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Rafael Espindola5805c4f2015-09-21 21:38:08 +00001//===- OutputSections.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
10#include "OutputSections.h"
11#include "Config.h"
Rui Ueyama95642b92016-11-01 23:09:07 +000012#include "LinkerScript.h"
Rui Ueyama9381eb12016-12-18 14:06:06 +000013#include "Memory.h"
Rui Ueyamafbbde542016-06-29 09:08:02 +000014#include "Strings.h"
Rafael Espindola5805c4f2015-09-21 21:38:08 +000015#include "SymbolTable.h"
Rui Ueyamae8a61022016-11-05 23:05:47 +000016#include "SyntheticSections.h"
Rafael Espindola01205f72015-09-22 18:19:46 +000017#include "Target.h"
Rui Ueyama244a4352016-12-03 21:24:51 +000018#include "Threads.h"
George Rimarf6bc65a2016-01-15 13:34:52 +000019#include "llvm/Support/Dwarf.h"
Rui Ueyama3a41be22016-04-07 22:49:21 +000020#include "llvm/Support/MD5.h"
Igor Kudrin1b0d7062015-10-22 08:21:35 +000021#include "llvm/Support/MathExtras.h"
Rafael Espindolaa42b3bc2016-09-27 16:43:49 +000022#include "llvm/Support/SHA1.h"
Rafael Espindola5805c4f2015-09-21 21:38:08 +000023
Rafael Espindola5805c4f2015-09-21 21:38:08 +000024using namespace llvm;
Rui Ueyamadbcfedb2016-02-09 21:46:11 +000025using namespace llvm::dwarf;
Rafael Espindola5805c4f2015-09-21 21:38:08 +000026using namespace llvm::object;
Rafael Espindolaa6627382015-10-06 23:56:53 +000027using namespace llvm::support::endian;
Rafael Espindola5805c4f2015-09-21 21:38:08 +000028using namespace llvm::ELF;
29
30using namespace lld;
Rafael Espindolae0df00b2016-02-28 00:25:54 +000031using namespace lld::elf;
Rafael Espindola5805c4f2015-09-21 21:38:08 +000032
Rui Ueyama9d1bacb12017-02-27 02:31:26 +000033uint8_t Out::First;
34OutputSection *Out::Bss;
35OutputSection *Out::BssRelRo;
36OutputSection *Out::Opd;
37uint8_t *Out::OpdBuf;
38PhdrEntry *Out::TlsPhdr;
39OutputSection *Out::DebugInfo;
40OutputSection *Out::ElfHeader;
41OutputSection *Out::ProgramHeaders;
42OutputSection *Out::PreinitArray;
43OutputSection *Out::InitArray;
44OutputSection *Out::FiniArray;
45
Rafael Espindola24e6f362017-02-24 15:07:30 +000046uint32_t OutputSection::getPhdrFlags() const {
Rafael Espindola0b113672016-07-27 14:10:56 +000047 uint32_t Ret = PF_R;
48 if (Flags & SHF_WRITE)
49 Ret |= PF_W;
50 if (Flags & SHF_EXECINSTR)
51 Ret |= PF_X;
52 return Ret;
53}
54
Rafael Espindola35c6af32015-09-25 17:19:10 +000055template <class ELFT>
Rafael Espindola24e6f362017-02-24 15:07:30 +000056void OutputSection::writeHeaderTo(typename ELFT::Shdr *Shdr) {
Rafael Espindola04a2e342016-11-09 01:42:41 +000057 Shdr->sh_entsize = Entsize;
58 Shdr->sh_addralign = Addralign;
59 Shdr->sh_type = Type;
60 Shdr->sh_offset = Offset;
61 Shdr->sh_flags = Flags;
62 Shdr->sh_info = Info;
63 Shdr->sh_link = Link;
Rafael Espindolaea590d92017-02-08 15:19:03 +000064 Shdr->sh_addr = Addr;
Rafael Espindola04a2e342016-11-09 01:42:41 +000065 Shdr->sh_size = Size;
66 Shdr->sh_name = ShName;
Rui Ueyamac63c1db2016-03-13 06:50:33 +000067}
68
Rafael Espindola24e6f362017-02-24 15:07:30 +000069OutputSection::OutputSection(StringRef Name, uint32_t Type, uint64_t Flags)
Rui Ueyama27876642017-03-01 04:04:23 +000070 : Name(Name), Addralign(1), Flags(Flags), Type(Type) {}
George Rimar58941ee2016-02-25 08:23:37 +000071
Rafael Espindola4d2d9c02016-11-18 19:02:15 +000072template <typename ELFT>
Rafael Espindola774ea7d2017-02-23 16:49:07 +000073static bool compareByFilePosition(InputSection *A, InputSection *B) {
Peter Smith719eb8e2016-11-24 11:43:55 +000074 // Synthetic doesn't have link order dependecy, stable_sort will keep it last
Rafael Espindolac404d502017-02-23 02:32:18 +000075 if (A->kind() == InputSectionBase::Synthetic ||
76 B->kind() == InputSectionBase::Synthetic)
Peter Smith719eb8e2016-11-24 11:43:55 +000077 return false;
Rafael Espindola774ea7d2017-02-23 16:49:07 +000078 auto *LA = cast<InputSection>(A->template getLinkOrderDep<ELFT>());
79 auto *LB = cast<InputSection>(B->template getLinkOrderDep<ELFT>());
Rafael Espindola24e6f362017-02-24 15:07:30 +000080 OutputSection *AOut = LA->OutSec;
81 OutputSection *BOut = LB->OutSec;
Rafael Espindola4d2d9c02016-11-18 19:02:15 +000082 if (AOut != BOut)
83 return AOut->SectionIndex < BOut->SectionIndex;
84 return LA->OutSecOff < LB->OutSecOff;
85}
86
Rafael Espindola24e6f362017-02-24 15:07:30 +000087template <class ELFT> void OutputSection::finalize() {
Eugene Levianta96d9022016-11-16 10:02:27 +000088 if ((this->Flags & SHF_LINK_ORDER) && !this->Sections.empty()) {
Rafael Espindola4d2d9c02016-11-18 19:02:15 +000089 std::sort(Sections.begin(), Sections.end(), compareByFilePosition<ELFT>);
Rafael Espindola24e6f362017-02-24 15:07:30 +000090 assignOffsets<ELFT>();
Rafael Espindola4d2d9c02016-11-18 19:02:15 +000091
Rafael Espindola933fcab2016-11-17 23:16:39 +000092 // We must preserve the link order dependency of sections with the
93 // SHF_LINK_ORDER flag. The dependency is indicated by the sh_link field. We
94 // need to translate the InputSection sh_link to the OutputSection sh_link,
95 // all InputSections in the OutputSection have the same dependency.
Rafael Espindolab4c9b812017-02-23 02:28:28 +000096 if (auto *D = this->Sections.front()->template getLinkOrderDep<ELFT>())
Eugene Levianta96d9022016-11-16 10:02:27 +000097 this->Link = D->OutSec->SectionIndex;
Peter Smith580ba952016-10-21 11:25:33 +000098 }
Eugene Leviant22eb0262016-11-14 09:16:00 +000099
Rafael Espindola933fcab2016-11-17 23:16:39 +0000100 uint32_t Type = this->Type;
George Rimar82bd8be2017-02-08 16:18:10 +0000101 if (!Config->copyRelocs() || (Type != SHT_RELA && Type != SHT_REL))
George Rimar58941ee2016-02-25 08:23:37 +0000102 return;
Rafael Espindola933fcab2016-11-17 23:16:39 +0000103
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000104 InputSection *First = Sections[0];
Rui Ueyama9320cb02017-02-27 02:56:02 +0000105 if (isa<SyntheticSection>(First))
Rafael Espindola82f00ec2017-02-16 14:23:43 +0000106 return;
107
Eugene Leviant9230db92016-11-17 09:16:34 +0000108 this->Link = In<ELFT>::SymTab->OutSec->SectionIndex;
George Rimar58941ee2016-02-25 08:23:37 +0000109 // sh_info for SHT_REL[A] sections should contain the section header index of
110 // the section to which the relocation applies.
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000111 InputSectionBase *S = First->getRelocatedSection<ELFT>();
Rafael Espindola04a2e342016-11-09 01:42:41 +0000112 this->Info = S->OutSec->SectionIndex;
George Rimar58941ee2016-02-25 08:23:37 +0000113}
Rafael Espindola35c6af32015-09-25 17:19:10 +0000114
Rafael Espindola24e6f362017-02-24 15:07:30 +0000115void OutputSection::addSection(InputSectionBase *C) {
Rui Ueyama0b289522016-02-25 18:43:51 +0000116 assert(C->Live);
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000117 auto *S = cast<InputSection>(C);
Rui Ueyama40845e62015-12-26 05:51:07 +0000118 Sections.push_back(S);
119 S->OutSec = this;
Rui Ueyama424b4082016-06-17 01:18:46 +0000120 this->updateAlignment(S->Alignment);
Rui Ueyama27876642017-03-01 04:04:23 +0000121
122 // If this section contains a table of fixed-size entries, sh_entsize
123 // holds the element size. Consequently, if this contains two or more
124 // input sections, all of them must have the same sh_entsize. However,
125 // you can put different types of input sections into one output
126 // sectin by using linker scripts. I don't know what to do here.
127 // Probably we sholuld handle that as an error. But for now we just
128 // pick the largest sh_entsize.
129 this->Entsize = std::max(this->Entsize, S->Entsize);
Rafael Espindola5805c4f2015-09-21 21:38:08 +0000130}
131
Rui Ueyama809d8e22016-06-23 04:33:42 +0000132// This function is called after we sort input sections
133// and scan relocations to setup sections' offsets.
Rafael Espindola24e6f362017-02-24 15:07:30 +0000134template <class ELFT> void OutputSection::assignOffsets() {
George Rimarefc31dd2017-03-01 11:10:53 +0000135 uint64_t Off = 0;
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000136 for (InputSection *S : Sections) {
Rui Ueyama809d8e22016-06-23 04:33:42 +0000137 Off = alignTo(Off, S->Alignment);
138 S->OutSecOff = Off;
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000139 Off += S->template getSize<ELFT>();
Rui Ueyama809d8e22016-06-23 04:33:42 +0000140 }
Rafael Espindola04a2e342016-11-09 01:42:41 +0000141 this->Size = Off;
Rui Ueyama5af83682016-02-11 23:41:38 +0000142}
143
Rafael Espindola24e6f362017-02-24 15:07:30 +0000144void OutputSection::sort(std::function<int(InputSectionBase *S)> Order) {
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000145 typedef std::pair<unsigned, InputSection *> Pair;
George Rimar1a33c0f2016-11-10 09:05:20 +0000146 auto Comp = [](const Pair &A, const Pair &B) { return A.first < B.first; };
147
148 std::vector<Pair> V;
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000149 for (InputSection *S : Sections)
George Rimar1a33c0f2016-11-10 09:05:20 +0000150 V.push_back({Order(S), S});
151 std::stable_sort(V.begin(), V.end(), Comp);
152 Sections.clear();
153 for (Pair &P : V)
154 Sections.push_back(P.second);
155}
156
Rui Ueyamac4185702016-02-10 23:20:42 +0000157// Sorts input sections by section name suffixes, so that .foo.N comes
158// before .foo.M if N < M. Used to sort .{init,fini}_array.N sections.
Rui Ueyama5af83682016-02-11 23:41:38 +0000159// We want to keep the original order if the priorities are the same
160// because the compiler keeps the original initialization order in a
161// translation unit and we need to respect that.
Rui Ueyamac4185702016-02-10 23:20:42 +0000162// For more detail, read the section of the GCC's manual about init_priority.
Rafael Espindola24e6f362017-02-24 15:07:30 +0000163void OutputSection::sortInitFini() {
Rui Ueyamac4185702016-02-10 23:20:42 +0000164 // Sort sections by priority.
Rafael Espindolac404d502017-02-23 02:32:18 +0000165 sort([](InputSectionBase *S) { return getPriority(S->Name); });
Rui Ueyama5af83682016-02-11 23:41:38 +0000166}
Rui Ueyamac4185702016-02-10 23:20:42 +0000167
Rui Ueyama5af83682016-02-11 23:41:38 +0000168// Returns true if S matches /Filename.?\.o$/.
169static bool isCrtBeginEnd(StringRef S, StringRef Filename) {
170 if (!S.endswith(".o"))
171 return false;
172 S = S.drop_back(2);
173 if (S.endswith(Filename))
174 return true;
175 return !S.empty() && S.drop_back().endswith(Filename);
176}
177
178static bool isCrtbegin(StringRef S) { return isCrtBeginEnd(S, "crtbegin"); }
179static bool isCrtend(StringRef S) { return isCrtBeginEnd(S, "crtend"); }
180
181// .ctors and .dtors are sorted by this priority from highest to lowest.
182//
183// 1. The section was contained in crtbegin (crtbegin contains
184// some sentinel value in its .ctors and .dtors so that the runtime
185// can find the beginning of the sections.)
186//
187// 2. The section has an optional priority value in the form of ".ctors.N"
188// or ".dtors.N" where N is a number. Unlike .{init,fini}_array,
189// they are compared as string rather than number.
190//
191// 3. The section is just ".ctors" or ".dtors".
192//
193// 4. The section was contained in crtend, which contains an end marker.
194//
195// In an ideal world, we don't need this function because .init_array and
196// .ctors are duplicate features (and .init_array is newer.) However, there
197// are too many real-world use cases of .ctors, so we had no choice to
198// support that with this rather ad-hoc semantics.
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000199static bool compCtors(const InputSection *A, const InputSection *B) {
Rafael Espindolaa2e3fee2017-02-24 13:19:33 +0000200 bool BeginA = isCrtbegin(A->File->getName());
201 bool BeginB = isCrtbegin(B->File->getName());
Rui Ueyama5af83682016-02-11 23:41:38 +0000202 if (BeginA != BeginB)
203 return BeginA;
Rafael Espindolaa2e3fee2017-02-24 13:19:33 +0000204 bool EndA = isCrtend(A->File->getName());
205 bool EndB = isCrtend(B->File->getName());
Rui Ueyama5af83682016-02-11 23:41:38 +0000206 if (EndA != EndB)
207 return EndB;
Rafael Espindola042a3f22016-09-08 14:06:08 +0000208 StringRef X = A->Name;
209 StringRef Y = B->Name;
Rui Ueyama5af83682016-02-11 23:41:38 +0000210 assert(X.startswith(".ctors") || X.startswith(".dtors"));
211 assert(Y.startswith(".ctors") || Y.startswith(".dtors"));
212 X = X.substr(6);
213 Y = Y.substr(6);
Rui Ueyama24b794e2016-02-12 00:38:46 +0000214 if (X.empty() && Y.empty())
215 return false;
Rui Ueyama5af83682016-02-11 23:41:38 +0000216 return X < Y;
217}
218
219// Sorts input sections by the special rules for .ctors and .dtors.
220// Unfortunately, the rules are different from the one for .{init,fini}_array.
221// Read the comment above.
Rafael Espindola24e6f362017-02-24 15:07:30 +0000222void OutputSection::sortCtorsDtors() {
Rafael Espindolaa2e3fee2017-02-24 13:19:33 +0000223 std::stable_sort(Sections.begin(), Sections.end(), compCtors);
Rui Ueyamac4185702016-02-10 23:20:42 +0000224}
225
Rui Ueyama16068ae2016-11-19 18:05:56 +0000226// Fill [Buf, Buf + Size) with Filler. Filler is written in big
227// endian order. This is used for linker script "=fillexp" command.
228void fill(uint8_t *Buf, size_t Size, uint32_t Filler) {
229 uint8_t V[4];
230 write32be(V, Filler);
George Rimare2ee72b2016-02-26 14:48:31 +0000231 size_t I = 0;
Rui Ueyama16068ae2016-11-19 18:05:56 +0000232 for (; I + 4 < Size; I += 4)
233 memcpy(Buf + I, V, 4);
234 memcpy(Buf + I, V, Size - I);
George Rimare2ee72b2016-02-26 14:48:31 +0000235}
236
Rafael Espindola24e6f362017-02-24 15:07:30 +0000237template <class ELFT> void OutputSection::writeTo(uint8_t *Buf) {
Eugene Leviant84569e62016-11-29 08:05:44 +0000238 Loc = Buf;
Rui Ueyama16068ae2016-11-19 18:05:56 +0000239 if (uint32_t Filler = Script<ELFT>::X->getFiller(this->Name))
Rafael Espindola04a2e342016-11-09 01:42:41 +0000240 fill(Buf, this->Size, Filler);
Rui Ueyama16068ae2016-11-19 18:05:56 +0000241
Rafael Espindola774ea7d2017-02-23 16:49:07 +0000242 auto Fn = [=](InputSection *IS) { IS->writeTo<ELFT>(Buf); };
Rui Ueyama244a4352016-12-03 21:24:51 +0000243 forEach(Sections.begin(), Sections.end(), Fn);
Rui Ueyama16068ae2016-11-19 18:05:56 +0000244
George Rimare38cbab2016-09-26 19:22:50 +0000245 // Linker scripts may have BYTE()-family commands with which you
246 // can write arbitrary bytes to the output. Process them if any.
247 Script<ELFT>::X->writeDataBytes(this->Name, Buf);
Rafael Espindola5805c4f2015-09-21 21:38:08 +0000248}
249
Rui Ueyamac7cc6ec2015-10-15 22:27:29 +0000250template <class ELFT>
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000251static typename ELFT::uint getOutFlags(InputSectionBase *S) {
Rafael Espindola1854a8e2016-10-26 12:36:56 +0000252 return S->Flags & ~SHF_GROUP & ~SHF_COMPRESSED;
Rafael Espindola10897f12016-09-13 14:23:14 +0000253}
254
255template <class ELFT>
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000256static SectionKey createKey(InputSectionBase *C, StringRef OutsecName) {
Rafael Espindola33713982017-01-05 14:20:35 +0000257 // The ELF spec just says
258 // ----------------------------------------------------------------
259 // In the first phase, input sections that match in name, type and
260 // attribute flags should be concatenated into single sections.
261 // ----------------------------------------------------------------
262 //
263 // However, it is clear that at least some flags have to be ignored for
264 // section merging. At the very least SHF_GROUP and SHF_COMPRESSED have to be
265 // ignored. We should not have two output .text sections just because one was
266 // in a group and another was not for example.
267 //
268 // It also seems that that wording was a late addition and didn't get the
269 // necessary scrutiny.
270 //
271 // Merging sections with different flags is expected by some users. One
272 // reason is that if one file has
273 //
274 // int *const bar __attribute__((section(".foo"))) = (int *)0;
275 //
276 // gcc with -fPIC will produce a read only .foo section. But if another
277 // file has
278 //
279 // int zed;
280 // int *const bar __attribute__((section(".foo"))) = (int *)&zed;
281 //
282 // gcc with -fPIC will produce a read write section.
283 //
284 // Last but not least, when using linker script the merge rules are forced by
285 // the script. Unfortunately, linker scripts are name based. This means that
286 // expressions like *(.foo*) can refer to multiple input sections with
287 // different flags. We cannot put them in different output sections or we
288 // would produce wrong results for
289 //
290 // start = .; *(.foo.*) end = .; *(.bar)
291 //
292 // and a mapping of .foo1 and .bar1 to one section and .foo2 and .bar2 to
293 // another. The problem is that there is no way to layout those output
294 // sections such that the .foo sections are the only thing between the start
295 // and end symbols.
296 //
297 // Given the above issues, we instead merge sections by name and error on
298 // incompatible types and flags.
Rafael Espindola17c35832016-09-13 12:25:30 +0000299
Rafael Espindola33713982017-01-05 14:20:35 +0000300 typedef typename ELFT::uint uintX_t;
Rafael Espindola33713982017-01-05 14:20:35 +0000301
Rafael Espindola17c35832016-09-13 12:25:30 +0000302 uintX_t Alignment = 0;
Rafael Espindola9e9754b2017-02-03 13:06:18 +0000303 uintX_t Flags = 0;
304 if (Config->Relocatable && (C->Flags & SHF_MERGE)) {
Rafael Espindola1854a8e2016-10-26 12:36:56 +0000305 Alignment = std::max<uintX_t>(C->Alignment, C->Entsize);
Rafael Espindola9e9754b2017-02-03 13:06:18 +0000306 Flags = C->Flags & (SHF_MERGE | SHF_STRINGS);
307 }
Rafael Espindola17c35832016-09-13 12:25:30 +0000308
Rafael Espindola72447082017-01-05 14:35:41 +0000309 return SectionKey{OutsecName, Flags, Alignment};
Rafael Espindola17c35832016-09-13 12:25:30 +0000310}
311
Rui Ueyama02a036f2017-02-27 02:31:48 +0000312OutputSectionFactory::OutputSectionFactory(
Rafael Espindola24e6f362017-02-24 15:07:30 +0000313 std::vector<OutputSection *> &OutputSections)
Rafael Espindola82902742017-02-16 17:32:26 +0000314 : OutputSections(OutputSections) {}
George Rimar6892afa2016-07-12 09:49:43 +0000315
Rafael Espindola33713982017-01-05 14:20:35 +0000316static uint64_t getIncompatibleFlags(uint64_t Flags) {
317 return Flags & (SHF_ALLOC | SHF_TLS);
318}
319
Eugene Leviant0c0789b2017-01-31 10:26:52 +0000320// We allow sections of types listed below to merged into a
321// single progbits section. This is typically done by linker
322// scripts. Merging nobits and progbits will force disk space
323// to be allocated for nobits sections. Other ones don't require
324// any special treatment on top of progbits, so there doesn't
325// seem to be a harm in merging them.
326static bool canMergeToProgbits(unsigned Type) {
327 return Type == SHT_NOBITS || Type == SHT_PROGBITS || Type == SHT_INIT_ARRAY ||
328 Type == SHT_PREINIT_ARRAY || Type == SHT_FINI_ARRAY ||
329 Type == SHT_NOTE;
330}
331
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000332template <class ELFT> static void reportDiscarded(InputSectionBase *IS) {
Rafael Espindolaecbfd872017-02-17 17:35:07 +0000333 if (!Config->PrintGcSections)
334 return;
Rui Ueyamae6e206d2017-02-21 23:22:56 +0000335 message("removing unused section from '" + IS->Name + "' in file '" +
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000336 IS->getFile<ELFT>()->getName());
Rafael Espindolaecbfd872017-02-17 17:35:07 +0000337}
338
Rafael Espindola10897f12016-09-13 14:23:14 +0000339template <class ELFT>
Rui Ueyama02a036f2017-02-27 02:31:48 +0000340void OutputSectionFactory::addInputSec(InputSectionBase *IS,
341 StringRef OutsecName) {
Rafael Espindola82902742017-02-16 17:32:26 +0000342 if (!IS->Live) {
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000343 reportDiscarded<ELFT>(IS);
Rafael Espindola82902742017-02-16 17:32:26 +0000344 return;
345 }
346
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000347 SectionKey Key = createKey<ELFT>(IS, OutsecName);
Rui Ueyama02a036f2017-02-27 02:31:48 +0000348 uint64_t Flags = getOutFlags<ELFT>(IS);
Rafael Espindola24e6f362017-02-24 15:07:30 +0000349 OutputSection *&Sec = Map[Key];
Rafael Espindola10897f12016-09-13 14:23:14 +0000350 if (Sec) {
Rafael Espindola82902742017-02-16 17:32:26 +0000351 if (getIncompatibleFlags(Sec->Flags) != getIncompatibleFlags(IS->Flags))
Rafael Espindola33713982017-01-05 14:20:35 +0000352 error("Section has flags incompatible with others with the same name " +
Rafael Espindola82902742017-02-16 17:32:26 +0000353 toString(IS));
354 if (Sec->Type != IS->Type) {
355 if (canMergeToProgbits(Sec->Type) && canMergeToProgbits(IS->Type))
Eugene Leviant0c0789b2017-01-31 10:26:52 +0000356 Sec->Type = SHT_PROGBITS;
357 else
358 error("Section has different type from others with the same name " +
Rafael Espindola82902742017-02-16 17:32:26 +0000359 toString(IS));
Eugene Leviant0c0789b2017-01-31 10:26:52 +0000360 }
Rafael Espindola04a2e342016-11-09 01:42:41 +0000361 Sec->Flags |= Flags;
Rafael Espindola82902742017-02-16 17:32:26 +0000362 } else {
363 uint32_t Type = IS->Type;
Rafael Espindolab4c9b812017-02-23 02:28:28 +0000364 if (IS->kind() == InputSectionBase::EHFrame) {
Rafael Espindola66b4e212017-02-23 22:06:28 +0000365 In<ELFT>::EhFrame->addSection(IS);
Rafael Espindola82902742017-02-16 17:32:26 +0000366 return;
367 }
Rafael Espindola24e6f362017-02-24 15:07:30 +0000368 Sec = make<OutputSection>(Key.Name, Type, Flags);
Rafael Espindola82902742017-02-16 17:32:26 +0000369 OutputSections.push_back(Sec);
Rafael Espindola10897f12016-09-13 14:23:14 +0000370 }
371
Rafael Espindola82902742017-02-16 17:32:26 +0000372 Sec->addSection(IS);
George Rimar6892afa2016-07-12 09:49:43 +0000373}
374
Rui Ueyama02a036f2017-02-27 02:31:48 +0000375OutputSectionFactory::~OutputSectionFactory() {}
Rafael Espindola82902742017-02-16 17:32:26 +0000376
Rafael Espindola72447082017-01-05 14:35:41 +0000377SectionKey DenseMapInfo<SectionKey>::getEmptyKey() {
378 return SectionKey{DenseMapInfo<StringRef>::getEmptyKey(), 0, 0};
George Rimar6892afa2016-07-12 09:49:43 +0000379}
380
Rafael Espindola72447082017-01-05 14:35:41 +0000381SectionKey DenseMapInfo<SectionKey>::getTombstoneKey() {
382 return SectionKey{DenseMapInfo<StringRef>::getTombstoneKey(), 0, 0};
George Rimar6892afa2016-07-12 09:49:43 +0000383}
384
Rafael Espindola72447082017-01-05 14:35:41 +0000385unsigned DenseMapInfo<SectionKey>::getHashValue(const SectionKey &Val) {
Rafael Espindola33713982017-01-05 14:20:35 +0000386 return hash_combine(Val.Name, Val.Flags, Val.Alignment);
George Rimar6892afa2016-07-12 09:49:43 +0000387}
388
Rafael Espindola72447082017-01-05 14:35:41 +0000389bool DenseMapInfo<SectionKey>::isEqual(const SectionKey &LHS,
390 const SectionKey &RHS) {
George Rimar6892afa2016-07-12 09:49:43 +0000391 return DenseMapInfo<StringRef>::isEqual(LHS.Name, RHS.Name) &&
Rafael Espindola33713982017-01-05 14:20:35 +0000392 LHS.Flags == RHS.Flags && LHS.Alignment == RHS.Alignment;
George Rimar6892afa2016-07-12 09:49:43 +0000393}
394
Rafael Espindola5805c4f2015-09-21 21:38:08 +0000395namespace lld {
Rafael Espindolae0df00b2016-02-28 00:25:54 +0000396namespace elf {
Rafael Espindolae08e78d2016-11-09 23:23:45 +0000397
Rafael Espindola24e6f362017-02-24 15:07:30 +0000398template void OutputSection::writeHeaderTo<ELF32LE>(ELF32LE::Shdr *Shdr);
399template void OutputSection::writeHeaderTo<ELF32BE>(ELF32BE::Shdr *Shdr);
400template void OutputSection::writeHeaderTo<ELF64LE>(ELF64LE::Shdr *Shdr);
401template void OutputSection::writeHeaderTo<ELF64BE>(ELF64BE::Shdr *Shdr);
Rafael Espindola5805c4f2015-09-21 21:38:08 +0000402
Rafael Espindola24e6f362017-02-24 15:07:30 +0000403template void OutputSection::assignOffsets<ELF32LE>();
404template void OutputSection::assignOffsets<ELF32BE>();
405template void OutputSection::assignOffsets<ELF64LE>();
406template void OutputSection::assignOffsets<ELF64BE>();
407
408template void OutputSection::finalize<ELF32LE>();
409template void OutputSection::finalize<ELF32BE>();
410template void OutputSection::finalize<ELF64LE>();
411template void OutputSection::finalize<ELF64BE>();
412
413template void OutputSection::writeTo<ELF32LE>(uint8_t *Buf);
414template void OutputSection::writeTo<ELF32BE>(uint8_t *Buf);
415template void OutputSection::writeTo<ELF64LE>(uint8_t *Buf);
416template void OutputSection::writeTo<ELF64BE>(uint8_t *Buf);
Rafael Espindola5805c4f2015-09-21 21:38:08 +0000417
Rui Ueyama02a036f2017-02-27 02:31:48 +0000418template void OutputSectionFactory::addInputSec<ELF32LE>(InputSectionBase *,
419 StringRef);
420template void OutputSectionFactory::addInputSec<ELF32BE>(InputSectionBase *,
421 StringRef);
422template void OutputSectionFactory::addInputSec<ELF64LE>(InputSectionBase *,
423 StringRef);
424template void OutputSectionFactory::addInputSec<ELF64BE>(InputSectionBase *,
425 StringRef);
Rafael Espindola5805c4f2015-09-21 21:38:08 +0000426}
427}