) const;
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000129};
130
Davide Italiano8c3444362016-01-11 19:45:33 +0000131class PPCTargetInfo final : public TargetInfo {
132public:
133 PPCTargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000134 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000135 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Davide Italiano8c3444362016-01-11 19:45:33 +0000136};
137
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000138class PPC64TargetInfo final : public TargetInfo {
139public:
140 PPC64TargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000141 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Rui Ueyama9398f862016-01-29 04:15:02 +0000142 void writePlt(uint8_t *Buf, uint64_t GotEntryAddr, uint64_t PltEntryAddr,
143 int32_t Index, unsigned RelOff) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000144 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000145};
146
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000147class AArch64TargetInfo final : public TargetInfo {
148public:
149 AArch64TargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000150 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Eugene Leviantab024a32016-11-25 08:56:36 +0000151 bool isPicRel(uint32_t Type) const override;
George Rimar98b060d2016-03-06 06:01:07 +0000152 bool isTlsInitialExecRel(uint32_t Type) const override;
Rui Ueyamac9fee5f2016-06-16 16:14:50 +0000153 void writeGotPlt(uint8_t *Buf, const SymbolBody &S) const override;
Rui Ueyama4a90f572016-06-16 16:28:50 +0000154 void writePltHeader(uint8_t *Buf) const override;
Rui Ueyama9398f862016-01-29 04:15:02 +0000155 void writePlt(uint8_t *Buf, uint64_t GotEntryAddr, uint64_t PltEntryAddr,
156 int32_t Index, unsigned RelOff) const override;
Rafael Espindolab8ff59a2016-04-28 14:34:39 +0000157 bool usesOnlyLowPageBits(uint32_t Type) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000158 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rafael Espindolae1979ae2016-06-04 23:33:31 +0000159 RelExpr adjustRelaxExpr(uint32_t Type, const uint8_t *Data,
160 RelExpr Expr) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000161 void relaxTlsGdToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rafael Espindolae1979ae2016-06-04 23:33:31 +0000162 void relaxTlsGdToIe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000163 void relaxTlsIeToLe(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000164};
165
Tom Stellard80efb162016-01-07 03:59:08 +0000166class AMDGPUTargetInfo final : public TargetInfo {
167public:
Tom Stellard391e3a82016-07-04 19:19:07 +0000168 AMDGPUTargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000169 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
170 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Tom Stellard80efb162016-01-07 03:59:08 +0000171};
172
Peter Smith8646ced2016-06-07 09:31:52 +0000173class ARMTargetInfo final : public TargetInfo {
174public:
175 ARMTargetInfo();
176 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Eugene Leviantab024a32016-11-25 08:56:36 +0000177 bool isPicRel(uint32_t Type) const override;
Peter Smith8646ced2016-06-07 09:31:52 +0000178 uint32_t getDynRel(uint32_t Type) const override;
179 uint64_t getImplicitAddend(const uint8_t *Buf, uint32_t Type) const override;
Peter Smith441cf5d2016-07-20 14:56:26 +0000180 bool isTlsLocalDynamicRel(uint32_t Type) const override;
Peter Smith9d450252016-07-20 08:52:27 +0000181 bool isTlsGlobalDynamicRel(uint32_t Type) const override;
182 bool isTlsInitialExecRel(uint32_t Type) const override;
Rui Ueyamac9fee5f2016-06-16 16:14:50 +0000183 void writeGotPlt(uint8_t *Buf, const SymbolBody &S) const override;
Rui Ueyama4a90f572016-06-16 16:28:50 +0000184 void writePltHeader(uint8_t *Buf) const override;
Peter Smith8646ced2016-06-07 09:31:52 +0000185 void writePlt(uint8_t *Buf, uint64_t GotEntryAddr, uint64_t PltEntryAddr,
186 int32_t Index, unsigned RelOff) const override;
George Rimara4c7e742016-10-20 08:36:42 +0000187 RelExpr getThunkExpr(RelExpr Expr, uint32_t RelocType, const InputFile &File,
Peter Smithfb05cd92016-07-08 16:10:27 +0000188 const SymbolBody &S) const override;
Peter Smith8646ced2016-06-07 09:31:52 +0000189 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
190};
191
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000192template <class ELFT> class MipsTargetInfo final : public TargetInfo {
193public:
194 MipsTargetInfo();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000195 RelExpr getRelExpr(uint32_t Type, const SymbolBody &S) const override;
Rafael Espindola666625b2016-04-01 14:36:09 +0000196 uint64_t getImplicitAddend(const uint8_t *Buf, uint32_t Type) const override;
Eugene Leviantab024a32016-11-25 08:56:36 +0000197 bool isPicRel(uint32_t Type) const override;
George Rimar98b060d2016-03-06 06:01:07 +0000198 uint32_t getDynRel(uint32_t Type) const override;
Simon Atanasyan002e2442016-06-23 15:26:31 +0000199 bool isTlsLocalDynamicRel(uint32_t Type) const override;
200 bool isTlsGlobalDynamicRel(uint32_t Type) const override;
Rui Ueyamac9fee5f2016-06-16 16:14:50 +0000201 void writeGotPlt(uint8_t *Buf, const SymbolBody &S) const override;
Rui Ueyama4a90f572016-06-16 16:28:50 +0000202 void writePltHeader(uint8_t *Buf) const override;
Simon Atanasyan2287dc32016-02-10 19:57:19 +0000203 void writePlt(uint8_t *Buf, uint64_t GotEntryAddr, uint64_t PltEntryAddr,
204 int32_t Index, unsigned RelOff) const override;
George Rimara4c7e742016-10-20 08:36:42 +0000205 RelExpr getThunkExpr(RelExpr Expr, uint32_t RelocType, const InputFile &File,
Peter Smithfb05cd92016-07-08 16:10:27 +0000206 const SymbolBody &S) const override;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000207 void relocateOne(uint8_t *Loc, uint32_t Type, uint64_t Val) const override;
Rafael Espindolab8ff59a2016-04-28 14:34:39 +0000208 bool usesOnlyLowPageBits(uint32_t Type) const override;
Rui Ueyamaefc23de2015-10-14 21:30:32 +0000209};
210} // anonymous namespace
211
Rui Ueyama91004392015-10-13 16:08:15 +0000212TargetInfo *createTarget() {
213 switch (Config->EMachine) {
214 case EM_386:
Rui Ueyama6c509902016-08-03 20:15:56 +0000215 case EM_IAMCU:
Rui Ueyama91004392015-10-13 16:08:15 +0000216 return new X86TargetInfo();
217 case EM_AARCH64:
218 return new AArch64TargetInfo();
Tom Stellard80efb162016-01-07 03:59:08 +0000219 case EM_AMDGPU:
220 return new AMDGPUTargetInfo();
Peter Smith8646ced2016-06-07 09:31:52 +0000221 case EM_ARM:
222 return new ARMTargetInfo();
Rui Ueyama91004392015-10-13 16:08:15 +0000223 case EM_MIPS:
Simon Atanasyan9c2d7882015-10-14 14:24:46 +0000224 switch (Config->EKind) {
225 case ELF32LEKind:
226 return new MipsTargetInfo<ELF32LE>();
227 case ELF32BEKind:
228 return new MipsTargetInfo<ELF32BE>();
Simon Atanasyanae77ab72016-04-29 10:39:17 +0000229 case ELF64LEKind:
230 return new MipsTargetInfo<ELF64LE>();
231 case ELF64BEKind:
232 return new MipsTargetInfo<ELF64BE>();
Simon Atanasyan9c2d7882015-10-14 14:24:46 +0000233 default:
George Rimar777f9632016-03-12 08:31:34 +0000234 fatal("unsupported MIPS target");
Simon Atanasyan9c2d7882015-10-14 14:24:46 +0000235 }
Davide Italiano8c3444362016-01-11 19:45:33 +0000236 case EM_PPC:
237 return new PPCTargetInfo();
Rui Ueyama91004392015-10-13 16:08:15 +0000238 case EM_PPC64:
239 return new PPC64TargetInfo();
240 case EM_X86_64:
Rui Ueyama46626e12016-07-12 23:28:31 +0000241 if (Config->EKind == ELF32LEKind)
242 return new X86_64TargetInfo<ELF32LE>();
243 return new X86_64TargetInfo<ELF64LE>();
Rui Ueyama91004392015-10-13 16:08:15 +0000244 }
George Rimar777f9632016-03-12 08:31:34 +0000245 fatal("unknown target machine");
Rui Ueyama91004392015-10-13 16:08:15 +0000246}
247
Rafael Espindola01205f72015-09-22 18:19:46 +0000248TargetInfo::~TargetInfo() {}
249
Rafael Espindola666625b2016-04-01 14:36:09 +0000250uint64_t TargetInfo::getImplicitAddend(const uint8_t *Buf,
251 uint32_t Type) const {
Rafael Espindolada99df32016-03-30 12:40:38 +0000252 return 0;
253}
254
Rafael Espindolab8ff59a2016-04-28 14:34:39 +0000255bool TargetInfo::usesOnlyLowPageBits(uint32_t Type) const { return false; }
George Rimar48651482015-12-11 08:59:37 +0000256
Peter Smithfb05cd92016-07-08 16:10:27 +0000257RelExpr TargetInfo::getThunkExpr(RelExpr Expr, uint32_t RelocType,
258 const InputFile &File,
259 const SymbolBody &S) const {
260 return Expr;
Simon Atanasyan13f6da12016-03-31 21:26:23 +0000261}
262
George Rimar98b060d2016-03-06 06:01:07 +0000263bool TargetInfo::isTlsInitialExecRel(uint32_t Type) const { return false; }
Rafael Espindolad405f472016-03-04 21:37:09 +0000264
George Rimar98b060d2016-03-06 06:01:07 +0000265bool TargetInfo::isTlsLocalDynamicRel(uint32_t Type) const { return false; }
Rafael Espindolad405f472016-03-04 21:37:09 +0000266
George Rimara4c7e742016-10-20 08:36:42 +0000267bool TargetInfo::isTlsGlobalDynamicRel(uint32_t Type) const { return false; }
Adhemerval Zanella74bcf032016-02-12 13:43:03 +0000268
Rafael Espindola5c66b822016-06-04 22:58:54 +0000269RelExpr TargetInfo::adjustRelaxExpr(uint32_t Type, const uint8_t *Data,
270 RelExpr Expr) const {
George Rimarf10c8292016-06-01 16:45:30 +0000271 return Expr;
George Rimar5c33b912016-05-25 14:31:37 +0000272}
273
274void TargetInfo::relaxGot(uint8_t *Loc, uint64_t Val) const {
275 llvm_unreachable("Should not have claimed to be relaxable");
276}
277
Rafael Espindola22ef9562016-04-13 01:40:19 +0000278void TargetInfo::relaxTlsGdToLe(uint8_t *Loc, uint32_t Type,
279 uint64_t Val) const {
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000280 llvm_unreachable("Should not have claimed to be relaxable");
281}
282
Rafael Espindola22ef9562016-04-13 01:40:19 +0000283void TargetInfo::relaxTlsGdToIe(uint8_t *Loc, uint32_t Type,
284 uint64_t Val) const {
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000285 llvm_unreachable("Should not have claimed to be relaxable");
286}
287
Rafael Espindola22ef9562016-04-13 01:40:19 +0000288void TargetInfo::relaxTlsIeToLe(uint8_t *Loc, uint32_t Type,
289 uint64_t Val) const {
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000290 llvm_unreachable("Should not have claimed to be relaxable");
291}
292
Rafael Espindola22ef9562016-04-13 01:40:19 +0000293void TargetInfo::relaxTlsLdToLe(uint8_t *Loc, uint32_t Type,
294 uint64_t Val) const {
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000295 llvm_unreachable("Should not have claimed to be relaxable");
George Rimar6713cf82015-11-25 21:46:05 +0000296}
George Rimar77d1cb12015-11-24 09:00:06 +0000297
Rafael Espindola7f074422015-09-22 21:35:51 +0000298X86TargetInfo::X86TargetInfo() {
Rui Ueyama724d6252016-01-29 01:49:32 +0000299 CopyRel = R_386_COPY;
300 GotRel = R_386_GLOB_DAT;
301 PltRel = R_386_JUMP_SLOT;
302 IRelativeRel = R_386_IRELATIVE;
303 RelativeRel = R_386_RELATIVE;
304 TlsGotRel = R_386_TLS_TPOFF;
Rui Ueyama724d6252016-01-29 01:49:32 +0000305 TlsModuleIndexRel = R_386_TLS_DTPMOD32;
306 TlsOffsetRel = R_386_TLS_DTPOFF32;
Rui Ueyama803b1202016-07-13 18:55:14 +0000307 GotEntrySize = 4;
308 GotPltEntrySize = 4;
George Rimar77b77792015-11-25 22:15:01 +0000309 PltEntrySize = 16;
Rui Ueyama4a90f572016-06-16 16:28:50 +0000310 PltHeaderSize = 16;
Rafael Espindolaf807d472016-06-04 23:04:39 +0000311 TlsGdRelaxSkip = 2;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000312}
313
314RelExpr X86TargetInfo::getRelExpr(uint32_t Type, const SymbolBody &S) const {
315 switch (Type) {
316 default:
317 return R_ABS;
Rafael Espindoladf172772016-04-18 01:29:15 +0000318 case R_386_TLS_GD:
319 return R_TLSGD;
Rafael Espindolac4d56972016-04-18 00:28:57 +0000320 case R_386_TLS_LDM:
321 return R_TLSLD;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000322 case R_386_PLT32:
Rafael Espindolab312a742016-04-21 17:30:24 +0000323 return R_PLT_PC;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000324 case R_386_PC32:
Rafael Espindola22ef9562016-04-13 01:40:19 +0000325 return R_PC;
Rafael Espindola3f5d6342016-04-18 12:07:13 +0000326 case R_386_GOTPC:
Rafael Espindola79202c32016-08-31 23:24:11 +0000327 return R_GOTONLY_PC_FROM_END;
Rafael Espindola5628ee72016-04-15 19:14:18 +0000328 case R_386_TLS_IE:
329 return R_GOT;
Rafael Espindola3f5d6342016-04-18 12:07:13 +0000330 case R_386_GOT32:
Rafael Espindolad03e6592016-07-06 21:41:39 +0000331 case R_386_GOT32X:
Rafael Espindola3f5d6342016-04-18 12:07:13 +0000332 case R_386_TLS_GOTIE:
333 return R_GOT_FROM_END;
334 case R_386_GOTOFF:
Rafael Espindola79202c32016-08-31 23:24:11 +0000335 return R_GOTREL_FROM_END;
Rafael Espindola3f5d6342016-04-18 12:07:13 +0000336 case R_386_TLS_LE:
337 return R_TLS;
338 case R_386_TLS_LE_32:
339 return R_NEG_TLS;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000340 }
George Rimar77b77792015-11-25 22:15:01 +0000341}
342
Rafael Espindola69f54022016-06-04 23:22:34 +0000343RelExpr X86TargetInfo::adjustRelaxExpr(uint32_t Type, const uint8_t *Data,
344 RelExpr Expr) const {
345 switch (Expr) {
346 default:
347 return Expr;
348 case R_RELAX_TLS_GD_TO_IE:
349 return R_RELAX_TLS_GD_TO_IE_END;
350 case R_RELAX_TLS_GD_TO_LE:
351 return R_RELAX_TLS_GD_TO_LE_NEG;
352 }
353}
354
Rui Ueyamac516ae12016-01-29 02:33:45 +0000355void X86TargetInfo::writeGotPltHeader(uint8_t *Buf) const {
Eugene Leviant6380ce22016-11-15 12:26:55 +0000356 write32le(Buf, In<ELF32LE>::Dynamic->getVA());
George Rimar77b77792015-11-25 22:15:01 +0000357}
358
Rui Ueyamac9fee5f2016-06-16 16:14:50 +0000359void X86TargetInfo::writeGotPlt(uint8_t *Buf, const SymbolBody &S) const {
Rui Ueyamacf375932016-01-29 23:58:03 +0000360 // Entries in .got.plt initially points back to the corresponding
361 // PLT entries with a fixed offset to skip the first instruction.
Rui Ueyamac9fee5f2016-06-16 16:14:50 +0000362 write32le(Buf, S.getPltVA<ELF32LE>() + 6);
Rafael Espindola7f074422015-09-22 21:35:51 +0000363}
Rafael Espindola01205f72015-09-22 18:19:46 +0000364
George Rimar98b060d2016-03-06 06:01:07 +0000365uint32_t X86TargetInfo::getDynRel(uint32_t Type) const {
George Rimard23970f2015-11-25 20:41:53 +0000366 if (Type == R_386_TLS_LE)
367 return R_386_TLS_TPOFF;
368 if (Type == R_386_TLS_LE_32)
369 return R_386_TLS_TPOFF32;
370 return Type;
371}
372
George Rimar98b060d2016-03-06 06:01:07 +0000373bool X86TargetInfo::isTlsGlobalDynamicRel(uint32_t Type) const {
Adhemerval Zanella74bcf032016-02-12 13:43:03 +0000374 return Type == R_386_TLS_GD;
375}
376
George Rimar98b060d2016-03-06 06:01:07 +0000377bool X86TargetInfo::isTlsLocalDynamicRel(uint32_t Type) const {
Rafael Espindolad405f472016-03-04 21:37:09 +0000378 return Type == R_386_TLS_LDO_32 || Type == R_386_TLS_LDM;
379}
380
George Rimar98b060d2016-03-06 06:01:07 +0000381bool X86TargetInfo::isTlsInitialExecRel(uint32_t Type) const {
Rafael Espindolad405f472016-03-04 21:37:09 +0000382 return Type == R_386_TLS_IE || Type == R_386_TLS_GOTIE;
383}
384
Rui Ueyama4a90f572016-06-16 16:28:50 +0000385void X86TargetInfo::writePltHeader(uint8_t *Buf) const {
George Rimar77b77792015-11-25 22:15:01 +0000386 // Executable files and shared object files have
387 // separate procedure linkage tables.
George Rimar786e8662016-03-17 05:57:33 +0000388 if (Config->Pic) {
George Rimar77b77792015-11-25 22:15:01 +0000389 const uint8_t V[] = {
Rui Ueyamaf53b1b72016-01-05 16:35:46 +0000390 0xff, 0xb3, 0x04, 0x00, 0x00, 0x00, // pushl 4(%ebx)
Rui Ueyamacf375932016-01-29 23:58:03 +0000391 0xff, 0xa3, 0x08, 0x00, 0x00, 0x00, // jmp *8(%ebx)
392 0x90, 0x90, 0x90, 0x90 // nop; nop; nop; nop
George Rimar77b77792015-11-25 22:15:01 +0000393 };
394 memcpy(Buf, V, sizeof(V));
395 return;
396 }
George Rimar648a2c32015-10-20 08:54:27 +0000397
George Rimar77b77792015-11-25 22:15:01 +0000398 const uint8_t PltData[] = {
399 0xff, 0x35, 0x00, 0x00, 0x00, 0x00, // pushl (GOT+4)
Rui Ueyamacf375932016-01-29 23:58:03 +0000400 0xff, 0x25, 0x00, 0x00, 0x00, 0x00, // jmp *(GOT+8)
401 0x90, 0x90, 0x90, 0x90 // nop; nop; nop; nop
George Rimar77b77792015-11-25 22:15:01 +0000402 };
403 memcpy(Buf, PltData, sizeof(PltData));
Eugene Leviant41ca3272016-11-10 09:48:29 +0000404 uint32_t Got = In<ELF32LE>::GotPlt->getVA();
Rui Ueyamacf375932016-01-29 23:58:03 +0000405 write32le(Buf + 2, Got + 4);
406 write32le(Buf + 8, Got + 8);
George Rimar77b77792015-11-25 22:15:01 +0000407}
408
Rui Ueyama9398f862016-01-29 04:15:02 +0000409void X86TargetInfo::writePlt(uint8_t *Buf, uint64_t GotEntryAddr,
410 uint64_t PltEntryAddr, int32_t Index,
411 unsigned RelOff) const {
George Rimar77b77792015-11-25 22:15:01 +0000412 const uint8_t Inst[] = {
413 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, // jmp *foo_in_GOT|*foo@GOT(%ebx)
414 0x68, 0x00, 0x00, 0x00, 0x00, // pushl $reloc_offset
415 0xe9, 0x00, 0x00, 0x00, 0x00 // jmp .PLT0@PC
416 };
Rui Ueyama1500a902015-09-29 23:00:47 +0000417 memcpy(Buf, Inst, sizeof(Inst));
Rui Ueyama9398f862016-01-29 04:15:02 +0000418
George Rimar77b77792015-11-25 22:15:01 +0000419 // jmp *foo@GOT(%ebx) or jmp *foo_in_GOT
George Rimar786e8662016-03-17 05:57:33 +0000420 Buf[1] = Config->Pic ? 0xa3 : 0x25;
Eugene Leviant41ca3272016-11-10 09:48:29 +0000421 uint32_t Got = In<ELF32LE>::GotPlt->getVA();
Rui Ueyama9398f862016-01-29 04:15:02 +0000422 write32le(Buf + 2, Config->Shared ? GotEntryAddr - Got : GotEntryAddr);
George Rimar77b77792015-11-25 22:15:01 +0000423 write32le(Buf + 7, RelOff);
Rui Ueyama4a90f572016-06-16 16:28:50 +0000424 write32le(Buf + 12, -Index * PltEntrySize - PltHeaderSize - 16);
Rafael Espindola01205f72015-09-22 18:19:46 +0000425}
426
Rafael Espindola666625b2016-04-01 14:36:09 +0000427uint64_t X86TargetInfo::getImplicitAddend(const uint8_t *Buf,
428 uint32_t Type) const {
Rafael Espindolada99df32016-03-30 12:40:38 +0000429 switch (Type) {
430 default:
431 return 0;
432 case R_386_32:
433 case R_386_GOT32:
Rafael Espindola9639ec12016-07-06 21:48:50 +0000434 case R_386_GOT32X:
Rafael Espindolada99df32016-03-30 12:40:38 +0000435 case R_386_GOTOFF:
436 case R_386_GOTPC:
437 case R_386_PC32:
438 case R_386_PLT32:
Ed Schouten21483f52016-08-20 10:54:51 +0000439 case R_386_TLS_LE:
Rafael Espindolada99df32016-03-30 12:40:38 +0000440 return read32le(Buf);
441 }
442}
443
Rafael Espindola22ef9562016-04-13 01:40:19 +0000444void X86TargetInfo::relocateOne(uint8_t *Loc, uint32_t Type,
445 uint64_t Val) const {
Rafael Espindola3f5d6342016-04-18 12:07:13 +0000446 checkInt<32>(Val, Type);
447 write32le(Loc, Val);
Rafael Espindolac4010882015-09-22 20:54:08 +0000448}
449
Rafael Espindola22ef9562016-04-13 01:40:19 +0000450void X86TargetInfo::relaxTlsGdToLe(uint8_t *Loc, uint32_t Type,
451 uint64_t Val) const {
Rui Ueyama55274e32016-04-23 01:10:15 +0000452 // Convert
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000453 // leal x@tlsgd(, %ebx, 1),
454 // call __tls_get_addr@plt
Rui Ueyama55274e32016-04-23 01:10:15 +0000455 // to
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000456 // movl %gs:0,%eax
Rui Ueyama55274e32016-04-23 01:10:15 +0000457 // subl $x@ntpoff,%eax
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000458 const uint8_t Inst[] = {
459 0x65, 0xa1, 0x00, 0x00, 0x00, 0x00, // movl %gs:0, %eax
460 0x81, 0xe8, 0x00, 0x00, 0x00, 0x00 // subl 0(%ebx), %eax
461 };
462 memcpy(Loc - 3, Inst, sizeof(Inst));
Rafael Espindolaebed1fe2016-05-20 21:23:52 +0000463 relocateOne(Loc + 5, R_386_32, Val);
George Rimar2558e122015-12-09 09:55:54 +0000464}
465
Rafael Espindola22ef9562016-04-13 01:40:19 +0000466void X86TargetInfo::relaxTlsGdToIe(uint8_t *Loc, uint32_t Type,
467 uint64_t Val) const {
Rui Ueyama55274e32016-04-23 01:10:15 +0000468 // Convert
469 // leal x@tlsgd(, %ebx, 1),
470 // call __tls_get_addr@plt
471 // to
472 // movl %gs:0, %eax
473 // addl x@gotntpoff(%ebx), %eax
George Rimar2558e122015-12-09 09:55:54 +0000474 const uint8_t Inst[] = {
475 0x65, 0xa1, 0x00, 0x00, 0x00, 0x00, // movl %gs:0, %eax
476 0x03, 0x83, 0x00, 0x00, 0x00, 0x00 // addl 0(%ebx), %eax
477 };
478 memcpy(Loc - 3, Inst, sizeof(Inst));
Rafael Espindola74f3dbe2016-05-20 20:09:35 +0000479 relocateOne(Loc + 5, R_386_32, Val);
George Rimar2558e122015-12-09 09:55:54 +0000480}
481
George Rimar6f17e092015-12-17 09:32:21 +0000482// In some conditions, relocations can be optimized to avoid using GOT.
483// This function does that for Initial Exec to Local Exec case.
Rafael Espindola22ef9562016-04-13 01:40:19 +0000484void X86TargetInfo::relaxTlsIeToLe(uint8_t *Loc, uint32_t Type,
485 uint64_t Val) const {
George Rimar6f17e092015-12-17 09:32:21 +0000486 // Ulrich's document section 6.2 says that @gotntpoff can
487 // be used with MOVL or ADDL instructions.
488 // @indntpoff is similar to @gotntpoff, but for use in
489 // position dependent code.
George Rimar2558e122015-12-09 09:55:54 +0000490 uint8_t Reg = (Loc[-1] >> 3) & 7;
Rui Ueyamab319ae22016-06-21 05:44:14 +0000491
George Rimar6f17e092015-12-17 09:32:21 +0000492 if (Type == R_386_TLS_IE) {
Rui Ueyamab319ae22016-06-21 05:44:14 +0000493 if (Loc[-1] == 0xa1) {
494 // "movl foo@indntpoff,%eax" -> "movl $foo,%eax"
495 // This case is different from the generic case below because
496 // this is a 5 byte instruction while below is 6 bytes.
497 Loc[-1] = 0xb8;
498 } else if (Loc[-2] == 0x8b) {
499 // "movl foo@indntpoff,%reg" -> "movl $foo,%reg"
500 Loc[-2] = 0xc7;
501 Loc[-1] = 0xc0 | Reg;
George Rimar6f17e092015-12-17 09:32:21 +0000502 } else {
Rui Ueyamab319ae22016-06-21 05:44:14 +0000503 // "addl foo@indntpoff,%reg" -> "addl $foo,%reg"
504 Loc[-2] = 0x81;
505 Loc[-1] = 0xc0 | Reg;
George Rimar6f17e092015-12-17 09:32:21 +0000506 }
507 } else {
Rui Ueyamab319ae22016-06-21 05:44:14 +0000508 assert(Type == R_386_TLS_GOTIE);
509 if (Loc[-2] == 0x8b) {
510 // "movl foo@gottpoff(%rip),%reg" -> "movl $foo,%reg"
511 Loc[-2] = 0xc7;
512 Loc[-1] = 0xc0 | Reg;
513 } else {
514 // "addl foo@gotntpoff(%rip),%reg" -> "leal foo(%reg),%reg"
515 Loc[-2] = 0x8d;
516 Loc[-1] = 0x80 | (Reg << 3) | Reg;
517 }
George Rimar6f17e092015-12-17 09:32:21 +0000518 }
Rafael Espindola8818ca62016-05-20 17:41:09 +0000519 relocateOne(Loc, R_386_TLS_LE, Val);
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000520}
521
Rafael Espindola22ef9562016-04-13 01:40:19 +0000522void X86TargetInfo::relaxTlsLdToLe(uint8_t *Loc, uint32_t Type,
523 uint64_t Val) const {
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000524 if (Type == R_386_TLS_LDO_32) {
Rafael Espindola8818ca62016-05-20 17:41:09 +0000525 relocateOne(Loc, R_386_TLS_LE, Val);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000526 return;
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000527 }
528
Rui Ueyama55274e32016-04-23 01:10:15 +0000529 // Convert
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000530 // leal foo(%reg),%eax
531 // call ___tls_get_addr
Rui Ueyama55274e32016-04-23 01:10:15 +0000532 // to
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000533 // movl %gs:0,%eax
534 // nop
535 // leal 0(%esi,1),%esi
536 const uint8_t Inst[] = {
537 0x65, 0xa1, 0x00, 0x00, 0x00, 0x00, // movl %gs:0,%eax
538 0x90, // nop
539 0x8d, 0x74, 0x26, 0x00 // leal 0(%esi,1),%esi
540 };
541 memcpy(Loc - 2, Inst, sizeof(Inst));
George Rimar2558e122015-12-09 09:55:54 +0000542}
543
Rui Ueyama46626e12016-07-12 23:28:31 +0000544template <class ELFT> X86_64TargetInfo<ELFT>::X86_64TargetInfo() {
Rui Ueyama724d6252016-01-29 01:49:32 +0000545 CopyRel = R_X86_64_COPY;
546 GotRel = R_X86_64_GLOB_DAT;
547 PltRel = R_X86_64_JUMP_SLOT;
548 RelativeRel = R_X86_64_RELATIVE;
549 IRelativeRel = R_X86_64_IRELATIVE;
550 TlsGotRel = R_X86_64_TPOFF64;
Rui Ueyama724d6252016-01-29 01:49:32 +0000551 TlsModuleIndexRel = R_X86_64_DTPMOD64;
552 TlsOffsetRel = R_X86_64_DTPOFF64;
Rui Ueyama803b1202016-07-13 18:55:14 +0000553 GotEntrySize = 8;
554 GotPltEntrySize = 8;
George Rimar648a2c32015-10-20 08:54:27 +0000555 PltEntrySize = 16;
Rui Ueyama4a90f572016-06-16 16:28:50 +0000556 PltHeaderSize = 16;
Rafael Espindolaf807d472016-06-04 23:04:39 +0000557 TlsGdRelaxSkip = 2;
Ed Maste8fd01962016-11-23 17:44:02 +0000558 // Align to the large page size (known as a superpage or huge page).
559 // FreeBSD automatically promotes large, superpage-aligned allocations.
Rui Ueyama835bd722016-11-23 22:10:46 +0000560 DefaultImageBase = 0x200000;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000561}
562
Rui Ueyama46626e12016-07-12 23:28:31 +0000563template <class ELFT>
564RelExpr X86_64TargetInfo<ELFT>::getRelExpr(uint32_t Type,
565 const SymbolBody &S) const {
Rafael Espindola22ef9562016-04-13 01:40:19 +0000566 switch (Type) {
567 default:
568 return R_ABS;
Rafael Espindolaece62b92016-04-18 12:44:33 +0000569 case R_X86_64_TPOFF32:
570 return R_TLS;
Rafael Espindolac4d56972016-04-18 00:28:57 +0000571 case R_X86_64_TLSLD:
572 return R_TLSLD_PC;
Rafael Espindoladf172772016-04-18 01:29:15 +0000573 case R_X86_64_TLSGD:
574 return R_TLSGD_PC;
Rafael Espindola3151d892016-04-14 18:39:44 +0000575 case R_X86_64_SIZE32:
576 case R_X86_64_SIZE64:
577 return R_SIZE;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000578 case R_X86_64_PLT32:
Rafael Espindolab312a742016-04-21 17:30:24 +0000579 return R_PLT_PC;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000580 case R_X86_64_PC32:
Rafael Espindola926bff82016-04-25 14:05:44 +0000581 case R_X86_64_PC64:
Rafael Espindola22ef9562016-04-13 01:40:19 +0000582 return R_PC;
Rafael Espindola5628ee72016-04-15 19:14:18 +0000583 case R_X86_64_GOT32:
Rafael Espindolaf4c1cd42016-04-18 12:58:59 +0000584 return R_GOT_FROM_END;
Rafael Espindola5628ee72016-04-15 19:14:18 +0000585 case R_X86_64_GOTPCREL:
Rafael Espindoladba64b82016-05-24 11:53:15 +0000586 case R_X86_64_GOTPCRELX:
587 case R_X86_64_REX_GOTPCRELX:
Rafael Espindolafe3a2f12016-05-24 12:12:06 +0000588 case R_X86_64_GOTTPOFF:
589 return R_GOT_PC;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000590 }
George Rimar648a2c32015-10-20 08:54:27 +0000591}
592
Rui Ueyama46626e12016-07-12 23:28:31 +0000593template <class ELFT>
594void X86_64TargetInfo<ELFT>::writeGotPltHeader(uint8_t *Buf) const {
Rafael Espindola4ee6cb32016-05-09 18:12:15 +0000595 // The first entry holds the value of _DYNAMIC. It is not clear why that is
596 // required, but it is documented in the psabi and the glibc dynamic linker
Rafael Espindolae5027512016-05-10 16:23:46 +0000597 // seems to use it (note that this is relevant for linking ld.so, not any
Rafael Espindola4ee6cb32016-05-09 18:12:15 +0000598 // other program).
Eugene Leviant6380ce22016-11-15 12:26:55 +0000599 write64le(Buf, In<ELFT>::Dynamic->getVA());
Igor Kudrin351b41d2015-11-16 17:44:08 +0000600}
601
Rui Ueyama46626e12016-07-12 23:28:31 +0000602template <class ELFT>
603void X86_64TargetInfo<ELFT>::writeGotPlt(uint8_t *Buf,
604 const SymbolBody &S) const {
Rui Ueyamacf375932016-01-29 23:58:03 +0000605 // See comments in X86TargetInfo::writeGotPlt.
Rui Ueyama46626e12016-07-12 23:28:31 +0000606 write32le(Buf, S.getPltVA<ELFT>() + 6);
George Rimar648a2c32015-10-20 08:54:27 +0000607}
608
Rui Ueyama46626e12016-07-12 23:28:31 +0000609template <class ELFT>
610void X86_64TargetInfo<ELFT>::writePltHeader(uint8_t *Buf) const {
George Rimar648a2c32015-10-20 08:54:27 +0000611 const uint8_t PltData[] = {
612 0xff, 0x35, 0x00, 0x00, 0x00, 0x00, // pushq GOT+8(%rip)
613 0xff, 0x25, 0x00, 0x00, 0x00, 0x00, // jmp *GOT+16(%rip)
614 0x0f, 0x1f, 0x40, 0x00 // nopl 0x0(rax)
615 };
616 memcpy(Buf, PltData, sizeof(PltData));
Eugene Leviant41ca3272016-11-10 09:48:29 +0000617 uint64_t Got = In<ELFT>::GotPlt->getVA();
Eugene Leviantff23d3e2016-11-18 14:35:03 +0000618 uint64_t Plt = In<ELFT>::Plt->getVA();
Rui Ueyama900e2d22016-01-29 03:51:49 +0000619 write32le(Buf + 2, Got - Plt + 2); // GOT+8
620 write32le(Buf + 8, Got - Plt + 4); // GOT+16
Rafael Espindola7f074422015-09-22 21:35:51 +0000621}
Rafael Espindola01205f72015-09-22 18:19:46 +0000622
Rui Ueyama46626e12016-07-12 23:28:31 +0000623template <class ELFT>
624void X86_64TargetInfo<ELFT>::writePlt(uint8_t *Buf, uint64_t GotEntryAddr,
625 uint64_t PltEntryAddr, int32_t Index,
626 unsigned RelOff) const {
George Rimar648a2c32015-10-20 08:54:27 +0000627 const uint8_t Inst[] = {
628 0xff, 0x25, 0x00, 0x00, 0x00, 0x00, // jmpq *got(%rip)
629 0x68, 0x00, 0x00, 0x00, 0x00, // pushq <relocation index>
630 0xe9, 0x00, 0x00, 0x00, 0x00 // jmpq plt[0]
631 };
Rui Ueyama1500a902015-09-29 23:00:47 +0000632 memcpy(Buf, Inst, sizeof(Inst));
Rafael Espindola01205f72015-09-22 18:19:46 +0000633
George Rimar648a2c32015-10-20 08:54:27 +0000634 write32le(Buf + 2, GotEntryAddr - PltEntryAddr - 6);
635 write32le(Buf + 7, Index);
Rui Ueyama4a90f572016-06-16 16:28:50 +0000636 write32le(Buf + 12, -Index * PltEntrySize - PltHeaderSize - 16);
Rafael Espindola01205f72015-09-22 18:19:46 +0000637}
638
Rui Ueyama46626e12016-07-12 23:28:31 +0000639template <class ELFT>
Eugene Leviantab024a32016-11-25 08:56:36 +0000640bool X86_64TargetInfo<ELFT>::isPicRel(uint32_t Type) const {
641 return Type != R_X86_64_PC32 && Type != R_X86_64_32;
George Rimar86971052016-03-29 08:35:42 +0000642}
643
Rui Ueyama46626e12016-07-12 23:28:31 +0000644template <class ELFT>
645bool X86_64TargetInfo<ELFT>::isTlsInitialExecRel(uint32_t Type) const {
Rafael Espindolad405f472016-03-04 21:37:09 +0000646 return Type == R_X86_64_GOTTPOFF;
647}
648
Rui Ueyama46626e12016-07-12 23:28:31 +0000649template <class ELFT>
650bool X86_64TargetInfo<ELFT>::isTlsGlobalDynamicRel(uint32_t Type) const {
Adhemerval Zanella74bcf032016-02-12 13:43:03 +0000651 return Type == R_X86_64_TLSGD;
652}
653
Rui Ueyama46626e12016-07-12 23:28:31 +0000654template <class ELFT>
655bool X86_64TargetInfo<ELFT>::isTlsLocalDynamicRel(uint32_t Type) const {
Rafael Espindola1f04c442016-03-08 20:24:36 +0000656 return Type == R_X86_64_DTPOFF32 || Type == R_X86_64_DTPOFF64 ||
657 Type == R_X86_64_TLSLD;
George Rimard23970f2015-11-25 20:41:53 +0000658}
659
Rui Ueyama46626e12016-07-12 23:28:31 +0000660template <class ELFT>
661void X86_64TargetInfo<ELFT>::relaxTlsGdToLe(uint8_t *Loc, uint32_t Type,
662 uint64_t Val) const {
Rui Ueyama55274e32016-04-23 01:10:15 +0000663 // Convert
664 // .byte 0x66
665 // leaq x@tlsgd(%rip), %rdi
666 // .word 0x6666
667 // rex64
668 // call __tls_get_addr@plt
669 // to
670 // mov %fs:0x0,%rax
671 // lea x@tpoff,%rax
George Rimar6713cf82015-11-25 21:46:05 +0000672 const uint8_t Inst[] = {
673 0x64, 0x48, 0x8b, 0x04, 0x25, 0x00, 0x00, 0x00, 0x00, // mov %fs:0x0,%rax
674 0x48, 0x8d, 0x80, 0x00, 0x00, 0x00, 0x00 // lea x@tpoff,%rax
675 };
676 memcpy(Loc - 4, Inst, sizeof(Inst));
Rafael Espindola91e9fc02016-05-20 21:09:59 +0000677 // The original code used a pc relative relocation and so we have to
678 // compensate for the -4 in had in the addend.
Rafael Espindola8818ca62016-05-20 17:41:09 +0000679 relocateOne(Loc + 8, R_X86_64_TPOFF32, Val + 4);
George Rimar77d1cb12015-11-24 09:00:06 +0000680}
681
Rui Ueyama46626e12016-07-12 23:28:31 +0000682template <class ELFT>
683void X86_64TargetInfo<ELFT>::relaxTlsGdToIe(uint8_t *Loc, uint32_t Type,
684 uint64_t Val) const {
Rui Ueyama55274e32016-04-23 01:10:15 +0000685 // Convert
686 // .byte 0x66
687 // leaq x@tlsgd(%rip), %rdi
688 // .word 0x6666
689 // rex64
690 // call __tls_get_addr@plt
691 // to
692 // mov %fs:0x0,%rax
693 // addq x@tpoff,%rax
George Rimar25411f252015-12-04 11:20:13 +0000694 const uint8_t Inst[] = {
695 0x64, 0x48, 0x8b, 0x04, 0x25, 0x00, 0x00, 0x00, 0x00, // mov %fs:0x0,%rax
696 0x48, 0x03, 0x05, 0x00, 0x00, 0x00, 0x00 // addq x@tpoff,%rax
697 };
698 memcpy(Loc - 4, Inst, sizeof(Inst));
Rafael Espindola91e9fc02016-05-20 21:09:59 +0000699 // Both code sequences are PC relatives, but since we are moving the constant
700 // forward by 8 bytes we have to subtract the value by 8.
Rafael Espindola22ef9562016-04-13 01:40:19 +0000701 relocateOne(Loc + 8, R_X86_64_PC32, Val - 8);
George Rimar25411f252015-12-04 11:20:13 +0000702}
703
George Rimar77d1cb12015-11-24 09:00:06 +0000704// In some conditions, R_X86_64_GOTTPOFF relocation can be optimized to
George Rimarc55b4e22015-12-07 16:54:56 +0000705// R_X86_64_TPOFF32 so that it does not use GOT.
Rui Ueyama46626e12016-07-12 23:28:31 +0000706template <class ELFT>
707void X86_64TargetInfo<ELFT>::relaxTlsIeToLe(uint8_t *Loc, uint32_t Type,
708 uint64_t Val) const {
Rui Ueyama55a9def2016-06-21 03:42:32 +0000709 uint8_t *Inst = Loc - 3;
George Rimar77d1cb12015-11-24 09:00:06 +0000710 uint8_t Reg = Loc[-1] >> 3;
Rui Ueyama3f5dd142016-06-21 05:01:31 +0000711 uint8_t *RegSlot = Loc - 1;
Rui Ueyama55274e32016-04-23 01:10:15 +0000712
Rui Ueyama73575c42016-06-21 05:09:39 +0000713 // Note that ADD with RSP or R12 is converted to ADD instead of LEA
Rui Ueyama55a9def2016-06-21 03:42:32 +0000714 // because LEA with these registers needs 4 bytes to encode and thus
715 // wouldn't fit the space.
716
717 if (memcmp(Inst, "\x48\x03\x25", 3) == 0) {
718 // "addq foo@gottpoff(%rip),%rsp" -> "addq $foo,%rsp"
719 memcpy(Inst, "\x48\x81\xc4", 3);
720 } else if (memcmp(Inst, "\x4c\x03\x25", 3) == 0) {
721 // "addq foo@gottpoff(%rip),%r12" -> "addq $foo,%r12"
722 memcpy(Inst, "\x49\x81\xc4", 3);
723 } else if (memcmp(Inst, "\x4c\x03", 2) == 0) {
724 // "addq foo@gottpoff(%rip),%r[8-15]" -> "leaq foo(%r[8-15]),%r[8-15]"
725 memcpy(Inst, "\x4d\x8d", 2);
726 *RegSlot = 0x80 | (Reg << 3) | Reg;
727 } else if (memcmp(Inst, "\x48\x03", 2) == 0) {
728 // "addq foo@gottpoff(%rip),%reg -> "leaq foo(%reg),%reg"
729 memcpy(Inst, "\x48\x8d", 2);
730 *RegSlot = 0x80 | (Reg << 3) | Reg;
731 } else if (memcmp(Inst, "\x4c\x8b", 2) == 0) {
732 // "movq foo@gottpoff(%rip),%r[8-15]" -> "movq $foo,%r[8-15]"
733 memcpy(Inst, "\x49\xc7", 2);
734 *RegSlot = 0xc0 | Reg;
735 } else if (memcmp(Inst, "\x48\x8b", 2) == 0) {
736 // "movq foo@gottpoff(%rip),%reg" -> "movq $foo,%reg"
737 memcpy(Inst, "\x48\xc7", 2);
738 *RegSlot = 0xc0 | Reg;
Rui Ueyama03a6cec2016-06-21 06:03:28 +0000739 } else {
740 fatal("R_X86_64_GOTTPOFF must be used in MOVQ or ADDQ instructions only");
Rui Ueyama55a9def2016-06-21 03:42:32 +0000741 }
742
743 // The original code used a PC relative relocation.
744 // Need to compensate for the -4 it had in the addend.
Rafael Espindola8818ca62016-05-20 17:41:09 +0000745 relocateOne(Loc, R_X86_64_TPOFF32, Val + 4);
George Rimar77d1cb12015-11-24 09:00:06 +0000746}
747
Rui Ueyama46626e12016-07-12 23:28:31 +0000748template <class ELFT>
749void X86_64TargetInfo<ELFT>::relaxTlsLdToLe(uint8_t *Loc, uint32_t Type,
750 uint64_t Val) const {
Rui Ueyama55274e32016-04-23 01:10:15 +0000751 // Convert
752 // leaq bar@tlsld(%rip), %rdi
753 // callq __tls_get_addr@PLT
754 // leaq bar@dtpoff(%rax), %rcx
755 // to
756 // .word 0x6666
757 // .byte 0x66
758 // mov %fs:0,%rax
759 // leaq bar@tpoff(%rax), %rcx
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000760 if (Type == R_X86_64_DTPOFF64) {
Rafael Espindola8818ca62016-05-20 17:41:09 +0000761 write64le(Loc, Val);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000762 return;
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000763 }
764 if (Type == R_X86_64_DTPOFF32) {
Rafael Espindola8818ca62016-05-20 17:41:09 +0000765 relocateOne(Loc, R_X86_64_TPOFF32, Val);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000766 return;
George Rimar25411f252015-12-04 11:20:13 +0000767 }
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000768
769 const uint8_t Inst[] = {
Rui Ueyama02fcf112016-05-25 04:29:53 +0000770 0x66, 0x66, // .word 0x6666
771 0x66, // .byte 0x66
Rafael Espindola89cc14f2016-03-16 19:03:58 +0000772 0x64, 0x48, 0x8b, 0x04, 0x25, 0x00, 0x00, 0x00, 0x00 // mov %fs:0,%rax
773 };
774 memcpy(Loc - 3, Inst, sizeof(Inst));
George Rimar6713cf82015-11-25 21:46:05 +0000775}
776
Rui Ueyama46626e12016-07-12 23:28:31 +0000777template <class ELFT>
778void X86_64TargetInfo<ELFT>::relocateOne(uint8_t *Loc, uint32_t Type,
779 uint64_t Val) const {
Rafael Espindolac4010882015-09-22 20:54:08 +0000780 switch (Type) {
Rui Ueyama3835b492015-10-23 16:13:27 +0000781 case R_X86_64_32:
Rafael Espindola22ef9562016-04-13 01:40:19 +0000782 checkUInt<32>(Val, Type);
783 write32le(Loc, Val);
Igor Kudrin9b7e7db2015-11-26 09:49:44 +0000784 break;
Rafael Espindolac4010882015-09-22 20:54:08 +0000785 case R_X86_64_32S:
Rafael Espindolaece62b92016-04-18 12:44:33 +0000786 case R_X86_64_TPOFF32:
Rafael Espindolaf4c1cd42016-04-18 12:58:59 +0000787 case R_X86_64_GOT32:
Igor Kudrinb4a09272015-12-01 08:41:20 +0000788 case R_X86_64_GOTPCREL:
George Rimar9f8f4e32016-03-22 12:15:26 +0000789 case R_X86_64_GOTPCRELX:
790 case R_X86_64_REX_GOTPCRELX:
Igor Kudrinb4a09272015-12-01 08:41:20 +0000791 case R_X86_64_PC32:
Rafael Espindola38bd2172016-05-04 15:51:23 +0000792 case R_X86_64_GOTTPOFF:
Igor Kudrinb4a09272015-12-01 08:41:20 +0000793 case R_X86_64_PLT32:
794 case R_X86_64_TLSGD:
795 case R_X86_64_TLSLD:
Rafael Espindola3c20fb42016-04-18 11:53:42 +0000796 case R_X86_64_DTPOFF32:
George Rimar48651482015-12-11 08:59:37 +0000797 case R_X86_64_SIZE32:
Rafael Espindolafb0ceb52016-05-20 20:02:27 +0000798 checkInt<32>(Val, Type);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000799 write32le(Loc, Val);
George Rimar48651482015-12-11 08:59:37 +0000800 break;
Rui Ueyamae66f45c2016-05-25 04:10:14 +0000801 case R_X86_64_64:
802 case R_X86_64_DTPOFF64:
803 case R_X86_64_SIZE64:
804 case R_X86_64_PC64:
805 write64le(Loc, Val);
806 break;
Rafael Espindolac4010882015-09-22 20:54:08 +0000807 default:
George Rimar57610422016-03-11 14:43:02 +0000808 fatal("unrecognized reloc " + Twine(Type));
Rafael Espindolac4010882015-09-22 20:54:08 +0000809 }
810}
811
Rui Ueyama46626e12016-07-12 23:28:31 +0000812template <class ELFT>
813RelExpr X86_64TargetInfo<ELFT>::adjustRelaxExpr(uint32_t Type,
814 const uint8_t *Data,
815 RelExpr RelExpr) const {
George Rimar5c33b912016-05-25 14:31:37 +0000816 if (Type != R_X86_64_GOTPCRELX && Type != R_X86_64_REX_GOTPCRELX)
George Rimarf10c8292016-06-01 16:45:30 +0000817 return RelExpr;
George Rimara8f9cf12016-05-26 13:37:12 +0000818 const uint8_t Op = Data[-2];
819 const uint8_t ModRm = Data[-1];
George Rimarf10c8292016-06-01 16:45:30 +0000820 // FIXME: When PIC is disabled and foo is defined locally in the
821 // lower 32 bit address space, memory operand in mov can be converted into
822 // immediate operand. Otherwise, mov must be changed to lea. We support only
823 // latter relaxation at this moment.
George Rimar95433df2016-05-25 16:51:08 +0000824 if (Op == 0x8b)
George Rimarf10c8292016-06-01 16:45:30 +0000825 return R_RELAX_GOT_PC;
George Rimar95433df2016-05-25 16:51:08 +0000826 // Relax call and jmp.
George Rimarf10c8292016-06-01 16:45:30 +0000827 if (Op == 0xff && (ModRm == 0x15 || ModRm == 0x25))
828 return R_RELAX_GOT_PC;
829
830 // Relaxation of test, adc, add, and, cmp, or, sbb, sub, xor.
831 // If PIC then no relaxation is available.
832 // We also don't relax test/binop instructions without REX byte,
833 // they are 32bit operations and not common to have.
834 assert(Type == R_X86_64_REX_GOTPCRELX);
835 return Config->Pic ? RelExpr : R_RELAX_GOT_PC_NOPIC;
George Rimar5c33b912016-05-25 14:31:37 +0000836}
837
George Rimarb7204302016-06-02 09:22:00 +0000838// A subset of relaxations can only be applied for no-PIC. This method
839// handles such relaxations. Instructions encoding information was taken from:
840// "Intel 64 and IA-32 Architectures Software Developer's Manual V2"
841// (http://www.intel.com/content/dam/www/public/us/en/documents/manuals/
842// 64-ia-32-architectures-software-developer-instruction-set-reference-manual-325383.pdf)
Rui Ueyama46626e12016-07-12 23:28:31 +0000843template <class ELFT>
844void X86_64TargetInfo<ELFT>::relaxGotNoPic(uint8_t *Loc, uint64_t Val,
845 uint8_t Op, uint8_t ModRm) const {
George Rimarf10c8292016-06-01 16:45:30 +0000846 const uint8_t Rex = Loc[-3];
847 // Convert "test %reg, foo@GOTPCREL(%rip)" to "test $foo, %reg".
848 if (Op == 0x85) {
849 // See "TEST-Logical Compare" (4-428 Vol. 2B),
850 // TEST r/m64, r64 uses "full" ModR / M byte (no opcode extension).
851
852 // ModR/M byte has form XX YYY ZZZ, where
853 // YYY is MODRM.reg(register 2), ZZZ is MODRM.rm(register 1).
854 // XX has different meanings:
855 // 00: The operand's memory address is in reg1.
856 // 01: The operand's memory address is reg1 + a byte-sized displacement.
857 // 10: The operand's memory address is reg1 + a word-sized displacement.
858 // 11: The operand is reg1 itself.
859 // If an instruction requires only one operand, the unused reg2 field
860 // holds extra opcode bits rather than a register code
861 // 0xC0 == 11 000 000 binary.
862 // 0x38 == 00 111 000 binary.
863 // We transfer reg2 to reg1 here as operand.
864 // See "2.1.3 ModR/M and SIB Bytes" (Vol. 2A 2-3).
Rui Ueyama595bc5d2016-06-16 19:48:07 +0000865 Loc[-1] = 0xc0 | (ModRm & 0x38) >> 3; // ModR/M byte.
George Rimarf10c8292016-06-01 16:45:30 +0000866
867 // Change opcode from TEST r/m64, r64 to TEST r/m64, imm32
868 // See "TEST-Logical Compare" (4-428 Vol. 2B).
Rui Ueyama595bc5d2016-06-16 19:48:07 +0000869 Loc[-2] = 0xf7;
George Rimarf10c8292016-06-01 16:45:30 +0000870
871 // Move R bit to the B bit in REX byte.
872 // REX byte is encoded as 0100WRXB, where
873 // 0100 is 4bit fixed pattern.
874 // REX.W When 1, a 64-bit operand size is used. Otherwise, when 0, the
875 // default operand size is used (which is 32-bit for most but not all
876 // instructions).
877 // REX.R This 1-bit value is an extension to the MODRM.reg field.
878 // REX.X This 1-bit value is an extension to the SIB.index field.
879 // REX.B This 1-bit value is an extension to the MODRM.rm field or the
880 // SIB.base field.
881 // See "2.2.1.2 More on REX Prefix Fields " (2-8 Vol. 2A).
Rui Ueyama595bc5d2016-06-16 19:48:07 +0000882 Loc[-3] = (Rex & ~0x4) | (Rex & 0x4) >> 2;
George Rimarf10c8292016-06-01 16:45:30 +0000883 relocateOne(Loc, R_X86_64_PC32, Val);
884 return;
885 }
886
887 // If we are here then we need to relax the adc, add, and, cmp, or, sbb, sub
888 // or xor operations.
889
890 // Convert "binop foo@GOTPCREL(%rip), %reg" to "binop $foo, %reg".
891 // Logic is close to one for test instruction above, but we also
892 // write opcode extension here, see below for details.
Rui Ueyama595bc5d2016-06-16 19:48:07 +0000893 Loc[-1] = 0xc0 | (ModRm & 0x38) >> 3 | (Op & 0x3c); // ModR/M byte.
George Rimarf10c8292016-06-01 16:45:30 +0000894
895 // Primary opcode is 0x81, opcode extension is one of:
896 // 000b = ADD, 001b is OR, 010b is ADC, 011b is SBB,
897 // 100b is AND, 101b is SUB, 110b is XOR, 111b is CMP.
898 // This value was wrote to MODRM.reg in a line above.
899 // See "3.2 INSTRUCTIONS (A-M)" (Vol. 2A 3-15),
900 // "INSTRUCTION SET REFERENCE, N-Z" (Vol. 2B 4-1) for
901 // descriptions about each operation.
Rui Ueyama595bc5d2016-06-16 19:48:07 +0000902 Loc[-2] = 0x81;
903 Loc[-3] = (Rex & ~0x4) | (Rex & 0x4) >> 2;
George Rimar5c33b912016-05-25 14:31:37 +0000904 relocateOne(Loc, R_X86_64_PC32, Val);
905}
906
Rui Ueyama46626e12016-07-12 23:28:31 +0000907template <class ELFT>
908void X86_64TargetInfo<ELFT>::relaxGot(uint8_t *Loc, uint64_t Val) const {
George Rimarb7204302016-06-02 09:22:00 +0000909 const uint8_t Op = Loc[-2];
910 const uint8_t ModRm = Loc[-1];
911
Rui Ueyamaa71ba432016-06-16 23:28:05 +0000912 // Convert "mov foo@GOTPCREL(%rip),%reg" to "lea foo(%rip),%reg".
George Rimarb7204302016-06-02 09:22:00 +0000913 if (Op == 0x8b) {
Rui Ueyama595bc5d2016-06-16 19:48:07 +0000914 Loc[-2] = 0x8d;
George Rimarb7204302016-06-02 09:22:00 +0000915 relocateOne(Loc, R_X86_64_PC32, Val);
916 return;
917 }
918
Rui Ueyamaa71ba432016-06-16 23:28:05 +0000919 if (Op != 0xff) {
920 // We are relaxing a rip relative to an absolute, so compensate
921 // for the old -4 addend.
922 assert(!Config->Pic);
923 relaxGotNoPic(Loc, Val + 4, Op, ModRm);
924 return;
925 }
926
George Rimarb7204302016-06-02 09:22:00 +0000927 // Convert call/jmp instructions.
Rui Ueyamaa71ba432016-06-16 23:28:05 +0000928 if (ModRm == 0x15) {
929 // ABI says we can convert "call *foo@GOTPCREL(%rip)" to "nop; call foo".
930 // Instead we convert to "addr32 call foo" where addr32 is an instruction
931 // prefix. That makes result expression to be a single instruction.
932 Loc[-2] = 0x67; // addr32 prefix
933 Loc[-1] = 0xe8; // call
George Rimarb7204302016-06-02 09:22:00 +0000934 relocateOne(Loc, R_X86_64_PC32, Val);
935 return;
936 }
937
Rui Ueyamaa71ba432016-06-16 23:28:05 +0000938 // Convert "jmp *foo@GOTPCREL(%rip)" to "jmp foo; nop".
939 // jmp doesn't return, so it is fine to use nop here, it is just a stub.
940 assert(ModRm == 0x25);
941 Loc[-2] = 0xe9; // jmp
942 Loc[3] = 0x90; // nop
943 relocateOne(Loc - 1, R_X86_64_PC32, Val + 1);
George Rimarb7204302016-06-02 09:22:00 +0000944}
945
Hal Finkel3c8cc672015-10-12 20:56:18 +0000946// Relocation masks following the #lo(value), #hi(value), #ha(value),
947// #higher(value), #highera(value), #highest(value), and #highesta(value)
948// macros defined in section 4.5.1. Relocation Types of the PPC-elf64abi
949// document.
Rui Ueyamac44e5a12015-10-23 16:54:58 +0000950static uint16_t applyPPCLo(uint64_t V) { return V; }
951static uint16_t applyPPCHi(uint64_t V) { return V >> 16; }
952static uint16_t applyPPCHa(uint64_t V) { return (V + 0x8000) >> 16; }
953static uint16_t applyPPCHigher(uint64_t V) { return V >> 32; }
954static uint16_t applyPPCHighera(uint64_t V) { return (V + 0x8000) >> 32; }
Hal Finkel3c8cc672015-10-12 20:56:18 +0000955static uint16_t applyPPCHighest(uint64_t V) { return V >> 48; }
Hal Finkel3c8cc672015-10-12 20:56:18 +0000956static uint16_t applyPPCHighesta(uint64_t V) { return (V + 0x8000) >> 48; }
957
Davide Italiano8c3444362016-01-11 19:45:33 +0000958PPCTargetInfo::PPCTargetInfo() {}
Davide Italiano8c3444362016-01-11 19:45:33 +0000959
Rafael Espindola22ef9562016-04-13 01:40:19 +0000960void PPCTargetInfo::relocateOne(uint8_t *Loc, uint32_t Type,
961 uint64_t Val) const {
Davide Italiano8c3444362016-01-11 19:45:33 +0000962 switch (Type) {
963 case R_PPC_ADDR16_HA:
Rafael Espindola22ef9562016-04-13 01:40:19 +0000964 write16be(Loc, applyPPCHa(Val));
Davide Italiano8c3444362016-01-11 19:45:33 +0000965 break;
966 case R_PPC_ADDR16_LO:
Rafael Espindola22ef9562016-04-13 01:40:19 +0000967 write16be(Loc, applyPPCLo(Val));
Davide Italiano8c3444362016-01-11 19:45:33 +0000968 break;
Rui Ueyama035c4f12016-11-01 18:30:28 +0000969 case R_PPC_ADDR32:
Rui Ueyama7fd5c84f2016-11-01 18:30:26 +0000970 case R_PPC_REL32:
971 write32be(Loc, Val);
972 break;
Rui Ueyama035c4f12016-11-01 18:30:28 +0000973 case R_PPC_REL24:
974 or32be(Loc, Val & 0x3FFFFFC);
975 break;
Davide Italiano8c3444362016-01-11 19:45:33 +0000976 default:
George Rimar57610422016-03-11 14:43:02 +0000977 fatal("unrecognized reloc " + Twine(Type));
Davide Italiano8c3444362016-01-11 19:45:33 +0000978 }
979}
980
Rafael Espindola22ef9562016-04-13 01:40:19 +0000981RelExpr PPCTargetInfo::getRelExpr(uint32_t Type, const SymbolBody &S) const {
Rui Ueyama7fd5c84f2016-11-01 18:30:26 +0000982 switch (Type) {
983 case R_PPC_REL24:
984 case R_PPC_REL32:
985 return R_PC;
986 default:
987 return R_ABS;
988 }
Rafael Espindola22ef9562016-04-13 01:40:19 +0000989}
990
Rafael Espindolac4010882015-09-22 20:54:08 +0000991PPC64TargetInfo::PPC64TargetInfo() {
Rafael Espindolae4c86d832016-05-18 21:03:36 +0000992 PltRel = GotRel = R_PPC64_GLOB_DAT;
Rui Ueyama724d6252016-01-29 01:49:32 +0000993 RelativeRel = R_PPC64_RELATIVE;
Rui Ueyama803b1202016-07-13 18:55:14 +0000994 GotEntrySize = 8;
995 GotPltEntrySize = 8;
Hal Finkel6c2a3b82015-10-08 21:51:31 +0000996 PltEntrySize = 32;
Rui Ueyamac737ef52016-06-16 23:50:25 +0000997 PltHeaderSize = 0;
Hal Finkelc848b322015-10-12 19:34:29 +0000998
999 // We need 64K pages (at least under glibc/Linux, the loader won't
1000 // set different permissions on a finer granularity than that).
Petr Hosek5d98fef72016-09-28 00:09:20 +00001001 MaxPageSize = 65536;
Hal Finkel736c7412015-10-15 07:49:07 +00001002
1003 // The PPC64 ELF ABI v1 spec, says:
1004 //
1005 // It is normally desirable to put segments with different characteristics
1006 // in separate 256 Mbyte portions of the address space, to give the
1007 // operating system full paging flexibility in the 64-bit address space.
1008 //
1009 // And because the lowest non-zero 256M boundary is 0x10000000, PPC64 linkers
1010 // use 0x10000000 as the starting address.
Rui Ueyama941faa72016-07-14 17:43:28 +00001011 DefaultImageBase = 0x10000000;
Rafael Espindolac4010882015-09-22 20:54:08 +00001012}
Hal Finkel3c8cc672015-10-12 20:56:18 +00001013
Rafael Espindola15cec292016-04-27 12:25:22 +00001014static uint64_t PPC64TocOffset = 0x8000;
1015
Hal Finkel6f97c2b2015-10-16 21:55:40 +00001016uint64_t getPPC64TocBase() {
Rafael Espindola520ed3a2016-04-27 12:21:27 +00001017 // The TOC consists of sections .got, .toc, .tocbss, .plt in that order. The
1018 // TOC starts where the first of these sections starts. We always create a
1019 // .got when we see a relocation that uses it, so for us the start is always
1020 // the .got.
Eugene Leviantad4439e2016-11-11 11:33:32 +00001021 uint64_t TocVA = In<ELF64BE>::Got->getVA();
Hal Finkel3c8cc672015-10-12 20:56:18 +00001022
1023 // Per the ppc64-elf-linux ABI, The TOC base is TOC value plus 0x8000
1024 // thus permitting a full 64 Kbytes segment. Note that the glibc startup
1025 // code (crt1.o) assumes that you can get from the TOC base to the
1026 // start of the .toc section with only a single (signed) 16-bit relocation.
Rafael Espindola15cec292016-04-27 12:25:22 +00001027 return TocVA + PPC64TocOffset;
Hal Finkel3c8cc672015-10-12 20:56:18 +00001028}
1029
Rafael Espindola22ef9562016-04-13 01:40:19 +00001030RelExpr PPC64TargetInfo::getRelExpr(uint32_t Type, const SymbolBody &S) const {
1031 switch (Type) {
1032 default:
1033 return R_ABS;
Rafael Espindola15cec292016-04-27 12:25:22 +00001034 case R_PPC64_TOC16:
1035 case R_PPC64_TOC16_DS:
1036 case R_PPC64_TOC16_HA:
1037 case R_PPC64_TOC16_HI:
1038 case R_PPC64_TOC16_LO:
1039 case R_PPC64_TOC16_LO_DS:
1040 return R_GOTREL;
Rafael Espindola365e5f62016-04-27 11:54:07 +00001041 case R_PPC64_TOC:
1042 return R_PPC_TOC;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001043 case R_PPC64_REL24:
Rafael Espindolab312a742016-04-21 17:30:24 +00001044 return R_PPC_PLT_OPD;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001045 }
1046}
1047
Rui Ueyama9398f862016-01-29 04:15:02 +00001048void PPC64TargetInfo::writePlt(uint8_t *Buf, uint64_t GotEntryAddr,
1049 uint64_t PltEntryAddr, int32_t Index,
1050 unsigned RelOff) const {
Hal Finkel3c8cc672015-10-12 20:56:18 +00001051 uint64_t Off = GotEntryAddr - getPPC64TocBase();
1052
1053 // FIXME: What we should do, in theory, is get the offset of the function
1054 // descriptor in the .opd section, and use that as the offset from %r2 (the
1055 // TOC-base pointer). Instead, we have the GOT-entry offset, and that will
1056 // be a pointer to the function descriptor in the .opd section. Using
1057 // this scheme is simpler, but requires an extra indirection per PLT dispatch.
1058
George Rimara4c7e742016-10-20 08:36:42 +00001059 write32be(Buf, 0xf8410028); // std %r2, 40(%r1)
1060 write32be(Buf + 4, 0x3d620000 | applyPPCHa(Off)); // addis %r11, %r2, X@ha
1061 write32be(Buf + 8, 0xe98b0000 | applyPPCLo(Off)); // ld %r12, X@l(%r11)
1062 write32be(Buf + 12, 0xe96c0000); // ld %r11,0(%r12)
1063 write32be(Buf + 16, 0x7d6903a6); // mtctr %r11
1064 write32be(Buf + 20, 0xe84c0008); // ld %r2,8(%r12)
1065 write32be(Buf + 24, 0xe96c0010); // ld %r11,16(%r12)
1066 write32be(Buf + 28, 0x4e800420); // bctr
Hal Finkel3c8cc672015-10-12 20:56:18 +00001067}
1068
Rui Ueyama2f524fb2016-06-16 23:28:08 +00001069static std::pair<uint32_t, uint64_t> toAddr16Rel(uint32_t Type, uint64_t Val) {
1070 uint64_t V = Val - PPC64TocOffset;
1071 switch (Type) {
George Rimara4c7e742016-10-20 08:36:42 +00001072 case R_PPC64_TOC16:
1073 return {R_PPC64_ADDR16, V};
1074 case R_PPC64_TOC16_DS:
1075 return {R_PPC64_ADDR16_DS, V};
1076 case R_PPC64_TOC16_HA:
1077 return {R_PPC64_ADDR16_HA, V};
1078 case R_PPC64_TOC16_HI:
1079 return {R_PPC64_ADDR16_HI, V};
1080 case R_PPC64_TOC16_LO:
1081 return {R_PPC64_ADDR16_LO, V};
1082 case R_PPC64_TOC16_LO_DS:
1083 return {R_PPC64_ADDR16_LO_DS, V};
1084 default:
1085 return {Type, Val};
Rui Ueyama2f524fb2016-06-16 23:28:08 +00001086 }
1087}
1088
Rafael Espindola22ef9562016-04-13 01:40:19 +00001089void PPC64TargetInfo::relocateOne(uint8_t *Loc, uint32_t Type,
1090 uint64_t Val) const {
Rui Ueyama2f524fb2016-06-16 23:28:08 +00001091 // For a TOC-relative relocation, proceed in terms of the corresponding
Rafael Espindola15cec292016-04-27 12:25:22 +00001092 // ADDR16 relocation type.
Rui Ueyama2f524fb2016-06-16 23:28:08 +00001093 std::tie(Type, Val) = toAddr16Rel(Type, Val);
Hal Finkel3c8cc672015-10-12 20:56:18 +00001094
Hal Finkel3c8cc672015-10-12 20:56:18 +00001095 switch (Type) {
Igor Kudrinb4a09272015-12-01 08:41:20 +00001096 case R_PPC64_ADDR14: {
Rafael Espindola22ef9562016-04-13 01:40:19 +00001097 checkAlignment<4>(Val, Type);
Igor Kudrinb4a09272015-12-01 08:41:20 +00001098 // Preserve the AA/LK bits in the branch instruction
1099 uint8_t AALK = Loc[3];
Rafael Espindola22ef9562016-04-13 01:40:19 +00001100 write16be(Loc + 2, (AALK & 3) | (Val & 0xfffc));
Igor Kudrinb4a09272015-12-01 08:41:20 +00001101 break;
1102 }
Hal Finkel3c8cc672015-10-12 20:56:18 +00001103 case R_PPC64_ADDR16:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001104 checkInt<16>(Val, Type);
1105 write16be(Loc, Val);
Rafael Espindola3efa4e92015-09-22 21:12:55 +00001106 break;
Hal Finkel3c8cc672015-10-12 20:56:18 +00001107 case R_PPC64_ADDR16_DS:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001108 checkInt<16>(Val, Type);
1109 write16be(Loc, (read16be(Loc) & 3) | (Val & ~3));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001110 break;
Igor Kudrinb4a09272015-12-01 08:41:20 +00001111 case R_PPC64_ADDR16_HA:
Rui Ueyamae991a492016-06-16 23:28:06 +00001112 case R_PPC64_REL16_HA:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001113 write16be(Loc, applyPPCHa(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001114 break;
1115 case R_PPC64_ADDR16_HI:
Rui Ueyamae991a492016-06-16 23:28:06 +00001116 case R_PPC64_REL16_HI:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001117 write16be(Loc, applyPPCHi(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001118 break;
Hal Finkel3c8cc672015-10-12 20:56:18 +00001119 case R_PPC64_ADDR16_HIGHER:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001120 write16be(Loc, applyPPCHigher(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001121 break;
1122 case R_PPC64_ADDR16_HIGHERA:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001123 write16be(Loc, applyPPCHighera(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001124 break;
1125 case R_PPC64_ADDR16_HIGHEST:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001126 write16be(Loc, applyPPCHighest(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001127 break;
1128 case R_PPC64_ADDR16_HIGHESTA:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001129 write16be(Loc, applyPPCHighesta(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001130 break;
Igor Kudrinb4a09272015-12-01 08:41:20 +00001131 case R_PPC64_ADDR16_LO:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001132 write16be(Loc, applyPPCLo(Val));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001133 break;
Igor Kudrinb4a09272015-12-01 08:41:20 +00001134 case R_PPC64_ADDR16_LO_DS:
Rui Ueyamae991a492016-06-16 23:28:06 +00001135 case R_PPC64_REL16_LO:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001136 write16be(Loc, (read16be(Loc) & 3) | (applyPPCLo(Val) & ~3));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001137 break;
1138 case R_PPC64_ADDR32:
Rui Ueyamae991a492016-06-16 23:28:06 +00001139 case R_PPC64_REL32:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001140 checkInt<32>(Val, Type);
1141 write32be(Loc, Val);
Hal Finkel3c8cc672015-10-12 20:56:18 +00001142 break;
Igor Kudrinb4a09272015-12-01 08:41:20 +00001143 case R_PPC64_ADDR64:
Rui Ueyamae991a492016-06-16 23:28:06 +00001144 case R_PPC64_REL64:
1145 case R_PPC64_TOC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001146 write64be(Loc, Val);
Igor Kudrinb4a09272015-12-01 08:41:20 +00001147 break;
Hal Finkel3c8cc672015-10-12 20:56:18 +00001148 case R_PPC64_REL24: {
1149 uint32_t Mask = 0x03FFFFFC;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001150 checkInt<24>(Val, Type);
1151 write32be(Loc, (read32be(Loc) & ~Mask) | (Val & Mask));
Hal Finkel3c8cc672015-10-12 20:56:18 +00001152 break;
1153 }
Rafael Espindola3efa4e92015-09-22 21:12:55 +00001154 default:
George Rimar57610422016-03-11 14:43:02 +00001155 fatal("unrecognized reloc " + Twine(Type));
Rafael Espindola3efa4e92015-09-22 21:12:55 +00001156 }
1157}
Rafael Espindola1d6063e2015-09-22 21:24:52 +00001158
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001159AArch64TargetInfo::AArch64TargetInfo() {
Rui Ueyama724d6252016-01-29 01:49:32 +00001160 CopyRel = R_AARCH64_COPY;
Adhemerval Zanella668ad0f2016-02-23 16:54:40 +00001161 RelativeRel = R_AARCH64_RELATIVE;
Rui Ueyama724d6252016-01-29 01:49:32 +00001162 IRelativeRel = R_AARCH64_IRELATIVE;
1163 GotRel = R_AARCH64_GLOB_DAT;
1164 PltRel = R_AARCH64_JUMP_SLOT;
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001165 TlsDescRel = R_AARCH64_TLSDESC;
Rui Ueyama724d6252016-01-29 01:49:32 +00001166 TlsGotRel = R_AARCH64_TLS_TPREL64;
Rui Ueyama803b1202016-07-13 18:55:14 +00001167 GotEntrySize = 8;
1168 GotPltEntrySize = 8;
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001169 PltEntrySize = 16;
Rui Ueyama4a90f572016-06-16 16:28:50 +00001170 PltHeaderSize = 32;
Eugene Leviantee8dcfb2016-10-04 08:58:55 +00001171 MaxPageSize = 65536;
Rafael Espindola8818ca62016-05-20 17:41:09 +00001172
1173 // It doesn't seem to be documented anywhere, but tls on aarch64 uses variant
1174 // 1 of the tls structures and the tcb size is 16.
1175 TcbSize = 16;
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001176}
George Rimar648a2c32015-10-20 08:54:27 +00001177
Rafael Espindola22ef9562016-04-13 01:40:19 +00001178RelExpr AArch64TargetInfo::getRelExpr(uint32_t Type,
1179 const SymbolBody &S) const {
1180 switch (Type) {
1181 default:
1182 return R_ABS;
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001183 case R_AARCH64_TLSDESC_ADR_PAGE21:
1184 return R_TLSDESC_PAGE;
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001185 case R_AARCH64_TLSDESC_LD64_LO12_NC:
1186 case R_AARCH64_TLSDESC_ADD_LO12_NC:
1187 return R_TLSDESC;
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001188 case R_AARCH64_TLSDESC_CALL:
Peter Smithd6486032016-10-20 09:59:26 +00001189 return R_TLSDESC_CALL;
Rafael Espindola8818ca62016-05-20 17:41:09 +00001190 case R_AARCH64_TLSLE_ADD_TPREL_HI12:
1191 case R_AARCH64_TLSLE_ADD_TPREL_LO12_NC:
1192 return R_TLS;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001193 case R_AARCH64_CALL26:
Rafael Espindolab312a742016-04-21 17:30:24 +00001194 case R_AARCH64_CONDBR19:
1195 case R_AARCH64_JUMP26:
1196 case R_AARCH64_TSTBR14:
1197 return R_PLT_PC;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001198 case R_AARCH64_PREL16:
1199 case R_AARCH64_PREL32:
1200 case R_AARCH64_PREL64:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001201 case R_AARCH64_ADR_PREL_LO21:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001202 return R_PC;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001203 case R_AARCH64_ADR_PREL_PG_HI21:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001204 return R_PAGE_PC;
Rafael Espindola5628ee72016-04-15 19:14:18 +00001205 case R_AARCH64_LD64_GOT_LO12_NC:
1206 case R_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC:
1207 return R_GOT;
1208 case R_AARCH64_ADR_GOT_PAGE:
1209 case R_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21:
1210 return R_GOT_PAGE_PC;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001211 }
1212}
1213
Rafael Espindolae1979ae2016-06-04 23:33:31 +00001214RelExpr AArch64TargetInfo::adjustRelaxExpr(uint32_t Type, const uint8_t *Data,
1215 RelExpr Expr) const {
1216 if (Expr == R_RELAX_TLS_GD_TO_IE) {
1217 if (Type == R_AARCH64_TLSDESC_ADR_PAGE21)
1218 return R_RELAX_TLS_GD_TO_IE_PAGE_PC;
1219 return R_RELAX_TLS_GD_TO_IE_ABS;
1220 }
1221 return Expr;
1222}
1223
Rafael Espindolab8ff59a2016-04-28 14:34:39 +00001224bool AArch64TargetInfo::usesOnlyLowPageBits(uint32_t Type) const {
Adhemerval Zanella3db3f6d2016-03-24 19:12:14 +00001225 switch (Type) {
1226 default:
1227 return false;
Ed Schouten39aca422016-04-06 18:21:07 +00001228 case R_AARCH64_ADD_ABS_LO12_NC:
Rafael Espindola53d0a9f2016-06-02 15:24:52 +00001229 case R_AARCH64_LD64_GOT_LO12_NC:
1230 case R_AARCH64_LDST128_ABS_LO12_NC:
Adhemerval Zanella3db3f6d2016-03-24 19:12:14 +00001231 case R_AARCH64_LDST16_ABS_LO12_NC:
1232 case R_AARCH64_LDST32_ABS_LO12_NC:
1233 case R_AARCH64_LDST64_ABS_LO12_NC:
Rafael Espindola53d0a9f2016-06-02 15:24:52 +00001234 case R_AARCH64_LDST8_ABS_LO12_NC:
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001235 case R_AARCH64_TLSDESC_ADD_LO12_NC:
1236 case R_AARCH64_TLSDESC_LD64_LO12_NC:
Rafael Espindolade17d282016-05-04 21:40:07 +00001237 case R_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC:
Adhemerval Zanella3db3f6d2016-03-24 19:12:14 +00001238 return true;
1239 }
Rafael Espindolaa4e35f72016-02-24 16:15:13 +00001240}
Rafael Espindola435c00f2016-02-23 20:19:44 +00001241
George Rimar98b060d2016-03-06 06:01:07 +00001242bool AArch64TargetInfo::isTlsInitialExecRel(uint32_t Type) const {
Rafael Espindolad405f472016-03-04 21:37:09 +00001243 return Type == R_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21 ||
1244 Type == R_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC;
1245}
1246
Eugene Leviantab024a32016-11-25 08:56:36 +00001247bool AArch64TargetInfo::isPicRel(uint32_t Type) const {
1248 return Type == R_AARCH64_ABS32 || Type == R_AARCH64_ABS64;
Igor Kudrincfe47f52015-12-05 06:20:24 +00001249}
1250
Rui Ueyamac9fee5f2016-06-16 16:14:50 +00001251void AArch64TargetInfo::writeGotPlt(uint8_t *Buf, const SymbolBody &) const {
Eugene Leviantff23d3e2016-11-18 14:35:03 +00001252 write64le(Buf, In<ELF64LE>::Plt->getVA());
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001253}
1254
Rafael Espindola22ef9562016-04-13 01:40:19 +00001255static uint64_t getAArch64Page(uint64_t Expr) {
1256 return Expr & (~static_cast<uint64_t>(0xFFF));
1257}
1258
Rui Ueyama4a90f572016-06-16 16:28:50 +00001259void AArch64TargetInfo::writePltHeader(uint8_t *Buf) const {
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001260 const uint8_t PltData[] = {
1261 0xf0, 0x7b, 0xbf, 0xa9, // stp x16, x30, [sp,#-16]!
1262 0x10, 0x00, 0x00, 0x90, // adrp x16, Page(&(.plt.got[2]))
1263 0x11, 0x02, 0x40, 0xf9, // ldr x17, [x16, Offset(&(.plt.got[2]))]
1264 0x10, 0x02, 0x00, 0x91, // add x16, x16, Offset(&(.plt.got[2]))
1265 0x20, 0x02, 0x1f, 0xd6, // br x17
1266 0x1f, 0x20, 0x03, 0xd5, // nop
1267 0x1f, 0x20, 0x03, 0xd5, // nop
1268 0x1f, 0x20, 0x03, 0xd5 // nop
1269 };
1270 memcpy(Buf, PltData, sizeof(PltData));
1271
Eugene Leviant41ca3272016-11-10 09:48:29 +00001272 uint64_t Got = In<ELF64LE>::GotPlt->getVA();
Eugene Leviantff23d3e2016-11-18 14:35:03 +00001273 uint64_t Plt = In<ELF64LE>::Plt->getVA();
Rafael Espindola22ef9562016-04-13 01:40:19 +00001274 relocateOne(Buf + 4, R_AARCH64_ADR_PREL_PG_HI21,
1275 getAArch64Page(Got + 16) - getAArch64Page(Plt + 4));
1276 relocateOne(Buf + 8, R_AARCH64_LDST64_ABS_LO12_NC, Got + 16);
1277 relocateOne(Buf + 12, R_AARCH64_ADD_ABS_LO12_NC, Got + 16);
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001278}
1279
Rui Ueyama9398f862016-01-29 04:15:02 +00001280void AArch64TargetInfo::writePlt(uint8_t *Buf, uint64_t GotEntryAddr,
1281 uint64_t PltEntryAddr, int32_t Index,
1282 unsigned RelOff) const {
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001283 const uint8_t Inst[] = {
1284 0x10, 0x00, 0x00, 0x90, // adrp x16, Page(&(.plt.got[n]))
1285 0x11, 0x02, 0x40, 0xf9, // ldr x17, [x16, Offset(&(.plt.got[n]))]
1286 0x10, 0x02, 0x00, 0x91, // add x16, x16, Offset(&(.plt.got[n]))
1287 0x20, 0x02, 0x1f, 0xd6 // br x17
1288 };
1289 memcpy(Buf, Inst, sizeof(Inst));
1290
Rafael Espindola22ef9562016-04-13 01:40:19 +00001291 relocateOne(Buf, R_AARCH64_ADR_PREL_PG_HI21,
1292 getAArch64Page(GotEntryAddr) - getAArch64Page(PltEntryAddr));
1293 relocateOne(Buf + 4, R_AARCH64_LDST64_ABS_LO12_NC, GotEntryAddr);
1294 relocateOne(Buf + 8, R_AARCH64_ADD_ABS_LO12_NC, GotEntryAddr);
Igor Kudrindb7de9f2015-11-17 18:01:30 +00001295}
1296
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001297static void updateAArch64Addr(uint8_t *L, uint64_t Imm) {
Davide Italiano1f31a2c2015-10-02 22:00:42 +00001298 uint32_t ImmLo = (Imm & 0x3) << 29;
Rafael Espindola1c0eb972016-06-02 16:00:25 +00001299 uint32_t ImmHi = (Imm & 0x1FFFFC) << 3;
1300 uint64_t Mask = (0x3 << 29) | (0x1FFFFC << 3);
Rui Ueyama87bc41b2015-10-06 18:54:43 +00001301 write32le(L, (read32le(L) & ~Mask) | ImmLo | ImmHi);
Davide Italiano1f31a2c2015-10-02 22:00:42 +00001302}
1303
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001304static inline void updateAArch64Add(uint8_t *L, uint64_t Imm) {
1305 or32le(L, (Imm & 0xFFF) << 10);
1306}
1307
Rafael Espindola22ef9562016-04-13 01:40:19 +00001308void AArch64TargetInfo::relocateOne(uint8_t *Loc, uint32_t Type,
1309 uint64_t Val) const {
Davide Italiano1d750a62015-09-27 08:45:38 +00001310 switch (Type) {
Davide Italianodf88f962015-10-04 00:59:16 +00001311 case R_AARCH64_ABS16:
Rui Ueyamae66f45c2016-05-25 04:10:14 +00001312 case R_AARCH64_PREL16:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001313 checkIntUInt<16>(Val, Type);
1314 write16le(Loc, Val);
Davide Italianodf88f962015-10-04 00:59:16 +00001315 break;
1316 case R_AARCH64_ABS32:
Rui Ueyamae66f45c2016-05-25 04:10:14 +00001317 case R_AARCH64_PREL32:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001318 checkIntUInt<32>(Val, Type);
1319 write32le(Loc, Val);
Davide Italianodf88f962015-10-04 00:59:16 +00001320 break;
1321 case R_AARCH64_ABS64:
Rui Ueyamae66f45c2016-05-25 04:10:14 +00001322 case R_AARCH64_PREL64:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001323 write64le(Loc, Val);
Davide Italianodf88f962015-10-04 00:59:16 +00001324 break;
Davide Italiano0b6974b2015-10-03 19:56:07 +00001325 case R_AARCH64_ADD_ABS_LO12_NC:
Davide Italianoa7165742015-10-16 21:06:55 +00001326 // This relocation stores 12 bits and there's no instruction
1327 // to do it. Instead, we do a 32 bits store of the value
Rui Ueyama96f0e0b2015-10-23 02:40:46 +00001328 // of r_addend bitwise-or'ed Loc. This assumes that the addend
1329 // bits in Loc are zero.
Rafael Espindola22ef9562016-04-13 01:40:19 +00001330 or32le(Loc, (Val & 0xFFF) << 10);
Davide Italiano0b6974b2015-10-03 19:56:07 +00001331 break;
Rafael Espindolad79073d2016-04-25 12:32:19 +00001332 case R_AARCH64_ADR_GOT_PAGE:
Rui Ueyamae66f45c2016-05-25 04:10:14 +00001333 case R_AARCH64_ADR_PREL_PG_HI21:
1334 case R_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21:
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001335 case R_AARCH64_TLSDESC_ADR_PAGE21:
Rafael Espindolad79073d2016-04-25 12:32:19 +00001336 checkInt<33>(Val, Type);
Rafael Espindola1c0eb972016-06-02 16:00:25 +00001337 updateAArch64Addr(Loc, Val >> 12);
Igor Kudrinb4a09272015-12-01 08:41:20 +00001338 break;
Rafael Espindolad79073d2016-04-25 12:32:19 +00001339 case R_AARCH64_ADR_PREL_LO21:
1340 checkInt<21>(Val, Type);
Rafael Espindola1c0eb972016-06-02 16:00:25 +00001341 updateAArch64Addr(Loc, Val);
Davide Italiano1d750a62015-09-27 08:45:38 +00001342 break;
Igor Kudrinb4a09272015-12-01 08:41:20 +00001343 case R_AARCH64_CALL26:
Rafael Espindolad79073d2016-04-25 12:32:19 +00001344 case R_AARCH64_JUMP26:
1345 checkInt<28>(Val, Type);
1346 or32le(Loc, (Val & 0x0FFFFFFC) >> 2);
Igor Kudrinb34115b2015-11-13 03:26:59 +00001347 break;
Rafael Espindolad79073d2016-04-25 12:32:19 +00001348 case R_AARCH64_CONDBR19:
1349 checkInt<21>(Val, Type);
1350 or32le(Loc, (Val & 0x1FFFFC) << 3);
George Rimar4102bfb2016-01-11 14:22:00 +00001351 break;
Igor Kudrin5d2bffd2015-11-24 06:48:31 +00001352 case R_AARCH64_LD64_GOT_LO12_NC:
George Rimar3d737e42016-01-13 13:04:46 +00001353 case R_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC:
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001354 case R_AARCH64_TLSDESC_LD64_LO12_NC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001355 checkAlignment<8>(Val, Type);
1356 or32le(Loc, (Val & 0xFF8) << 7);
Igor Kudrin5d2bffd2015-11-24 06:48:31 +00001357 break;
Davide Italiano0d4fbae2016-01-14 01:30:21 +00001358 case R_AARCH64_LDST128_ABS_LO12_NC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001359 or32le(Loc, (Val & 0x0FF8) << 6);
Davide Italiano0d4fbae2016-01-14 01:30:21 +00001360 break;
Davide Italiano2dfc5fd2016-01-15 01:49:51 +00001361 case R_AARCH64_LDST16_ABS_LO12_NC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001362 or32le(Loc, (Val & 0x0FFC) << 9);
Davide Italiano2dfc5fd2016-01-15 01:49:51 +00001363 break;
Davide Italianodc67f9b2015-11-20 21:35:38 +00001364 case R_AARCH64_LDST8_ABS_LO12_NC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001365 or32le(Loc, (Val & 0xFFF) << 10);
Davide Italianodc67f9b2015-11-20 21:35:38 +00001366 break;
Igor Kudrinb4a09272015-12-01 08:41:20 +00001367 case R_AARCH64_LDST32_ABS_LO12_NC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001368 or32le(Loc, (Val & 0xFFC) << 8);
Igor Kudrinb4a09272015-12-01 08:41:20 +00001369 break;
1370 case R_AARCH64_LDST64_ABS_LO12_NC:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001371 or32le(Loc, (Val & 0xFF8) << 7);
Igor Kudrinb4a09272015-12-01 08:41:20 +00001372 break;
Eugene Leviant99da7522016-09-12 10:02:41 +00001373 case R_AARCH64_MOVW_UABS_G0_NC:
1374 or32le(Loc, (Val & 0xFFFF) << 5);
1375 break;
1376 case R_AARCH64_MOVW_UABS_G1_NC:
1377 or32le(Loc, (Val & 0xFFFF0000) >> 11);
1378 break;
1379 case R_AARCH64_MOVW_UABS_G2_NC:
1380 or32le(Loc, (Val & 0xFFFF00000000) >> 27);
1381 break;
1382 case R_AARCH64_MOVW_UABS_G3:
1383 or32le(Loc, (Val & 0xFFFF000000000000) >> 43);
1384 break;
Rafael Espindolad79073d2016-04-25 12:32:19 +00001385 case R_AARCH64_TSTBR14:
1386 checkInt<16>(Val, Type);
1387 or32le(Loc, (Val & 0xFFFC) << 3);
George Rimar1395dbd2016-01-11 14:27:05 +00001388 break;
Rafael Espindola8818ca62016-05-20 17:41:09 +00001389 case R_AARCH64_TLSLE_ADD_TPREL_HI12:
1390 checkInt<24>(Val, Type);
Rafael Espindola1016f192016-06-02 15:51:40 +00001391 updateAArch64Add(Loc, Val >> 12);
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001392 break;
Rafael Espindola8818ca62016-05-20 17:41:09 +00001393 case R_AARCH64_TLSLE_ADD_TPREL_LO12_NC:
Rafael Espindolae37d13b2016-06-02 19:49:53 +00001394 case R_AARCH64_TLSDESC_ADD_LO12_NC:
Rafael Espindola1016f192016-06-02 15:51:40 +00001395 updateAArch64Add(Loc, Val);
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001396 break;
Davide Italiano1d750a62015-09-27 08:45:38 +00001397 default:
George Rimar57610422016-03-11 14:43:02 +00001398 fatal("unrecognized reloc " + Twine(Type));
Davide Italiano1d750a62015-09-27 08:45:38 +00001399 }
1400}
Simon Atanasyan49829a12015-09-29 05:34:03 +00001401
Rafael Espindola22ef9562016-04-13 01:40:19 +00001402void AArch64TargetInfo::relaxTlsGdToLe(uint8_t *Loc, uint32_t Type,
1403 uint64_t Val) const {
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001404 // TLSDESC Global-Dynamic relocation are in the form:
1405 // adrp x0, :tlsdesc:v [R_AARCH64_TLSDESC_ADR_PAGE21]
1406 // ldr x1, [x0, #:tlsdesc_lo12:v [R_AARCH64_TLSDESC_LD64_LO12_NC]
1407 // add x0, x0, :tlsdesc_los:v [_AARCH64_TLSDESC_ADD_LO12_NC]
1408 // .tlsdesccall [R_AARCH64_TLSDESC_CALL]
Rafael Espindolae1979ae2016-06-04 23:33:31 +00001409 // blr x1
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001410 // And it can optimized to:
1411 // movz x0, #0x0, lsl #16
1412 // movk x0, #0x10
1413 // nop
1414 // nop
Rafael Espindola8818ca62016-05-20 17:41:09 +00001415 checkUInt<32>(Val, Type);
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001416
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001417 switch (Type) {
1418 case R_AARCH64_TLSDESC_ADD_LO12_NC:
1419 case R_AARCH64_TLSDESC_CALL:
Rui Ueyamaf9d56202016-06-16 16:44:52 +00001420 write32le(Loc, 0xd503201f); // nop
1421 return;
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001422 case R_AARCH64_TLSDESC_ADR_PAGE21:
Rui Ueyamaf9d56202016-06-16 16:44:52 +00001423 write32le(Loc, 0xd2a00000 | (((Val >> 16) & 0xffff) << 5)); // movz
1424 return;
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001425 case R_AARCH64_TLSDESC_LD64_LO12_NC:
Rui Ueyamaf9d56202016-06-16 16:44:52 +00001426 write32le(Loc, 0xf2800000 | ((Val & 0xffff) << 5)); // movk
1427 return;
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001428 default:
Rui Ueyamaf9d56202016-06-16 16:44:52 +00001429 llvm_unreachable("unsupported relocation for TLS GD to LE relaxation");
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001430 }
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001431}
1432
Rafael Espindolae1979ae2016-06-04 23:33:31 +00001433void AArch64TargetInfo::relaxTlsGdToIe(uint8_t *Loc, uint32_t Type,
1434 uint64_t Val) const {
1435 // TLSDESC Global-Dynamic relocation are in the form:
1436 // adrp x0, :tlsdesc:v [R_AARCH64_TLSDESC_ADR_PAGE21]
1437 // ldr x1, [x0, #:tlsdesc_lo12:v [R_AARCH64_TLSDESC_LD64_LO12_NC]
1438 // add x0, x0, :tlsdesc_los:v [_AARCH64_TLSDESC_ADD_LO12_NC]
1439 // .tlsdesccall [R_AARCH64_TLSDESC_CALL]
1440 // blr x1
1441 // And it can optimized to:
1442 // adrp x0, :gottprel:v
1443 // ldr x0, [x0, :gottprel_lo12:v]
1444 // nop
1445 // nop
1446
1447 switch (Type) {
1448 case R_AARCH64_TLSDESC_ADD_LO12_NC:
1449 case R_AARCH64_TLSDESC_CALL:
1450 write32le(Loc, 0xd503201f); // nop
1451 break;
1452 case R_AARCH64_TLSDESC_ADR_PAGE21:
1453 write32le(Loc, 0x90000000); // adrp
1454 relocateOne(Loc, R_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21, Val);
1455 break;
1456 case R_AARCH64_TLSDESC_LD64_LO12_NC:
1457 write32le(Loc, 0xf9400000); // ldr
1458 relocateOne(Loc, R_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC, Val);
1459 break;
1460 default:
Rui Ueyamaf9d56202016-06-16 16:44:52 +00001461 llvm_unreachable("unsupported relocation for TLS GD to LE relaxation");
Rafael Espindolae1979ae2016-06-04 23:33:31 +00001462 }
1463}
1464
Rafael Espindola22ef9562016-04-13 01:40:19 +00001465void AArch64TargetInfo::relaxTlsIeToLe(uint8_t *Loc, uint32_t Type,
1466 uint64_t Val) const {
Rafael Espindola8818ca62016-05-20 17:41:09 +00001467 checkUInt<32>(Val, Type);
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001468
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001469 if (Type == R_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21) {
Rui Ueyamad089a432016-06-16 16:40:36 +00001470 // Generate MOVZ.
1471 uint32_t RegNo = read32le(Loc) & 0x1f;
1472 write32le(Loc, (0xd2a00000 | RegNo) | (((Val >> 16) & 0xffff) << 5));
1473 return;
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001474 }
Rui Ueyamad089a432016-06-16 16:40:36 +00001475 if (Type == R_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC) {
1476 // Generate MOVK.
1477 uint32_t RegNo = read32le(Loc) & 0x1f;
1478 write32le(Loc, (0xf2800000 | RegNo) | ((Val & 0xffff) << 5));
1479 return;
1480 }
1481 llvm_unreachable("invalid relocation for TLS IE to LE relaxation");
Adhemerval Zanella74bcf032016-02-12 13:43:03 +00001482}
1483
Rui Ueyama0fad6ea2016-07-14 05:46:22 +00001484AMDGPUTargetInfo::AMDGPUTargetInfo() {
Rui Ueyama7caf48c2016-08-31 21:04:25 +00001485 RelativeRel = R_AMDGPU_REL64;
Rui Ueyama0fad6ea2016-07-14 05:46:22 +00001486 GotRel = R_AMDGPU_ABS64;
1487 GotEntrySize = 8;
1488}
Tom Stellard391e3a82016-07-04 19:19:07 +00001489
Rafael Espindola22ef9562016-04-13 01:40:19 +00001490void AMDGPUTargetInfo::relocateOne(uint8_t *Loc, uint32_t Type,
1491 uint64_t Val) const {
Tom Stellard391e3a82016-07-04 19:19:07 +00001492 switch (Type) {
Konstantin Zhuravlyov667e245e2016-07-21 15:30:13 +00001493 case R_AMDGPU_ABS32:
Tom Stellard391e3a82016-07-04 19:19:07 +00001494 case R_AMDGPU_GOTPCREL:
Konstantin Zhuravlyovd4327e92016-10-14 04:51:43 +00001495 case R_AMDGPU_GOTPCREL32_LO:
Tom Stellard391e3a82016-07-04 19:19:07 +00001496 case R_AMDGPU_REL32:
Konstantin Zhuravlyovd4327e92016-10-14 04:51:43 +00001497 case R_AMDGPU_REL32_LO:
Tom Stellard391e3a82016-07-04 19:19:07 +00001498 write32le(Loc, Val);
1499 break;
Konstantin Zhuravlyovb625d172016-10-20 18:34:58 +00001500 case R_AMDGPU_ABS64:
1501 write64le(Loc, Val);
1502 break;
Konstantin Zhuravlyovd4327e92016-10-14 04:51:43 +00001503 case R_AMDGPU_GOTPCREL32_HI:
1504 case R_AMDGPU_REL32_HI:
1505 write32le(Loc, Val >> 32);
1506 break;
Tom Stellard391e3a82016-07-04 19:19:07 +00001507 default:
1508 fatal("unrecognized reloc " + Twine(Type));
1509 }
Rafael Espindola22ef9562016-04-13 01:40:19 +00001510}
1511
1512RelExpr AMDGPUTargetInfo::getRelExpr(uint32_t Type, const SymbolBody &S) const {
Tom Stellard391e3a82016-07-04 19:19:07 +00001513 switch (Type) {
Konstantin Zhuravlyov667e245e2016-07-21 15:30:13 +00001514 case R_AMDGPU_ABS32:
Konstantin Zhuravlyovb625d172016-10-20 18:34:58 +00001515 case R_AMDGPU_ABS64:
Konstantin Zhuravlyov667e245e2016-07-21 15:30:13 +00001516 return R_ABS;
Tom Stellard391e3a82016-07-04 19:19:07 +00001517 case R_AMDGPU_REL32:
Konstantin Zhuravlyovd4327e92016-10-14 04:51:43 +00001518 case R_AMDGPU_REL32_LO:
1519 case R_AMDGPU_REL32_HI:
Tom Stellard391e3a82016-07-04 19:19:07 +00001520 return R_PC;
1521 case R_AMDGPU_GOTPCREL:
Konstantin Zhuravlyovd4327e92016-10-14 04:51:43 +00001522 case R_AMDGPU_GOTPCREL32_LO:
1523 case R_AMDGPU_GOTPCREL32_HI:
Tom Stellard391e3a82016-07-04 19:19:07 +00001524 return R_GOT_PC;
1525 default:
1526 fatal("do not know how to handle relocation " + Twine(Type));
1527 }
Tom Stellard80efb162016-01-07 03:59:08 +00001528}
1529
Peter Smith8646ced2016-06-07 09:31:52 +00001530ARMTargetInfo::ARMTargetInfo() {
1531 CopyRel = R_ARM_COPY;
1532 RelativeRel = R_ARM_RELATIVE;
1533 IRelativeRel = R_ARM_IRELATIVE;
1534 GotRel = R_ARM_GLOB_DAT;
1535 PltRel = R_ARM_JUMP_SLOT;
1536 TlsGotRel = R_ARM_TLS_TPOFF32;
1537 TlsModuleIndexRel = R_ARM_TLS_DTPMOD32;
1538 TlsOffsetRel = R_ARM_TLS_DTPOFF32;
Rui Ueyama803b1202016-07-13 18:55:14 +00001539 GotEntrySize = 4;
1540 GotPltEntrySize = 4;
Peter Smith8646ced2016-06-07 09:31:52 +00001541 PltEntrySize = 16;
Rui Ueyama4a90f572016-06-16 16:28:50 +00001542 PltHeaderSize = 20;
Peter Smith9d450252016-07-20 08:52:27 +00001543 // ARM uses Variant 1 TLS
1544 TcbSize = 8;
Rafael Espindola0f7ceda2016-07-20 17:58:07 +00001545 NeedsThunks = true;
Peter Smith8646ced2016-06-07 09:31:52 +00001546}
1547
1548RelExpr ARMTargetInfo::getRelExpr(uint32_t Type, const SymbolBody &S) const {
1549 switch (Type) {
1550 default:
1551 return R_ABS;
Peter Smithfa4d90d2016-06-16 09:53:46 +00001552 case R_ARM_THM_JUMP11:
1553 return R_PC;
Peter Smith8646ced2016-06-07 09:31:52 +00001554 case R_ARM_CALL:
1555 case R_ARM_JUMP24:
1556 case R_ARM_PC24:
1557 case R_ARM_PLT32:
Peter Smithd6486032016-10-20 09:59:26 +00001558 case R_ARM_PREL31:
Peter Smithfa4d90d2016-06-16 09:53:46 +00001559 case R_ARM_THM_JUMP19:
1560 case R_ARM_THM_JUMP24:
1561 case R_ARM_THM_CALL:
Peter Smith8646ced2016-06-07 09:31:52 +00001562 return R_PLT_PC;
1563 case R_ARM_GOTOFF32:
1564 // (S + A) - GOT_ORG
1565 return R_GOTREL;
1566 case R_ARM_GOT_BREL:
1567 // GOT(S) + A - GOT_ORG
1568 return R_GOT_OFF;
1569 case R_ARM_GOT_PREL:
Peter Smith9d450252016-07-20 08:52:27 +00001570 case R_ARM_TLS_IE32:
1571 // GOT(S) + A - P
Peter Smith8646ced2016-06-07 09:31:52 +00001572 return R_GOT_PC;
Davide Italiano38115ff2016-08-01 19:28:13 +00001573 case R_ARM_TARGET1:
1574 return Config->Target1Rel ? R_PC : R_ABS;
Peter Smith9bbd4e22016-10-17 18:12:24 +00001575 case R_ARM_TARGET2:
1576 if (Config->Target2 == Target2Policy::Rel)
1577 return R_PC;
1578 if (Config->Target2 == Target2Policy::Abs)
1579 return R_ABS;
1580 return R_GOT_PC;
Peter Smith9d450252016-07-20 08:52:27 +00001581 case R_ARM_TLS_GD32:
1582 return R_TLSGD_PC;
Peter Smith441cf5d2016-07-20 14:56:26 +00001583 case R_ARM_TLS_LDM32:
1584 return R_TLSLD_PC;
Peter Smith8646ced2016-06-07 09:31:52 +00001585 case R_ARM_BASE_PREL:
1586 // B(S) + A - P
1587 // FIXME: currently B(S) assumed to be .got, this may not hold for all
1588 // platforms.
1589 return R_GOTONLY_PC;
Peter Smithfb05cd92016-07-08 16:10:27 +00001590 case R_ARM_MOVW_PREL_NC:
1591 case R_ARM_MOVT_PREL:
Peter Smith8646ced2016-06-07 09:31:52 +00001592 case R_ARM_REL32:
Peter Smithfb05cd92016-07-08 16:10:27 +00001593 case R_ARM_THM_MOVW_PREL_NC:
1594 case R_ARM_THM_MOVT_PREL:
Peter Smith8646ced2016-06-07 09:31:52 +00001595 return R_PC;
Peter Smithd6486032016-10-20 09:59:26 +00001596 case R_ARM_NONE:
1597 return R_HINT;
Peter Smith9d450252016-07-20 08:52:27 +00001598 case R_ARM_TLS_LE32:
1599 return R_TLS;
Peter Smith8646ced2016-06-07 09:31:52 +00001600 }
1601}
1602
Eugene Leviantab024a32016-11-25 08:56:36 +00001603bool ARMTargetInfo::isPicRel(uint32_t Type) const {
1604 return (Type == R_ARM_TARGET1 && !Config->Target1Rel) ||
1605 (Type == R_ARM_ABS32);
1606}
1607
Peter Smith8646ced2016-06-07 09:31:52 +00001608uint32_t ARMTargetInfo::getDynRel(uint32_t Type) const {
Davide Italiano38115ff2016-08-01 19:28:13 +00001609 if (Type == R_ARM_TARGET1 && !Config->Target1Rel)
1610 return R_ARM_ABS32;
Peter Smith8646ced2016-06-07 09:31:52 +00001611 if (Type == R_ARM_ABS32)
1612 return Type;
Peter Smith8646ced2016-06-07 09:31:52 +00001613 // Keep it going with a dummy value so that we can find more reloc errors.
1614 return R_ARM_ABS32;
1615}
1616
Rui Ueyamac9fee5f2016-06-16 16:14:50 +00001617void ARMTargetInfo::writeGotPlt(uint8_t *Buf, const SymbolBody &) const {
Eugene Leviantff23d3e2016-11-18 14:35:03 +00001618 write32le(Buf, In<ELF32LE>::Plt->getVA());
Peter Smith8646ced2016-06-07 09:31:52 +00001619}
1620
Rui Ueyama4a90f572016-06-16 16:28:50 +00001621void ARMTargetInfo::writePltHeader(uint8_t *Buf) const {
Peter Smith8646ced2016-06-07 09:31:52 +00001622 const uint8_t PltData[] = {
1623 0x04, 0xe0, 0x2d, 0xe5, // str lr, [sp,#-4]!
1624 0x04, 0xe0, 0x9f, 0xe5, // ldr lr, L2
1625 0x0e, 0xe0, 0x8f, 0xe0, // L1: add lr, pc, lr
1626 0x08, 0xf0, 0xbe, 0xe5, // ldr pc, [lr, #8]
1627 0x00, 0x00, 0x00, 0x00, // L2: .word &(.got.plt) - L1 - 8
1628 };
1629 memcpy(Buf, PltData, sizeof(PltData));
Eugene Leviant41ca3272016-11-10 09:48:29 +00001630 uint64_t GotPlt = In<ELF32LE>::GotPlt->getVA();
Eugene Leviantff23d3e2016-11-18 14:35:03 +00001631 uint64_t L1 = In<ELF32LE>::Plt->getVA() + 8;
Peter Smith8646ced2016-06-07 09:31:52 +00001632 write32le(Buf + 16, GotPlt - L1 - 8);
1633}
1634
1635void ARMTargetInfo::writePlt(uint8_t *Buf, uint64_t GotEntryAddr,
1636 uint64_t PltEntryAddr, int32_t Index,
1637 unsigned RelOff) const {
1638 // FIXME: Using simple code sequence with simple relocations.
1639 // There is a more optimal sequence but it requires support for the group
1640 // relocations. See ELF for the ARM Architecture Appendix A.3
1641 const uint8_t PltData[] = {
1642 0x04, 0xc0, 0x9f, 0xe5, // ldr ip, L2
1643 0x0f, 0xc0, 0x8c, 0xe0, // L1: add ip, ip, pc
1644 0x00, 0xf0, 0x9c, 0xe5, // ldr pc, [ip]
1645 0x00, 0x00, 0x00, 0x00, // L2: .word Offset(&(.plt.got) - L1 - 8
1646 };
1647 memcpy(Buf, PltData, sizeof(PltData));
1648 uint64_t L1 = PltEntryAddr + 4;
1649 write32le(Buf + 12, GotEntryAddr - L1 - 8);
1650}
1651
Peter Smithfb05cd92016-07-08 16:10:27 +00001652RelExpr ARMTargetInfo::getThunkExpr(RelExpr Expr, uint32_t RelocType,
1653 const InputFile &File,
1654 const SymbolBody &S) const {
Peter Smith2227c7f2016-11-03 11:49:23 +00001655 // If S is an undefined weak symbol we don't need a Thunk
1656 if (S.isUndefined())
1657 return Expr;
Peter Smithfb05cd92016-07-08 16:10:27 +00001658 // A state change from ARM to Thumb and vice versa must go through an
1659 // interworking thunk if the relocation type is not R_ARM_CALL or
1660 // R_ARM_THM_CALL.
1661 switch (RelocType) {
1662 case R_ARM_PC24:
1663 case R_ARM_PLT32:
1664 case R_ARM_JUMP24:
1665 // Source is ARM, all PLT entries are ARM so no interworking required.
1666 // Otherwise we need to interwork if Symbol has bit 0 set (Thumb).
1667 if (Expr == R_PC && ((S.getVA<ELF32LE>() & 1) == 1))
1668 return R_THUNK_PC;
1669 break;
1670 case R_ARM_THM_JUMP19:
1671 case R_ARM_THM_JUMP24:
1672 // Source is Thumb, all PLT entries are ARM so interworking is required.
1673 // Otherwise we need to interwork if Symbol has bit 0 clear (ARM).
1674 if (Expr == R_PLT_PC)
1675 return R_THUNK_PLT_PC;
1676 if ((S.getVA<ELF32LE>() & 1) == 0)
1677 return R_THUNK_PC;
1678 break;
1679 }
1680 return Expr;
1681}
1682
Peter Smith8646ced2016-06-07 09:31:52 +00001683void ARMTargetInfo::relocateOne(uint8_t *Loc, uint32_t Type,
1684 uint64_t Val) const {
1685 switch (Type) {
Peter Smith8646ced2016-06-07 09:31:52 +00001686 case R_ARM_ABS32:
1687 case R_ARM_BASE_PREL:
1688 case R_ARM_GOTOFF32:
1689 case R_ARM_GOT_BREL:
1690 case R_ARM_GOT_PREL:
1691 case R_ARM_REL32:
Davide Italiano38115ff2016-08-01 19:28:13 +00001692 case R_ARM_TARGET1:
Peter Smith9bbd4e22016-10-17 18:12:24 +00001693 case R_ARM_TARGET2:
Peter Smith9d450252016-07-20 08:52:27 +00001694 case R_ARM_TLS_GD32:
1695 case R_ARM_TLS_IE32:
Peter Smith441cf5d2016-07-20 14:56:26 +00001696 case R_ARM_TLS_LDM32:
1697 case R_ARM_TLS_LDO32:
Peter Smith9d450252016-07-20 08:52:27 +00001698 case R_ARM_TLS_LE32:
Peter Smith8646ced2016-06-07 09:31:52 +00001699 write32le(Loc, Val);
1700 break;
1701 case R_ARM_PREL31:
1702 checkInt<31>(Val, Type);
1703 write32le(Loc, (read32le(Loc) & 0x80000000) | (Val & ~0x80000000));
1704 break;
1705 case R_ARM_CALL:
Peter Smithfa4d90d2016-06-16 09:53:46 +00001706 // R_ARM_CALL is used for BL and BLX instructions, depending on the
1707 // value of bit 0 of Val, we must select a BL or BLX instruction
1708 if (Val & 1) {
1709 // If bit 0 of Val is 1 the target is Thumb, we must select a BLX.
1710 // The BLX encoding is 0xfa:H:imm24 where Val = imm24:H:'1'
1711 checkInt<26>(Val, Type);
1712 write32le(Loc, 0xfa000000 | // opcode
1713 ((Val & 2) << 23) | // H
1714 ((Val >> 2) & 0x00ffffff)); // imm24
1715 break;
1716 }
1717 if ((read32le(Loc) & 0xfe000000) == 0xfa000000)
1718 // BLX (always unconditional) instruction to an ARM Target, select an
1719 // unconditional BL.
1720 write32le(Loc, 0xeb000000 | (read32le(Loc) & 0x00ffffff));
George Rimara4c7e742016-10-20 08:36:42 +00001721 // fall through as BL encoding is shared with B
Peter Smith8646ced2016-06-07 09:31:52 +00001722 case R_ARM_JUMP24:
1723 case R_ARM_PC24:
1724 case R_ARM_PLT32:
1725 checkInt<26>(Val, Type);
1726 write32le(Loc, (read32le(Loc) & ~0x00ffffff) | ((Val >> 2) & 0x00ffffff));
1727 break;
Peter Smithfa4d90d2016-06-16 09:53:46 +00001728 case R_ARM_THM_JUMP11:
1729 checkInt<12>(Val, Type);
1730 write16le(Loc, (read32le(Loc) & 0xf800) | ((Val >> 1) & 0x07ff));
1731 break;
1732 case R_ARM_THM_JUMP19:
1733 // Encoding T3: Val = S:J2:J1:imm6:imm11:0
1734 checkInt<21>(Val, Type);
1735 write16le(Loc,
1736 (read16le(Loc) & 0xfbc0) | // opcode cond
1737 ((Val >> 10) & 0x0400) | // S
1738 ((Val >> 12) & 0x003f)); // imm6
1739 write16le(Loc + 2,
1740 0x8000 | // opcode
1741 ((Val >> 8) & 0x0800) | // J2
1742 ((Val >> 5) & 0x2000) | // J1
1743 ((Val >> 1) & 0x07ff)); // imm11
1744 break;
1745 case R_ARM_THM_CALL:
1746 // R_ARM_THM_CALL is used for BL and BLX instructions, depending on the
1747 // value of bit 0 of Val, we must select a BL or BLX instruction
1748 if ((Val & 1) == 0) {
1749 // Ensure BLX destination is 4-byte aligned. As BLX instruction may
1750 // only be two byte aligned. This must be done before overflow check
1751 Val = alignTo(Val, 4);
1752 }
1753 // Bit 12 is 0 for BLX, 1 for BL
1754 write16le(Loc + 2, (read16le(Loc + 2) & ~0x1000) | (Val & 1) << 12);
George Rimara4c7e742016-10-20 08:36:42 +00001755 // Fall through as rest of encoding is the same as B.W
Peter Smithfa4d90d2016-06-16 09:53:46 +00001756 case R_ARM_THM_JUMP24:
1757 // Encoding B T4, BL T1, BLX T2: Val = S:I1:I2:imm10:imm11:0
1758 // FIXME: Use of I1 and I2 require v6T2ops
1759 checkInt<25>(Val, Type);
1760 write16le(Loc,
1761 0xf000 | // opcode
1762 ((Val >> 14) & 0x0400) | // S
1763 ((Val >> 12) & 0x03ff)); // imm10
1764 write16le(Loc + 2,
1765 (read16le(Loc + 2) & 0xd000) | // opcode
1766 (((~(Val >> 10)) ^ (Val >> 11)) & 0x2000) | // J1
1767 (((~(Val >> 11)) ^ (Val >> 13)) & 0x0800) | // J2
1768 ((Val >> 1) & 0x07ff)); // imm11
1769 break;
Peter Smith8646ced2016-06-07 09:31:52 +00001770 case R_ARM_MOVW_ABS_NC:
Peter Smithfb05cd92016-07-08 16:10:27 +00001771 case R_ARM_MOVW_PREL_NC:
Peter Smith8646ced2016-06-07 09:31:52 +00001772 write32le(Loc, (read32le(Loc) & ~0x000f0fff) | ((Val & 0xf000) << 4) |
1773 (Val & 0x0fff));
1774 break;
1775 case R_ARM_MOVT_ABS:
Peter Smithfb05cd92016-07-08 16:10:27 +00001776 case R_ARM_MOVT_PREL:
1777 checkInt<32>(Val, Type);
Peter Smith8646ced2016-06-07 09:31:52 +00001778 write32le(Loc, (read32le(Loc) & ~0x000f0fff) |
1779 (((Val >> 16) & 0xf000) << 4) | ((Val >> 16) & 0xfff));
1780 break;
Peter Smithfa4d90d2016-06-16 09:53:46 +00001781 case R_ARM_THM_MOVT_ABS:
Peter Smithfb05cd92016-07-08 16:10:27 +00001782 case R_ARM_THM_MOVT_PREL:
Peter Smithfa4d90d2016-06-16 09:53:46 +00001783 // Encoding T1: A = imm4:i:imm3:imm8
Peter Smithfb05cd92016-07-08 16:10:27 +00001784 checkInt<32>(Val, Type);
Peter Smithfa4d90d2016-06-16 09:53:46 +00001785 write16le(Loc,
1786 0xf2c0 | // opcode
1787 ((Val >> 17) & 0x0400) | // i
1788 ((Val >> 28) & 0x000f)); // imm4
1789 write16le(Loc + 2,
1790 (read16le(Loc + 2) & 0x8f00) | // opcode
1791 ((Val >> 12) & 0x7000) | // imm3
1792 ((Val >> 16) & 0x00ff)); // imm8
1793 break;
1794 case R_ARM_THM_MOVW_ABS_NC:
Peter Smithfb05cd92016-07-08 16:10:27 +00001795 case R_ARM_THM_MOVW_PREL_NC:
Peter Smithfa4d90d2016-06-16 09:53:46 +00001796 // Encoding T3: A = imm4:i:imm3:imm8
1797 write16le(Loc,
1798 0xf240 | // opcode
1799 ((Val >> 1) & 0x0400) | // i
1800 ((Val >> 12) & 0x000f)); // imm4
1801 write16le(Loc + 2,
1802 (read16le(Loc + 2) & 0x8f00) | // opcode
1803 ((Val << 4) & 0x7000) | // imm3
1804 (Val & 0x00ff)); // imm8
1805 break;
Peter Smith8646ced2016-06-07 09:31:52 +00001806 default:
1807 fatal("unrecognized reloc " + Twine(Type));
1808 }
1809}
1810
1811uint64_t ARMTargetInfo::getImplicitAddend(const uint8_t *Buf,
1812 uint32_t Type) const {
1813 switch (Type) {
1814 default:
1815 return 0;
1816 case R_ARM_ABS32:
1817 case R_ARM_BASE_PREL:
1818 case R_ARM_GOTOFF32:
1819 case R_ARM_GOT_BREL:
1820 case R_ARM_GOT_PREL:
1821 case R_ARM_REL32:
Davide Italiano38115ff2016-08-01 19:28:13 +00001822 case R_ARM_TARGET1:
Peter Smith9bbd4e22016-10-17 18:12:24 +00001823 case R_ARM_TARGET2:
Peter Smith9d450252016-07-20 08:52:27 +00001824 case R_ARM_TLS_GD32:
Peter Smith441cf5d2016-07-20 14:56:26 +00001825 case R_ARM_TLS_LDM32:
1826 case R_ARM_TLS_LDO32:
Peter Smith9d450252016-07-20 08:52:27 +00001827 case R_ARM_TLS_IE32:
1828 case R_ARM_TLS_LE32:
Peter Smith8646ced2016-06-07 09:31:52 +00001829 return SignExtend64<32>(read32le(Buf));
Peter Smith8646ced2016-06-07 09:31:52 +00001830 case R_ARM_PREL31:
1831 return SignExtend64<31>(read32le(Buf));
Peter Smith8646ced2016-06-07 09:31:52 +00001832 case R_ARM_CALL:
1833 case R_ARM_JUMP24:
1834 case R_ARM_PC24:
1835 case R_ARM_PLT32:
Rui Ueyamabebf4892016-06-16 23:28:03 +00001836 return SignExtend64<26>(read32le(Buf) << 2);
Peter Smithfa4d90d2016-06-16 09:53:46 +00001837 case R_ARM_THM_JUMP11:
Rui Ueyamabebf4892016-06-16 23:28:03 +00001838 return SignExtend64<12>(read16le(Buf) << 1);
Peter Smithfa4d90d2016-06-16 09:53:46 +00001839 case R_ARM_THM_JUMP19: {
1840 // Encoding T3: A = S:J2:J1:imm10:imm6:0
1841 uint16_t Hi = read16le(Buf);
1842 uint16_t Lo = read16le(Buf + 2);
1843 return SignExtend64<20>(((Hi & 0x0400) << 10) | // S
1844 ((Lo & 0x0800) << 8) | // J2
1845 ((Lo & 0x2000) << 5) | // J1
1846 ((Hi & 0x003f) << 12) | // imm6
1847 ((Lo & 0x07ff) << 1)); // imm11:0
1848 }
Peter Smithfb05cd92016-07-08 16:10:27 +00001849 case R_ARM_THM_CALL:
1850 case R_ARM_THM_JUMP24: {
Peter Smithfa4d90d2016-06-16 09:53:46 +00001851 // Encoding B T4, BL T1, BLX T2: A = S:I1:I2:imm10:imm11:0
1852 // I1 = NOT(J1 EOR S), I2 = NOT(J2 EOR S)
1853 // FIXME: I1 and I2 require v6T2ops
1854 uint16_t Hi = read16le(Buf);
1855 uint16_t Lo = read16le(Buf + 2);
1856 return SignExtend64<24>(((Hi & 0x0400) << 14) | // S
1857 (~((Lo ^ (Hi << 3)) << 10) & 0x00800000) | // I1
1858 (~((Lo ^ (Hi << 1)) << 11) & 0x00400000) | // I2
1859 ((Hi & 0x003ff) << 12) | // imm0
1860 ((Lo & 0x007ff) << 1)); // imm11:0
1861 }
1862 // ELF for the ARM Architecture 4.6.1.1 the implicit addend for MOVW and
1863 // MOVT is in the range -32768 <= A < 32768
Peter Smith8646ced2016-06-07 09:31:52 +00001864 case R_ARM_MOVW_ABS_NC:
Peter Smithfb05cd92016-07-08 16:10:27 +00001865 case R_ARM_MOVT_ABS:
1866 case R_ARM_MOVW_PREL_NC:
1867 case R_ARM_MOVT_PREL: {
Peter Smith8646ced2016-06-07 09:31:52 +00001868 uint64_t Val = read32le(Buf) & 0x000f0fff;
1869 return SignExtend64<16>(((Val & 0x000f0000) >> 4) | (Val & 0x00fff));
1870 }
Peter Smithfa4d90d2016-06-16 09:53:46 +00001871 case R_ARM_THM_MOVW_ABS_NC:
Peter Smithfb05cd92016-07-08 16:10:27 +00001872 case R_ARM_THM_MOVT_ABS:
1873 case R_ARM_THM_MOVW_PREL_NC:
1874 case R_ARM_THM_MOVT_PREL: {
Peter Smithfa4d90d2016-06-16 09:53:46 +00001875 // Encoding T3: A = imm4:i:imm3:imm8
1876 uint16_t Hi = read16le(Buf);
1877 uint16_t Lo = read16le(Buf + 2);
1878 return SignExtend64<16>(((Hi & 0x000f) << 12) | // imm4
1879 ((Hi & 0x0400) << 1) | // i
1880 ((Lo & 0x7000) >> 4) | // imm3
1881 (Lo & 0x00ff)); // imm8
1882 }
Peter Smith8646ced2016-06-07 09:31:52 +00001883 }
1884}
1885
Peter Smith441cf5d2016-07-20 14:56:26 +00001886bool ARMTargetInfo::isTlsLocalDynamicRel(uint32_t Type) const {
1887 return Type == R_ARM_TLS_LDO32 || Type == R_ARM_TLS_LDM32;
1888}
1889
Peter Smith9d450252016-07-20 08:52:27 +00001890bool ARMTargetInfo::isTlsGlobalDynamicRel(uint32_t Type) const {
1891 return Type == R_ARM_TLS_GD32;
1892}
1893
1894bool ARMTargetInfo::isTlsInitialExecRel(uint32_t Type) const {
1895 return Type == R_ARM_TLS_IE32;
1896}
1897
Simon Atanasyan9c2d7882015-10-14 14:24:46 +00001898template <class ELFT> MipsTargetInfo<ELFT>::MipsTargetInfo() {
Simon Atanasyan2287dc32016-02-10 19:57:19 +00001899 GotPltHeaderEntriesNum = 2;
Petr Hosek5d98fef72016-09-28 00:09:20 +00001900 MaxPageSize = 65536;
Rui Ueyama803b1202016-07-13 18:55:14 +00001901 GotEntrySize = sizeof(typename ELFT::uint);
1902 GotPltEntrySize = sizeof(typename ELFT::uint);
Simon Atanasyan2287dc32016-02-10 19:57:19 +00001903 PltEntrySize = 16;
Rui Ueyama4a90f572016-06-16 16:28:50 +00001904 PltHeaderSize = 32;
Simon Atanasyaneae66c02016-02-10 10:08:39 +00001905 CopyRel = R_MIPS_COPY;
Simon Atanasyan2287dc32016-02-10 19:57:19 +00001906 PltRel = R_MIPS_JUMP_SLOT;
Rafael Espindola0f7ceda2016-07-20 17:58:07 +00001907 NeedsThunks = true;
Simon Atanasyan002e2442016-06-23 15:26:31 +00001908 if (ELFT::Is64Bits) {
Simon Atanasyanda83bbc2016-05-04 22:39:40 +00001909 RelativeRel = (R_MIPS_64 << 8) | R_MIPS_REL32;
Simon Atanasyan002e2442016-06-23 15:26:31 +00001910 TlsGotRel = R_MIPS_TLS_TPREL64;
1911 TlsModuleIndexRel = R_MIPS_TLS_DTPMOD64;
1912 TlsOffsetRel = R_MIPS_TLS_DTPREL64;
1913 } else {
Simon Atanasyanda83bbc2016-05-04 22:39:40 +00001914 RelativeRel = R_MIPS_REL32;
Simon Atanasyan002e2442016-06-23 15:26:31 +00001915 TlsGotRel = R_MIPS_TLS_TPREL32;
1916 TlsModuleIndexRel = R_MIPS_TLS_DTPMOD32;
1917 TlsOffsetRel = R_MIPS_TLS_DTPREL32;
1918 }
Simon Atanasyanca558ea2016-01-14 21:34:50 +00001919}
1920
1921template <class ELFT>
Rafael Espindola22ef9562016-04-13 01:40:19 +00001922RelExpr MipsTargetInfo<ELFT>::getRelExpr(uint32_t Type,
1923 const SymbolBody &S) const {
Simon Atanasyan9e0297b2016-11-05 22:58:01 +00001924 // See comment in the calculateMipsRelChain.
1925 if (ELFT::Is64Bits || Config->MipsN32Abi)
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00001926 Type &= 0xff;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001927 switch (Type) {
1928 default:
1929 return R_ABS;
Rafael Espindolaebb04b92016-05-04 14:44:22 +00001930 case R_MIPS_JALR:
1931 return R_HINT;
Rafael Espindola1763dc42016-04-26 22:00:04 +00001932 case R_MIPS_GPREL16:
1933 case R_MIPS_GPREL32:
Simon Atanasyan725dc142016-11-16 21:01:02 +00001934 return R_MIPS_GOTREL;
Rafael Espindolab312a742016-04-21 17:30:24 +00001935 case R_MIPS_26:
1936 return R_PLT;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001937 case R_MIPS_HI16:
Simon Atanasyan1ca263c2016-04-14 21:10:05 +00001938 case R_MIPS_LO16:
Simon Atanasyanbe804552016-05-04 17:47:11 +00001939 case R_MIPS_GOT_OFST:
Rafael Espindola22ef9562016-04-13 01:40:19 +00001940 // MIPS _gp_disp designates offset between start of function and 'gp'
1941 // pointer into GOT. __gnu_local_gp is equal to the current value of
1942 // the 'gp'. Therefore any relocations against them do not require
1943 // dynamic relocation.
1944 if (&S == ElfSym<ELFT>::MipsGpDisp)
1945 return R_PC;
1946 return R_ABS;
1947 case R_MIPS_PC32:
1948 case R_MIPS_PC16:
1949 case R_MIPS_PC19_S2:
1950 case R_MIPS_PC21_S2:
1951 case R_MIPS_PC26_S2:
1952 case R_MIPS_PCHI16:
1953 case R_MIPS_PCLO16:
1954 return R_PC;
Rafael Espindola5628ee72016-04-15 19:14:18 +00001955 case R_MIPS_GOT16:
Rafael Espindola5628ee72016-04-15 19:14:18 +00001956 if (S.isLocal())
Simon Atanasyan4e3a15c2016-05-15 18:13:50 +00001957 return R_MIPS_GOT_LOCAL_PAGE;
Simon Atanasyanbe804552016-05-04 17:47:11 +00001958 // fallthrough
1959 case R_MIPS_CALL16:
1960 case R_MIPS_GOT_DISP:
Simon Atanasyan002e2442016-06-23 15:26:31 +00001961 case R_MIPS_TLS_GOTTPREL:
Simon Atanasyan41325112016-06-19 21:39:37 +00001962 return R_MIPS_GOT_OFF;
Simon Atanasyanbed04bf2016-10-21 07:22:30 +00001963 case R_MIPS_CALL_HI16:
1964 case R_MIPS_CALL_LO16:
1965 case R_MIPS_GOT_HI16:
1966 case R_MIPS_GOT_LO16:
1967 return R_MIPS_GOT_OFF32;
Simon Atanasyanbe804552016-05-04 17:47:11 +00001968 case R_MIPS_GOT_PAGE:
Simon Atanasyan4e3a15c2016-05-15 18:13:50 +00001969 return R_MIPS_GOT_LOCAL_PAGE;
Simon Atanasyan002e2442016-06-23 15:26:31 +00001970 case R_MIPS_TLS_GD:
1971 return R_MIPS_TLSGD;
1972 case R_MIPS_TLS_LDM:
1973 return R_MIPS_TLSLD;
Rafael Espindola22ef9562016-04-13 01:40:19 +00001974 }
1975}
1976
Eugene Leviantab024a32016-11-25 08:56:36 +00001977template <class ELFT> bool MipsTargetInfo<ELFT>::isPicRel(uint32_t Type) const {
1978 return Type == R_MIPS_32 || Type == R_MIPS_64;
1979}
1980
Rafael Espindola22ef9562016-04-13 01:40:19 +00001981template <class ELFT>
George Rimar98b060d2016-03-06 06:01:07 +00001982uint32_t MipsTargetInfo<ELFT>::getDynRel(uint32_t Type) const {
Eugene Leviantab024a32016-11-25 08:56:36 +00001983 return RelativeRel;
Igor Kudrin15cd9ff2015-11-06 07:43:03 +00001984}
1985
1986template <class ELFT>
Simon Atanasyan002e2442016-06-23 15:26:31 +00001987bool MipsTargetInfo<ELFT>::isTlsLocalDynamicRel(uint32_t Type) const {
1988 return Type == R_MIPS_TLS_LDM;
1989}
1990
1991template <class ELFT>
1992bool MipsTargetInfo<ELFT>::isTlsGlobalDynamicRel(uint32_t Type) const {
1993 return Type == R_MIPS_TLS_GD;
1994}
1995
1996template <class ELFT>
Rui Ueyamac9fee5f2016-06-16 16:14:50 +00001997void MipsTargetInfo<ELFT>::writeGotPlt(uint8_t *Buf, const SymbolBody &) const {
Eugene Leviantff23d3e2016-11-18 14:35:03 +00001998 write32<ELFT::TargetEndianness>(Buf, In<ELFT>::Plt->getVA());
Rafael Espindola3ef3a4c2015-09-29 23:22:16 +00001999}
Simon Atanasyan49829a12015-09-29 05:34:03 +00002000
Simon Atanasyane364e2e2016-02-04 12:31:39 +00002001template <endianness E, uint8_t BSIZE, uint8_t SHIFT>
Rafael Espindola666625b2016-04-01 14:36:09 +00002002static int64_t getPcRelocAddend(const uint8_t *Loc) {
Rafael Espindola8cc68c32016-03-30 13:18:08 +00002003 uint32_t Instr = read32<E>(Loc);
2004 uint32_t Mask = 0xffffffff >> (32 - BSIZE);
2005 return SignExtend64<BSIZE + SHIFT>((Instr & Mask) << SHIFT);
2006}
2007
2008template <endianness E, uint8_t BSIZE, uint8_t SHIFT>
Rafael Espindola22ef9562016-04-13 01:40:19 +00002009static void applyMipsPcReloc(uint8_t *Loc, uint32_t Type, uint64_t V) {
Simon Atanasyane364e2e2016-02-04 12:31:39 +00002010 uint32_t Mask = 0xffffffff >> (32 - BSIZE);
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002011 uint32_t Instr = read32<E>(Loc);
Rafael Espindola66ea7bb2016-03-31 12:09:36 +00002012 if (SHIFT > 0)
2013 checkAlignment<(1 << SHIFT)>(V, Type);
Simon Atanasyane364e2e2016-02-04 12:31:39 +00002014 checkInt<BSIZE + SHIFT>(V, Type);
2015 write32<E>(Loc, (Instr & ~Mask) | ((V >> SHIFT) & Mask));
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002016}
2017
George Rimara4c7e742016-10-20 08:36:42 +00002018template <endianness E> static void writeMipsHi16(uint8_t *Loc, uint64_t V) {
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002019 uint32_t Instr = read32<E>(Loc);
Simon Atanasyan97519cb2016-08-31 11:47:17 +00002020 uint16_t Res = ((V + 0x8000) >> 16) & 0xffff;
2021 write32<E>(Loc, (Instr & 0xffff0000) | Res);
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002022}
2023
George Rimara4c7e742016-10-20 08:36:42 +00002024template <endianness E> static void writeMipsHigher(uint8_t *Loc, uint64_t V) {
Simon Atanasyane5532a12016-08-31 11:47:21 +00002025 uint32_t Instr = read32<E>(Loc);
2026 uint16_t Res = ((V + 0x80008000) >> 32) & 0xffff;
2027 write32<E>(Loc, (Instr & 0xffff0000) | Res);
2028}
2029
George Rimara4c7e742016-10-20 08:36:42 +00002030template <endianness E> static void writeMipsHighest(uint8_t *Loc, uint64_t V) {
Simon Atanasyane5532a12016-08-31 11:47:21 +00002031 uint32_t Instr = read32<E>(Loc);
2032 uint16_t Res = ((V + 0x800080008000) >> 48) & 0xffff;
2033 write32<E>(Loc, (Instr & 0xffff0000) | Res);
2034}
2035
George Rimara4c7e742016-10-20 08:36:42 +00002036template <endianness E> static void writeMipsLo16(uint8_t *Loc, uint64_t V) {
Simon Atanasyan0dcf5412016-03-04 10:55:24 +00002037 uint32_t Instr = read32<E>(Loc);
2038 write32<E>(Loc, (Instr & 0xffff0000) | (V & 0xffff));
2039}
2040
Simon Atanasyana088bce2016-07-20 20:15:33 +00002041template <class ELFT> static bool isMipsR6() {
2042 const auto &FirstObj = cast<ELFFileBase<ELFT>>(*Config->FirstElf);
2043 uint32_t Arch = FirstObj.getObj().getHeader()->e_flags & EF_MIPS_ARCH;
2044 return Arch == EF_MIPS_ARCH_32R6 || Arch == EF_MIPS_ARCH_64R6;
2045}
2046
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002047template <class ELFT>
Rui Ueyama4a90f572016-06-16 16:28:50 +00002048void MipsTargetInfo<ELFT>::writePltHeader(uint8_t *Buf) const {
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002049 const endianness E = ELFT::TargetEndianness;
Simon Atanasyan9e0297b2016-11-05 22:58:01 +00002050 if (Config->MipsN32Abi) {
2051 write32<E>(Buf, 0x3c0e0000); // lui $14, %hi(&GOTPLT[0])
2052 write32<E>(Buf + 4, 0x8dd90000); // lw $25, %lo(&GOTPLT[0])($14)
2053 write32<E>(Buf + 8, 0x25ce0000); // addiu $14, $14, %lo(&GOTPLT[0])
2054 write32<E>(Buf + 12, 0x030ec023); // subu $24, $24, $14
2055 } else {
2056 write32<E>(Buf, 0x3c1c0000); // lui $28, %hi(&GOTPLT[0])
2057 write32<E>(Buf + 4, 0x8f990000); // lw $25, %lo(&GOTPLT[0])($28)
2058 write32<E>(Buf + 8, 0x279c0000); // addiu $28, $28, %lo(&GOTPLT[0])
2059 write32<E>(Buf + 12, 0x031cc023); // subu $24, $24, $28
2060 }
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002061 write32<E>(Buf + 16, 0x03e07825); // move $15, $31
2062 write32<E>(Buf + 20, 0x0018c082); // srl $24, $24, 2
2063 write32<E>(Buf + 24, 0x0320f809); // jalr $25
2064 write32<E>(Buf + 28, 0x2718fffe); // subu $24, $24, 2
Eugene Leviant41ca3272016-11-10 09:48:29 +00002065 uint64_t Got = In<ELFT>::GotPlt->getVA();
Simon Atanasyana888e672016-03-04 10:55:12 +00002066 writeMipsHi16<E>(Buf, Got);
Simon Atanasyan0dcf5412016-03-04 10:55:24 +00002067 writeMipsLo16<E>(Buf + 4, Got);
2068 writeMipsLo16<E>(Buf + 8, Got);
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002069}
2070
2071template <class ELFT>
2072void MipsTargetInfo<ELFT>::writePlt(uint8_t *Buf, uint64_t GotEntryAddr,
2073 uint64_t PltEntryAddr, int32_t Index,
2074 unsigned RelOff) const {
2075 const endianness E = ELFT::TargetEndianness;
George Rimara4c7e742016-10-20 08:36:42 +00002076 write32<E>(Buf, 0x3c0f0000); // lui $15, %hi(.got.plt entry)
2077 write32<E>(Buf + 4, 0x8df90000); // l[wd] $25, %lo(.got.plt entry)($15)
2078 // jr $25
Simon Atanasyana088bce2016-07-20 20:15:33 +00002079 write32<E>(Buf + 8, isMipsR6<ELFT>() ? 0x03200009 : 0x03200008);
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002080 write32<E>(Buf + 12, 0x25f80000); // addiu $24, $15, %lo(.got.plt entry)
Simon Atanasyana888e672016-03-04 10:55:12 +00002081 writeMipsHi16<E>(Buf, GotEntryAddr);
Simon Atanasyan0dcf5412016-03-04 10:55:24 +00002082 writeMipsLo16<E>(Buf + 4, GotEntryAddr);
2083 writeMipsLo16<E>(Buf + 12, GotEntryAddr);
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002084}
2085
2086template <class ELFT>
Peter Smithfb05cd92016-07-08 16:10:27 +00002087RelExpr MipsTargetInfo<ELFT>::getThunkExpr(RelExpr Expr, uint32_t Type,
2088 const InputFile &File,
2089 const SymbolBody &S) const {
Simon Atanasyan13f6da12016-03-31 21:26:23 +00002090 // Any MIPS PIC code function is invoked with its address in register $t9.
2091 // So if we have a branch instruction from non-PIC code to the PIC one
2092 // we cannot make the jump directly and need to create a small stubs
2093 // to save the target function address.
2094 // See page 3-38 ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
2095 if (Type != R_MIPS_26)
Peter Smithfb05cd92016-07-08 16:10:27 +00002096 return Expr;
Simon Atanasyan13f6da12016-03-31 21:26:23 +00002097 auto *F = dyn_cast<ELFFileBase<ELFT>>(&File);
2098 if (!F)
Peter Smithfb05cd92016-07-08 16:10:27 +00002099 return Expr;
Simon Atanasyan13f6da12016-03-31 21:26:23 +00002100 // If current file has PIC code, LA25 stub is not required.
2101 if (F->getObj().getHeader()->e_flags & EF_MIPS_PIC)
Peter Smithfb05cd92016-07-08 16:10:27 +00002102 return Expr;
Simon Atanasyan13f6da12016-03-31 21:26:23 +00002103 auto *D = dyn_cast<DefinedRegular<ELFT>>(&S);
Simon Atanasyan13f6da12016-03-31 21:26:23 +00002104 // LA25 is required if target file has PIC code
2105 // or target symbol is a PIC symbol.
Simon Atanasyanf967f092016-09-29 12:58:36 +00002106 return D && D->isMipsPIC() ? R_THUNK_ABS : Expr;
Simon Atanasyan13f6da12016-03-31 21:26:23 +00002107}
2108
2109template <class ELFT>
Rafael Espindola666625b2016-04-01 14:36:09 +00002110uint64_t MipsTargetInfo<ELFT>::getImplicitAddend(const uint8_t *Buf,
Rafael Espindola8cc68c32016-03-30 13:18:08 +00002111 uint32_t Type) const {
2112 const endianness E = ELFT::TargetEndianness;
2113 switch (Type) {
2114 default:
2115 return 0;
2116 case R_MIPS_32:
2117 case R_MIPS_GPREL32:
Simon Atanasyan875951e2016-09-05 15:42:39 +00002118 case R_MIPS_TLS_DTPREL32:
2119 case R_MIPS_TLS_TPREL32:
Rafael Espindola8cc68c32016-03-30 13:18:08 +00002120 return read32<E>(Buf);
2121 case R_MIPS_26:
2122 // FIXME (simon): If the relocation target symbol is not a PLT entry
2123 // we should use another expression for calculation:
2124 // ((A << 2) | (P & 0xf0000000)) >> 2
Simon Atanasyand2ae3032016-07-22 05:56:43 +00002125 return SignExtend64<28>((read32<E>(Buf) & 0x3ffffff) << 2);
Rafael Espindola8cc68c32016-03-30 13:18:08 +00002126 case R_MIPS_GPREL16:
2127 case R_MIPS_LO16:
2128 case R_MIPS_PCLO16:
2129 case R_MIPS_TLS_DTPREL_HI16:
2130 case R_MIPS_TLS_DTPREL_LO16:
2131 case R_MIPS_TLS_TPREL_HI16:
2132 case R_MIPS_TLS_TPREL_LO16:
Rui Ueyamae517de62016-06-16 17:06:24 +00002133 return SignExtend64<16>(read32<E>(Buf));
Rafael Espindola8cc68c32016-03-30 13:18:08 +00002134 case R_MIPS_PC16:
2135 return getPcRelocAddend<E, 16, 2>(Buf);
2136 case R_MIPS_PC19_S2:
2137 return getPcRelocAddend<E, 19, 2>(Buf);
2138 case R_MIPS_PC21_S2:
2139 return getPcRelocAddend<E, 21, 2>(Buf);
2140 case R_MIPS_PC26_S2:
2141 return getPcRelocAddend<E, 26, 2>(Buf);
2142 case R_MIPS_PC32:
2143 return getPcRelocAddend<E, 32, 0>(Buf);
2144 }
2145}
2146
Simon Atanasyan9e0297b2016-11-05 22:58:01 +00002147static std::pair<uint32_t, uint64_t> calculateMipsRelChain(uint32_t Type,
2148 uint64_t Val) {
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00002149 // MIPS N64 ABI packs multiple relocations into the single relocation
2150 // record. In general, all up to three relocations can have arbitrary
2151 // types. In fact, Clang and GCC uses only a few combinations. For now,
2152 // we support two of them. That is allow to pass at least all LLVM
2153 // test suite cases.
2154 // <any relocation> / R_MIPS_SUB / R_MIPS_HI16 | R_MIPS_LO16
2155 // <any relocation> / R_MIPS_64 / R_MIPS_NONE
2156 // The first relocation is a 'real' relocation which is calculated
2157 // using the corresponding symbol's value. The second and the third
2158 // relocations used to modify result of the first one: extend it to
2159 // 64-bit, extract high or low part etc. For details, see part 2.9 Relocation
2160 // at the https://dmz-portal.mips.com/mw/images/8/82/007-4658-001.pdf
2161 uint32_t Type2 = (Type >> 8) & 0xff;
2162 uint32_t Type3 = (Type >> 16) & 0xff;
2163 if (Type2 == R_MIPS_NONE && Type3 == R_MIPS_NONE)
2164 return std::make_pair(Type, Val);
2165 if (Type2 == R_MIPS_64 && Type3 == R_MIPS_NONE)
2166 return std::make_pair(Type2, Val);
2167 if (Type2 == R_MIPS_SUB && (Type3 == R_MIPS_HI16 || Type3 == R_MIPS_LO16))
2168 return std::make_pair(Type3, -Val);
2169 error("unsupported relocations combination " + Twine(Type));
2170 return std::make_pair(Type & 0xff, Val);
2171}
2172
Rafael Espindola8cc68c32016-03-30 13:18:08 +00002173template <class ELFT>
Rafael Espindola22ef9562016-04-13 01:40:19 +00002174void MipsTargetInfo<ELFT>::relocateOne(uint8_t *Loc, uint32_t Type,
2175 uint64_t Val) const {
Rafael Espindolae7e57b22015-11-09 21:43:00 +00002176 const endianness E = ELFT::TargetEndianness;
Simon Atanasyana8e9cb32016-03-17 12:36:08 +00002177 // Thread pointer and DRP offsets from the start of TLS data area.
2178 // https://www.linux-mips.org/wiki/NPTL
Simon Atanasyan875951e2016-09-05 15:42:39 +00002179 if (Type == R_MIPS_TLS_DTPREL_HI16 || Type == R_MIPS_TLS_DTPREL_LO16 ||
Simon Atanasyan643729d2016-09-05 15:42:43 +00002180 Type == R_MIPS_TLS_DTPREL32 || Type == R_MIPS_TLS_DTPREL64)
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00002181 Val -= 0x8000;
Simon Atanasyan875951e2016-09-05 15:42:39 +00002182 else if (Type == R_MIPS_TLS_TPREL_HI16 || Type == R_MIPS_TLS_TPREL_LO16 ||
Simon Atanasyan643729d2016-09-05 15:42:43 +00002183 Type == R_MIPS_TLS_TPREL32 || Type == R_MIPS_TLS_TPREL64)
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00002184 Val -= 0x7000;
Simon Atanasyan9e0297b2016-11-05 22:58:01 +00002185 if (ELFT::Is64Bits || Config->MipsN32Abi)
2186 std::tie(Type, Val) = calculateMipsRelChain(Type, Val);
Simon Atanasyan3b732ac2015-10-12 15:10:02 +00002187 switch (Type) {
2188 case R_MIPS_32:
Simon Atanasyan9ac81982016-05-06 15:02:50 +00002189 case R_MIPS_GPREL32:
Simon Atanasyan875951e2016-09-05 15:42:39 +00002190 case R_MIPS_TLS_DTPREL32:
2191 case R_MIPS_TLS_TPREL32:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002192 write32<E>(Loc, Val);
Simon Atanasyan3b732ac2015-10-12 15:10:02 +00002193 break;
Simon Atanasyanda83bbc2016-05-04 22:39:40 +00002194 case R_MIPS_64:
Simon Atanasyan643729d2016-09-05 15:42:43 +00002195 case R_MIPS_TLS_DTPREL64:
2196 case R_MIPS_TLS_TPREL64:
Simon Atanasyanda83bbc2016-05-04 22:39:40 +00002197 write64<E>(Loc, Val);
2198 break;
Simon Atanasyan10296c22016-05-07 07:36:47 +00002199 case R_MIPS_26:
Simon Atanasyand2ae3032016-07-22 05:56:43 +00002200 write32<E>(Loc, (read32<E>(Loc) & ~0x3ffffff) | ((Val >> 2) & 0x3ffffff));
Simon Atanasyan2287dc32016-02-10 19:57:19 +00002201 break;
Simon Atanasyanbe804552016-05-04 17:47:11 +00002202 case R_MIPS_GOT_DISP:
2203 case R_MIPS_GOT_PAGE:
Rafael Espindola58cd5db2016-04-19 22:46:03 +00002204 case R_MIPS_GOT16:
Simon Atanasyan9ac81982016-05-06 15:02:50 +00002205 case R_MIPS_GPREL16:
Simon Atanasyan002e2442016-06-23 15:26:31 +00002206 case R_MIPS_TLS_GD:
2207 case R_MIPS_TLS_LDM:
Rafael Espindola58cd5db2016-04-19 22:46:03 +00002208 checkInt<16>(Val, Type);
2209 // fallthrough
Rui Ueyama7ee3cf72015-12-03 20:59:51 +00002210 case R_MIPS_CALL16:
Simon Atanasyane933a8e2016-08-18 19:08:36 +00002211 case R_MIPS_CALL_LO16:
Simon Atanasyan978f91c2016-08-18 19:08:41 +00002212 case R_MIPS_GOT_LO16:
Simon Atanasyanbe804552016-05-04 17:47:11 +00002213 case R_MIPS_GOT_OFST:
Simon Atanasyan5b9ac412016-05-06 15:02:54 +00002214 case R_MIPS_LO16:
2215 case R_MIPS_PCLO16:
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00002216 case R_MIPS_TLS_DTPREL_LO16:
Simon Atanasyan002e2442016-06-23 15:26:31 +00002217 case R_MIPS_TLS_GOTTPREL:
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00002218 case R_MIPS_TLS_TPREL_LO16:
Rafael Espindola58cd5db2016-04-19 22:46:03 +00002219 writeMipsLo16<E>(Loc, Val);
Rui Ueyama7ee3cf72015-12-03 20:59:51 +00002220 break;
Simon Atanasyane933a8e2016-08-18 19:08:36 +00002221 case R_MIPS_CALL_HI16:
Simon Atanasyan978f91c2016-08-18 19:08:41 +00002222 case R_MIPS_GOT_HI16:
Simon Atanasyan3b377852016-03-04 10:55:20 +00002223 case R_MIPS_HI16:
Simon Atanasyan5b9ac412016-05-06 15:02:54 +00002224 case R_MIPS_PCHI16:
Simon Atanasyan8c8a5b52016-05-08 14:08:40 +00002225 case R_MIPS_TLS_DTPREL_HI16:
2226 case R_MIPS_TLS_TPREL_HI16:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002227 writeMipsHi16<E>(Loc, Val);
Simon Atanasyan09b3e362015-12-01 21:24:45 +00002228 break;
Simon Atanasyane5532a12016-08-31 11:47:21 +00002229 case R_MIPS_HIGHER:
2230 writeMipsHigher<E>(Loc, Val);
2231 break;
2232 case R_MIPS_HIGHEST:
2233 writeMipsHighest<E>(Loc, Val);
2234 break;
Simon Atanasyane4361852015-12-13 06:49:14 +00002235 case R_MIPS_JALR:
2236 // Ignore this optimization relocation for now
2237 break;
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002238 case R_MIPS_PC16:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002239 applyMipsPcReloc<E, 16, 2>(Loc, Type, Val);
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002240 break;
2241 case R_MIPS_PC19_S2:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002242 applyMipsPcReloc<E, 19, 2>(Loc, Type, Val);
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002243 break;
2244 case R_MIPS_PC21_S2:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002245 applyMipsPcReloc<E, 21, 2>(Loc, Type, Val);
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002246 break;
2247 case R_MIPS_PC26_S2:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002248 applyMipsPcReloc<E, 26, 2>(Loc, Type, Val);
Simon Atanasyane364e2e2016-02-04 12:31:39 +00002249 break;
2250 case R_MIPS_PC32:
Rafael Espindola22ef9562016-04-13 01:40:19 +00002251 applyMipsPcReloc<E, 32, 0>(Loc, Type, Val);
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002252 break;
Simon Atanasyan3b732ac2015-10-12 15:10:02 +00002253 default:
George Rimar57610422016-03-11 14:43:02 +00002254 fatal("unrecognized reloc " + Twine(Type));
Simon Atanasyan3b732ac2015-10-12 15:10:02 +00002255 }
2256}
Igor Kudrin15cd9ff2015-11-06 07:43:03 +00002257
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002258template <class ELFT>
Rafael Espindolab8ff59a2016-04-28 14:34:39 +00002259bool MipsTargetInfo<ELFT>::usesOnlyLowPageBits(uint32_t Type) const {
Simon Atanasyanbe804552016-05-04 17:47:11 +00002260 return Type == R_MIPS_LO16 || Type == R_MIPS_GOT_OFST;
Simon Atanasyan0fc0acf2015-12-21 17:36:40 +00002261}
Rafael Espindola01205f72015-09-22 18:19:46 +00002262}
2263}