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Michael J. Spencer84487f12015-07-24 21:03:07 +00001//===- Writer.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//===----------------------------------------------------------------------===//
9
Michael J. Spencerf8325412015-09-04 22:48:30 +000010#include "Writer.h"
Rui Ueyamacb8474ed2015-08-05 23:51:50 +000011#include "Config.h"
Rui Ueyama717677a2016-02-11 21:17:59 +000012#include "LinkerScript.h"
Rafael Espindola5805c4f2015-09-21 21:38:08 +000013#include "OutputSections.h"
Rui Ueyamaafff74e22015-08-05 23:24:46 +000014#include "SymbolTable.h"
Rafael Espindola01205f72015-09-22 18:19:46 +000015#include "Target.h"
Rafael Espindola6b83b902015-08-12 00:00:24 +000016
Rafael Espindola4fc60442016-02-10 22:43:13 +000017#include "llvm/ADT/SmallPtrSet.h"
Denis Protivensky8e3b38a2015-11-12 09:52:08 +000018#include "llvm/ADT/StringMap.h"
Hal Finkel3bae2d82015-10-12 20:51:48 +000019#include "llvm/ADT/StringSwitch.h"
Rafael Espindola22ef9562016-04-13 01:40:19 +000020#include "llvm/Support/Endian.h"
Rui Ueyamaafff74e22015-08-05 23:24:46 +000021#include "llvm/Support/FileOutputBuffer.h"
Rui Ueyamad9189ce2015-10-15 17:11:03 +000022#include "llvm/Support/StringSaver.h"
Rafael Espindolad0078b22016-02-06 00:06:26 +000023#include "llvm/Support/raw_ostream.h"
Michael J. Spencer84487f12015-07-24 21:03:07 +000024
25using namespace llvm;
26using namespace llvm::ELF;
27using namespace llvm::object;
Rafael Espindola22ef9562016-04-13 01:40:19 +000028using namespace llvm::support::endian;
Michael J. Spencer84487f12015-07-24 21:03:07 +000029
30using namespace lld;
Rafael Espindolae0df00b2016-02-28 00:25:54 +000031using namespace lld::elf;
Michael J. Spencer84487f12015-07-24 21:03:07 +000032
Rui Ueyamaafff74e22015-08-05 23:24:46 +000033namespace {
34// The writer writes a SymbolTable result to a file.
35template <class ELFT> class Writer {
36public:
Rui Ueyama9328b2c2016-03-14 23:16:09 +000037 typedef typename ELFT::uint uintX_t;
38 typedef typename ELFT::Shdr Elf_Shdr;
39 typedef typename ELFT::Ehdr Elf_Ehdr;
40 typedef typename ELFT::Phdr Elf_Phdr;
41 typedef typename ELFT::Sym Elf_Sym;
42 typedef typename ELFT::SymRange Elf_Sym_Range;
43 typedef typename ELFT::Rela Elf_Rela;
Rui Ueyama3ce825e2015-10-09 21:07:25 +000044 Writer(SymbolTable<ELFT> &S) : Symtab(S) {}
Rui Ueyamaafff74e22015-08-05 23:24:46 +000045 void run();
46
47private:
Rafael Espindola4fc60442016-02-10 22:43:13 +000048 // This describes a program header entry.
49 // Each contains type, access flags and range of output sections that will be
50 // placed in it.
51 struct Phdr {
52 Phdr(unsigned Type, unsigned Flags) {
53 H.p_type = Type;
54 H.p_flags = Flags;
55 }
56 Elf_Phdr H = {};
57 OutputSectionBase<ELFT> *First = nullptr;
58 OutputSectionBase<ELFT> *Last = nullptr;
59 };
60
Rui Ueyama5a9640b2015-10-08 23:49:30 +000061 void copyLocalSymbols();
Rui Ueyamaf18fe7b2015-12-26 07:50:39 +000062 void addReservedSymbols();
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +000063 void createSections();
Rui Ueyama84417f82015-12-26 07:50:41 +000064 void addPredefinedSections();
Rui Ueyama30951482016-02-25 19:34:37 +000065 bool needsGot();
Rui Ueyama2df0fd82015-12-25 07:38:58 +000066
Rui Ueyamafc467e72016-03-13 05:06:50 +000067 template <class RelTy>
Rafael Espindola0f7ccc32016-04-05 14:47:28 +000068 void scanRelocs(InputSectionBase<ELFT> &C, ArrayRef<RelTy> Rels);
Rui Ueyama2df0fd82015-12-25 07:38:58 +000069
Rafael Espindolaa0fa8482015-11-11 15:29:50 +000070 void scanRelocs(InputSection<ELFT> &C);
Rafael Espindola0c6a4f12015-11-11 19:54:14 +000071 void scanRelocs(InputSectionBase<ELFT> &S, const Elf_Shdr &RelSec);
Rafael Espindolaa85efd92016-04-30 01:15:17 +000072 RelExpr adjustExpr(SymbolBody &S, bool IsWrite, RelExpr Expr, uint32_t Type);
Rafael Espindola4fc60442016-02-10 22:43:13 +000073 void createPhdrs();
Rui Ueyamaafff74e22015-08-05 23:24:46 +000074 void assignAddresses();
Rui Ueyamae044e9c2016-04-01 17:07:17 +000075 void assignFileOffsets();
76 void setPhdrs();
George Rimar7ca06272016-04-06 07:20:45 +000077 void fixHeaders();
Rui Ueyama47091902016-03-30 19:41:51 +000078 void fixSectionAlignments();
Rui Ueyama1a311f12015-12-26 10:52:26 +000079 void fixAbsoluteSymbols();
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +000080 void openFile();
Rui Ueyamaafff74e22015-08-05 23:24:46 +000081 void writeHeader();
82 void writeSections();
Rui Ueyama634ddf02016-03-11 20:51:53 +000083 void writeBuildId();
Denis Protivensky8e3b38a2015-11-12 09:52:08 +000084 bool isDiscarded(InputSectionBase<ELFT> *IS) const;
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +000085 StringRef getOutputSectionName(InputSectionBase<ELFT> *S) const;
Rafael Espindola70107762015-09-11 18:49:42 +000086 bool needsInterpSection() const {
Rui Ueyama0d0bcf72015-10-07 21:25:39 +000087 return !Symtab.getSharedFiles().empty() && !Config->DynamicLinker.empty();
Rafael Espindola70107762015-09-11 18:49:42 +000088 }
Michael J. Spencerf32446f2015-10-06 20:39:09 +000089 bool isOutputDynamic() const {
George Rimar786e8662016-03-17 05:57:33 +000090 return !Symtab.getSharedFiles().empty() || Config->Pic;
Rafael Espindola4340aad2015-09-11 22:42:45 +000091 }
Simon Atanasyan13f6da12016-03-31 21:26:23 +000092 template <class RelTy>
93 void scanRelocsForThunks(const elf::ObjectFile<ELFT> &File,
Rafael Espindola0f7ccc32016-04-05 14:47:28 +000094 ArrayRef<RelTy> Rels);
Rui Ueyamaafff74e22015-08-05 23:24:46 +000095
Rui Ueyamab30f73562016-03-13 04:11:53 +000096 void ensureBss();
Rafael Espindola11191912015-12-24 16:23:37 +000097 void addCommonSymbols(std::vector<DefinedCommon *> &Syms);
Peter Collingbourne4cdade62016-04-04 22:29:24 +000098 void addCopyRelSymbol(SharedSymbol<ELFT> *Sym);
Rafael Espindola443f50a2015-11-03 21:35:14 +000099
Rui Ueyamaafff74e22015-08-05 23:24:46 +0000100 std::unique_ptr<llvm::FileOutputBuffer> Buffer;
Michael J. Spencer2f008242015-09-17 19:58:07 +0000101
Rui Ueyamad9189ce2015-10-15 17:11:03 +0000102 BumpPtrAllocator Alloc;
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +0000103 std::vector<OutputSectionBase<ELFT> *> OutputSections;
Rui Ueyamad4ea7dd2015-12-26 07:01:26 +0000104 std::vector<std::unique_ptr<OutputSectionBase<ELFT>>> OwningSections;
Rafael Espindola4fc60442016-02-10 22:43:13 +0000105
Rui Ueyama01687222015-12-26 09:47:57 +0000106 void addRelIpltSymbols();
Rui Ueyamaa5d79d12015-12-26 09:48:00 +0000107 void addStartEndSymbols();
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +0000108 void addStartStopSymbols(OutputSectionBase<ELFT> *Sec);
Rui Ueyama2f1b79f2015-10-10 22:34:30 +0000109
Rui Ueyama3ce825e2015-10-09 21:07:25 +0000110 SymbolTable<ELFT> &Symtab;
Rafael Espindola4fc60442016-02-10 22:43:13 +0000111 std::vector<Phdr> Phdrs;
Michael J. Spencer2f008242015-09-17 19:58:07 +0000112
Rafael Espindola98f6bd02015-08-11 23:14:13 +0000113 uintX_t FileSize;
Rui Ueyamaafff74e22015-08-05 23:24:46 +0000114 uintX_t SectionHeaderOff;
Denis Protivensky8e3b38a2015-11-12 09:52:08 +0000115
Sean Silvaf1c5a0f2016-01-23 01:49:37 +0000116 // Flag to force GOT to be in output if we have relocations
117 // that relies on its address.
118 bool HasGotOffRel = false;
Rui Ueyamaafff74e22015-08-05 23:24:46 +0000119};
120} // anonymous namespace
121
Rafael Espindolae0df00b2016-02-28 00:25:54 +0000122template <class ELFT> void elf::writeResult(SymbolTable<ELFT> *Symtab) {
Rui Ueyama9328b2c2016-03-14 23:16:09 +0000123 typedef typename ELFT::uint uintX_t;
George Rimar687788c2016-04-01 17:30:52 +0000124 typedef typename ELFT::Ehdr Elf_Ehdr;
Rafael Espindola4fc60442016-02-10 22:43:13 +0000125
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000126 // Create singleton output sections.
Rui Ueyama15ef5e12015-10-07 19:18:16 +0000127 DynamicSection<ELFT> Dynamic(*Symtab);
George Rimarf6bc65a2016-01-15 13:34:52 +0000128 EhFrameHeader<ELFT> EhFrameHdr;
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000129 GotSection<ELFT> Got;
130 InterpSection<ELFT> Interp;
131 PltSection<ELFT> Plt;
Rui Ueyama6c5638b2016-03-13 20:10:20 +0000132 RelocationSection<ELFT> RelaDyn(Config->Rela ? ".rela.dyn" : ".rel.dyn");
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000133 StringTableSection<ELFT> DynStrTab(".dynstr", true);
134 StringTableSection<ELFT> ShStrTab(".shstrtab", false);
135 SymbolTableSection<ELFT> DynSymTab(*Symtab, DynStrTab);
Peter Collingbourne21a12fc2016-04-27 20:22:31 +0000136 VersionTableSection<ELFT> VerSym;
137 VersionNeedSection<ELFT> VerNeed;
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000138
Rafael Espindola4fc60442016-02-10 22:43:13 +0000139 OutputSectionBase<ELFT> ElfHeader("", 0, SHF_ALLOC);
George Rimar687788c2016-04-01 17:30:52 +0000140 ElfHeader.setSize(sizeof(Elf_Ehdr));
Rafael Espindola4fc60442016-02-10 22:43:13 +0000141 OutputSectionBase<ELFT> ProgramHeaders("", 0, SHF_ALLOC);
142 ProgramHeaders.updateAlign(sizeof(uintX_t));
143
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000144 // Instantiate optional output sections if they are needed.
Rui Ueyama634ddf02016-03-11 20:51:53 +0000145 std::unique_ptr<BuildIdSection<ELFT>> BuildId;
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000146 std::unique_ptr<GnuHashTableSection<ELFT>> GnuHashTab;
147 std::unique_ptr<GotPltSection<ELFT>> GotPlt;
148 std::unique_ptr<HashTableSection<ELFT>> HashTab;
149 std::unique_ptr<RelocationSection<ELFT>> RelaPlt;
150 std::unique_ptr<StringTableSection<ELFT>> StrTab;
151 std::unique_ptr<SymbolTableSection<ELFT>> SymTabSec;
Rui Ueyamaa354c5c2016-02-25 23:54:49 +0000152 std::unique_ptr<OutputSection<ELFT>> MipsRldMap;
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000153
Rui Ueyama3a41be22016-04-07 22:49:21 +0000154 if (Config->BuildId == BuildIdKind::Fnv1)
155 BuildId.reset(new BuildIdFnv1<ELFT>);
156 else if (Config->BuildId == BuildIdKind::Md5)
157 BuildId.reset(new BuildIdMd5<ELFT>);
Rui Ueyamad86ec302016-04-07 23:51:56 +0000158 else if (Config->BuildId == BuildIdKind::Sha1)
159 BuildId.reset(new BuildIdSha1<ELFT>);
Rui Ueyama3a41be22016-04-07 22:49:21 +0000160
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000161 if (Config->GnuHash)
162 GnuHashTab.reset(new GnuHashTableSection<ELFT>);
163 if (Config->SysvHash)
164 HashTab.reset(new HashTableSection<ELFT>);
165 if (Target->UseLazyBinding) {
Rui Ueyama6c5638b2016-03-13 20:10:20 +0000166 StringRef S = Config->Rela ? ".rela.plt" : ".rel.plt";
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000167 GotPlt.reset(new GotPltSection<ELFT>);
Rui Ueyama6c5638b2016-03-13 20:10:20 +0000168 RelaPlt.reset(new RelocationSection<ELFT>(S));
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000169 }
170 if (!Config->StripAll) {
171 StrTab.reset(new StringTableSection<ELFT>(".strtab", false));
172 SymTabSec.reset(new SymbolTableSection<ELFT>(*Symtab, *StrTab));
173 }
Rui Ueyamaa354c5c2016-02-25 23:54:49 +0000174 if (Config->EMachine == EM_MIPS && !Config->Shared) {
175 // This is a MIPS specific section to hold a space within the data segment
176 // of executable file which is pointed to by the DT_MIPS_RLD_MAP entry.
177 // See "Dynamic section" in Chapter 5 in the following document:
178 // ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
179 MipsRldMap.reset(new OutputSection<ELFT>(".rld_map", SHT_PROGBITS,
180 SHF_ALLOC | SHF_WRITE));
181 MipsRldMap->setSize(sizeof(uintX_t));
182 MipsRldMap->updateAlign(sizeof(uintX_t));
183 }
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000184
Rui Ueyama634ddf02016-03-11 20:51:53 +0000185 Out<ELFT>::BuildId = BuildId.get();
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000186 Out<ELFT>::DynStrTab = &DynStrTab;
187 Out<ELFT>::DynSymTab = &DynSymTab;
188 Out<ELFT>::Dynamic = &Dynamic;
George Rimarf6bc65a2016-01-15 13:34:52 +0000189 Out<ELFT>::EhFrameHdr = &EhFrameHdr;
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000190 Out<ELFT>::GnuHashTab = GnuHashTab.get();
191 Out<ELFT>::Got = &Got;
192 Out<ELFT>::GotPlt = GotPlt.get();
193 Out<ELFT>::HashTab = HashTab.get();
194 Out<ELFT>::Interp = &Interp;
195 Out<ELFT>::Plt = &Plt;
196 Out<ELFT>::RelaDyn = &RelaDyn;
197 Out<ELFT>::RelaPlt = RelaPlt.get();
198 Out<ELFT>::ShStrTab = &ShStrTab;
199 Out<ELFT>::StrTab = StrTab.get();
200 Out<ELFT>::SymTab = SymTabSec.get();
Peter Collingbourne21a12fc2016-04-27 20:22:31 +0000201 Out<ELFT>::VerSym = &VerSym;
202 Out<ELFT>::VerNeed = &VerNeed;
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000203 Out<ELFT>::Bss = nullptr;
Rui Ueyamaa354c5c2016-02-25 23:54:49 +0000204 Out<ELFT>::MipsRldMap = MipsRldMap.get();
Rui Ueyama4197a6a2016-02-05 18:41:40 +0000205 Out<ELFT>::Opd = nullptr;
206 Out<ELFT>::OpdBuf = nullptr;
207 Out<ELFT>::TlsPhdr = nullptr;
Rafael Espindola4fc60442016-02-10 22:43:13 +0000208 Out<ELFT>::ElfHeader = &ElfHeader;
209 Out<ELFT>::ProgramHeaders = &ProgramHeaders;
Rui Ueyama15ef5e12015-10-07 19:18:16 +0000210
Rui Ueyama0d0bcf72015-10-07 21:25:39 +0000211 Writer<ELFT>(*Symtab).run();
Rui Ueyama15ef5e12015-10-07 19:18:16 +0000212}
213
Michael J. Spencer84487f12015-07-24 21:03:07 +0000214// The main function of the writer.
Rui Ueyamaafff74e22015-08-05 23:24:46 +0000215template <class ELFT> void Writer<ELFT>::run() {
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000216 if (!Config->DiscardAll)
217 copyLocalSymbols();
Rui Ueyamaf18fe7b2015-12-26 07:50:39 +0000218 addReservedSymbols();
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +0000219 createSections();
220 if (HasError)
Rui Ueyamac2a0d7e2016-01-28 22:56:29 +0000221 return;
Rui Ueyamae044e9c2016-04-01 17:07:17 +0000222
223 if (Config->Relocatable) {
224 assignFileOffsets();
225 } else {
George Rimar58941ee2016-02-25 08:23:37 +0000226 createPhdrs();
George Rimar7ca06272016-04-06 07:20:45 +0000227 fixHeaders();
Rui Ueyama07320e42016-04-20 20:13:41 +0000228 if (ScriptConfig->DoLayout) {
229 Script<ELFT>::X->assignAddresses(OutputSections);
George Rimar652852c2016-04-16 10:10:32 +0000230 } else {
231 fixSectionAlignments();
232 assignAddresses();
233 }
Rui Ueyamae044e9c2016-04-01 17:07:17 +0000234 assignFileOffsets();
235 setPhdrs();
Rui Ueyamaa63baf12016-04-01 17:11:42 +0000236 fixAbsoluteSymbols();
George Rimar58941ee2016-02-25 08:23:37 +0000237 }
Rui Ueyamae044e9c2016-04-01 17:07:17 +0000238
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +0000239 openFile();
240 if (HasError)
Rui Ueyamacbe39262016-02-02 22:48:04 +0000241 return;
Michael J. Spencer84487f12015-07-24 21:03:07 +0000242 writeHeader();
243 writeSections();
Rui Ueyama634ddf02016-03-11 20:51:53 +0000244 writeBuildId();
Rui Ueyama21923992016-02-01 23:28:21 +0000245 if (HasError)
246 return;
Rafael Espindola75714f62016-03-03 22:24:39 +0000247 check(Buffer->commit());
Michael J. Spencer84487f12015-07-24 21:03:07 +0000248}
249
Rafael Espindolaa7471792015-08-13 17:04:50 +0000250namespace {
251template <bool Is64Bits> struct SectionKey {
252 typedef typename std::conditional<Is64Bits, uint64_t, uint32_t>::type uintX_t;
253 StringRef Name;
Rui Ueyama0fb1ee02015-10-02 21:13:19 +0000254 uint32_t Type;
255 uintX_t Flags;
Rafael Espindola7efa5be2016-02-19 14:17:40 +0000256 uintX_t Alignment;
Rafael Espindolaa7471792015-08-13 17:04:50 +0000257};
258}
259namespace llvm {
260template <bool Is64Bits> struct DenseMapInfo<SectionKey<Is64Bits>> {
261 static SectionKey<Is64Bits> getEmptyKey() {
Rafael Espindolac159c962015-10-19 21:00:02 +0000262 return SectionKey<Is64Bits>{DenseMapInfo<StringRef>::getEmptyKey(), 0, 0,
263 0};
Rafael Espindolaa7471792015-08-13 17:04:50 +0000264 }
265 static SectionKey<Is64Bits> getTombstoneKey() {
266 return SectionKey<Is64Bits>{DenseMapInfo<StringRef>::getTombstoneKey(), 0,
Rafael Espindolac159c962015-10-19 21:00:02 +0000267 0, 0};
Rafael Espindolaa7471792015-08-13 17:04:50 +0000268 }
269 static unsigned getHashValue(const SectionKey<Is64Bits> &Val) {
Rafael Espindola7efa5be2016-02-19 14:17:40 +0000270 return hash_combine(Val.Name, Val.Type, Val.Flags, Val.Alignment);
Rafael Espindolaa7471792015-08-13 17:04:50 +0000271 }
272 static bool isEqual(const SectionKey<Is64Bits> &LHS,
273 const SectionKey<Is64Bits> &RHS) {
274 return DenseMapInfo<StringRef>::isEqual(LHS.Name, RHS.Name) &&
Rafael Espindolac159c962015-10-19 21:00:02 +0000275 LHS.Type == RHS.Type && LHS.Flags == RHS.Flags &&
Rafael Espindola7efa5be2016-02-19 14:17:40 +0000276 LHS.Alignment == RHS.Alignment;
Rafael Espindolaa7471792015-08-13 17:04:50 +0000277 }
278};
279}
280
Rafael Espindola26d239c2016-03-22 13:24:29 +0000281// Returns the number of relocations processed.
Rafael Espindola22ef9562016-04-13 01:40:19 +0000282template <class ELFT>
Rafael Espindola26d239c2016-03-22 13:24:29 +0000283static unsigned handleTlsRelocation(uint32_t Type, SymbolBody &Body,
Rafael Espindola22ef9562016-04-13 01:40:19 +0000284 InputSectionBase<ELFT> &C,
285 typename ELFT::uint Offset,
286 typename ELFT::uint Addend, RelExpr Expr) {
287 if (!(C.getSectionHdr()->sh_flags & SHF_ALLOC))
288 return 0;
289
Rafael Espindolaf54413c2016-04-20 14:52:18 +0000290 if (!Body.isTls())
291 return 0;
292
Rafael Espindola74031ba2016-04-07 15:20:56 +0000293 typedef typename ELFT::uint uintX_t;
Rafael Espindola99c22472016-04-18 01:34:20 +0000294 if (Expr == R_TLSLD_PC || Expr == R_TLSLD) {
Rafael Espindola2081dbc2016-04-20 15:01:42 +0000295 // Local-Dynamic relocs can be relaxed to Local-Exec.
296 if (!Config->Shared) {
Rafael Espindola22ef9562016-04-13 01:40:19 +0000297 C.Relocations.push_back(
298 {R_RELAX_TLS_LD_TO_LE, Type, Offset, Addend, &Body});
Rafael Espindola059f3fb2016-04-02 00:19:22 +0000299 return 2;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000300 }
Rui Ueyama0e53c7d2016-02-05 00:10:02 +0000301 if (Out<ELFT>::Got->addTlsIndex())
Rafael Espindola74031ba2016-04-07 15:20:56 +0000302 Out<ELFT>::RelaDyn->addReloc({Target->TlsModuleIndexRel, Out<ELFT>::Got,
303 Out<ELFT>::Got->getTlsIndexOff(), false,
304 nullptr, 0});
Rafael Espindola22ef9562016-04-13 01:40:19 +0000305 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
Rafael Espindola26d239c2016-03-22 13:24:29 +0000306 return 1;
George Rimarbfd29a12016-01-21 09:14:22 +0000307 }
308
Rafael Espindola2081dbc2016-04-20 15:01:42 +0000309 // Local-Dynamic relocs can be relaxed to Local-Exec.
310 if (Target->isTlsLocalDynamicRel(Type) && !Config->Shared) {
Rafael Espindola22ef9562016-04-13 01:40:19 +0000311 C.Relocations.push_back(
312 {R_RELAX_TLS_LD_TO_LE, Type, Offset, Addend, &Body});
313 return 1;
314 }
315
Rui Ueyamac516ae12016-01-29 02:33:45 +0000316 if (Target->isTlsGlobalDynamicRel(Type)) {
Rafael Espindola2081dbc2016-04-20 15:01:42 +0000317 if (Config->Shared) {
Rafael Espindola56da3132016-02-22 19:57:55 +0000318 if (Out<ELFT>::Got->addDynTlsEntry(Body)) {
Rafael Espindola74031ba2016-04-07 15:20:56 +0000319 uintX_t Off = Out<ELFT>::Got->getGlobalDynOffset(Body);
Rafael Espindola56da3132016-02-22 19:57:55 +0000320 Out<ELFT>::RelaDyn->addReloc(
Rafael Espindola74031ba2016-04-07 15:20:56 +0000321 {Target->TlsModuleIndexRel, Out<ELFT>::Got, Off, false, &Body, 0});
322 Out<ELFT>::RelaDyn->addReloc({Target->TlsOffsetRel, Out<ELFT>::Got,
323 Off + (uintX_t)sizeof(uintX_t), false,
324 &Body, 0});
Rafael Espindola56da3132016-02-22 19:57:55 +0000325 }
Rafael Espindola22ef9562016-04-13 01:40:19 +0000326 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
Rafael Espindola26d239c2016-03-22 13:24:29 +0000327 return 1;
George Rimarbfd29a12016-01-21 09:14:22 +0000328 }
Rafael Espindola22ef9562016-04-13 01:40:19 +0000329
Rafael Espindola2081dbc2016-04-20 15:01:42 +0000330 // Global-Dynamic relocs can be relaxed to Initial-Exec or Local-Exec
331 // depending on the symbol being locally defined or not.
Rafael Espindola22ef9562016-04-13 01:40:19 +0000332 if (Body.isPreemptible()) {
Rafael Espindoladf172772016-04-18 01:29:15 +0000333 Expr =
334 Expr == R_TLSGD_PC ? R_RELAX_TLS_GD_TO_IE_PC : R_RELAX_TLS_GD_TO_IE;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000335 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
336 if (!Body.isInGot()) {
337 Out<ELFT>::Got->addEntry(Body);
338 Out<ELFT>::RelaDyn->addReloc({Target->TlsGotRel, Out<ELFT>::Got,
339 Body.getGotOffset<ELFT>(), false, &Body,
340 0});
341 }
Rafael Espindolacf3b04d2016-04-01 23:36:56 +0000342 return 2;
Rafael Espindolab97f4be2016-04-01 12:54:27 +0000343 }
Rafael Espindola22ef9562016-04-13 01:40:19 +0000344 C.Relocations.push_back(
345 {R_RELAX_TLS_GD_TO_LE, Type, Offset, Addend, &Body});
346 return Target->TlsGdToLeSkip;
347 }
Rafael Espindola2081dbc2016-04-20 15:01:42 +0000348
349 // Initial-Exec relocs can be relaxed to Local-Exec if the symbol is locally
350 // defined.
351 if (Target->isTlsInitialExecRel(Type) && !Config->Shared &&
352 !Body.isPreemptible()) {
Rafael Espindola22ef9562016-04-13 01:40:19 +0000353 C.Relocations.push_back(
354 {R_RELAX_TLS_IE_TO_LE, Type, Offset, Addend, &Body});
355 return 1;
George Rimarbfd29a12016-01-21 09:14:22 +0000356 }
Rafael Espindola26d239c2016-03-22 13:24:29 +0000357 return 0;
George Rimarbfd29a12016-01-21 09:14:22 +0000358}
359
Simon Atanasyan13f6da12016-03-31 21:26:23 +0000360// Some targets might require creation of thunks for relocations. Now we
361// support only MIPS which requires LA25 thunk to call PIC code from non-PIC
362// one. Scan relocations to find each one requires thunk.
363template <class ELFT>
364template <class RelTy>
365void Writer<ELFT>::scanRelocsForThunks(const elf::ObjectFile<ELFT> &File,
Rafael Espindola0f7ccc32016-04-05 14:47:28 +0000366 ArrayRef<RelTy> Rels) {
Simon Atanasyan13f6da12016-03-31 21:26:23 +0000367 for (const RelTy &RI : Rels) {
368 uint32_t Type = RI.getType(Config->Mips64EL);
Peter Collingbourne676c7cd2016-04-26 23:52:44 +0000369 SymbolBody &Body = File.getRelocTargetSym(RI);
Simon Atanasyan13f6da12016-03-31 21:26:23 +0000370 if (Body.hasThunk() || !Target->needsThunk(Type, File, Body))
371 continue;
372 auto *D = cast<DefinedRegular<ELFT>>(&Body);
373 auto *S = cast<InputSection<ELFT>>(D->Section);
374 S->addThunk(Body);
375 }
376}
377
Rafael Espindola22ef9562016-04-13 01:40:19 +0000378template <endianness E> static int16_t readSignedLo16(const uint8_t *Loc) {
379 return read32<E>(Loc) & 0xffff;
380}
381
382template <class RelTy>
383static uint32_t getMipsPairType(const RelTy *Rel, const SymbolBody &Sym) {
384 switch (Rel->getType(Config->Mips64EL)) {
385 case R_MIPS_HI16:
386 return R_MIPS_LO16;
387 case R_MIPS_GOT16:
388 return Sym.isLocal() ? R_MIPS_LO16 : R_MIPS_NONE;
389 case R_MIPS_PCHI16:
390 return R_MIPS_PCLO16;
391 case R_MICROMIPS_HI16:
392 return R_MICROMIPS_LO16;
393 default:
394 return R_MIPS_NONE;
395 }
396}
397
398template <class ELFT, class RelTy>
399static int32_t findMipsPairedAddend(const uint8_t *Buf, const uint8_t *BufLoc,
400 SymbolBody &Sym, const RelTy *Rel,
401 const RelTy *End) {
402 uint32_t SymIndex = Rel->getSymbol(Config->Mips64EL);
403 uint32_t Type = getMipsPairType(Rel, Sym);
404
405 // Some MIPS relocations use addend calculated from addend of the relocation
406 // itself and addend of paired relocation. ABI requires to compute such
407 // combined addend in case of REL relocation record format only.
408 // See p. 4-17 at ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
409 if (RelTy::IsRela || Type == R_MIPS_NONE)
410 return 0;
411
412 for (const RelTy *RI = Rel; RI != End; ++RI) {
413 if (RI->getType(Config->Mips64EL) != Type)
414 continue;
415 if (RI->getSymbol(Config->Mips64EL) != SymIndex)
416 continue;
417 const endianness E = ELFT::TargetEndianness;
418 return ((read32<E>(BufLoc) & 0xffff) << 16) +
419 readSignedLo16<E>(Buf + RI->r_offset);
420 }
421 unsigned OldType = Rel->getType(Config->Mips64EL);
422 StringRef OldName = getELFRelocationTypeName(Config->EMachine, OldType);
423 StringRef NewName = getELFRelocationTypeName(Config->EMachine, Type);
424 warning("can't find matching " + NewName + " relocation for " + OldName);
425 return 0;
426}
427
Rafael Espindolaf8f6ad72016-04-15 12:22:22 +0000428// True if non-preemptable symbol always has the same value regardless of where
429// the DSO is loaded.
430template <class ELFT> static bool isAbsolute(const SymbolBody &Body) {
Peter Collingbourne4f952702016-05-01 04:55:03 +0000431 if (Body.isUndefined())
432 return !Body.isLocal() && Body.symbol()->isWeak();
Rafael Espindolaf8f6ad72016-04-15 12:22:22 +0000433 if (const auto *DR = dyn_cast<DefinedRegular<ELFT>>(&Body))
434 return DR->Section == nullptr; // Absolute symbol.
435 return false;
436}
437
Rafael Espindolab312a742016-04-21 17:30:24 +0000438static bool needsPlt(RelExpr Expr) {
439 return Expr == R_PLT_PC || Expr == R_PPC_PLT_OPD || Expr == R_PLT;
440}
441
Rafael Espindola7ac96282016-04-27 12:47:30 +0000442template <class ELFT>
443static bool isRelRelative(RelExpr E, uint32_t Type, const SymbolBody &Body) {
444 if (E == R_SIZE)
445 return true;
446
447 bool AbsVal = (isAbsolute<ELFT>(Body) || Body.isTls()) &&
448 !refersToGotEntry(E) && !needsPlt(E);
449
450 bool RelE = E == R_PC || E == R_PLT_PC || E == R_GOT_PC || E == R_GOTREL ||
451 E == R_PAGE_PC;
452 if (AbsVal && !RelE)
453 return true;
454 if (!AbsVal && RelE)
455 return true;
456
Peter Collingbourne6a422592016-05-03 01:21:08 +0000457 // Relative relocation to an absolute value. This is normally unrepresentable,
458 // but if the relocation refers to a weak undefined symbol, we allow it to
459 // resolve to the image base. This is a little strange, but it allows us to
460 // link function calls to such symbols. Normally such a call will be guarded
461 // with a comparison, which will load a zero from the GOT.
462 if (AbsVal && RelE) {
463 if (Body.isUndefined() && !Body.isLocal() && Body.symbol()->isWeak())
464 return true;
465 StringRef S = getELFRelocationTypeName(Config->EMachine, Type);
466 error("relocation " + S + " cannot refer to absolute symbol " +
467 Body.getName());
468 return true;
469 }
470
Rafael Espindolab8ff59a2016-04-28 14:34:39 +0000471 return Target->usesOnlyLowPageBits(Type);
Rafael Espindola7ac96282016-04-27 12:47:30 +0000472}
473
Rafael Espindolaa85efd92016-04-30 01:15:17 +0000474static RelExpr toPlt(RelExpr Expr) {
475 if (Expr == R_PPC_OPD)
476 return R_PPC_PLT_OPD;
477 if (Expr == R_PC)
478 return R_PLT_PC;
479 if (Expr == R_ABS)
480 return R_PLT;
481 return Expr;
482}
483
484static RelExpr fromPlt(RelExpr Expr) {
485 // We decided not to use a plt. Optimize a reference to the plt to a
486 // reference to the symbol itself.
487 if (Expr == R_PLT_PC)
488 return R_PC;
489 if (Expr == R_PPC_PLT_OPD)
490 return R_PPC_OPD;
491 if (Expr == R_PLT)
492 return R_ABS;
493 return Expr;
494}
495
496template <class ELFT>
497RelExpr Writer<ELFT>::adjustExpr(SymbolBody &Body, bool IsWrite, RelExpr Expr,
498 uint32_t Type) {
499 if (Body.isGnuIFunc())
500 return toPlt(Expr);
501 bool Preemptible = Body.isPreemptible();
502 if (needsPlt(Expr)) {
503 if (Preemptible)
504 return Expr;
505 return fromPlt(Expr);
506 }
507
Rafael Espindola946ca272016-05-04 21:09:24 +0000508 if (IsWrite || refersToGotEntry(Expr) || needsPlt(Expr) || !Preemptible)
509 return Expr;
510
511 // This relocation would require the dynamic linker to write a value to read
512 // only memory. We can hack around it if we are producing an executable and
513 // the refered symbol can be preemepted to refer to the executable.
514 if (Config->Shared) {
515 StringRef S = getELFRelocationTypeName(Config->EMachine, Type);
516 error("relocation " + S + " cannot be used when making a shared "
517 "object; recompile with -fPIC.");
518 return Expr;
Rafael Espindolaa85efd92016-04-30 01:15:17 +0000519 }
Rafael Espindola946ca272016-05-04 21:09:24 +0000520 if (Body.getVisibility() != STV_DEFAULT) {
521 error("Cannot preempt symbol");
522 return Expr;
523 }
524 if (Body.isObject()) {
525 // Produce a copy relocation.
526 auto *B = cast<SharedSymbol<ELFT>>(&Body);
527 if (!B->needsCopy())
528 addCopyRelSymbol(B);
529 return Expr;
530 }
531 if (Body.isFunc()) {
532 // This handles a non PIC program call to function in a shared library. In
533 // an ideal world, we could just report an error saying the relocation can
534 // overflow at runtime. In the real world with glibc, crt1.o has a
535 // R_X86_64_PC32 pointing to libc.so.
536 //
537 // The general idea on how to handle such cases is to create a PLT entry and
538 // use that as the function value.
539 //
540 // For the static linking part, we just return a plt expr and everything
541 // else will use the the PLT entry as the address.
542 //
543 // The remaining problem is making sure pointer equality still works. We
544 // need the help of the dynamic linker for that. We let it know that we have
545 // a direct reference to a so symbol by creating an undefined symbol with a
546 // non zero st_value. Seeing that, the dynamic linker resolves the symbol to
547 // the value of the symbol we created. This is true even for got entries, so
548 // pointer equality is maintained. To avoid an infinite loop, the only entry
549 // that points to the real function is a dedicated got entry used by the
550 // plt. That is identified by special relocation types (R_X86_64_JUMP_SLOT,
551 // R_386_JMP_SLOT, etc).
552 Body.NeedsCopyOrPltAddr = true;
553 return toPlt(Expr);
554 }
555 error("Symbol is missing type");
556
Rafael Espindolaa85efd92016-04-30 01:15:17 +0000557 return Expr;
558}
559
Rafael Espindola19e38892015-09-16 15:54:15 +0000560// The reason we have to do this early scan is as follows
561// * To mmap the output file, we need to know the size
562// * For that, we need to know how many dynamic relocs we will have.
563// It might be possible to avoid this by outputting the file with write:
564// * Write the allocated output sections, computing addresses.
565// * Apply relocations, recording which ones require a dynamic reloc.
566// * Write the dynamic relocations.
567// * Write the rest of the file.
Rafael Espindola0df1b0b2016-02-02 15:45:37 +0000568// This would have some drawbacks. For example, we would only know if .rela.dyn
569// is needed after applying relocations. If it is, it will go after rw and rx
570// sections. Given that it is ro, we will need an extra PT_LOAD. This
571// complicates things for the dynamic linker and means we would have to reserve
572// space for the extra PT_LOAD even if we end up not using it.
Rafael Espindola19e38892015-09-16 15:54:15 +0000573template <class ELFT>
Rui Ueyamafc467e72016-03-13 05:06:50 +0000574template <class RelTy>
Rafael Espindola0f7ccc32016-04-05 14:47:28 +0000575void Writer<ELFT>::scanRelocs(InputSectionBase<ELFT> &C, ArrayRef<RelTy> Rels) {
Peter Collingbourne0a68cf52016-04-14 01:48:11 +0000576 uintX_t Flags = C.getSectionHdr()->sh_flags;
Peter Collingbourne0a68cf52016-04-14 01:48:11 +0000577 bool IsWrite = Flags & SHF_WRITE;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000578
579 auto AddDyn = [=](const DynamicReloc<ELFT> &Reloc) {
Rui Ueyama2b6fb802016-04-28 18:42:04 +0000580 Out<ELFT>::RelaDyn->addReloc(Reloc);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000581 };
582
Rui Ueyama6b074f52016-03-11 18:56:05 +0000583 const elf::ObjectFile<ELFT> &File = *C.getFile();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000584 ArrayRef<uint8_t> SectionData = C.getSectionData();
585 const uint8_t *Buf = SectionData.begin();
Rafael Espindola26d239c2016-03-22 13:24:29 +0000586 for (auto I = Rels.begin(), E = Rels.end(); I != E; ++I) {
587 const RelTy &RI = *I;
Peter Collingbourne676c7cd2016-04-26 23:52:44 +0000588 SymbolBody &Body = File.getRelocTargetSym(RI);
Rui Ueyama64558522015-10-16 22:51:43 +0000589 uint32_t Type = RI.getType(Config->Mips64EL);
Rui Ueyama35da9b62015-10-11 20:59:12 +0000590
Rafael Espindolaebb04b92016-05-04 14:44:22 +0000591 RelExpr Expr = Target->getRelExpr(Type, Body);
Simon Atanasyan682aeea2016-01-14 20:42:09 +0000592 // Ignore "hint" relocation because it is for optional code optimization.
Rafael Espindolaebb04b92016-05-04 14:44:22 +0000593 if (Expr == R_HINT)
Simon Atanasyan682aeea2016-01-14 20:42:09 +0000594 continue;
595
Rafael Espindola56004c52016-04-07 14:22:09 +0000596 uintX_t Offset = C.getOffset(RI.r_offset);
597 if (Offset == (uintX_t)-1)
598 continue;
599
Rafael Espindolaa85efd92016-04-30 01:15:17 +0000600 Expr = adjustExpr(Body, IsWrite, Expr, Type);
601 if (HasError)
602 continue;
603 bool Preemptible = Body.isPreemptible();
604 if (auto *B = dyn_cast<SharedSymbol<ELFT>>(&Body))
605 if (B->needsCopy())
606 Preemptible = false;
607
Rafael Espindola5bf59722016-04-18 12:31:37 +0000608 // This relocation does not require got entry, but it is relative to got and
609 // needs it to be created. Here we request for that.
Rafael Espindola520ed3a2016-04-27 12:21:27 +0000610 if (Expr == R_GOTONLY_PC || Expr == R_GOTREL || Expr == R_PPC_TOC)
Rafael Espindola5bf59722016-04-18 12:31:37 +0000611 HasGotOffRel = true;
612
Rafael Espindola22ef9562016-04-13 01:40:19 +0000613 uintX_t Addend = getAddend<ELFT>(RI);
614 const uint8_t *BufLoc = Buf + RI.r_offset;
615 if (!RelTy::IsRela)
616 Addend += Target->getImplicitAddend(BufLoc, Type);
Simon Atanasyan1ca263c2016-04-14 21:10:05 +0000617 if (Config->EMachine == EM_MIPS) {
Rafael Espindola22ef9562016-04-13 01:40:19 +0000618 Addend += findMipsPairedAddend<ELFT>(Buf, BufLoc, Body, &RI, E);
Simon Atanasyan1ca263c2016-04-14 21:10:05 +0000619 if (Type == R_MIPS_LO16 && Expr == R_PC)
620 // R_MIPS_LO16 expression has R_PC type iif the target is _gp_disp
621 // symbol. In that case we should use the following formula for
Simon Atanasyan63dcba02016-05-02 09:49:03 +0000622 // calculation "AHL + GP - P + 4". Let's add 4 right here.
Simon Atanasyan1ca263c2016-04-14 21:10:05 +0000623 // For details see p. 4-19 at
624 // ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
625 Addend += 4;
626 }
Rafael Espindola22ef9562016-04-13 01:40:19 +0000627
Rafael Espindola22ef9562016-04-13 01:40:19 +0000628 if (unsigned Processed =
629 handleTlsRelocation<ELFT>(Type, Body, C, Offset, Addend, Expr)) {
Rafael Espindola26d239c2016-03-22 13:24:29 +0000630 I += (Processed - 1);
George Rimar687138c2015-11-13 16:28:53 +0000631 continue;
Rafael Espindola26d239c2016-03-22 13:24:29 +0000632 }
George Rimar687138c2015-11-13 16:28:53 +0000633
Rafael Espindola7ac96282016-04-27 12:47:30 +0000634 if (Expr == R_GOT && !isRelRelative<ELFT>(Expr, Type, Body) &&
635 Config->Shared)
Rafael Espindola22ef9562016-04-13 01:40:19 +0000636 AddDyn({Target->RelativeRel, C.OutSec, Offset, true, &Body,
637 getAddend<ELFT>(RI)});
George Rimar6f17e092015-12-17 09:32:21 +0000638
Rui Ueyama554f2732016-02-02 07:07:34 +0000639 // If a relocation needs PLT, we create a PLT and a GOT slot
640 // for the symbol.
Rafael Espindolaa85efd92016-04-30 01:15:17 +0000641 if (needsPlt(Expr)) {
642 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
Rafael Espindola22ef9562016-04-13 01:40:19 +0000643
Rafael Espindola67d72c02016-03-11 12:06:30 +0000644 if (Body.isInPlt())
Rui Ueyama554f2732016-02-02 07:07:34 +0000645 continue;
646 Out<ELFT>::Plt->addEntry(Body);
647
Rafael Espindola31d2ada2016-04-01 14:14:48 +0000648 uint32_t Rel;
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000649 if (Body.isGnuIFunc())
Rafael Espindola31d2ada2016-04-01 14:14:48 +0000650 Rel = Preemptible ? Target->PltRel : Target->IRelativeRel;
651 else
652 Rel = Target->UseLazyBinding ? Target->PltRel : Target->GotRel;
653
Rui Ueyama554f2732016-02-02 07:07:34 +0000654 if (Target->UseLazyBinding) {
655 Out<ELFT>::GotPlt->addEntry(Body);
Rui Ueyama2b6fb802016-04-28 18:42:04 +0000656 Out<ELFT>::RelaPlt->addReloc({Rel, Out<ELFT>::GotPlt,
657 Body.getGotPltOffset<ELFT>(),
658 !Preemptible, &Body, 0});
Rui Ueyama554f2732016-02-02 07:07:34 +0000659 } else {
Rafael Espindola67d72c02016-03-11 12:06:30 +0000660 if (Body.isInGot())
Rui Ueyama554f2732016-02-02 07:07:34 +0000661 continue;
662 Out<ELFT>::Got->addEntry(Body);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000663 AddDyn({Rel, Out<ELFT>::Got, Body.getGotOffset<ELFT>(), !Preemptible,
664 &Body, 0});
Rui Ueyama554f2732016-02-02 07:07:34 +0000665 }
Rui Ueyama554f2732016-02-02 07:07:34 +0000666 continue;
667 }
668
Rafael Espindola22ef9562016-04-13 01:40:19 +0000669 if (Target->needsThunk(Type, File, Body)) {
670 C.Relocations.push_back({R_THUNK, Type, Offset, Addend, &Body});
671 continue;
672 }
673
Rui Ueyamaf263c4b2016-02-02 07:07:35 +0000674 // If a relocation needs GOT, we create a GOT slot for the symbol.
Rafael Espindolac6b17bd2016-04-20 17:30:22 +0000675 if (refersToGotEntry(Expr)) {
Rafael Espindola58cd5db2016-04-19 22:46:03 +0000676 if (Config->EMachine == EM_MIPS && Expr == R_GOT_OFF)
677 Addend -= MipsGPOffset;
Rafael Espindola38bd2172016-05-04 15:51:23 +0000678 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
Rafael Espindola67d72c02016-03-11 12:06:30 +0000679 if (Body.isInGot())
Rui Ueyamaf263c4b2016-02-02 07:07:35 +0000680 continue;
681 Out<ELFT>::Got->addEntry(Body);
Rui Ueyama1ac13382016-02-02 05:55:28 +0000682
Simon Atanasyanf3ec3be2016-03-22 08:36:48 +0000683 if (Config->EMachine == EM_MIPS)
Rui Ueyamaf263c4b2016-02-02 07:07:35 +0000684 // MIPS ABI has special rules to process GOT entries
685 // and doesn't require relocation entries for them.
686 // See "Global Offset Table" in Chapter 5 in the following document
687 // for detailed description:
688 // ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
689 continue;
690
Rafael Espindola69a38062016-04-15 12:44:43 +0000691 if (Preemptible || (Config->Pic && !isAbsolute<ELFT>(Body))) {
Rafael Espindolade9857e2016-02-04 21:33:05 +0000692 uint32_t DynType;
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000693 if (Body.isTls())
Rafael Espindola22304832016-03-11 18:33:48 +0000694 DynType = Target->TlsGotRel;
Rui Ueyamac4466602016-03-13 19:48:18 +0000695 else if (Preemptible)
Rafael Espindola22304832016-03-11 18:33:48 +0000696 DynType = Target->GotRel;
Rafael Espindolade9857e2016-02-04 21:33:05 +0000697 else
698 DynType = Target->RelativeRel;
Rafael Espindola22ef9562016-04-13 01:40:19 +0000699 AddDyn({DynType, Out<ELFT>::Got, Body.getGotOffset<ELFT>(),
700 !Preemptible, &Body, 0});
Rafael Espindolade9857e2016-02-04 21:33:05 +0000701 }
Rui Ueyamaf263c4b2016-02-02 07:07:35 +0000702 continue;
Rafael Espindolaeb792732015-09-21 15:11:29 +0000703 }
Rui Ueyama35da9b62015-10-11 20:59:12 +0000704
Rui Ueyamac4466602016-03-13 19:48:18 +0000705 if (Preemptible) {
Rafael Espindolade9857e2016-02-04 21:33:05 +0000706 // We don't know anything about the finaly symbol. Just ask the dynamic
707 // linker to handle the relocation for us.
Rafael Espindola22ef9562016-04-13 01:40:19 +0000708 AddDyn({Target->getDynRel(Type), C.OutSec, Offset, false, &Body, Addend});
Simon Atanasyanca58a8f2016-04-20 21:40:33 +0000709 // MIPS ABI turns using of GOT and dynamic relocations inside out.
710 // While regular ABI uses dynamic relocations to fill up GOT entries
711 // MIPS ABI requires dynamic linker to fills up GOT entries using
712 // specially sorted dynamic symbol table. This affects even dynamic
713 // relocations against symbols which do not require GOT entries
714 // creation explicitly, i.e. do not have any GOT-relocations. So if
715 // a preemptible symbol has a dynamic relocation we anyway have
716 // to create a GOT entry for it.
717 // If a non-preemptible symbol has a dynamic relocation against it,
718 // dynamic linker takes it st_value, adds offset and writes down
719 // result of the dynamic relocation. In case of preemptible symbol
720 // dynamic linker performs symbol resolution, writes the symbol value
721 // to the GOT entry and reads the GOT entry when it needs to perform
722 // a dynamic relocation.
723 // ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf p.4-19
724 if (Config->EMachine == EM_MIPS && !Body.isInGot())
725 Out<ELFT>::Got->addEntry(Body);
Rafael Espindola22ef9562016-04-13 01:40:19 +0000726 continue;
727 }
728
Rafael Espindolade9857e2016-02-04 21:33:05 +0000729 // We know that this is the final symbol. If the program being produced
730 // is position independent, the final value is still not known.
731 // If the relocation depends on the symbol value (not the size or distances
732 // in the output), we still need some help from the dynamic linker.
733 // We can however do better than just copying the incoming relocation. We
734 // can process some of it and and just ask the dynamic linker to add the
735 // load address.
Rafael Espindola7ac96282016-04-27 12:47:30 +0000736 if (!Config->Pic || isRelRelative<ELFT>(Expr, Type, Body)) {
Rafael Espindola22ef9562016-04-13 01:40:19 +0000737 if (Config->EMachine == EM_MIPS && Body.isLocal() &&
Rafael Espindola1763dc42016-04-26 22:00:04 +0000738 (Type == R_MIPS_GPREL16 || Type == R_MIPS_GPREL32))
Rafael Espindola475dbf42016-04-20 17:20:49 +0000739 Addend += File.getMipsGp0();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000740 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
741 continue;
742 }
743
Rafael Espindola365e5f62016-04-27 11:54:07 +0000744 if (Config->EMachine == EM_PPC64 && Type == R_PPC64_TOC)
745 Addend += getPPC64TocBase();
Rafael Espindola22ef9562016-04-13 01:40:19 +0000746 AddDyn({Target->RelativeRel, C.OutSec, Offset, true, &Body, Addend});
Rafael Espindola365e5f62016-04-27 11:54:07 +0000747 C.Relocations.push_back({Expr, Type, Offset, Addend, &Body});
Rafael Espindola67a5da62015-09-17 14:02:10 +0000748 }
Simon Atanasyan13f6da12016-03-31 21:26:23 +0000749
750 // Scan relocations for necessary thunks.
751 if (Config->EMachine == EM_MIPS)
752 scanRelocsForThunks(File, Rels);
Rafael Espindola67a5da62015-09-17 14:02:10 +0000753}
754
Rafael Espindolaa0fa8482015-11-11 15:29:50 +0000755template <class ELFT> void Writer<ELFT>::scanRelocs(InputSection<ELFT> &C) {
Rui Ueyamae5c1ec42016-04-28 03:04:15 +0000756 // Scan all relocations. Each relocation goes through a series
757 // of tests to determine if it needs special treatment, such as
758 // creating GOT, PLT, copy relocations, etc.
Rui Ueyama2b6fb802016-04-28 18:42:04 +0000759 // Note that relocations for non-alloc sections are directly
760 // processed by InputSection::relocateNative.
761 if (C.getSectionHdr()->sh_flags & SHF_ALLOC)
762 for (const Elf_Shdr *RelSec : C.RelocSections)
763 scanRelocs(C, *RelSec);
Rafael Espindola0c6a4f12015-11-11 19:54:14 +0000764}
765
766template <class ELFT>
767void Writer<ELFT>::scanRelocs(InputSectionBase<ELFT> &S,
768 const Elf_Shdr &RelSec) {
769 ELFFile<ELFT> &EObj = S.getFile()->getObj();
770 if (RelSec.sh_type == SHT_RELA)
771 scanRelocs(S, EObj.relas(&RelSec));
772 else
773 scanRelocs(S, EObj.rels(&RelSec));
Rafael Espindola19e38892015-09-16 15:54:15 +0000774}
775
Rafael Espindola6173f842015-09-23 14:37:01 +0000776template <class ELFT>
Rui Ueyama2a65a492016-01-05 20:01:29 +0000777static void reportUndefined(SymbolTable<ELFT> &Symtab, SymbolBody *Sym) {
Peter Collingbourne6d01a352016-04-24 02:31:04 +0000778 if (!Config->NoUndefined) {
779 if (Config->Relocatable)
780 return;
781 if (Config->Shared)
Peter Collingbourne4f952702016-05-01 04:55:03 +0000782 if (Sym->symbol()->Visibility == STV_DEFAULT)
Peter Collingbourne6d01a352016-04-24 02:31:04 +0000783 return;
784 }
George Rimaree058282015-10-01 17:24:24 +0000785
George Rimar57610422016-03-11 14:43:02 +0000786 std::string Msg = "undefined symbol: " + Sym->getName().str();
Peter Collingbournec3572782016-05-03 01:48:25 +0000787 if (InputFile *File = Sym->getSourceFile<ELFT>())
Rui Ueyama2a65a492016-01-05 20:01:29 +0000788 Msg += " in " + File->getName().str();
Rui Ueyama3f9f0922016-03-08 04:06:29 +0000789 if (Config->NoinhibitExec)
Rui Ueyama2a65a492016-01-05 20:01:29 +0000790 warning(Msg);
Rafael Espindola6173f842015-09-23 14:37:01 +0000791 else
Rui Ueyamac2a0d7e2016-01-28 22:56:29 +0000792 error(Msg);
Rafael Espindola6173f842015-09-23 14:37:01 +0000793}
794
Rafael Espindola10d71ff2016-01-27 18:04:26 +0000795template <class ELFT>
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000796static bool shouldKeepInSymtab(InputSectionBase<ELFT> *Sec, StringRef SymName,
797 const SymbolBody &B) {
798 if (B.isFile())
Rafael Espindola10d71ff2016-01-27 18:04:26 +0000799 return false;
800
George Rimar4cfe5722016-03-03 07:49:35 +0000801 // We keep sections in symtab for relocatable output.
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000802 if (B.isSection())
George Rimar4cfe5722016-03-03 07:49:35 +0000803 return Config->Relocatable;
804
Rafael Espindola10d71ff2016-01-27 18:04:26 +0000805 // If sym references a section in a discarded group, don't keep it.
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000806 if (Sec == &InputSection<ELFT>::Discarded)
Rafael Espindola10d71ff2016-01-27 18:04:26 +0000807 return false;
808
809 if (Config->DiscardNone)
810 return true;
811
812 // In ELF assembly .L symbols are normally discarded by the assembler.
813 // If the assembler fails to do so, the linker discards them if
814 // * --discard-locals is used.
815 // * The symbol is in a SHF_MERGE section, which is normally the reason for
816 // the assembler keeping the .L symbol.
817 if (!SymName.startswith(".L") && !SymName.empty())
818 return true;
819
820 if (Config->DiscardLocals)
821 return false;
822
823 return !(Sec->getSectionHdr()->sh_flags & SHF_MERGE);
824}
825
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000826// Local symbols are not in the linker's symbol table. This function scans
827// each object file's symbol table to copy local symbols to the output.
828template <class ELFT> void Writer<ELFT>::copyLocalSymbols() {
Rui Ueyama90f76fb2016-01-21 03:07:38 +0000829 if (!Out<ELFT>::SymTab)
830 return;
Rafael Espindola78620972016-03-11 16:41:23 +0000831 for (const std::unique_ptr<elf::ObjectFile<ELFT>> &F :
832 Symtab.getObjectFiles()) {
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000833 const char *StrTab = F->getStringTable().data();
Rafael Espindola67d72c02016-03-11 12:06:30 +0000834 for (SymbolBody *B : F->getLocalSymbols()) {
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000835 auto *DR = dyn_cast<DefinedRegular<ELFT>>(B);
836 // No reason to keep local undefined symbol in symtab.
837 if (!DR)
Rafael Espindola444576d2015-10-09 19:25:07 +0000838 continue;
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000839 StringRef SymName(StrTab + B->getNameOffset());
840 InputSectionBase<ELFT> *Sec = DR->Section;
841 if (!shouldKeepInSymtab<ELFT>(Sec, SymName, *B))
842 continue;
Rafael Espindola0b9531c2016-04-22 22:09:35 +0000843 if (Sec) {
844 if (!Sec->Live)
845 continue;
846
847 // Garbage collection is normally able to remove local symbols if they
848 // point to gced sections. In the case of SHF_MERGE sections, we want it
849 // to also be able to drop them if part of the section is gced.
850 // We could look at the section offset map to keep some of these
851 // symbols, but almost all local symbols are .L* symbols, so it
852 // is probably not worth the complexity.
853 if (Config->GcSections && isa<MergeInputSection<ELFT>>(Sec))
854 continue;
855 }
Rafael Espindolae2c24612016-01-29 01:24:25 +0000856 ++Out<ELFT>::SymTab->NumLocals;
George Rimar4cfe5722016-03-03 07:49:35 +0000857 if (Config->Relocatable)
Rui Ueyama98a4b8b2016-03-13 20:18:12 +0000858 B->DynsymIndex = Out<ELFT>::SymTab->NumLocals;
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +0000859 F->KeptLocalSyms.push_back(
860 std::make_pair(DR, Out<ELFT>::SymTab->StrTabSec.addString(SymName)));
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000861 }
862 }
863}
864
Hal Finkel3bae2d82015-10-12 20:51:48 +0000865// PPC64 has a number of special SHT_PROGBITS+SHF_ALLOC+SHF_WRITE sections that
866// we would like to make sure appear is a specific order to maximize their
867// coverage by a single signed 16-bit offset from the TOC base pointer.
868// Conversely, the special .tocbss section should be first among all SHT_NOBITS
869// sections. This will put it next to the loaded special PPC64 sections (and,
870// thus, within reach of the TOC base pointer).
871static int getPPC64SectionRank(StringRef SectionName) {
872 return StringSwitch<int>(SectionName)
George Rimaree741cf2016-04-14 13:23:02 +0000873 .Case(".tocbss", 0)
874 .Case(".branch_lt", 2)
875 .Case(".toc", 3)
876 .Case(".toc1", 4)
877 .Case(".opd", 5)
878 .Default(1);
Hal Finkel3bae2d82015-10-12 20:51:48 +0000879}
880
George Rimare3336c02015-11-24 10:15:50 +0000881template <class ELFT> static bool isRelroSection(OutputSectionBase<ELFT> *Sec) {
Rafael Espindola4fc60442016-02-10 22:43:13 +0000882 if (!Config->ZRelro)
883 return false;
Rui Ueyama389aa8e2016-04-27 03:04:56 +0000884 typename ELFT::uint Flags = Sec->getFlags();
George Rimare3336c02015-11-24 10:15:50 +0000885 if (!(Flags & SHF_ALLOC) || !(Flags & SHF_WRITE))
886 return false;
Rui Ueyamaccfc3262015-12-10 19:13:08 +0000887 if (Flags & SHF_TLS)
888 return true;
George Rimare3336c02015-11-24 10:15:50 +0000889 uint32_t Type = Sec->getType();
Rui Ueyamaccfc3262015-12-10 19:13:08 +0000890 if (Type == SHT_INIT_ARRAY || Type == SHT_FINI_ARRAY ||
891 Type == SHT_PREINIT_ARRAY)
George Rimare3336c02015-11-24 10:15:50 +0000892 return true;
893 if (Sec == Out<ELFT>::GotPlt)
894 return Config->ZNow;
895 if (Sec == Out<ELFT>::Dynamic || Sec == Out<ELFT>::Got)
896 return true;
Rui Ueyama01faef02015-12-10 19:19:04 +0000897 StringRef S = Sec->getName();
898 return S == ".data.rel.ro" || S == ".ctors" || S == ".dtors" || S == ".jcr" ||
899 S == ".eh_frame";
George Rimare3336c02015-11-24 10:15:50 +0000900}
901
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000902// Output section ordering is determined by this function.
903template <class ELFT>
Rui Ueyama717677a2016-02-11 21:17:59 +0000904static bool compareSections(OutputSectionBase<ELFT> *A,
905 OutputSectionBase<ELFT> *B) {
Rui Ueyama9328b2c2016-03-14 23:16:09 +0000906 typedef typename ELFT::uint uintX_t;
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000907
Rui Ueyama07320e42016-04-20 20:13:41 +0000908 int Comp = Script<ELFT>::X->compareSections(A->getName(), B->getName());
Rui Ueyama717677a2016-02-11 21:17:59 +0000909 if (Comp != 0)
910 return Comp < 0;
911
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000912 uintX_t AFlags = A->getFlags();
913 uintX_t BFlags = B->getFlags();
914
915 // Allocatable sections go first to reduce the total PT_LOAD size and
916 // so debug info doesn't change addresses in actual code.
917 bool AIsAlloc = AFlags & SHF_ALLOC;
918 bool BIsAlloc = BFlags & SHF_ALLOC;
919 if (AIsAlloc != BIsAlloc)
920 return AIsAlloc;
921
922 // We don't have any special requirements for the relative order of
923 // two non allocatable sections.
924 if (!AIsAlloc)
925 return false;
926
927 // We want the read only sections first so that they go in the PT_LOAD
928 // covering the program headers at the start of the file.
929 bool AIsWritable = AFlags & SHF_WRITE;
930 bool BIsWritable = BFlags & SHF_WRITE;
931 if (AIsWritable != BIsWritable)
932 return BIsWritable;
933
934 // For a corresponding reason, put non exec sections first (the program
935 // header PT_LOAD is not executable).
936 bool AIsExec = AFlags & SHF_EXECINSTR;
937 bool BIsExec = BFlags & SHF_EXECINSTR;
938 if (AIsExec != BIsExec)
939 return BIsExec;
940
Hal Finkel0d7e83b2015-10-13 17:57:46 +0000941 // If we got here we know that both A and B are in the same PT_LOAD.
Michael J. Spencer1bf73002015-10-16 23:11:07 +0000942
943 // The TLS initialization block needs to be a single contiguous block in a R/W
944 // PT_LOAD, so stick TLS sections directly before R/W sections. The TLS NOBITS
945 // sections are placed here as they don't take up virtual address space in the
946 // PT_LOAD.
Rui Ueyama61805ec2015-12-17 00:12:03 +0000947 bool AIsTls = AFlags & SHF_TLS;
948 bool BIsTls = BFlags & SHF_TLS;
949 if (AIsTls != BIsTls)
950 return AIsTls;
Michael J. Spencer1bf73002015-10-16 23:11:07 +0000951
Hal Finkel08be6142015-10-13 18:55:01 +0000952 // The next requirement we have is to put nobits sections last. The
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000953 // reason is that the only thing the dynamic linker will see about
954 // them is a p_memsz that is larger than p_filesz. Seeing that it
955 // zeros the end of the PT_LOAD, so that has to correspond to the
956 // nobits sections.
Hal Finkel600ff142015-10-13 19:27:12 +0000957 bool AIsNoBits = A->getType() == SHT_NOBITS;
958 bool BIsNoBits = B->getType() == SHT_NOBITS;
959 if (AIsNoBits != BIsNoBits)
960 return BIsNoBits;
Hal Finkel3bae2d82015-10-12 20:51:48 +0000961
George Rimare3336c02015-11-24 10:15:50 +0000962 // We place RelRo section before plain r/w ones.
963 bool AIsRelRo = isRelroSection(A);
964 bool BIsRelRo = isRelroSection(B);
965 if (AIsRelRo != BIsRelRo)
966 return AIsRelRo;
967
Hal Finkel9abc2a52015-10-13 19:07:29 +0000968 // Some architectures have additional ordering restrictions for sections
969 // within the same PT_LOAD.
970 if (Config->EMachine == EM_PPC64)
971 return getPPC64SectionRank(A->getName()) <
972 getPPC64SectionRank(B->getName());
973
974 return false;
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000975}
976
Rui Ueyamab30f73562016-03-13 04:11:53 +0000977// The .bss section does not exist if no input file has a .bss section.
978// This function creates one if that's the case.
979template <class ELFT> void Writer<ELFT>::ensureBss() {
980 if (Out<ELFT>::Bss)
981 return;
982 Out<ELFT>::Bss =
983 new OutputSection<ELFT>(".bss", SHT_NOBITS, SHF_ALLOC | SHF_WRITE);
984 OwningSections.emplace_back(Out<ELFT>::Bss);
985 OutputSections.push_back(Out<ELFT>::Bss);
Rafael Espindola443f50a2015-11-03 21:35:14 +0000986}
987
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000988// Until this function is called, common symbols do not belong to any section.
989// This function adds them to end of BSS section.
990template <class ELFT>
Rafael Espindola11191912015-12-24 16:23:37 +0000991void Writer<ELFT>::addCommonSymbols(std::vector<DefinedCommon *> &Syms) {
Rafael Espindola443f50a2015-11-03 21:35:14 +0000992 if (Syms.empty())
993 return;
994
Rui Ueyama5a9640b2015-10-08 23:49:30 +0000995 // Sort the common symbols by alignment as an heuristic to pack them better.
Rafael Espindola11191912015-12-24 16:23:37 +0000996 std::stable_sort(Syms.begin(), Syms.end(),
997 [](const DefinedCommon *A, const DefinedCommon *B) {
Rui Ueyama17d69832016-03-10 18:58:53 +0000998 return A->Alignment > B->Alignment;
Rafael Espindola11191912015-12-24 16:23:37 +0000999 });
Rui Ueyama5a9640b2015-10-08 23:49:30 +00001000
Rui Ueyamab30f73562016-03-13 04:11:53 +00001001 ensureBss();
1002 uintX_t Off = Out<ELFT>::Bss->getSize();
Rafael Espindola11191912015-12-24 16:23:37 +00001003 for (DefinedCommon *C : Syms) {
Rui Ueyama17d69832016-03-10 18:58:53 +00001004 Off = alignTo(Off, C->Alignment);
1005 Out<ELFT>::Bss->updateAlign(C->Alignment);
Rui Ueyamae57c4872016-01-05 16:35:43 +00001006 C->OffsetInBss = Off;
Rafael Espindola11191912015-12-24 16:23:37 +00001007 Off += C->Size;
Rui Ueyama5a9640b2015-10-08 23:49:30 +00001008 }
1009
1010 Out<ELFT>::Bss->setSize(Off);
1011}
1012
Rui Ueyamaf50e1d82016-03-14 22:41:08 +00001013template <class ELFT> static uint32_t getAlignment(SharedSymbol<ELFT> *SS) {
1014 typedef typename ELFFile<ELFT>::uintX_t uintX_t;
1015
1016 uintX_t SecAlign = SS->File->getSection(SS->Sym)->sh_addralign;
1017 uintX_t SymValue = SS->Sym.st_value;
George Rimaree741cf2016-04-14 13:23:02 +00001018 int TrailingZeros =
1019 std::min(countTrailingZeros(SecAlign), countTrailingZeros(SymValue));
Rui Ueyamaa9692182016-03-13 04:05:42 +00001020 return 1 << TrailingZeros;
1021}
1022
Peter Collingbourne4cdade62016-04-04 22:29:24 +00001023// Reserve space in .bss for copy relocation.
George Rimarbc590fe2015-10-28 16:48:58 +00001024template <class ELFT>
Peter Collingbourne4cdade62016-04-04 22:29:24 +00001025void Writer<ELFT>::addCopyRelSymbol(SharedSymbol<ELFT> *SS) {
Rui Ueyamab30f73562016-03-13 04:11:53 +00001026 ensureBss();
Peter Collingbourne4cdade62016-04-04 22:29:24 +00001027 uintX_t Align = getAlignment(SS);
George Rimar21221682016-04-14 13:56:28 +00001028 uintX_t Off = alignTo(Out<ELFT>::Bss->getSize(), Align);
Peter Collingbourne4cdade62016-04-04 22:29:24 +00001029 Out<ELFT>::Bss->setSize(Off + SS->template getSize<ELFT>());
1030 Out<ELFT>::Bss->updateAlign(Align);
Peter Collingbourne4cdade62016-04-04 22:29:24 +00001031 uintX_t Shndx = SS->Sym.st_shndx;
1032 uintX_t Value = SS->Sym.st_value;
Peter Collingbourne4f952702016-05-01 04:55:03 +00001033 // Look through the DSO's dynamic symbol table for aliases and create a
1034 // dynamic symbol for each one. This causes the copy relocation to correctly
1035 // interpose any aliases.
1036 for (const Elf_Sym &S : SS->File->getElfSymbols(true)) {
1037 if (S.st_shndx != Shndx || S.st_value != Value)
Peter Collingbourne4cdade62016-04-04 22:29:24 +00001038 continue;
Peter Collingbourne4f952702016-05-01 04:55:03 +00001039 auto *Alias = dyn_cast_or_null<SharedSymbol<ELFT>>(
1040 Symtab.find(check(S.getName(SS->File->getStringTable()))));
1041 if (!Alias)
1042 continue;
1043 Alias->OffsetInBss = Off;
1044 Alias->NeedsCopyOrPltAddr = true;
1045 Alias->symbol()->IsUsedInRegularObj = true;
George Rimarbc590fe2015-10-28 16:48:58 +00001046 }
Rafael Espindolac012db32016-04-07 14:34:15 +00001047 Out<ELFT>::RelaDyn->addReloc(
1048 {Target->CopyRel, Out<ELFT>::Bss, SS->OffsetInBss, false, SS, 0});
George Rimarbc590fe2015-10-28 16:48:58 +00001049}
1050
Denis Protivensky8e3b38a2015-11-12 09:52:08 +00001051template <class ELFT>
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +00001052StringRef Writer<ELFT>::getOutputSectionName(InputSectionBase<ELFT> *S) const {
Rui Ueyama07320e42016-04-20 20:13:41 +00001053 StringRef Dest = Script<ELFT>::X->getOutputSection(S);
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +00001054 if (!Dest.empty())
1055 return Dest;
Denis Protivensky8e3b38a2015-11-12 09:52:08 +00001056
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +00001057 StringRef Name = S->getSectionName();
Rafael Espindola14928202016-02-16 16:05:27 +00001058 for (StringRef V : {".text.", ".rodata.", ".data.rel.ro.", ".data.", ".bss.",
1059 ".init_array.", ".fini_array.", ".ctors.", ".dtors.",
Rafael Espindola8ae12902016-02-16 16:12:06 +00001060 ".tbss.", ".gcc_except_table.", ".tdata."})
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +00001061 if (Name.startswith(V))
Rui Ueyamac2dca5d2016-02-11 01:07:18 +00001062 return V.drop_back();
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +00001063 return Name;
Rui Ueyama4fcadaf2015-10-14 19:21:25 +00001064}
1065
Denis Protivensky8e3b38a2015-11-12 09:52:08 +00001066template <class ELFT>
George Rimara5fbebc2015-12-10 09:12:18 +00001067void reportDiscarded(InputSectionBase<ELFT> *IS,
Rafael Espindola36a73d22016-03-11 16:32:46 +00001068 const std::unique_ptr<elf::ObjectFile<ELFT>> &File) {
Rui Ueyama8fc070d2016-02-24 00:23:15 +00001069 if (!Config->PrintGcSections || !IS || IS->Live)
George Rimara5fbebc2015-12-10 09:12:18 +00001070 return;
1071 llvm::errs() << "removing unused section from '" << IS->getSectionName()
1072 << "' in file '" << File->getName() << "'\n";
1073}
1074
1075template <class ELFT>
Rui Ueyama717677a2016-02-11 21:17:59 +00001076bool Writer<ELFT>::isDiscarded(InputSectionBase<ELFT> *S) const {
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +00001077 return !S || S == &InputSection<ELFT>::Discarded || !S->Live ||
Rui Ueyama07320e42016-04-20 20:13:41 +00001078 Script<ELFT>::X->isDiscarded(S);
Denis Protivensky8e3b38a2015-11-12 09:52:08 +00001079}
1080
Rafael Espindola6f92e142016-04-12 13:26:51 +00001081template <class ELFT>
Peter Collingbourne4f952702016-05-01 04:55:03 +00001082static Symbol *addOptionalSynthetic(SymbolTable<ELFT> &Table, StringRef Name,
Peter Collingbourne6a422592016-05-03 01:21:08 +00001083 OutputSectionBase<ELFT> *Sec,
Peter Collingbourne4f952702016-05-01 04:55:03 +00001084 typename ELFT::uint Val) {
Rafael Espindola6f92e142016-04-12 13:26:51 +00001085 if (!Table.find(Name))
1086 return nullptr;
Peter Collingbournef6e9b4e2016-04-13 16:57:28 +00001087 return Table.addSynthetic(Name, Sec, Val);
Rafael Espindola6f92e142016-04-12 13:26:51 +00001088}
1089
Rui Ueyama01687222015-12-26 09:47:57 +00001090// The beginning and the ending of .rel[a].plt section are marked
1091// with __rel[a]_iplt_{start,end} symbols if it is a statically linked
1092// executable. The runtime needs these symbols in order to resolve
1093// all IRELATIVE relocs on startup. For dynamic executables, we don't
1094// need these symbols, since IRELATIVE relocs are resolved through GOT
1095// and PLT. For details, see http://www.airs.com/blog/archives/403.
George Rimaree741cf2016-04-14 13:23:02 +00001096template <class ELFT> void Writer<ELFT>::addRelIpltSymbols() {
Rui Ueyama01687222015-12-26 09:47:57 +00001097 if (isOutputDynamic() || !Out<ELFT>::RelaPlt)
George Rimara07ff662015-12-21 10:12:06 +00001098 return;
Rui Ueyama6c5638b2016-03-13 20:10:20 +00001099 StringRef S = Config->Rela ? "__rela_iplt_start" : "__rel_iplt_start";
Peter Collingbourne6a422592016-05-03 01:21:08 +00001100 addOptionalSynthetic(Symtab, S, Out<ELFT>::RelaPlt, 0);
Rui Ueyama01687222015-12-26 09:47:57 +00001101
Rui Ueyama6c5638b2016-03-13 20:10:20 +00001102 S = Config->Rela ? "__rela_iplt_end" : "__rel_iplt_end";
Peter Collingbourne6a422592016-05-03 01:21:08 +00001103 addOptionalSynthetic(Symtab, S, Out<ELFT>::RelaPlt,
Peter Collingbourne4f952702016-05-01 04:55:03 +00001104 DefinedSynthetic<ELFT>::SectionEnd);
George Rimara07ff662015-12-21 10:12:06 +00001105}
1106
Rafael Espindolaae533242015-12-23 20:37:51 +00001107template <class ELFT> static bool includeInSymtab(const SymbolBody &B) {
Peter Collingbourne4f952702016-05-01 04:55:03 +00001108 if (!B.symbol()->IsUsedInRegularObj)
Rafael Espindolaae533242015-12-23 20:37:51 +00001109 return false;
1110
Rui Ueyama874e7ae2016-02-17 04:56:44 +00001111 if (auto *D = dyn_cast<DefinedRegular<ELFT>>(&B)) {
Rui Ueyama874e7ae2016-02-17 04:56:44 +00001112 // Exclude symbols pointing to garbage-collected sections.
Rui Ueyama8fc070d2016-02-24 00:23:15 +00001113 if (D->Section && !D->Section->Live)
Rui Ueyama874e7ae2016-02-17 04:56:44 +00001114 return false;
1115 }
Rafael Espindolaae533242015-12-23 20:37:51 +00001116 return true;
1117}
1118
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001119// This class knows how to create an output section for a given
1120// input section. Output section type is determined by various
1121// factors, including input section's sh_flags, sh_type and
1122// linker scripts.
1123namespace {
1124template <class ELFT> class OutputSectionFactory {
Rui Ueyama9328b2c2016-03-14 23:16:09 +00001125 typedef typename ELFT::Shdr Elf_Shdr;
1126 typedef typename ELFT::uint uintX_t;
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001127
1128public:
1129 std::pair<OutputSectionBase<ELFT> *, bool> create(InputSectionBase<ELFT> *C,
1130 StringRef OutsecName);
1131
George Rimard502f472016-04-14 14:07:54 +00001132 OutputSectionBase<ELFT> *lookup(StringRef Name, uint32_t Type,
1133 uintX_t Flags) {
George Rimar4c2ae3a2016-04-14 14:24:23 +00001134 return Map.lookup({Name, Type, Flags, 0});
George Rimard502f472016-04-14 14:07:54 +00001135 }
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001136
1137private:
1138 SectionKey<ELFT::Is64Bits> createKey(InputSectionBase<ELFT> *C,
1139 StringRef OutsecName);
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001140
1141 SmallDenseMap<SectionKey<ELFT::Is64Bits>, OutputSectionBase<ELFT> *> Map;
1142};
1143}
1144
1145template <class ELFT>
1146std::pair<OutputSectionBase<ELFT> *, bool>
1147OutputSectionFactory<ELFT>::create(InputSectionBase<ELFT> *C,
1148 StringRef OutsecName) {
1149 SectionKey<ELFT::Is64Bits> Key = createKey(C, OutsecName);
1150 OutputSectionBase<ELFT> *&Sec = Map[Key];
1151 if (Sec)
1152 return {Sec, false};
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001153
Rui Ueyama2df0fd82015-12-25 07:38:58 +00001154 switch (C->SectionKind) {
1155 case InputSectionBase<ELFT>::Regular:
Rui Ueyamaf949f7f2016-01-11 23:50:55 +00001156 Sec = new OutputSection<ELFT>(Key.Name, Key.Type, Key.Flags);
1157 break;
Rui Ueyama2df0fd82015-12-25 07:38:58 +00001158 case InputSectionBase<ELFT>::EHFrame:
Rui Ueyamaf949f7f2016-01-11 23:50:55 +00001159 Sec = new EHOutputSection<ELFT>(Key.Name, Key.Type, Key.Flags);
1160 break;
Rui Ueyama2df0fd82015-12-25 07:38:58 +00001161 case InputSectionBase<ELFT>::Merge:
Rafael Espindola7efa5be2016-02-19 14:17:40 +00001162 Sec = new MergeOutputSection<ELFT>(Key.Name, Key.Type, Key.Flags,
1163 Key.Alignment);
Rui Ueyamaf949f7f2016-01-11 23:50:55 +00001164 break;
Rui Ueyama2df0fd82015-12-25 07:38:58 +00001165 case InputSectionBase<ELFT>::MipsReginfo:
Rui Ueyamaf949f7f2016-01-11 23:50:55 +00001166 Sec = new MipsReginfoOutputSection<ELFT>();
1167 break;
Simon Atanasyanadd74f32016-05-04 10:07:38 +00001168 case InputSectionBase<ELFT>::MipsOptions:
1169 Sec = new MipsOptionsOutputSection<ELFT>();
1170 break;
Rui Ueyama2df0fd82015-12-25 07:38:58 +00001171 }
Rui Ueyamaf949f7f2016-01-11 23:50:55 +00001172 return {Sec, true};
Rui Ueyama2df0fd82015-12-25 07:38:58 +00001173}
1174
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001175template <class ELFT>
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001176SectionKey<ELFT::Is64Bits>
1177OutputSectionFactory<ELFT>::createKey(InputSectionBase<ELFT> *C,
1178 StringRef OutsecName) {
1179 const Elf_Shdr *H = C->getSectionHdr();
Rui Ueyama63de9172015-12-26 07:13:38 +00001180 uintX_t Flags = H->sh_flags & ~SHF_GROUP;
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001181
Rafael Espindola7efa5be2016-02-19 14:17:40 +00001182 // For SHF_MERGE we create different output sections for each alignment.
1183 // This makes each output section simple and keeps a single level mapping from
1184 // input to output.
1185 uintX_t Alignment = 0;
George Rimar4e8cf852016-04-14 13:00:03 +00001186 if (isa<MergeInputSection<ELFT>>(C))
1187 Alignment = std::max(H->sh_addralign, H->sh_entsize);
Rui Ueyama63de9172015-12-26 07:13:38 +00001188
George Rimar959d1802016-04-28 13:38:10 +00001189 // GNU as can give .eh_frame section type SHT_PROGBITS or SHT_X86_64_UNWIND
Rui Ueyama63de9172015-12-26 07:13:38 +00001190 // depending on the construct. We want to canonicalize it so that
1191 // there is only one .eh_frame in the end.
1192 uint32_t Type = H->sh_type;
1193 if (Type == SHT_PROGBITS && Config->EMachine == EM_X86_64 &&
1194 isa<EHInputSection<ELFT>>(C))
1195 Type = SHT_X86_64_UNWIND;
1196
Rafael Espindola7efa5be2016-02-19 14:17:40 +00001197 return SectionKey<ELFT::Is64Bits>{OutsecName, Type, Flags, Alignment};
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001198}
1199
Rui Ueyamaf18fe7b2015-12-26 07:50:39 +00001200// The linker is expected to define some symbols depending on
1201// the linking result. This function defines such symbols.
1202template <class ELFT> void Writer<ELFT>::addReservedSymbols() {
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +00001203 if (Config->EMachine == EM_MIPS) {
Rafael Espindola9b3f99e2016-04-12 02:24:43 +00001204 // Define _gp for MIPS. st_value of _gp symbol will be updated by Writer
1205 // so that it points to an absolute address which is relative to GOT.
1206 // See "Global Data Symbols" in Chapter 6 in the following document:
1207 // ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
Peter Collingbourne6a422592016-05-03 01:21:08 +00001208 Symtab.addSynthetic("_gp", Out<ELFT>::Got, MipsGPOffset);
Rafael Espindola9b3f99e2016-04-12 02:24:43 +00001209
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +00001210 // On MIPS O32 ABI, _gp_disp is a magic symbol designates offset between
1211 // start of function and 'gp' pointer into GOT.
Peter Collingbourne6f535b72016-05-03 18:03:45 +00001212 Symbol *Sym =
1213 addOptionalSynthetic(Symtab, "_gp_disp", Out<ELFT>::Got, MipsGPOffset);
1214 if (Sym)
1215 ElfSym<ELFT>::MipsGpDisp = Sym->body();
1216
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +00001217 // The __gnu_local_gp is a magic symbol equal to the current value of 'gp'
1218 // pointer. This symbol is used in the code generated by .cpload pseudo-op
1219 // in case of using -mno-shared option.
1220 // https://sourceware.org/ml/binutils/2004-12/msg00094.html
Peter Collingbourne6a422592016-05-03 01:21:08 +00001221 addOptionalSynthetic(Symtab, "__gnu_local_gp", Out<ELFT>::Got,
Peter Collingbourne4f952702016-05-01 04:55:03 +00001222 MipsGPOffset);
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +00001223 }
1224
1225 // In the assembly for 32 bit x86 the _GLOBAL_OFFSET_TABLE_ symbol
1226 // is magical and is used to produce a R_386_GOTPC relocation.
1227 // The R_386_GOTPC relocation value doesn't actually depend on the
1228 // symbol value, so it could use an index of STN_UNDEF which, according
1229 // to the spec, means the symbol value is 0.
1230 // Unfortunately both gas and MC keep the _GLOBAL_OFFSET_TABLE_ symbol in
1231 // the object file.
1232 // The situation is even stranger on x86_64 where the assembly doesn't
1233 // need the magical symbol, but gas still puts _GLOBAL_OFFSET_TABLE_ as
1234 // an undefined symbol in the .o files.
1235 // Given that the symbol is effectively unused, we just create a dummy
1236 // hidden one to avoid the undefined symbol error.
1237 if (!Config->Relocatable)
1238 Symtab.addIgnored("_GLOBAL_OFFSET_TABLE_");
1239
Rui Ueyamaf18fe7b2015-12-26 07:50:39 +00001240 // __tls_get_addr is defined by the dynamic linker for dynamic ELFs. For
1241 // static linking the linker is required to optimize away any references to
1242 // __tls_get_addr, so it's not defined anywhere. Create a hidden definition
1243 // to avoid the undefined symbol error.
1244 if (!isOutputDynamic())
1245 Symtab.addIgnored("__tls_get_addr");
1246
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001247 auto Define = [this](StringRef S, DefinedRegular<ELFT> *&Sym1,
1248 DefinedRegular<ELFT> *&Sym2) {
1249 Sym1 = Symtab.addIgnored(S, STV_DEFAULT);
Rui Ueyama4d169bd2016-02-26 16:38:39 +00001250
1251 // The name without the underscore is not a reserved name,
1252 // so it is defined only when there is a reference against it.
Rui Ueyama68e15552016-02-26 16:49:54 +00001253 assert(S.startswith("_"));
Rui Ueyama4d169bd2016-02-26 16:38:39 +00001254 S = S.substr(1);
1255 if (SymbolBody *B = Symtab.find(S))
George Rimar9e859392016-02-26 14:36:36 +00001256 if (B->isUndefined())
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001257 Sym2 = Symtab.addAbsolute(S, STV_DEFAULT);
George Rimar9e859392016-02-26 14:36:36 +00001258 };
1259
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001260 Define("_end", ElfSym<ELFT>::End, ElfSym<ELFT>::End2);
1261 Define("_etext", ElfSym<ELFT>::Etext, ElfSym<ELFT>::Etext2);
1262 Define("_edata", ElfSym<ELFT>::Edata, ElfSym<ELFT>::Edata2);
Rui Ueyamaf18fe7b2015-12-26 07:50:39 +00001263}
1264
Rui Ueyamac4185702016-02-10 23:20:42 +00001265// Sort input sections by section name suffixes for
1266// __attribute__((init_priority(N))).
Rui Ueyama5af83682016-02-11 23:41:38 +00001267template <class ELFT> static void sortInitFini(OutputSectionBase<ELFT> *S) {
Rui Ueyamac4185702016-02-10 23:20:42 +00001268 if (S)
Rui Ueyama5af83682016-02-11 23:41:38 +00001269 reinterpret_cast<OutputSection<ELFT> *>(S)->sortInitFini();
1270}
1271
1272// Sort input sections by the special rule for .ctors and .dtors.
1273template <class ELFT> static void sortCtorsDtors(OutputSectionBase<ELFT> *S) {
1274 if (S)
1275 reinterpret_cast<OutputSection<ELFT> *>(S)->sortCtorsDtors();
Rui Ueyamac4185702016-02-10 23:20:42 +00001276}
1277
Michael J. Spencer84487f12015-07-24 21:03:07 +00001278// Create output section objects and add them to OutputSections.
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +00001279template <class ELFT> void Writer<ELFT>::createSections() {
Rui Ueyama1b2a8bf2015-12-26 10:22:16 +00001280 // Add .interp first because some loaders want to see that section
1281 // on the first page of the executable file when loaded into memory.
Rui Ueyama69960ba2015-10-10 23:25:39 +00001282 if (needsInterpSection())
1283 OutputSections.push_back(Out<ELFT>::Interp);
1284
Rui Ueyama28286cd2016-03-13 01:54:48 +00001285 // A core file does not usually contain unmodified segments except
1286 // the first page of the executable. Add the build ID section now
1287 // so that the section is included in the first page.
1288 if (Out<ELFT>::BuildId)
1289 OutputSections.push_back(Out<ELFT>::BuildId);
1290
Rui Ueyama1b2a8bf2015-12-26 10:22:16 +00001291 // Create output sections for input object file sections.
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +00001292 std::vector<OutputSectionBase<ELFT> *> RegularSections;
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001293 OutputSectionFactory<ELFT> Factory;
Rafael Espindola78620972016-03-11 16:41:23 +00001294 for (const std::unique_ptr<elf::ObjectFile<ELFT>> &F :
1295 Symtab.getObjectFiles()) {
Rafael Espindolac159c962015-10-19 21:00:02 +00001296 for (InputSectionBase<ELFT> *C : F->getSections()) {
George Rimara5fbebc2015-12-10 09:12:18 +00001297 if (isDiscarded(C)) {
1298 reportDiscarded(C, F);
Rafael Espindola19e38892015-09-16 15:54:15 +00001299 continue;
George Rimara5fbebc2015-12-10 09:12:18 +00001300 }
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001301 OutputSectionBase<ELFT> *Sec;
1302 bool IsNew;
Rui Ueyama1ebc8ed2016-02-12 21:47:28 +00001303 std::tie(Sec, IsNew) = Factory.create(C, getOutputSectionName(C));
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001304 if (IsNew) {
Rui Ueyamad4ea7dd2015-12-26 07:01:26 +00001305 OwningSections.emplace_back(Sec);
Rafael Espindolad13d9602015-09-25 15:08:44 +00001306 OutputSections.push_back(Sec);
Rui Ueyamad9189ce2015-10-15 17:11:03 +00001307 RegularSections.push_back(Sec);
Rafael Espindolad13d9602015-09-25 15:08:44 +00001308 }
Rui Ueyama40845e62015-12-26 05:51:07 +00001309 Sec->addSection(C);
Rafael Espindola19e38892015-09-16 15:54:15 +00001310 }
1311 }
1312
Rafael Espindola443f50a2015-11-03 21:35:14 +00001313 Out<ELFT>::Bss = static_cast<OutputSection<ELFT> *>(
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001314 Factory.lookup(".bss", SHT_NOBITS, SHF_ALLOC | SHF_WRITE));
Rafael Espindola443f50a2015-11-03 21:35:14 +00001315
Rui Ueyama84417f82015-12-26 07:50:41 +00001316 // If we have a .opd section (used under PPC64 for function descriptors),
1317 // store a pointer to it here so that we can use it later when processing
1318 // relocations.
1319 Out<ELFT>::Opd = Factory.lookup(".opd", SHT_PROGBITS, SHF_WRITE | SHF_ALLOC);
1320
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001321 Out<ELFT>::Dynamic->PreInitArraySec = Factory.lookup(
1322 ".preinit_array", SHT_PREINIT_ARRAY, SHF_WRITE | SHF_ALLOC);
Rui Ueyama15ef5e12015-10-07 19:18:16 +00001323 Out<ELFT>::Dynamic->InitArraySec =
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001324 Factory.lookup(".init_array", SHT_INIT_ARRAY, SHF_WRITE | SHF_ALLOC);
Rui Ueyama15ef5e12015-10-07 19:18:16 +00001325 Out<ELFT>::Dynamic->FiniArraySec =
Rui Ueyama3a1f0362015-12-26 07:01:28 +00001326 Factory.lookup(".fini_array", SHT_FINI_ARRAY, SHF_WRITE | SHF_ALLOC);
Rafael Espindola77572242015-10-02 19:37:55 +00001327
Rui Ueyamac4185702016-02-10 23:20:42 +00001328 // Sort section contents for __attribute__((init_priority(N)).
Rui Ueyama5af83682016-02-11 23:41:38 +00001329 sortInitFini(Out<ELFT>::Dynamic->InitArraySec);
1330 sortInitFini(Out<ELFT>::Dynamic->FiniArraySec);
1331 sortCtorsDtors(Factory.lookup(".ctors", SHT_PROGBITS, SHF_WRITE | SHF_ALLOC));
1332 sortCtorsDtors(Factory.lookup(".dtors", SHT_PROGBITS, SHF_WRITE | SHF_ALLOC));
Rui Ueyamac4185702016-02-10 23:20:42 +00001333
Rui Ueyamaa5d79d12015-12-26 09:48:00 +00001334 // The linker needs to define SECNAME_start, SECNAME_end and SECNAME_stop
1335 // symbols for sections, so that the runtime can get the start and end
1336 // addresses of each section by section name. Add such symbols.
George Rimarc1034a82016-03-01 19:12:35 +00001337 if (!Config->Relocatable) {
1338 addStartEndSymbols();
1339 for (OutputSectionBase<ELFT> *Sec : RegularSections)
1340 addStartStopSymbols(Sec);
1341 }
Rui Ueyamad4530c62016-03-04 18:34:14 +00001342
1343 // Add _DYNAMIC symbol. Unlike GNU gold, our _DYNAMIC symbol has no type.
1344 // It should be okay as no one seems to care about the type.
1345 // Even the author of gold doesn't remember why gold behaves that way.
1346 // https://sourceware.org/ml/binutils/2002-03/msg00360.html
George Rimaraa4dc202016-03-01 16:23:13 +00001347 if (isOutputDynamic())
Peter Collingbourne6a422592016-05-03 01:21:08 +00001348 Symtab.addSynthetic("_DYNAMIC", Out<ELFT>::Dynamic, 0);
Rafael Espindola334c3e12015-10-19 15:21:42 +00001349
Rafael Espindolade9857e2016-02-04 21:33:05 +00001350 // Define __rel[a]_iplt_{start,end} symbols if needed.
1351 addRelIpltSymbols();
1352
Rafael Espindola56004c52016-04-07 14:22:09 +00001353 if (Out<ELFT>::EhFrameHdr->Sec)
1354 Out<ELFT>::EhFrameHdr->Sec->finalize();
1355
Rafael Espindola334c3e12015-10-19 15:21:42 +00001356 // Scan relocations. This must be done after every symbol is declared so that
1357 // we can correctly decide if a dynamic relocation is needed.
Rafael Espindola3828b882016-04-07 15:50:23 +00001358 // Check size() each time to guard against .bss being created.
1359 for (unsigned I = 0; I < OutputSections.size(); ++I) {
1360 OutputSectionBase<ELFT> *Sec = OutputSections[I];
Rafael Espindola56004c52016-04-07 14:22:09 +00001361 Sec->forEachInputSection([&](InputSectionBase<ELFT> *S) {
1362 if (auto *IS = dyn_cast<InputSection<ELFT>>(S)) {
1363 // Set OutSecOff so that scanRelocs can use it.
1364 uintX_t Off = alignTo(Sec->getSize(), S->Align);
1365 IS->OutSecOff = Off;
Rafael Espindola334c3e12015-10-19 15:21:42 +00001366
Rafael Espindola56004c52016-04-07 14:22:09 +00001367 scanRelocs(*IS);
1368
1369 // Now that scan relocs possibly changed the size, update the offset.
1370 Sec->setSize(Off + S->getSize());
1371 } else if (auto *EH = dyn_cast<EHInputSection<ELFT>>(S)) {
1372 if (EH->RelocSection)
1373 scanRelocs(*EH, *EH->RelocSection);
1374 }
1375 });
1376 }
Simon Atanasyan13f6da12016-03-31 21:26:23 +00001377
Rui Ueyama1b2a8bf2015-12-26 10:22:16 +00001378 // Now that we have defined all possible symbols including linker-
1379 // synthesized ones. Visit all symbols to give the finishing touches.
Rafael Espindola11191912015-12-24 16:23:37 +00001380 std::vector<DefinedCommon *> CommonSymbols;
Rafael Espindola7f0b7272016-04-14 20:42:43 +00001381 for (Symbol *S : Symtab.getSymbols()) {
Peter Collingbourne4f952702016-05-01 04:55:03 +00001382 SymbolBody *Body = S->body();
Rafael Espindola0baa73f2016-04-26 13:56:26 +00001383
1384 // Set "used" bit for --as-needed.
1385 if (S->IsUsedInRegularObj && !S->isWeak())
1386 if (auto *SS = dyn_cast<SharedSymbol<ELFT>>(Body))
1387 SS->File->IsUsed = true;
1388
Peter Collingbourne892d49802016-04-27 00:05:03 +00001389 if (Body->isUndefined() && !S->isWeak())
1390 reportUndefined<ELFT>(Symtab, Body);
Rafael Espindola05a3dd22015-09-22 23:38:23 +00001391
Rafael Espindola11191912015-12-24 16:23:37 +00001392 if (auto *C = dyn_cast<DefinedCommon>(Body))
Rafael Espindola05a3dd22015-09-22 23:38:23 +00001393 CommonSymbols.push_back(C);
George Rimarbc590fe2015-10-28 16:48:58 +00001394
Rafael Espindola4f674ed2015-10-05 15:24:04 +00001395 if (!includeInSymtab<ELFT>(*Body))
Rafael Espindola05a3dd22015-09-22 23:38:23 +00001396 continue;
George Rimar5dad7c12015-10-24 08:52:46 +00001397 if (Out<ELFT>::SymTab)
1398 Out<ELFT>::SymTab->addSymbol(Body);
Rafael Espindola05a3dd22015-09-22 23:38:23 +00001399
Peter Collingbourne21a12fc2016-04-27 20:22:31 +00001400 if (isOutputDynamic() && S->includeInDynsym()) {
Igor Kudrinab665fc2015-10-20 21:47:58 +00001401 Out<ELFT>::DynSymTab->addSymbol(Body);
Peter Collingbourne21a12fc2016-04-27 20:22:31 +00001402 if (auto *SS = dyn_cast<SharedSymbol<ELFT>>(Body))
1403 Out<ELFT>::VerNeed->addSymbol(SS);
1404 }
Rafael Espindola05a3dd22015-09-22 23:38:23 +00001405 }
Rui Ueyamac2a0d7e2016-01-28 22:56:29 +00001406
1407 // Do not proceed if there was an undefined symbol.
1408 if (HasError)
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +00001409 return;
Rui Ueyamac2a0d7e2016-01-28 22:56:29 +00001410
Rui Ueyama5a9640b2015-10-08 23:49:30 +00001411 addCommonSymbols(CommonSymbols);
Michael J. Spencer84487f12015-07-24 21:03:07 +00001412
Rui Ueyama84417f82015-12-26 07:50:41 +00001413 // So far we have added sections from input object files.
1414 // This function adds linker-created Out<ELFT>::* sections.
1415 addPredefinedSections();
1416
1417 std::stable_sort(OutputSections.begin(), OutputSections.end(),
1418 compareSections<ELFT>);
1419
George Rimar7ca06272016-04-06 07:20:45 +00001420 unsigned I = 1;
1421 for (OutputSectionBase<ELFT> *Sec : OutputSections) {
1422 Sec->SectionIndex = I++;
Rafael Espindolae2c24612016-01-29 01:24:25 +00001423 Sec->setSHName(Out<ELFT>::ShStrTab->addString(Sec->getName()));
George Rimar7ca06272016-04-06 07:20:45 +00001424 }
Rui Ueyama84417f82015-12-26 07:50:41 +00001425
1426 // Finalizers fix each section's size.
Rafael Espindolade069362016-01-25 21:32:04 +00001427 // .dynsym is finalized early since that may fill up .gnu.hash.
Rui Ueyama84417f82015-12-26 07:50:41 +00001428 if (isOutputDynamic())
1429 Out<ELFT>::DynSymTab->finalize();
1430
Simon Atanasyan40d25f32016-02-02 09:07:47 +00001431 // Fill other section headers. The dynamic table is finalized
1432 // at the end because some tags like RELSZ depend on result
1433 // of finalizing other sections. The dynamic string table is
1434 // finalized once the .dynamic finalizer has added a few last
1435 // strings. See DynamicSection::finalize()
Rui Ueyama84417f82015-12-26 07:50:41 +00001436 for (OutputSectionBase<ELFT> *Sec : OutputSections)
Simon Atanasyan40d25f32016-02-02 09:07:47 +00001437 if (Sec != Out<ELFT>::DynStrTab && Sec != Out<ELFT>::Dynamic)
Rafael Espindolade069362016-01-25 21:32:04 +00001438 Sec->finalize();
Simon Atanasyan40d25f32016-02-02 09:07:47 +00001439
1440 if (isOutputDynamic())
1441 Out<ELFT>::Dynamic->finalize();
Rui Ueyama84417f82015-12-26 07:50:41 +00001442}
1443
Rui Ueyama30951482016-02-25 19:34:37 +00001444template <class ELFT> bool Writer<ELFT>::needsGot() {
1445 if (!Out<ELFT>::Got->empty())
1446 return true;
1447
1448 // We add the .got section to the result for dynamic MIPS target because
1449 // its address and properties are mentioned in the .dynamic section.
Rafael Espindolaa22b0822016-04-12 13:21:13 +00001450 if (Config->EMachine == EM_MIPS)
Rui Ueyama30951482016-02-25 19:34:37 +00001451 return true;
1452
1453 // If we have a relocation that is relative to GOT (such as GOTOFFREL),
1454 // we need to emit a GOT even if it's empty.
1455 return HasGotOffRel;
1456}
1457
Rui Ueyama84417f82015-12-26 07:50:41 +00001458// This function add Out<ELFT>::* sections to OutputSections.
1459template <class ELFT> void Writer<ELFT>::addPredefinedSections() {
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001460 auto Add = [&](OutputSectionBase<ELFT> *C) {
1461 if (C)
1462 OutputSections.push_back(C);
1463 };
1464
Rui Ueyamac6ef3f22015-10-15 21:50:30 +00001465 // This order is not the same as the final output order
1466 // because we sort the sections using their attributes below.
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001467 Add(Out<ELFT>::SymTab);
1468 Add(Out<ELFT>::ShStrTab);
1469 Add(Out<ELFT>::StrTab);
Michael J. Spencer350e5b52015-10-12 23:39:23 +00001470 if (isOutputDynamic()) {
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001471 Add(Out<ELFT>::DynSymTab);
Peter Collingbourne21a12fc2016-04-27 20:22:31 +00001472 if (Out<ELFT>::VerNeed->getNeedNum() != 0) {
1473 Add(Out<ELFT>::VerSym);
1474 Add(Out<ELFT>::VerNeed);
1475 }
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001476 Add(Out<ELFT>::GnuHashTab);
1477 Add(Out<ELFT>::HashTab);
1478 Add(Out<ELFT>::Dynamic);
1479 Add(Out<ELFT>::DynStrTab);
Rui Ueyama15ef5e12015-10-07 19:18:16 +00001480 if (Out<ELFT>::RelaDyn->hasRelocs())
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001481 Add(Out<ELFT>::RelaDyn);
Rui Ueyamaa354c5c2016-02-25 23:54:49 +00001482 Add(Out<ELFT>::MipsRldMap);
Rafael Espindola3f4228f2015-09-09 15:33:08 +00001483 }
Igor Kudrin304860a2015-11-12 04:39:49 +00001484
George Rimara07ff662015-12-21 10:12:06 +00001485 // We always need to add rel[a].plt to output if it has entries.
1486 // Even during static linking it can contain R_[*]_IRELATIVE relocations.
1487 if (Out<ELFT>::RelaPlt && Out<ELFT>::RelaPlt->hasRelocs()) {
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001488 Add(Out<ELFT>::RelaPlt);
George Rimara07ff662015-12-21 10:12:06 +00001489 Out<ELFT>::RelaPlt->Static = !isOutputDynamic();
1490 }
1491
Rui Ueyama30951482016-02-25 19:34:37 +00001492 if (needsGot())
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001493 Add(Out<ELFT>::Got);
George Rimar648a2c32015-10-20 08:54:27 +00001494 if (Out<ELFT>::GotPlt && !Out<ELFT>::GotPlt->empty())
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001495 Add(Out<ELFT>::GotPlt);
Rui Ueyama15ef5e12015-10-07 19:18:16 +00001496 if (!Out<ELFT>::Plt->empty())
Rui Ueyama5a4ae1f2015-12-26 10:34:33 +00001497 Add(Out<ELFT>::Plt);
George Rimarf6bc65a2016-01-15 13:34:52 +00001498 if (Out<ELFT>::EhFrameHdr->Live)
1499 Add(Out<ELFT>::EhFrameHdr);
Rafael Espindolaabad6182015-08-13 15:23:46 +00001500}
1501
Rui Ueyamaa5d79d12015-12-26 09:48:00 +00001502// The linker is expected to define SECNAME_start and SECNAME_end
1503// symbols for a few sections. This function defines them.
1504template <class ELFT> void Writer<ELFT>::addStartEndSymbols() {
1505 auto Define = [&](StringRef Start, StringRef End,
1506 OutputSectionBase<ELFT> *OS) {
1507 if (OS) {
Peter Collingbourne6a422592016-05-03 01:21:08 +00001508 this->Symtab.addSynthetic(Start, OS, 0);
1509 this->Symtab.addSynthetic(End, OS, DefinedSynthetic<ELFT>::SectionEnd);
Rui Ueyamaa5d79d12015-12-26 09:48:00 +00001510 } else {
Peter Collingbourne6a422592016-05-03 01:21:08 +00001511 addOptionalSynthetic(this->Symtab, Start,
1512 (OutputSectionBase<ELFT> *)nullptr, 0);
1513 addOptionalSynthetic(this->Symtab, End,
1514 (OutputSectionBase<ELFT> *)nullptr, 0);
Rui Ueyamaa5d79d12015-12-26 09:48:00 +00001515 }
1516 };
1517
1518 Define("__preinit_array_start", "__preinit_array_end",
1519 Out<ELFT>::Dynamic->PreInitArraySec);
1520 Define("__init_array_start", "__init_array_end",
1521 Out<ELFT>::Dynamic->InitArraySec);
1522 Define("__fini_array_start", "__fini_array_end",
1523 Out<ELFT>::Dynamic->FiniArraySec);
1524}
1525
Rui Ueyamad9189ce2015-10-15 17:11:03 +00001526// If a section name is valid as a C identifier (which is rare because of
1527// the leading '.'), linkers are expected to define __start_<secname> and
1528// __stop_<secname> symbols. They are at beginning and end of the section,
1529// respectively. This is not requested by the ELF standard, but GNU ld and
1530// gold provide the feature, and used by many programs.
1531template <class ELFT>
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +00001532void Writer<ELFT>::addStartStopSymbols(OutputSectionBase<ELFT> *Sec) {
Rui Ueyamad9189ce2015-10-15 17:11:03 +00001533 StringRef S = Sec->getName();
1534 if (!isValidCIdentifier(S))
1535 return;
1536 StringSaver Saver(Alloc);
1537 StringRef Start = Saver.save("__start_" + S);
1538 StringRef Stop = Saver.save("__stop_" + S);
Rui Ueyama2ef58a12016-01-05 20:35:16 +00001539 if (SymbolBody *B = Symtab.find(Start))
1540 if (B->isUndefined())
Peter Collingbourne6a422592016-05-03 01:21:08 +00001541 Symtab.addSynthetic(Start, Sec, 0);
Rui Ueyama2ef58a12016-01-05 20:35:16 +00001542 if (SymbolBody *B = Symtab.find(Stop))
1543 if (B->isUndefined())
Peter Collingbourne6a422592016-05-03 01:21:08 +00001544 Symtab.addSynthetic(Stop, Sec, DefinedSynthetic<ELFT>::SectionEnd);
Rui Ueyamad9189ce2015-10-15 17:11:03 +00001545}
1546
Rafael Espindolaef762f22016-02-10 23:29:38 +00001547template <class ELFT> static bool needsPtLoad(OutputSectionBase<ELFT> *Sec) {
1548 if (!(Sec->getFlags() & SHF_ALLOC))
1549 return false;
1550
1551 // Don't allocate VA space for TLS NOBITS sections. The PT_TLS PHDR is
1552 // responsible for allocating space for them, not the PT_LOAD that
1553 // contains the TLS initialization image.
1554 if (Sec->getFlags() & SHF_TLS && Sec->getType() == SHT_NOBITS)
1555 return false;
1556 return true;
Michael J. Spencer1d299a82015-09-09 20:48:09 +00001557}
1558
Rui Ueyama9eb7ed02015-10-24 18:22:59 +00001559static uint32_t toPhdrFlags(uint64_t Flags) {
1560 uint32_t Ret = PF_R;
1561 if (Flags & SHF_WRITE)
1562 Ret |= PF_W;
1563 if (Flags & SHF_EXECINSTR)
1564 Ret |= PF_X;
1565 return Ret;
1566}
1567
Rafael Espindola4fc60442016-02-10 22:43:13 +00001568// Decide which program headers to create and which sections to include in each
1569// one.
1570template <class ELFT> void Writer<ELFT>::createPhdrs() {
1571 auto AddHdr = [this](unsigned Type, unsigned Flags) {
1572 return &*Phdrs.emplace(Phdrs.end(), Type, Flags);
1573 };
George Rimare3336c02015-11-24 10:15:50 +00001574
Rafael Espindola4fc60442016-02-10 22:43:13 +00001575 auto AddSec = [](Phdr &Hdr, OutputSectionBase<ELFT> *Sec) {
1576 Hdr.Last = Sec;
1577 if (!Hdr.First)
1578 Hdr.First = Sec;
1579 Hdr.H.p_align = std::max<uintX_t>(Hdr.H.p_align, Sec->getAlign());
1580 };
Rui Ueyama3486fe52015-10-11 17:44:22 +00001581
Rui Ueyama803195e2015-10-23 21:45:59 +00001582 // The first phdr entry is PT_PHDR which describes the program header itself.
Rafael Espindola4fc60442016-02-10 22:43:13 +00001583 Phdr &Hdr = *AddHdr(PT_PHDR, PF_R);
1584 AddSec(Hdr, Out<ELFT>::ProgramHeaders);
Rui Ueyama953c2c42015-10-10 23:59:57 +00001585
Rui Ueyama803195e2015-10-23 21:45:59 +00001586 // PT_INTERP must be the second entry if exists.
Rafael Espindola4fc60442016-02-10 22:43:13 +00001587 if (needsInterpSection()) {
1588 Phdr &Hdr = *AddHdr(PT_INTERP, toPhdrFlags(Out<ELFT>::Interp->getFlags()));
1589 AddSec(Hdr, Out<ELFT>::Interp);
1590 }
Rafael Espindola70107762015-09-11 18:49:42 +00001591
Rui Ueyama803195e2015-10-23 21:45:59 +00001592 // Add the first PT_LOAD segment for regular output sections.
Rafael Espindola4fc60442016-02-10 22:43:13 +00001593 uintX_t Flags = PF_R;
1594 Phdr *Load = AddHdr(PT_LOAD, Flags);
1595 AddSec(*Load, Out<ELFT>::ElfHeader);
George Rimar7ca06272016-04-06 07:20:45 +00001596 AddSec(*Load, Out<ELFT>::ProgramHeaders);
Rafael Espindola0a2e2112015-09-10 15:41:34 +00001597
Rafael Espindola4fc60442016-02-10 22:43:13 +00001598 Phdr TlsHdr(PT_TLS, PF_R);
1599 Phdr RelRo(PT_GNU_RELRO, PF_R);
Rafael Espindola9907eb02016-03-01 13:23:29 +00001600 Phdr Note(PT_NOTE, PF_R);
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +00001601 for (OutputSectionBase<ELFT> *Sec : OutputSections) {
Rafael Espindolaef762f22016-02-10 23:29:38 +00001602 if (!(Sec->getFlags() & SHF_ALLOC))
Rafael Espindola4fc60442016-02-10 22:43:13 +00001603 break;
Rafael Espindola97cbe3e32015-12-23 15:20:38 +00001604
Rafael Espindolaef762f22016-02-10 23:29:38 +00001605 // If we meet TLS section then we create TLS header
1606 // and put all TLS sections inside for futher use when
1607 // assign addresses.
1608 if (Sec->getFlags() & SHF_TLS)
1609 AddSec(TlsHdr, Sec);
1610
1611 if (!needsPtLoad<ELFT>(Sec))
1612 continue;
1613
Rafael Espindola4fc60442016-02-10 22:43:13 +00001614 // If flags changed then we want new load segment.
1615 uintX_t NewFlags = toPhdrFlags(Sec->getFlags());
1616 if (Flags != NewFlags) {
Rafael Espindolae090fb22016-03-09 21:37:22 +00001617 Load = AddHdr(PT_LOAD, NewFlags);
Rafael Espindola4fc60442016-02-10 22:43:13 +00001618 Flags = NewFlags;
1619 }
Michael J. Spencer78aa1de2015-11-03 00:34:39 +00001620
Rafael Espindola4fc60442016-02-10 22:43:13 +00001621 AddSec(*Load, Sec);
1622
1623 if (isRelroSection(Sec))
1624 AddSec(RelRo, Sec);
Rafael Espindola9907eb02016-03-01 13:23:29 +00001625 if (Sec->getType() == SHT_NOTE)
1626 AddSec(Note, Sec);
Michael J. Spencer84487f12015-07-24 21:03:07 +00001627 }
Rafael Espindola6b83b902015-08-12 00:00:24 +00001628
Rafael Espindola4fc60442016-02-10 22:43:13 +00001629 // Add the TLS segment unless it's empty.
1630 if (TlsHdr.First)
1631 Phdrs.push_back(std::move(TlsHdr));
Michael J. Spencer78aa1de2015-11-03 00:34:39 +00001632
Rui Ueyama803195e2015-10-23 21:45:59 +00001633 // Add an entry for .dynamic.
Michael J. Spencer350e5b52015-10-12 23:39:23 +00001634 if (isOutputDynamic()) {
Rafael Espindola4fc60442016-02-10 22:43:13 +00001635 Phdr &H = *AddHdr(PT_DYNAMIC, toPhdrFlags(Out<ELFT>::Dynamic->getFlags()));
1636 AddSec(H, Out<ELFT>::Dynamic);
Rui Ueyama2f1b79f2015-10-10 22:34:30 +00001637 }
Rafael Espindola91009b32015-08-12 01:45:28 +00001638
Rafael Espindola4fc60442016-02-10 22:43:13 +00001639 // PT_GNU_RELRO includes all sections that should be marked as
1640 // read-only by dynamic linker after proccessing relocations.
1641 if (RelRo.First)
1642 Phdrs.push_back(std::move(RelRo));
George Rimare3336c02015-11-24 10:15:50 +00001643
Rafael Espindola4fc60442016-02-10 22:43:13 +00001644 // PT_GNU_EH_FRAME is a special section pointing on .eh_frame_hdr.
George Rimarf6bc65a2016-01-15 13:34:52 +00001645 if (Out<ELFT>::EhFrameHdr->Live) {
Rafael Espindola4fc60442016-02-10 22:43:13 +00001646 Phdr &Hdr = *AddHdr(PT_GNU_EH_FRAME,
1647 toPhdrFlags(Out<ELFT>::EhFrameHdr->getFlags()));
1648 AddSec(Hdr, Out<ELFT>::EhFrameHdr);
George Rimarf6bc65a2016-01-15 13:34:52 +00001649 }
1650
Rui Ueyamae79b09a2015-11-21 22:19:32 +00001651 // PT_GNU_STACK is a special section to tell the loader to make the
1652 // pages for the stack non-executable.
Rafael Espindola4fc60442016-02-10 22:43:13 +00001653 if (!Config->ZExecStack)
1654 AddHdr(PT_GNU_STACK, PF_R | PF_W);
Rafael Espindola9907eb02016-03-01 13:23:29 +00001655
1656 if (Note.First)
1657 Phdrs.push_back(std::move(Note));
George Rimar687788c2016-04-01 17:30:52 +00001658
1659 Out<ELFT>::ProgramHeaders->setSize(sizeof(Elf_Phdr) * Phdrs.size());
Rafael Espindola4fc60442016-02-10 22:43:13 +00001660}
1661
Rui Ueyama47091902016-03-30 19:41:51 +00001662// The first section of each PT_LOAD and the first section after PT_GNU_RELRO
1663// have to be page aligned so that the dynamic linker can set the permissions.
1664template <class ELFT> void Writer<ELFT>::fixSectionAlignments() {
1665 for (const Phdr &P : Phdrs)
1666 if (P.H.p_type == PT_LOAD)
1667 P.First->PageAlign = true;
1668
1669 for (const Phdr &P : Phdrs) {
1670 if (P.H.p_type != PT_GNU_RELRO)
1671 continue;
1672 // Find the first section after PT_GNU_RELRO. If it is in a PT_LOAD we
1673 // have to align it to a page.
1674 auto End = OutputSections.end();
1675 auto I = std::find(OutputSections.begin(), End, P.Last);
1676 if (I == End || (I + 1) == End)
1677 continue;
1678 OutputSectionBase<ELFT> *Sec = *(I + 1);
1679 if (needsPtLoad(Sec))
1680 Sec->PageAlign = true;
1681 }
1682}
1683
George Rimar7ca06272016-04-06 07:20:45 +00001684// We should set file offsets and VAs for elf header and program headers
1685// sections. These are special, we do not include them into output sections
1686// list, but have them to simplify the code.
1687template <class ELFT> void Writer<ELFT>::fixHeaders() {
Rui Ueyama07320e42016-04-20 20:13:41 +00001688 uintX_t BaseVA = ScriptConfig->DoLayout ? 0 : Target->getVAStart();
George Rimar652852c2016-04-16 10:10:32 +00001689 Out<ELFT>::ElfHeader->setVA(BaseVA);
George Rimar7ca06272016-04-06 07:20:45 +00001690 Out<ELFT>::ElfHeader->setFileOffset(0);
1691 uintX_t Off = Out<ELFT>::ElfHeader->getSize();
George Rimar652852c2016-04-16 10:10:32 +00001692 Out<ELFT>::ProgramHeaders->setVA(Off + BaseVA);
George Rimar7ca06272016-04-06 07:20:45 +00001693 Out<ELFT>::ProgramHeaders->setFileOffset(Off);
1694}
1695
Rui Ueyamae044e9c2016-04-01 17:07:17 +00001696// Assign VAs (addresses at run-time) to output sections.
Rafael Espindola4fc60442016-02-10 22:43:13 +00001697template <class ELFT> void Writer<ELFT>::assignAddresses() {
George Rimar7ca06272016-04-06 07:20:45 +00001698 uintX_t VA = Target->getVAStart() + Out<ELFT>::ElfHeader->getSize() +
1699 Out<ELFT>::ProgramHeaders->getSize();
Rafael Espindola4fc60442016-02-10 22:43:13 +00001700
George Rimar7ca06272016-04-06 07:20:45 +00001701 uintX_t ThreadBssOffset = 0;
Rafael Espindola4fc60442016-02-10 22:43:13 +00001702 for (OutputSectionBase<ELFT> *Sec : OutputSections) {
1703 uintX_t Align = Sec->getAlign();
Rui Ueyama47091902016-03-30 19:41:51 +00001704 if (Sec->PageAlign)
Rafael Espindola4fc60442016-02-10 22:43:13 +00001705 Align = std::max<uintX_t>(Align, Target->PageSize);
Rafael Espindola4fc60442016-02-10 22:43:13 +00001706
1707 // We only assign VAs to allocated sections.
Rafael Espindolaef762f22016-02-10 23:29:38 +00001708 if (needsPtLoad<ELFT>(Sec)) {
1709 VA = alignTo(VA, Align);
1710 Sec->setVA(VA);
1711 VA += Sec->getSize();
1712 } else if (Sec->getFlags() & SHF_TLS && Sec->getType() == SHT_NOBITS) {
1713 uintX_t TVA = VA + ThreadBssOffset;
1714 TVA = alignTo(TVA, Align);
1715 Sec->setVA(TVA);
1716 ThreadBssOffset = TVA - VA + Sec->getSize();
Rafael Espindola4fc60442016-02-10 22:43:13 +00001717 }
Rui Ueyama69960ba2015-10-10 23:25:39 +00001718 }
George Rimar900a2602016-04-01 10:49:14 +00001719}
1720
George Rimar5f857322016-04-27 09:16:28 +00001721// Adjusts the file alignment for a given output section and returns
1722// its new file offset. The file offset must be the same with its
1723// virtual address (modulo the page size) so that the loader can load
1724// executables without any address adjustment.
1725template <class ELFT, class uintX_t>
1726static uintX_t getFileAlignment(uintX_t Off, OutputSectionBase<ELFT> *Sec) {
1727 uintX_t Align = Sec->getAlign();
1728 if (Sec->PageAlign)
1729 Align = std::max<uintX_t>(Align, Target->PageSize);
1730 Off = alignTo(Off, Align);
1731
1732 // Relocatable output does not have program headers
1733 // and does not need any other offset adjusting.
1734 if (Config->Relocatable || !(Sec->getFlags() & SHF_ALLOC))
1735 return Off;
1736 return alignTo(Off, Target->PageSize, Sec->getVA());
1737}
1738
Rui Ueyamae044e9c2016-04-01 17:07:17 +00001739// Assign file offsets to output sections.
1740template <class ELFT> void Writer<ELFT>::assignFileOffsets() {
George Rimar7ca06272016-04-06 07:20:45 +00001741 uintX_t Off =
1742 Out<ELFT>::ElfHeader->getSize() + Out<ELFT>::ProgramHeaders->getSize();
1743
Rui Ueyamae044e9c2016-04-01 17:07:17 +00001744 for (OutputSectionBase<ELFT> *Sec : OutputSections) {
1745 if (Sec->getType() == SHT_NOBITS) {
1746 Sec->setFileOffset(Off);
1747 continue;
1748 }
George Rimar5f857322016-04-27 09:16:28 +00001749
1750 Off = getFileAlignment<ELFT>(Off, Sec);
Rui Ueyamae044e9c2016-04-01 17:07:17 +00001751 Sec->setFileOffset(Off);
1752 Off += Sec->getSize();
1753 }
1754 SectionHeaderOff = alignTo(Off, sizeof(uintX_t));
George Rimar7ca06272016-04-06 07:20:45 +00001755 FileSize = SectionHeaderOff + (OutputSections.size() + 1) * sizeof(Elf_Shdr);
Rui Ueyamae044e9c2016-04-01 17:07:17 +00001756}
1757
1758// Finalize the program headers. We call this function after we assign
1759// file offsets and VAs to all sections.
1760template <class ELFT> void Writer<ELFT>::setPhdrs() {
Rui Ueyamae8a45e42016-04-01 22:42:04 +00001761 for (Phdr &P : Phdrs) {
1762 Elf_Phdr &H = P.H;
1763 OutputSectionBase<ELFT> *First = P.First;
1764 OutputSectionBase<ELFT> *Last = P.Last;
1765 if (First) {
1766 H.p_filesz = Last->getFileOff() - First->getFileOff();
Rafael Espindola4fc60442016-02-10 22:43:13 +00001767 if (Last->getType() != SHT_NOBITS)
1768 H.p_filesz += Last->getSize();
Rui Ueyamae8a45e42016-04-01 22:42:04 +00001769 H.p_memsz = Last->getVA() + Last->getSize() - First->getVA();
1770 H.p_offset = First->getFileOff();
1771 H.p_vaddr = First->getVA();
Rafael Espindola4fc60442016-02-10 22:43:13 +00001772 }
George Rimar6de3f632016-03-01 08:46:03 +00001773 if (H.p_type == PT_LOAD)
Rafael Espindola4fc60442016-02-10 22:43:13 +00001774 H.p_align = Target->PageSize;
George Rimar6de3f632016-03-01 08:46:03 +00001775 else if (H.p_type == PT_GNU_RELRO)
Rafael Espindola4fc60442016-02-10 22:43:13 +00001776 H.p_align = 1;
1777 H.p_paddr = H.p_vaddr;
1778
1779 // The TLS pointer goes after PT_TLS. At least glibc will align it,
1780 // so round up the size to make sure the offsets are correct.
George Rimar6de3f632016-03-01 08:46:03 +00001781 if (H.p_type == PT_TLS) {
Rafael Espindola4fc60442016-02-10 22:43:13 +00001782 Out<ELFT>::TlsPhdr = &H;
1783 H.p_memsz = alignTo(H.p_memsz, H.p_align);
Rui Ueyama803195e2015-10-23 21:45:59 +00001784 }
1785 }
Michael J. Spencer84487f12015-07-24 21:03:07 +00001786}
1787
Simon Atanasyanae77ab72016-04-29 10:39:17 +00001788static uint32_t getMipsEFlags(bool Is64Bits) {
Simon Atanasyan034c4cd2015-12-19 05:51:49 +00001789 // FIXME: In fact ELF flags depends on ELF flags of input object files
Simon Atanasyandb147eb2016-01-12 06:24:02 +00001790 // and selected emulation. For now just use hard coded values.
Simon Atanasyanae77ab72016-04-29 10:39:17 +00001791 if (Is64Bits)
1792 return EF_MIPS_CPIC | EF_MIPS_PIC | EF_MIPS_ARCH_64R2;
1793
1794 uint32_t V = EF_MIPS_CPIC | EF_MIPS_ABI_O32 | EF_MIPS_ARCH_32R2;
Simon Atanasyan034c4cd2015-12-19 05:51:49 +00001795 if (Config->Shared)
1796 V |= EF_MIPS_PIC;
1797 return V;
1798}
1799
Rui Ueyama9328b2c2016-03-14 23:16:09 +00001800template <class ELFT> static typename ELFT::uint getEntryAddr() {
Rafael Espindola38c67a22016-04-15 14:41:56 +00001801 if (Symbol *S = Config->EntrySym)
Peter Collingbourne4f952702016-05-01 04:55:03 +00001802 return S->body()->getVA<ELFT>();
Rui Ueyama3bfaba92015-12-24 08:37:34 +00001803 if (Config->EntryAddr != uint64_t(-1))
1804 return Config->EntryAddr;
1805 return 0;
1806}
1807
Rui Ueyama4cea4e82016-02-25 19:28:37 +00001808template <class ELFT> static uint8_t getELFEncoding() {
1809 if (ELFT::TargetEndianness == llvm::support::little)
1810 return ELFDATA2LSB;
1811 return ELFDATA2MSB;
1812}
1813
1814static uint16_t getELFType() {
George Rimar786e8662016-03-17 05:57:33 +00001815 if (Config->Pic)
Rui Ueyama4cea4e82016-02-25 19:28:37 +00001816 return ET_DYN;
1817 if (Config->Relocatable)
1818 return ET_REL;
1819 return ET_EXEC;
1820}
1821
Rui Ueyama1a311f12015-12-26 10:52:26 +00001822// This function is called after we have assigned address and size
1823// to each section. This function fixes some predefined absolute
1824// symbol values that depend on section address and size.
1825template <class ELFT> void Writer<ELFT>::fixAbsoluteSymbols() {
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001826 auto Set = [](DefinedRegular<ELFT> *&S1, DefinedRegular<ELFT> *&S2,
1827 uintX_t V) {
1828 if (S1)
1829 S1->Value = V;
1830 if (S2)
1831 S2->Value = V;
1832 };
1833
George Rimar2abc5872016-03-01 19:18:07 +00001834 // _etext is the first location after the last read-only loadable segment.
1835 // _edata is the first location after the last read-write loadable segment.
George Rimarefded312016-04-01 10:23:32 +00001836 // _end is the first location after the uninitialized data region.
Rui Ueyamae8a45e42016-04-01 22:42:04 +00001837 for (Phdr &P : Phdrs) {
1838 Elf_Phdr &H = P.H;
1839 if (H.p_type != PT_LOAD)
George Rimar9e859392016-02-26 14:36:36 +00001840 continue;
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001841 Set(ElfSym<ELFT>::End, ElfSym<ELFT>::End2, H.p_vaddr + H.p_memsz);
Rafael Espindolaccfe3cb2016-04-04 14:04:16 +00001842
George Rimar8bbff7e2016-04-14 14:37:59 +00001843 uintX_t Val = H.p_vaddr + H.p_filesz;
1844 if (H.p_flags & PF_W)
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001845 Set(ElfSym<ELFT>::Edata, ElfSym<ELFT>::Edata2, Val);
George Rimar8bbff7e2016-04-14 14:37:59 +00001846 else
Rui Ueyama467dbdd2016-04-21 20:50:15 +00001847 Set(ElfSym<ELFT>::Etext, ElfSym<ELFT>::Etext2, Val);
George Rimar9e859392016-02-26 14:36:36 +00001848 }
Rui Ueyama1a311f12015-12-26 10:52:26 +00001849}
1850
Michael J. Spencer84487f12015-07-24 21:03:07 +00001851template <class ELFT> void Writer<ELFT>::writeHeader() {
1852 uint8_t *Buf = Buffer->getBufferStart();
Rui Ueyamae08cd672015-10-23 22:44:39 +00001853 memcpy(Buf, "\177ELF", 4);
1854
Rui Ueyama4cea4e82016-02-25 19:28:37 +00001855 auto &FirstObj = cast<ELFFileBase<ELFT>>(*Config->FirstElf);
1856
Rui Ueyama6621d8e2015-10-24 17:57:40 +00001857 // Write the ELF header.
Rafael Espindola18608a02015-09-08 21:57:31 +00001858 auto *EHdr = reinterpret_cast<Elf_Ehdr *>(Buf);
Rafael Espindola4b7c2fc2015-08-05 15:08:40 +00001859 EHdr->e_ident[EI_CLASS] = ELFT::Is64Bits ? ELFCLASS64 : ELFCLASS32;
Rui Ueyama4cea4e82016-02-25 19:28:37 +00001860 EHdr->e_ident[EI_DATA] = getELFEncoding<ELFT>();
Michael J. Spencer84487f12015-07-24 21:03:07 +00001861 EHdr->e_ident[EI_VERSION] = EV_CURRENT;
Davide Italianoaa7c5332015-09-25 01:59:13 +00001862 EHdr->e_ident[EI_OSABI] = FirstObj.getOSABI();
Rui Ueyama4cea4e82016-02-25 19:28:37 +00001863 EHdr->e_type = getELFType();
Rafael Espindolaf98d6d82015-09-03 20:03:54 +00001864 EHdr->e_machine = FirstObj.getEMachine();
Michael J. Spencer84487f12015-07-24 21:03:07 +00001865 EHdr->e_version = EV_CURRENT;
Rui Ueyama3bfaba92015-12-24 08:37:34 +00001866 EHdr->e_entry = getEntryAddr<ELFT>();
Michael J. Spencer8039dae22015-07-29 00:30:10 +00001867 EHdr->e_shoff = SectionHeaderOff;
Rafael Espindola18608a02015-09-08 21:57:31 +00001868 EHdr->e_ehsize = sizeof(Elf_Ehdr);
Rui Ueyama2f1b79f2015-10-10 22:34:30 +00001869 EHdr->e_phnum = Phdrs.size();
Rafael Espindola18608a02015-09-08 21:57:31 +00001870 EHdr->e_shentsize = sizeof(Elf_Shdr);
George Rimar7ca06272016-04-06 07:20:45 +00001871 EHdr->e_shnum = OutputSections.size() + 1;
George Rimar0f5ac9f2015-10-20 17:21:35 +00001872 EHdr->e_shstrndx = Out<ELFT>::ShStrTab->SectionIndex;
Rui Ueyama6621d8e2015-10-24 17:57:40 +00001873
Rui Ueyama22b5d1f2016-03-13 19:29:17 +00001874 if (Config->EMachine == EM_MIPS)
Simon Atanasyanae77ab72016-04-29 10:39:17 +00001875 EHdr->e_flags = getMipsEFlags(ELFT::Is64Bits);
Rui Ueyama22b5d1f2016-03-13 19:29:17 +00001876
George Rimar58941ee2016-02-25 08:23:37 +00001877 if (!Config->Relocatable) {
1878 EHdr->e_phoff = sizeof(Elf_Ehdr);
1879 EHdr->e_phentsize = sizeof(Elf_Phdr);
1880 }
1881
Rui Ueyama6621d8e2015-10-24 17:57:40 +00001882 // Write the program header table.
Rafael Espindola4fc60442016-02-10 22:43:13 +00001883 auto *HBuf = reinterpret_cast<Elf_Phdr *>(Buf + EHdr->e_phoff);
1884 for (Phdr &P : Phdrs)
1885 *HBuf++ = P.H;
Rafael Espindolae438e072015-09-08 22:55:28 +00001886
Rui Ueyama6621d8e2015-10-24 17:57:40 +00001887 // Write the section header table. Note that the first table entry is null.
Rui Ueyamaad59b652016-02-25 23:58:21 +00001888 auto *SHdrs = reinterpret_cast<Elf_Shdr *>(Buf + EHdr->e_shoff);
George Rimar7ca06272016-04-06 07:20:45 +00001889 for (OutputSectionBase<ELFT> *Sec : OutputSections)
Rui Ueyama6621d8e2015-10-24 17:57:40 +00001890 Sec->writeHeaderTo(++SHdrs);
Michael J. Spencer84487f12015-07-24 21:03:07 +00001891}
1892
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +00001893template <class ELFT> void Writer<ELFT>::openFile() {
Rafael Espindolabdc8f2f2015-08-13 00:31:46 +00001894 ErrorOr<std::unique_ptr<FileOutputBuffer>> BufferOrErr =
Rui Ueyamacbe39262016-02-02 22:48:04 +00001895 FileOutputBuffer::create(Config->OutputFile, FileSize,
1896 FileOutputBuffer::F_executable);
Rui Ueyamaf7f52ef2016-04-01 17:24:19 +00001897 if (BufferOrErr)
1898 Buffer = std::move(*BufferOrErr);
1899 else
Rui Ueyama6eafa7f2016-03-13 04:25:41 +00001900 error(BufferOrErr, "failed to open " + Config->OutputFile);
Michael J. Spencer84487f12015-07-24 21:03:07 +00001901}
1902
1903// Write section contents to a mmap'ed file.
1904template <class ELFT> void Writer<ELFT>::writeSections() {
1905 uint8_t *Buf = Buffer->getBufferStart();
Hal Finkeldaedc122015-10-12 23:16:53 +00001906
1907 // PPC64 needs to process relocations in the .opd section before processing
1908 // relocations in code-containing sections.
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +00001909 if (OutputSectionBase<ELFT> *Sec = Out<ELFT>::Opd) {
Rafael Espindola7a513052015-10-13 14:45:51 +00001910 Out<ELFT>::OpdBuf = Buf + Sec->getFileOff();
1911 Sec->writeTo(Buf + Sec->getFileOff());
1912 }
Hal Finkeldaedc122015-10-12 23:16:53 +00001913
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +00001914 for (OutputSectionBase<ELFT> *Sec : OutputSections)
Rafael Espindola4d91f7f2016-02-01 21:52:00 +00001915 if (Sec != Out<ELFT>::Opd)
Hal Finkeldaedc122015-10-12 23:16:53 +00001916 Sec->writeTo(Buf + Sec->getFileOff());
Michael J. Spencer84487f12015-07-24 21:03:07 +00001917}
Rui Ueyama3ce825e2015-10-09 21:07:25 +00001918
Rui Ueyama634ddf02016-03-11 20:51:53 +00001919template <class ELFT> void Writer<ELFT>::writeBuildId() {
1920 BuildIdSection<ELFT> *S = Out<ELFT>::BuildId;
1921 if (!S)
1922 return;
1923
1924 // Compute a hash of all sections except .debug_* sections.
1925 // We skip debug sections because they tend to be very large
1926 // and their contents are very likely to be the same as long as
1927 // other sections are the same.
1928 uint8_t *Start = Buffer->getBufferStart();
1929 uint8_t *Last = Start;
Rui Ueyamadd368fc2016-05-02 23:35:59 +00001930 std::vector<ArrayRef<uint8_t>> Regions;
Rui Ueyama634ddf02016-03-11 20:51:53 +00001931 for (OutputSectionBase<ELFT> *Sec : OutputSections) {
1932 uint8_t *End = Start + Sec->getFileOff();
1933 if (!Sec->getName().startswith(".debug_"))
Rui Ueyamadd368fc2016-05-02 23:35:59 +00001934 Regions.push_back({Last, End});
Rui Ueyama634ddf02016-03-11 20:51:53 +00001935 Last = End;
1936 }
Rui Ueyamadd368fc2016-05-02 23:35:59 +00001937 Regions.push_back({Last, Start + FileSize});
1938 S->writeBuildId(Regions);
Rui Ueyama634ddf02016-03-11 20:51:53 +00001939}
1940
Rafael Espindolae0df00b2016-02-28 00:25:54 +00001941template void elf::writeResult<ELF32LE>(SymbolTable<ELF32LE> *Symtab);
1942template void elf::writeResult<ELF32BE>(SymbolTable<ELF32BE> *Symtab);
1943template void elf::writeResult<ELF64LE>(SymbolTable<ELF64LE> *Symtab);
1944template void elf::writeResult<ELF64BE>(SymbolTable<ELF64BE> *Symtab);