bfd: Rename Chunk and S3Forced
[deliverable/binutils-gdb.git] / gold / symtab.cc
CommitLineData
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1// symtab.cc -- the gold symbol table
2
2571583a 3// Copyright (C) 2006-2017 Free Software Foundation, Inc.
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4// Written by Ian Lance Taylor <iant@google.com>.
5
6// This file is part of gold.
7
8// This program is free software; you can redistribute it and/or modify
9// it under the terms of the GNU General Public License as published by
10// the Free Software Foundation; either version 3 of the License, or
11// (at your option) any later version.
12
13// This program is distributed in the hope that it will be useful,
14// but WITHOUT ANY WARRANTY; without even the implied warranty of
15// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16// GNU General Public License for more details.
17
18// You should have received a copy of the GNU General Public License
19// along with this program; if not, write to the Free Software
20// Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
21// MA 02110-1301, USA.
22
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23#include "gold.h"
24
04bf7072 25#include <cstring>
14bfc3f5 26#include <stdint.h>
04bf7072 27#include <algorithm>
70e654ba 28#include <set>
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29#include <string>
30#include <utility>
a2b1aa12 31#include "demangle.h"
14bfc3f5 32
6d03d481 33#include "gc.h"
14bfc3f5 34#include "object.h"
70e654ba 35#include "dwarf_reader.h"
dbe717ef 36#include "dynobj.h"
75f65a3e 37#include "output.h"
61ba1cf9 38#include "target.h"
645f8123 39#include "workqueue.h"
14bfc3f5 40#include "symtab.h"
88a4108b 41#include "script.h"
89fc3421 42#include "plugin.h"
cdc29364 43#include "incremental.h"
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44
45namespace gold
46{
47
48// Class Symbol.
49
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50// Initialize fields in Symbol. This initializes everything except u_
51// and source_.
14bfc3f5 52
14bfc3f5 53void
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54Symbol::init_fields(const char* name, const char* version,
55 elfcpp::STT type, elfcpp::STB binding,
56 elfcpp::STV visibility, unsigned char nonvis)
14bfc3f5 57{
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58 this->name_ = name;
59 this->version_ = version;
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60 this->symtab_index_ = 0;
61 this->dynsym_index_ = 0;
0a65a3a7 62 this->got_offsets_.init();
880cd20d 63 this->plt_offset_ = -1U;
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64 this->type_ = type;
65 this->binding_ = binding;
66 this->visibility_ = visibility;
67 this->nonvis_ = nonvis;
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68 this->is_def_ = false;
69 this->is_forwarder_ = false;
aeddab66 70 this->has_alias_ = false;
c06b7b0b 71 this->needs_dynsym_entry_ = false;
008db82e 72 this->in_reg_ = false;
ead1e424 73 this->in_dyn_ = false;
f6ce93d6 74 this->has_warning_ = false;
46fe1623 75 this->is_copied_from_dynobj_ = false;
55a93433 76 this->is_forced_local_ = false;
d491d34e 77 this->is_ordinary_shndx_ = false;
89fc3421 78 this->in_real_elf_ = false;
880cd20d 79 this->is_defined_in_discarded_section_ = false;
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80 this->undef_binding_set_ = false;
81 this->undef_binding_weak_ = false;
5146f448 82 this->is_predefined_ = false;
6eeb0170 83 this->is_protected_ = false;
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84}
85
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86// Return the demangled version of the symbol's name, but only
87// if the --demangle flag was set.
88
89static std::string
2ea97941 90demangle(const char* name)
a2b1aa12 91{
086a1841 92 if (!parameters->options().do_demangle())
2ea97941 93 return name;
ff541f30 94
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95 // cplus_demangle allocates memory for the result it returns,
96 // and returns NULL if the name is already demangled.
2ea97941 97 char* demangled_name = cplus_demangle(name, DMGL_ANSI | DMGL_PARAMS);
a2b1aa12 98 if (demangled_name == NULL)
2ea97941 99 return name;
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100
101 std::string retval(demangled_name);
102 free(demangled_name);
103 return retval;
104}
105
106std::string
107Symbol::demangled_name() const
108{
ff541f30 109 return demangle(this->name());
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110}
111
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112// Initialize the fields in the base class Symbol for SYM in OBJECT.
113
114template<int size, bool big_endian>
115void
2ea97941 116Symbol::init_base_object(const char* name, const char* version, Object* object,
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117 const elfcpp::Sym<size, big_endian>& sym,
118 unsigned int st_shndx, bool is_ordinary)
ead1e424 119{
2ea97941 120 this->init_fields(name, version, sym.get_st_type(), sym.get_st_bind(),
ead1e424 121 sym.get_st_visibility(), sym.get_st_nonvis());
2ea97941 122 this->u_.from_object.object = object;
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123 this->u_.from_object.shndx = st_shndx;
124 this->is_ordinary_shndx_ = is_ordinary;
ead1e424 125 this->source_ = FROM_OBJECT;
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126 this->in_reg_ = !object->is_dynamic();
127 this->in_dyn_ = object->is_dynamic();
128 this->in_real_elf_ = object->pluginobj() == NULL;
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129}
130
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131// Initialize the fields in the base class Symbol for a symbol defined
132// in an Output_data.
133
134void
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135Symbol::init_base_output_data(const char* name, const char* version,
136 Output_data* od, elfcpp::STT type,
137 elfcpp::STB binding, elfcpp::STV visibility,
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138 unsigned char nonvis, bool offset_is_from_end,
139 bool is_predefined)
ead1e424 140{
2ea97941 141 this->init_fields(name, version, type, binding, visibility, nonvis);
ead1e424 142 this->u_.in_output_data.output_data = od;
2ea97941 143 this->u_.in_output_data.offset_is_from_end = offset_is_from_end;
ead1e424 144 this->source_ = IN_OUTPUT_DATA;
008db82e 145 this->in_reg_ = true;
89fc3421 146 this->in_real_elf_ = true;
5146f448 147 this->is_predefined_ = is_predefined;
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148}
149
150// Initialize the fields in the base class Symbol for a symbol defined
151// in an Output_segment.
152
153void
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154Symbol::init_base_output_segment(const char* name, const char* version,
155 Output_segment* os, elfcpp::STT type,
156 elfcpp::STB binding, elfcpp::STV visibility,
157 unsigned char nonvis,
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158 Segment_offset_base offset_base,
159 bool is_predefined)
ead1e424 160{
2ea97941 161 this->init_fields(name, version, type, binding, visibility, nonvis);
ead1e424 162 this->u_.in_output_segment.output_segment = os;
2ea97941 163 this->u_.in_output_segment.offset_base = offset_base;
ead1e424 164 this->source_ = IN_OUTPUT_SEGMENT;
008db82e 165 this->in_reg_ = true;
89fc3421 166 this->in_real_elf_ = true;
5146f448 167 this->is_predefined_ = is_predefined;
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168}
169
170// Initialize the fields in the base class Symbol for a symbol defined
171// as a constant.
172
173void
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174Symbol::init_base_constant(const char* name, const char* version,
175 elfcpp::STT type, elfcpp::STB binding,
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176 elfcpp::STV visibility, unsigned char nonvis,
177 bool is_predefined)
f3e9c5c5 178{
2ea97941 179 this->init_fields(name, version, type, binding, visibility, nonvis);
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180 this->source_ = IS_CONSTANT;
181 this->in_reg_ = true;
89fc3421 182 this->in_real_elf_ = true;
5146f448 183 this->is_predefined_ = is_predefined;
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184}
185
186// Initialize the fields in the base class Symbol for an undefined
187// symbol.
188
189void
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190Symbol::init_base_undefined(const char* name, const char* version,
191 elfcpp::STT type, elfcpp::STB binding,
192 elfcpp::STV visibility, unsigned char nonvis)
ead1e424 193{
2ea97941 194 this->init_fields(name, version, type, binding, visibility, nonvis);
d7ab2a47 195 this->dynsym_index_ = -1U;
f3e9c5c5 196 this->source_ = IS_UNDEFINED;
008db82e 197 this->in_reg_ = true;
89fc3421 198 this->in_real_elf_ = true;
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199}
200
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201// Allocate a common symbol in the base.
202
203void
204Symbol::allocate_base_common(Output_data* od)
205{
206 gold_assert(this->is_common());
207 this->source_ = IN_OUTPUT_DATA;
208 this->u_.in_output_data.output_data = od;
209 this->u_.in_output_data.offset_is_from_end = false;
210}
211
ead1e424 212// Initialize the fields in Sized_symbol for SYM in OBJECT.
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213
214template<int size>
215template<bool big_endian>
216void
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217Sized_symbol<size>::init_object(const char* name, const char* version,
218 Object* object,
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219 const elfcpp::Sym<size, big_endian>& sym,
220 unsigned int st_shndx, bool is_ordinary)
14bfc3f5 221{
2ea97941 222 this->init_base_object(name, version, object, sym, st_shndx, is_ordinary);
14bfc3f5 223 this->value_ = sym.get_st_value();
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224 this->symsize_ = sym.get_st_size();
225}
226
227// Initialize the fields in Sized_symbol for a symbol defined in an
228// Output_data.
229
230template<int size>
231void
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232Sized_symbol<size>::init_output_data(const char* name, const char* version,
233 Output_data* od, Value_type value,
234 Size_type symsize, elfcpp::STT type,
235 elfcpp::STB binding,
236 elfcpp::STV visibility,
237 unsigned char nonvis,
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238 bool offset_is_from_end,
239 bool is_predefined)
ead1e424 240{
2ea97941 241 this->init_base_output_data(name, version, od, type, binding, visibility,
5146f448 242 nonvis, offset_is_from_end, is_predefined);
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243 this->value_ = value;
244 this->symsize_ = symsize;
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245}
246
247// Initialize the fields in Sized_symbol for a symbol defined in an
248// Output_segment.
249
250template<int size>
251void
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252Sized_symbol<size>::init_output_segment(const char* name, const char* version,
253 Output_segment* os, Value_type value,
254 Size_type symsize, elfcpp::STT type,
255 elfcpp::STB binding,
256 elfcpp::STV visibility,
257 unsigned char nonvis,
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258 Segment_offset_base offset_base,
259 bool is_predefined)
ead1e424 260{
2ea97941 261 this->init_base_output_segment(name, version, os, type, binding, visibility,
5146f448 262 nonvis, offset_base, is_predefined);
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263 this->value_ = value;
264 this->symsize_ = symsize;
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265}
266
267// Initialize the fields in Sized_symbol for a symbol defined as a
268// constant.
269
270template<int size>
271void
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272Sized_symbol<size>::init_constant(const char* name, const char* version,
273 Value_type value, Size_type symsize,
274 elfcpp::STT type, elfcpp::STB binding,
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275 elfcpp::STV visibility, unsigned char nonvis,
276 bool is_predefined)
ead1e424 277{
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278 this->init_base_constant(name, version, type, binding, visibility, nonvis,
279 is_predefined);
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280 this->value_ = value;
281 this->symsize_ = symsize;
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282}
283
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284// Initialize the fields in Sized_symbol for an undefined symbol.
285
286template<int size>
287void
2ea97941 288Sized_symbol<size>::init_undefined(const char* name, const char* version,
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289 Value_type value, elfcpp::STT type,
290 elfcpp::STB binding, elfcpp::STV visibility,
291 unsigned char nonvis)
f3e9c5c5 292{
2ea97941 293 this->init_base_undefined(name, version, type, binding, visibility, nonvis);
dc1c8a16 294 this->value_ = value;
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295 this->symsize_ = 0;
296}
297
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298// Return an allocated string holding the symbol's name as
299// name@version. This is used for relocatable links.
300
301std::string
302Symbol::versioned_name() const
303{
304 gold_assert(this->version_ != NULL);
305 std::string ret = this->name_;
306 ret.push_back('@');
307 if (this->is_def_)
308 ret.push_back('@');
309 ret += this->version_;
310 return ret;
311}
312
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313// Return true if SHNDX represents a common symbol.
314
315bool
2ea97941 316Symbol::is_common_shndx(unsigned int shndx)
8a5e3e08 317{
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318 return (shndx == elfcpp::SHN_COMMON
319 || shndx == parameters->target().small_common_shndx()
320 || shndx == parameters->target().large_common_shndx());
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321}
322
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323// Allocate a common symbol.
324
325template<int size>
326void
2ea97941 327Sized_symbol<size>::allocate_common(Output_data* od, Value_type value)
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328{
329 this->allocate_base_common(od);
2ea97941 330 this->value_ = value;
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331}
332
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333// The ""'s around str ensure str is a string literal, so sizeof works.
334#define strprefix(var, str) (strncmp(var, str, sizeof("" str "") - 1) == 0)
335
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336// Return true if this symbol should be added to the dynamic symbol
337// table.
338
7b549045 339bool
ce97fa81 340Symbol::should_add_dynsym_entry(Symbol_table* symtab) const
436ca963 341{
badc8139
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342 // If the symbol is only present on plugin files, the plugin decided we
343 // don't need it.
344 if (!this->in_real_elf())
345 return false;
346
436ca963
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347 // If the symbol is used by a dynamic relocation, we need to add it.
348 if (this->needs_dynsym_entry())
349 return true;
350
6d03d481
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351 // If this symbol's section is not added, the symbol need not be added.
352 // The section may have been GCed. Note that export_dynamic is being
353 // overridden here. This should not be done for shared objects.
354 if (parameters->options().gc_sections()
355 && !parameters->options().shared()
356 && this->source() == Symbol::FROM_OBJECT
357 && !this->object()->is_dynamic())
358 {
359 Relobj* relobj = static_cast<Relobj*>(this->object());
360 bool is_ordinary;
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361 unsigned int shndx = this->shndx(&is_ordinary);
362 if (is_ordinary && shndx != elfcpp::SHN_UNDEF
ce97fa81
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363 && !relobj->is_section_included(shndx)
364 && !symtab->is_section_folded(relobj, shndx))
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365 return false;
366 }
367
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368 // If the symbol was forced dynamic in a --dynamic-list file
369 // or an --export-dynamic-symbol option, add it.
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370 if (!this->is_from_dynobj()
371 && (parameters->options().in_dynamic_list(this->name())
372 || parameters->options().is_export_dynamic_symbol(this->name())))
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373 {
374 if (!this->is_forced_local())
375 return true;
376 gold_warning(_("Cannot export local symbol '%s'"),
377 this->demangled_name().c_str());
378 return false;
379 }
380
55a93433
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381 // If the symbol was forced local in a version script, do not add it.
382 if (this->is_forced_local())
383 return false;
384
c82fbeee
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385 // If dynamic-list-data was specified, add any STT_OBJECT.
386 if (parameters->options().dynamic_list_data()
387 && !this->is_from_dynobj()
388 && this->type() == elfcpp::STT_OBJECT)
389 return true;
390
391 // If --dynamic-list-cpp-new was specified, add any new/delete symbol.
392 // If --dynamic-list-cpp-typeinfo was specified, add any typeinfo symbols.
393 if ((parameters->options().dynamic_list_cpp_new()
394 || parameters->options().dynamic_list_cpp_typeinfo())
395 && !this->is_from_dynobj())
396 {
397 // TODO(csilvers): We could probably figure out if we're an operator
398 // new/delete or typeinfo without the need to demangle.
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399 char* demangled_name = cplus_demangle(this->name(),
400 DMGL_ANSI | DMGL_PARAMS);
401 if (demangled_name == NULL)
c82fbeee
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402 {
403 // Not a C++ symbol, so it can't satisfy these flags
404 }
405 else if (parameters->options().dynamic_list_cpp_new()
2ea97941
ILT
406 && (strprefix(demangled_name, "operator new")
407 || strprefix(demangled_name, "operator delete")))
c82fbeee 408 {
2ea97941 409 free(demangled_name);
c82fbeee
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410 return true;
411 }
412 else if (parameters->options().dynamic_list_cpp_typeinfo()
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ILT
413 && (strprefix(demangled_name, "typeinfo name for")
414 || strprefix(demangled_name, "typeinfo for")))
c82fbeee 415 {
2ea97941 416 free(demangled_name);
c82fbeee
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417 return true;
418 }
419 else
2ea97941 420 free(demangled_name);
c82fbeee
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421 }
422
436ca963 423 // If exporting all symbols or building a shared library,
4b889c30 424 // or the symbol should be globally unique (GNU_UNIQUE),
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425 // and the symbol is defined in a regular object and is
426 // externally visible, we need to add it.
4b889c30
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427 if ((parameters->options().export_dynamic()
428 || parameters->options().shared()
429 || (parameters->options().gnu_unique()
430 && this->binding() == elfcpp::STB_GNU_UNIQUE))
436ca963 431 && !this->is_from_dynobj()
f3ae1b28 432 && !this->is_undefined()
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433 && this->is_externally_visible())
434 return true;
435
436 return false;
437}
438
b3b74ddc
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439// Return true if the final value of this symbol is known at link
440// time.
441
442bool
443Symbol::final_value_is_known() const
444{
445 // If we are not generating an executable, then no final values are
a6a17750
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446 // known, since they will change at runtime, with the exception of
447 // TLS symbols in a position-independent executable.
448 if ((parameters->options().output_is_position_independent()
449 || parameters->options().relocatable())
450 && !(this->type() == elfcpp::STT_TLS
451 && parameters->options().pie()))
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452 return false;
453
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454 // If the symbol is not from an object file, and is not undefined,
455 // then it is defined, and known.
b3b74ddc 456 if (this->source_ != FROM_OBJECT)
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457 {
458 if (this->source_ != IS_UNDEFINED)
459 return true;
460 }
461 else
462 {
463 // If the symbol is from a dynamic object, then the final value
464 // is not known.
465 if (this->object()->is_dynamic())
466 return false;
b3b74ddc 467
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468 // If the symbol is not undefined (it is defined or common),
469 // then the final value is known.
470 if (!this->is_undefined())
471 return true;
472 }
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473
474 // If the symbol is undefined, then whether the final value is known
475 // depends on whether we are doing a static link. If we are doing a
476 // dynamic link, then the final value could be filled in at runtime.
477 // This could reasonably be the case for a weak undefined symbol.
478 return parameters->doing_static_link();
479}
480
77e65537 481// Return the output section where this symbol is defined.
a445fddf 482
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483Output_section*
484Symbol::output_section() const
a445fddf
ILT
485{
486 switch (this->source_)
487 {
488 case FROM_OBJECT:
77e65537 489 {
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490 unsigned int shndx = this->u_.from_object.shndx;
491 if (shndx != elfcpp::SHN_UNDEF && this->is_ordinary_shndx_)
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ILT
492 {
493 gold_assert(!this->u_.from_object.object->is_dynamic());
89fc3421 494 gold_assert(this->u_.from_object.object->pluginobj() == NULL);
77e65537 495 Relobj* relobj = static_cast<Relobj*>(this->u_.from_object.object);
2ea97941 496 return relobj->output_section(shndx);
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ILT
497 }
498 return NULL;
499 }
500
a445fddf 501 case IN_OUTPUT_DATA:
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502 return this->u_.in_output_data.output_data->output_section();
503
a445fddf 504 case IN_OUTPUT_SEGMENT:
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505 case IS_CONSTANT:
506 case IS_UNDEFINED:
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507 return NULL;
508
509 default:
510 gold_unreachable();
511 }
512}
513
514// Set the symbol's output section. This is used for symbols defined
515// in scripts. This should only be called after the symbol table has
516// been finalized.
517
518void
519Symbol::set_output_section(Output_section* os)
520{
521 switch (this->source_)
522 {
523 case FROM_OBJECT:
524 case IN_OUTPUT_DATA:
525 gold_assert(this->output_section() == os);
526 break;
f3e9c5c5 527 case IS_CONSTANT:
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ILT
528 this->source_ = IN_OUTPUT_DATA;
529 this->u_.in_output_data.output_data = os;
530 this->u_.in_output_data.offset_is_from_end = false;
531 break;
532 case IN_OUTPUT_SEGMENT:
f3e9c5c5 533 case IS_UNDEFINED:
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534 default:
535 gold_unreachable();
536 }
537}
538
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539// Set the symbol's output segment. This is used for pre-defined
540// symbols whose segments aren't known until after layout is done
541// (e.g., __ehdr_start).
542
543void
544Symbol::set_output_segment(Output_segment* os, Segment_offset_base base)
545{
546 gold_assert(this->is_predefined_);
547 this->source_ = IN_OUTPUT_SEGMENT;
548 this->u_.in_output_segment.output_segment = os;
549 this->u_.in_output_segment.offset_base = base;
550}
551
552// Set the symbol to undefined. This is used for pre-defined
553// symbols whose segments aren't known until after layout is done
554// (e.g., __ehdr_start).
555
556void
557Symbol::set_undefined()
558{
d1bddd3c
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559 this->source_ = IS_UNDEFINED;
560 this->is_predefined_ = false;
561}
562
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563// Class Symbol_table.
564
09124467 565Symbol_table::Symbol_table(unsigned int count,
2ea97941 566 const Version_script_info& version_script)
6d013333 567 : saw_undefined_(0), offset_(0), table_(count), namepool_(),
8a5e3e08
ILT
568 forwarders_(), commons_(), tls_commons_(), small_commons_(),
569 large_commons_(), forced_locals_(), warnings_(),
dc1c8a16
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570 version_script_(version_script), gc_(NULL), icf_(NULL),
571 target_symbols_()
14bfc3f5 572{
6d013333 573 namepool_.reserve(count);
14bfc3f5
ILT
574}
575
576Symbol_table::~Symbol_table()
577{
578}
579
ad8f37d1
ILT
580// The symbol table key equality function. This is called with
581// Stringpool keys.
14bfc3f5 582
ad8f37d1 583inline bool
14bfc3f5
ILT
584Symbol_table::Symbol_table_eq::operator()(const Symbol_table_key& k1,
585 const Symbol_table_key& k2) const
586{
587 return k1.first == k2.first && k1.second == k2.second;
588}
589
ef15dade 590bool
efc6fa12 591Symbol_table::is_section_folded(Relobj* obj, unsigned int shndx) const
ef15dade 592{
032ce4e9 593 return (parameters->options().icf_enabled()
2ea97941 594 && this->icf_->is_section_folded(obj, shndx));
ef15dade
ST
595}
596
31821be0
CC
597// For symbols that have been listed with a -u or --export-dynamic-symbol
598// option, add them to the work list to avoid gc'ing them.
6d03d481
ST
599
600void
88a4108b 601Symbol_table::gc_mark_undef_symbols(Layout* layout)
6d03d481
ST
602{
603 for (options::String_set::const_iterator p =
604 parameters->options().undefined_begin();
605 p != parameters->options().undefined_end();
606 ++p)
607 {
2ea97941
ILT
608 const char* name = p->c_str();
609 Symbol* sym = this->lookup(name);
ca09d69a 610 gold_assert(sym != NULL);
6d03d481
ST
611 if (sym->source() == Symbol::FROM_OBJECT
612 && !sym->object()->is_dynamic())
613 {
e81fea4d 614 this->gc_mark_symbol(sym);
6d03d481
ST
615 }
616 }
88a4108b 617
31821be0
CC
618 for (options::String_set::const_iterator p =
619 parameters->options().export_dynamic_symbol_begin();
620 p != parameters->options().export_dynamic_symbol_end();
621 ++p)
622 {
623 const char* name = p->c_str();
624 Symbol* sym = this->lookup(name);
1d5dfe78
CC
625 // It's not an error if a symbol named by --export-dynamic-symbol
626 // is undefined.
627 if (sym != NULL
628 && sym->source() == Symbol::FROM_OBJECT
31821be0
CC
629 && !sym->object()->is_dynamic())
630 {
e81fea4d 631 this->gc_mark_symbol(sym);
31821be0
CC
632 }
633 }
634
88a4108b
ILT
635 for (Script_options::referenced_const_iterator p =
636 layout->script_options()->referenced_begin();
637 p != layout->script_options()->referenced_end();
638 ++p)
639 {
640 Symbol* sym = this->lookup(p->c_str());
641 gold_assert(sym != NULL);
642 if (sym->source() == Symbol::FROM_OBJECT
643 && !sym->object()->is_dynamic())
644 {
e81fea4d 645 this->gc_mark_symbol(sym);
88a4108b
ILT
646 }
647 }
6d03d481
ST
648}
649
650void
7257cc92 651Symbol_table::gc_mark_symbol(Symbol* sym)
6d03d481 652{
7257cc92 653 // Add the object and section to the work list.
7257cc92
ST
654 bool is_ordinary;
655 unsigned int shndx = sym->shndx(&is_ordinary);
efc6fa12 656 if (is_ordinary && shndx != elfcpp::SHN_UNDEF && !sym->object()->is_dynamic())
6d03d481 657 {
7257cc92 658 gold_assert(this->gc_!= NULL);
efc6fa12
CC
659 Relobj* relobj = static_cast<Relobj*>(sym->object());
660 this->gc_->worklist().push_back(Section_id(relobj, shndx));
6d03d481 661 }
e81fea4d 662 parameters->target().gc_mark_symbol(this, sym);
6d03d481
ST
663}
664
665// When doing garbage collection, keep symbols that have been seen in
666// dynamic objects.
667inline void
668Symbol_table::gc_mark_dyn_syms(Symbol* sym)
669{
670 if (sym->in_dyn() && sym->source() == Symbol::FROM_OBJECT
671 && !sym->object()->is_dynamic())
7257cc92 672 this->gc_mark_symbol(sym);
6d03d481
ST
673}
674
dd8670e5 675// Make TO a symbol which forwards to FROM.
14bfc3f5
ILT
676
677void
678Symbol_table::make_forwarder(Symbol* from, Symbol* to)
679{
a3ad94ed
ILT
680 gold_assert(from != to);
681 gold_assert(!from->is_forwarder() && !to->is_forwarder());
14bfc3f5
ILT
682 this->forwarders_[from] = to;
683 from->set_forwarder();
684}
685
61ba1cf9
ILT
686// Resolve the forwards from FROM, returning the real symbol.
687
14bfc3f5 688Symbol*
c06b7b0b 689Symbol_table::resolve_forwards(const Symbol* from) const
14bfc3f5 690{
a3ad94ed 691 gold_assert(from->is_forwarder());
c06b7b0b 692 Unordered_map<const Symbol*, Symbol*>::const_iterator p =
14bfc3f5 693 this->forwarders_.find(from);
a3ad94ed 694 gold_assert(p != this->forwarders_.end());
14bfc3f5
ILT
695 return p->second;
696}
697
61ba1cf9
ILT
698// Look up a symbol by name.
699
700Symbol*
2ea97941 701Symbol_table::lookup(const char* name, const char* version) const
61ba1cf9 702{
f0641a0b 703 Stringpool::Key name_key;
2ea97941
ILT
704 name = this->namepool_.find(name, &name_key);
705 if (name == NULL)
61ba1cf9 706 return NULL;
f0641a0b
ILT
707
708 Stringpool::Key version_key = 0;
2ea97941 709 if (version != NULL)
61ba1cf9 710 {
2ea97941
ILT
711 version = this->namepool_.find(version, &version_key);
712 if (version == NULL)
61ba1cf9
ILT
713 return NULL;
714 }
715
f0641a0b 716 Symbol_table_key key(name_key, version_key);
61ba1cf9
ILT
717 Symbol_table::Symbol_table_type::const_iterator p = this->table_.find(key);
718 if (p == this->table_.end())
719 return NULL;
720 return p->second;
721}
722
14bfc3f5
ILT
723// Resolve a Symbol with another Symbol. This is only used in the
724// unusual case where there are references to both an unversioned
725// symbol and a symbol with a version, and we then discover that that
1564db8d
ILT
726// version is the default version. Because this is unusual, we do
727// this the slow way, by converting back to an ELF symbol.
14bfc3f5 728
1564db8d 729template<int size, bool big_endian>
14bfc3f5 730void
95d14cd3 731Symbol_table::resolve(Sized_symbol<size>* to, const Sized_symbol<size>* from)
14bfc3f5 732{
1564db8d
ILT
733 unsigned char buf[elfcpp::Elf_sizes<size>::sym_size];
734 elfcpp::Sym_write<size, big_endian> esym(buf);
d491d34e 735 // We don't bother to set the st_name or the st_shndx field.
1564db8d
ILT
736 esym.put_st_value(from->value());
737 esym.put_st_size(from->symsize());
738 esym.put_st_info(from->binding(), from->type());
ead1e424 739 esym.put_st_other(from->visibility(), from->nonvis());
d491d34e 740 bool is_ordinary;
2ea97941
ILT
741 unsigned int shndx = from->shndx(&is_ordinary);
742 this->resolve(to, esym.sym(), shndx, is_ordinary, shndx, from->object(),
b45e00b3 743 from->version(), true);
1ebd95fd
ILT
744 if (from->in_reg())
745 to->set_in_reg();
746 if (from->in_dyn())
747 to->set_in_dyn();
6d03d481
ST
748 if (parameters->options().gc_sections())
749 this->gc_mark_dyn_syms(to);
14bfc3f5
ILT
750}
751
0602e05a
ILT
752// Record that a symbol is forced to be local by a version script or
753// by visibility.
55a93433
ILT
754
755void
756Symbol_table::force_local(Symbol* sym)
757{
758 if (!sym->is_defined() && !sym->is_common())
759 return;
760 if (sym->is_forced_local())
761 {
762 // We already got this one.
763 return;
764 }
765 sym->set_is_forced_local();
766 this->forced_locals_.push_back(sym);
767}
768
0864d551
ILT
769// Adjust NAME for wrapping, and update *NAME_KEY if necessary. This
770// is only called for undefined symbols, when at least one --wrap
771// option was used.
772
773const char*
2ea97941 774Symbol_table::wrap_symbol(const char* name, Stringpool::Key* name_key)
0864d551
ILT
775{
776 // For some targets, we need to ignore a specific character when
777 // wrapping, and add it back later.
778 char prefix = '\0';
2ea97941 779 if (name[0] == parameters->target().wrap_char())
0864d551 780 {
2ea97941
ILT
781 prefix = name[0];
782 ++name;
0864d551
ILT
783 }
784
2ea97941 785 if (parameters->options().is_wrap(name))
0864d551
ILT
786 {
787 // Turn NAME into __wrap_NAME.
788 std::string s;
789 if (prefix != '\0')
790 s += prefix;
791 s += "__wrap_";
2ea97941 792 s += name;
0864d551
ILT
793
794 // This will give us both the old and new name in NAMEPOOL_, but
795 // that is OK. Only the versions we need will wind up in the
796 // real string table in the output file.
797 return this->namepool_.add(s.c_str(), true, name_key);
798 }
799
800 const char* const real_prefix = "__real_";
801 const size_t real_prefix_length = strlen(real_prefix);
2ea97941
ILT
802 if (strncmp(name, real_prefix, real_prefix_length) == 0
803 && parameters->options().is_wrap(name + real_prefix_length))
0864d551
ILT
804 {
805 // Turn __real_NAME into NAME.
806 std::string s;
807 if (prefix != '\0')
808 s += prefix;
2ea97941 809 s += name + real_prefix_length;
0864d551
ILT
810 return this->namepool_.add(s.c_str(), true, name_key);
811 }
812
2ea97941 813 return name;
0864d551
ILT
814}
815
8c500701
ILT
816// This is called when we see a symbol NAME/VERSION, and the symbol
817// already exists in the symbol table, and VERSION is marked as being
818// the default version. SYM is the NAME/VERSION symbol we just added.
819// DEFAULT_IS_NEW is true if this is the first time we have seen the
820// symbol NAME/NULL. PDEF points to the entry for NAME/NULL.
821
822template<int size, bool big_endian>
823void
824Symbol_table::define_default_version(Sized_symbol<size>* sym,
825 bool default_is_new,
826 Symbol_table_type::iterator pdef)
827{
828 if (default_is_new)
829 {
830 // This is the first time we have seen NAME/NULL. Make
831 // NAME/NULL point to NAME/VERSION, and mark SYM as the default
832 // version.
833 pdef->second = sym;
834 sym->set_is_default();
835 }
836 else if (pdef->second == sym)
837 {
838 // NAME/NULL already points to NAME/VERSION. Don't mark the
839 // symbol as the default if it is not already the default.
840 }
841 else
842 {
843 // This is the unfortunate case where we already have entries
844 // for both NAME/VERSION and NAME/NULL. We now see a symbol
845 // NAME/VERSION where VERSION is the default version. We have
846 // already resolved this new symbol with the existing
847 // NAME/VERSION symbol.
848
849 // It's possible that NAME/NULL and NAME/VERSION are both
850 // defined in regular objects. This can only happen if one
851 // object file defines foo and another defines foo@@ver. This
852 // is somewhat obscure, but we call it a multiple definition
853 // error.
854
855 // It's possible that NAME/NULL actually has a version, in which
856 // case it won't be the same as VERSION. This happens with
857 // ver_test_7.so in the testsuite for the symbol t2_2. We see
858 // t2_2@@VER2, so we define both t2_2/VER2 and t2_2/NULL. We
859 // then see an unadorned t2_2 in an object file and give it
860 // version VER1 from the version script. This looks like a
861 // default definition for VER1, so it looks like we should merge
862 // t2_2/NULL with t2_2/VER1. That doesn't make sense, but it's
863 // not obvious that this is an error, either. So we just punt.
864
865 // If one of the symbols has non-default visibility, and the
866 // other is defined in a shared object, then they are different
867 // symbols.
868
b60ecbc6
CC
869 // If the two symbols are from different shared objects,
870 // they are different symbols.
871
8c500701
ILT
872 // Otherwise, we just resolve the symbols as though they were
873 // the same.
874
875 if (pdef->second->version() != NULL)
876 gold_assert(pdef->second->version() != sym->version());
877 else if (sym->visibility() != elfcpp::STV_DEFAULT
878 && pdef->second->is_from_dynobj())
879 ;
880 else if (pdef->second->visibility() != elfcpp::STV_DEFAULT
881 && sym->is_from_dynobj())
882 ;
b60ecbc6
CC
883 else if (pdef->second->is_from_dynobj()
884 && sym->is_from_dynobj()
e3f07b5b 885 && pdef->second->is_defined()
b60ecbc6
CC
886 && pdef->second->object() != sym->object())
887 ;
8c500701
ILT
888 else
889 {
890 const Sized_symbol<size>* symdef;
891 symdef = this->get_sized_symbol<size>(pdef->second);
892 Symbol_table::resolve<size, big_endian>(sym, symdef);
893 this->make_forwarder(pdef->second, sym);
894 pdef->second = sym;
895 sym->set_is_default();
896 }
897 }
898}
899
14bfc3f5
ILT
900// Add one symbol from OBJECT to the symbol table. NAME is symbol
901// name and VERSION is the version; both are canonicalized. DEF is
d491d34e
ILT
902// whether this is the default version. ST_SHNDX is the symbol's
903// section index; IS_ORDINARY is whether this is a normal section
904// rather than a special code.
14bfc3f5 905
8781f709
ILT
906// If IS_DEFAULT_VERSION is true, then this is the definition of a
907// default version of a symbol. That means that any lookup of
908// NAME/NULL and any lookup of NAME/VERSION should always return the
909// same symbol. This is obvious for references, but in particular we
910// want to do this for definitions: overriding NAME/NULL should also
911// override NAME/VERSION. If we don't do that, it would be very hard
912// to override functions in a shared library which uses versioning.
14bfc3f5
ILT
913
914// We implement this by simply making both entries in the hash table
915// point to the same Symbol structure. That is easy enough if this is
916// the first time we see NAME/NULL or NAME/VERSION, but it is possible
917// that we have seen both already, in which case they will both have
918// independent entries in the symbol table. We can't simply change
919// the symbol table entry, because we have pointers to the entries
920// attached to the object files. So we mark the entry attached to the
921// object file as a forwarder, and record it in the forwarders_ map.
922// Note that entries in the hash table will never be marked as
923// forwarders.
70e654ba 924//
d491d34e
ILT
925// ORIG_ST_SHNDX and ST_SHNDX are almost always the same.
926// ORIG_ST_SHNDX is the section index in the input file, or SHN_UNDEF
927// for a special section code. ST_SHNDX may be modified if the symbol
928// is defined in a section being discarded.
14bfc3f5
ILT
929
930template<int size, bool big_endian>
aeddab66 931Sized_symbol<size>*
2ea97941 932Symbol_table::add_from_object(Object* object,
ca09d69a 933 const char* name,
f0641a0b 934 Stringpool::Key name_key,
ca09d69a 935 const char* version,
f0641a0b 936 Stringpool::Key version_key,
8781f709 937 bool is_default_version,
70e654ba 938 const elfcpp::Sym<size, big_endian>& sym,
d491d34e
ILT
939 unsigned int st_shndx,
940 bool is_ordinary,
941 unsigned int orig_st_shndx)
14bfc3f5 942{
c5818ff1 943 // Print a message if this symbol is being traced.
2ea97941 944 if (parameters->options().is_trace_symbol(name))
c5818ff1 945 {
d491d34e 946 if (orig_st_shndx == elfcpp::SHN_UNDEF)
2ea97941 947 gold_info(_("%s: reference to %s"), object->name().c_str(), name);
c5818ff1 948 else
2ea97941 949 gold_info(_("%s: definition of %s"), object->name().c_str(), name);
c5818ff1
CC
950 }
951
0864d551
ILT
952 // For an undefined symbol, we may need to adjust the name using
953 // --wrap.
d491d34e 954 if (orig_st_shndx == elfcpp::SHN_UNDEF
c5818ff1 955 && parameters->options().any_wrap())
0864d551 956 {
2ea97941
ILT
957 const char* wrap_name = this->wrap_symbol(name, &name_key);
958 if (wrap_name != name)
0864d551
ILT
959 {
960 // If we see a reference to malloc with version GLIBC_2.0,
961 // and we turn it into a reference to __wrap_malloc, then we
962 // discard the version number. Otherwise the user would be
963 // required to specify the correct version for
964 // __wrap_malloc.
2ea97941 965 version = NULL;
0864d551 966 version_key = 0;
2ea97941 967 name = wrap_name;
0864d551
ILT
968 }
969 }
970
14bfc3f5
ILT
971 Symbol* const snull = NULL;
972 std::pair<typename Symbol_table_type::iterator, bool> ins =
f0641a0b
ILT
973 this->table_.insert(std::make_pair(std::make_pair(name_key, version_key),
974 snull));
14bfc3f5 975
8781f709 976 std::pair<typename Symbol_table_type::iterator, bool> insdefault =
14bfc3f5 977 std::make_pair(this->table_.end(), false);
8781f709 978 if (is_default_version)
14bfc3f5 979 {
f0641a0b 980 const Stringpool::Key vnull_key = 0;
8781f709
ILT
981 insdefault = this->table_.insert(std::make_pair(std::make_pair(name_key,
982 vnull_key),
983 snull));
14bfc3f5
ILT
984 }
985
986 // ins.first: an iterator, which is a pointer to a pair.
987 // ins.first->first: the key (a pair of name and version).
988 // ins.first->second: the value (Symbol*).
989 // ins.second: true if new entry was inserted, false if not.
990
1564db8d 991 Sized_symbol<size>* ret;
ead1e424
ILT
992 bool was_undefined;
993 bool was_common;
14bfc3f5
ILT
994 if (!ins.second)
995 {
996 // We already have an entry for NAME/VERSION.
7d1a9ebb 997 ret = this->get_sized_symbol<size>(ins.first->second);
a3ad94ed 998 gold_assert(ret != NULL);
ead1e424
ILT
999
1000 was_undefined = ret->is_undefined();
1707f183
CC
1001 // Commons from plugins are just placeholders.
1002 was_common = ret->is_common() && ret->object()->pluginobj() == NULL;
ead1e424 1003
2ea97941 1004 this->resolve(ret, sym, st_shndx, is_ordinary, orig_st_shndx, object,
b45e00b3 1005 version, is_default_version);
6d03d481
ST
1006 if (parameters->options().gc_sections())
1007 this->gc_mark_dyn_syms(ret);
14bfc3f5 1008
8781f709
ILT
1009 if (is_default_version)
1010 this->define_default_version<size, big_endian>(ret, insdefault.second,
1011 insdefault.first);
3ac0a36c 1012 else
b45e00b3 1013 {
b45e00b3 1014 bool dummy;
3ac0a36c
CC
1015 if (version != NULL
1016 && ret->source() == Symbol::FROM_OBJECT
b45e00b3
CC
1017 && ret->object() == object
1018 && is_ordinary
3ac0a36c
CC
1019 && ret->shndx(&dummy) == st_shndx
1020 && ret->is_default())
b45e00b3 1021 {
3ac0a36c
CC
1022 // We have seen NAME/VERSION already, and marked it as the
1023 // default version, but now we see a definition for
1024 // NAME/VERSION that is not the default version. This can
1025 // happen when the assembler generates two symbols for
1026 // a symbol as a result of a ".symver foo,foo@VER"
1027 // directive. We see the first unversioned symbol and
1028 // we may mark it as the default version (from a
1029 // version script); then we see the second versioned
1030 // symbol and we need to override the first.
1031 // In any other case, the two symbols should have generated
1032 // a multiple definition error.
1033 // (See PR gold/18703.)
b45e00b3
CC
1034 ret->set_is_not_default();
1035 const Stringpool::Key vnull_key = 0;
1036 this->table_.erase(std::make_pair(name_key, vnull_key));
1037 }
1038 }
14bfc3f5
ILT
1039 }
1040 else
1041 {
1042 // This is the first time we have seen NAME/VERSION.
a3ad94ed 1043 gold_assert(ins.first->second == NULL);
ead1e424 1044
8781f709 1045 if (is_default_version && !insdefault.second)
14bfc3f5 1046 {
14b31740
ILT
1047 // We already have an entry for NAME/NULL. If we override
1048 // it, then change it to NAME/VERSION.
8781f709 1049 ret = this->get_sized_symbol<size>(insdefault.first->second);
18e6b24e
ILT
1050
1051 was_undefined = ret->is_undefined();
1707f183
CC
1052 // Commons from plugins are just placeholders.
1053 was_common = ret->is_common() && ret->object()->pluginobj() == NULL;
18e6b24e 1054
2ea97941 1055 this->resolve(ret, sym, st_shndx, is_ordinary, orig_st_shndx, object,
b45e00b3 1056 version, is_default_version);
6d03d481
ST
1057 if (parameters->options().gc_sections())
1058 this->gc_mark_dyn_syms(ret);
14bfc3f5
ILT
1059 ins.first->second = ret;
1060 }
1061 else
1062 {
18e6b24e
ILT
1063 was_undefined = false;
1064 was_common = false;
1065
f6ce93d6 1066 Sized_target<size, big_endian>* target =
029ba973 1067 parameters->sized_target<size, big_endian>();
1564db8d
ILT
1068 if (!target->has_make_symbol())
1069 ret = new Sized_symbol<size>();
1070 else
14bfc3f5 1071 {
dc1c8a16
CC
1072 ret = target->make_symbol(name, sym.get_st_type(), object,
1073 st_shndx, sym.get_st_value());
1564db8d 1074 if (ret == NULL)
14bfc3f5
ILT
1075 {
1076 // This means that we don't want a symbol table
1077 // entry after all.
8781f709 1078 if (!is_default_version)
14bfc3f5
ILT
1079 this->table_.erase(ins.first);
1080 else
1081 {
8781f709
ILT
1082 this->table_.erase(insdefault.first);
1083 // Inserting INSDEFAULT invalidated INS.
f0641a0b
ILT
1084 this->table_.erase(std::make_pair(name_key,
1085 version_key));
14bfc3f5
ILT
1086 }
1087 return NULL;
1088 }
1089 }
14bfc3f5 1090
2ea97941 1091 ret->init_object(name, version, object, sym, st_shndx, is_ordinary);
1564db8d 1092
14bfc3f5 1093 ins.first->second = ret;
8781f709 1094 if (is_default_version)
14bfc3f5
ILT
1095 {
1096 // This is the first time we have seen NAME/NULL. Point
1097 // it at the new entry for NAME/VERSION.
8781f709
ILT
1098 gold_assert(insdefault.second);
1099 insdefault.first->second = ret;
14bfc3f5
ILT
1100 }
1101 }
8c500701 1102
8781f709 1103 if (is_default_version)
8c500701 1104 ret->set_is_default();
14bfc3f5
ILT
1105 }
1106
ead1e424
ILT
1107 // Record every time we see a new undefined symbol, to speed up
1108 // archive groups.
1109 if (!was_undefined && ret->is_undefined())
0f3b89d8
ILT
1110 {
1111 ++this->saw_undefined_;
1112 if (parameters->options().has_plugins())
1113 parameters->options().plugins()->new_undefined_symbol(ret);
1114 }
ead1e424
ILT
1115
1116 // Keep track of common symbols, to speed up common symbol
1707f183
CC
1117 // allocation. Don't record commons from plugin objects;
1118 // we need to wait until we see the real symbol in the
1119 // replacement file.
1120 if (!was_common && ret->is_common() && ret->object()->pluginobj() == NULL)
155a0dd7 1121 {
8a5e3e08 1122 if (ret->type() == elfcpp::STT_TLS)
155a0dd7 1123 this->tls_commons_.push_back(ret);
8a5e3e08
ILT
1124 else if (!is_ordinary
1125 && st_shndx == parameters->target().small_common_shndx())
1126 this->small_commons_.push_back(ret);
1127 else if (!is_ordinary
1128 && st_shndx == parameters->target().large_common_shndx())
1129 this->large_commons_.push_back(ret);
1130 else
1131 this->commons_.push_back(ret);
155a0dd7 1132 }
ead1e424 1133
0602e05a
ILT
1134 // If we're not doing a relocatable link, then any symbol with
1135 // hidden or internal visibility is local.
1136 if ((ret->visibility() == elfcpp::STV_HIDDEN
1137 || ret->visibility() == elfcpp::STV_INTERNAL)
1138 && (ret->binding() == elfcpp::STB_GLOBAL
adcf2816 1139 || ret->binding() == elfcpp::STB_GNU_UNIQUE
0602e05a
ILT
1140 || ret->binding() == elfcpp::STB_WEAK)
1141 && !parameters->options().relocatable())
1142 this->force_local(ret);
1143
14bfc3f5
ILT
1144 return ret;
1145}
1146
f6ce93d6 1147// Add all the symbols in a relocatable object to the hash table.
14bfc3f5
ILT
1148
1149template<int size, bool big_endian>
1150void
dbe717ef 1151Symbol_table::add_from_relobj(
6fa2a40b 1152 Sized_relobj_file<size, big_endian>* relobj,
f6ce93d6 1153 const unsigned char* syms,
14bfc3f5 1154 size_t count,
d491d34e 1155 size_t symndx_offset,
14bfc3f5
ILT
1156 const char* sym_names,
1157 size_t sym_name_size,
6fa2a40b 1158 typename Sized_relobj_file<size, big_endian>::Symbols* sympointers,
ca09d69a 1159 size_t* defined)
14bfc3f5 1160{
92de84a6
ILT
1161 *defined = 0;
1162
8851ecca 1163 gold_assert(size == parameters->target().get_size());
14bfc3f5 1164
a783673b
ILT
1165 const int sym_size = elfcpp::Elf_sizes<size>::sym_size;
1166
88dd47ac
ILT
1167 const bool just_symbols = relobj->just_symbols();
1168
f6ce93d6 1169 const unsigned char* p = syms;
a783673b 1170 for (size_t i = 0; i < count; ++i, p += sym_size)
14bfc3f5 1171 {
92de84a6
ILT
1172 (*sympointers)[i] = NULL;
1173
14bfc3f5
ILT
1174 elfcpp::Sym<size, big_endian> sym(p);
1175
d491d34e 1176 unsigned int st_name = sym.get_st_name();
14bfc3f5
ILT
1177 if (st_name >= sym_name_size)
1178 {
75f2446e
ILT
1179 relobj->error(_("bad global symbol name offset %u at %zu"),
1180 st_name, i);
1181 continue;
14bfc3f5
ILT
1182 }
1183
2ea97941 1184 const char* name = sym_names + st_name;
dbe717ef 1185
bebf4942
L
1186 if (!parameters->options().relocatable()
1187 && strcmp (name, "__gnu_lto_slim") == 0)
7cd4e5b7
AM
1188 gold_info(_("%s: plugin needed to handle lto object"),
1189 relobj->name().c_str());
1190
d491d34e
ILT
1191 bool is_ordinary;
1192 unsigned int st_shndx = relobj->adjust_sym_shndx(i + symndx_offset,
1193 sym.get_st_shndx(),
1194 &is_ordinary);
1195 unsigned int orig_st_shndx = st_shndx;
1196 if (!is_ordinary)
1197 orig_st_shndx = elfcpp::SHN_UNDEF;
1198
92de84a6
ILT
1199 if (st_shndx != elfcpp::SHN_UNDEF)
1200 ++*defined;
1201
a783673b
ILT
1202 // A symbol defined in a section which we are not including must
1203 // be treated as an undefined symbol.
880cd20d 1204 bool is_defined_in_discarded_section = false;
a783673b 1205 if (st_shndx != elfcpp::SHN_UNDEF
d491d34e 1206 && is_ordinary
ce97fa81
ST
1207 && !relobj->is_section_included(st_shndx)
1208 && !this->is_section_folded(relobj, st_shndx))
880cd20d
ILT
1209 {
1210 st_shndx = elfcpp::SHN_UNDEF;
1211 is_defined_in_discarded_section = true;
1212 }
a783673b 1213
14bfc3f5
ILT
1214 // In an object file, an '@' in the name separates the symbol
1215 // name from the version name. If there are two '@' characters,
1216 // this is the default version.
2ea97941 1217 const char* ver = strchr(name, '@');
057ead22 1218 Stringpool::Key ver_key = 0;
09124467 1219 int namelen = 0;
8781f709
ILT
1220 // IS_DEFAULT_VERSION: is the version default?
1221 // IS_FORCED_LOCAL: is the symbol forced local?
1222 bool is_default_version = false;
1223 bool is_forced_local = false;
09124467 1224
a7dac153
CC
1225 // FIXME: For incremental links, we don't store version information,
1226 // so we need to ignore version symbols for now.
1227 if (parameters->incremental_update() && ver != NULL)
1228 {
1229 namelen = ver - name;
1230 ver = NULL;
1231 }
1232
09124467
ILT
1233 if (ver != NULL)
1234 {
1235 // The symbol name is of the form foo@VERSION or foo@@VERSION
2ea97941 1236 namelen = ver - name;
09124467
ILT
1237 ++ver;
1238 if (*ver == '@')
1239 {
8781f709 1240 is_default_version = true;
09124467
ILT
1241 ++ver;
1242 }
057ead22 1243 ver = this->namepool_.add(ver, true, &ver_key);
09124467 1244 }
5871526f
ILT
1245 // We don't want to assign a version to an undefined symbol,
1246 // even if it is listed in the version script. FIXME: What
1247 // about a common symbol?
057ead22
ILT
1248 else
1249 {
2ea97941 1250 namelen = strlen(name);
057ead22
ILT
1251 if (!this->version_script_.empty()
1252 && st_shndx != elfcpp::SHN_UNDEF)
1253 {
1254 // The symbol name did not have a version, but the
1255 // version script may assign a version anyway.
2ea97941 1256 std::string version;
98e090bd
ILT
1257 bool is_global;
1258 if (this->version_script_.get_symbol_version(name, &version,
1259 &is_global))
057ead22 1260 {
98e090bd
ILT
1261 if (!is_global)
1262 is_forced_local = true;
1263 else if (!version.empty())
057ead22 1264 {
2ea97941
ILT
1265 ver = this->namepool_.add_with_length(version.c_str(),
1266 version.length(),
057ead22
ILT
1267 true,
1268 &ver_key);
8781f709 1269 is_default_version = true;
057ead22
ILT
1270 }
1271 }
057ead22
ILT
1272 }
1273 }
14bfc3f5 1274
d491d34e
ILT
1275 elfcpp::Sym<size, big_endian>* psym = &sym;
1276 unsigned char symbuf[sym_size];
1277 elfcpp::Sym<size, big_endian> sym2(symbuf);
88dd47ac
ILT
1278 if (just_symbols)
1279 {
d491d34e 1280 memcpy(symbuf, p, sym_size);
88dd47ac 1281 elfcpp::Sym_write<size, big_endian> sw(symbuf);
9590bf25
CC
1282 if (orig_st_shndx != elfcpp::SHN_UNDEF
1283 && is_ordinary
1284 && relobj->e_type() == elfcpp::ET_REL)
88dd47ac 1285 {
9590bf25
CC
1286 // Symbol values in relocatable object files are section
1287 // relative. This is normally what we want, but since here
1288 // we are converting the symbol to absolute we need to add
1289 // the section address. The section address in an object
88dd47ac
ILT
1290 // file is normally zero, but people can use a linker
1291 // script to change it.
d491d34e
ILT
1292 sw.put_st_value(sym.get_st_value()
1293 + relobj->section_address(orig_st_shndx));
88dd47ac 1294 }
d491d34e
ILT
1295 st_shndx = elfcpp::SHN_ABS;
1296 is_ordinary = false;
88dd47ac
ILT
1297 psym = &sym2;
1298 }
1299
65514900 1300 // Fix up visibility if object has no-export set.
1c74fab0
ILT
1301 if (relobj->no_export()
1302 && (orig_st_shndx != elfcpp::SHN_UNDEF || !is_ordinary))
65514900
CC
1303 {
1304 // We may have copied symbol already above.
1305 if (psym != &sym2)
1306 {
1307 memcpy(symbuf, p, sym_size);
1308 psym = &sym2;
1309 }
1310
1311 elfcpp::STV visibility = sym2.get_st_visibility();
1312 if (visibility == elfcpp::STV_DEFAULT
1313 || visibility == elfcpp::STV_PROTECTED)
1314 {
1315 elfcpp::Sym_write<size, big_endian> sw(symbuf);
1316 unsigned char nonvis = sym2.get_st_nonvis();
1317 sw.put_st_other(elfcpp::STV_HIDDEN, nonvis);
1318 }
1319 }
1320
057ead22 1321 Stringpool::Key name_key;
2ea97941 1322 name = this->namepool_.add_with_length(name, namelen, true,
057ead22
ILT
1323 &name_key);
1324
aeddab66 1325 Sized_symbol<size>* res;
2ea97941 1326 res = this->add_from_object(relobj, name, name_key, ver, ver_key,
8781f709
ILT
1327 is_default_version, *psym, st_shndx,
1328 is_ordinary, orig_st_shndx);
2c00092d
JC
1329
1330 if (res == NULL)
1331 continue;
6d03d481 1332
804eb480
ST
1333 if (is_forced_local)
1334 this->force_local(res);
1335
7257cc92
ST
1336 // Do not treat this symbol as garbage if this symbol will be
1337 // exported to the dynamic symbol table. This is true when
1338 // building a shared library or using --export-dynamic and
1339 // the symbol is externally visible.
1340 if (parameters->options().gc_sections()
1341 && res->is_externally_visible()
1342 && !res->is_from_dynobj()
1343 && (parameters->options().shared()
fd834e57
CC
1344 || parameters->options().export_dynamic()
1345 || parameters->options().in_dynamic_list(res->name())))
7257cc92 1346 this->gc_mark_symbol(res);
f0641a0b 1347
880cd20d
ILT
1348 if (is_defined_in_discarded_section)
1349 res->set_is_defined_in_discarded_section();
1350
730cdc88 1351 (*sympointers)[i] = res;
14bfc3f5
ILT
1352 }
1353}
1354
89fc3421
CC
1355// Add a symbol from a plugin-claimed file.
1356
1357template<int size, bool big_endian>
1358Symbol*
1359Symbol_table::add_from_pluginobj(
1360 Sized_pluginobj<size, big_endian>* obj,
2ea97941 1361 const char* name,
89fc3421
CC
1362 const char* ver,
1363 elfcpp::Sym<size, big_endian>* sym)
1364{
1365 unsigned int st_shndx = sym->get_st_shndx();
24998053 1366 bool is_ordinary = st_shndx < elfcpp::SHN_LORESERVE;
89fc3421
CC
1367
1368 Stringpool::Key ver_key = 0;
8781f709
ILT
1369 bool is_default_version = false;
1370 bool is_forced_local = false;
89fc3421
CC
1371
1372 if (ver != NULL)
1373 {
1374 ver = this->namepool_.add(ver, true, &ver_key);
1375 }
1376 // We don't want to assign a version to an undefined symbol,
1377 // even if it is listed in the version script. FIXME: What
1378 // about a common symbol?
1379 else
1380 {
1381 if (!this->version_script_.empty()
1382 && st_shndx != elfcpp::SHN_UNDEF)
1383 {
1384 // The symbol name did not have a version, but the
1385 // version script may assign a version anyway.
2ea97941 1386 std::string version;
98e090bd
ILT
1387 bool is_global;
1388 if (this->version_script_.get_symbol_version(name, &version,
1389 &is_global))
89fc3421 1390 {
98e090bd
ILT
1391 if (!is_global)
1392 is_forced_local = true;
1393 else if (!version.empty())
89fc3421 1394 {
2ea97941
ILT
1395 ver = this->namepool_.add_with_length(version.c_str(),
1396 version.length(),
89fc3421
CC
1397 true,
1398 &ver_key);
8781f709 1399 is_default_version = true;
89fc3421
CC
1400 }
1401 }
89fc3421
CC
1402 }
1403 }
1404
1405 Stringpool::Key name_key;
2ea97941 1406 name = this->namepool_.add(name, true, &name_key);
89fc3421
CC
1407
1408 Sized_symbol<size>* res;
2ea97941 1409 res = this->add_from_object(obj, name, name_key, ver, ver_key,
8781f709
ILT
1410 is_default_version, *sym, st_shndx,
1411 is_ordinary, st_shndx);
89fc3421 1412
2c00092d
JC
1413 if (res == NULL)
1414 return NULL;
1415
8781f709 1416 if (is_forced_local)
0602e05a 1417 this->force_local(res);
89fc3421
CC
1418
1419 return res;
1420}
1421
dbe717ef
ILT
1422// Add all the symbols in a dynamic object to the hash table.
1423
1424template<int size, bool big_endian>
1425void
1426Symbol_table::add_from_dynobj(
1427 Sized_dynobj<size, big_endian>* dynobj,
1428 const unsigned char* syms,
1429 size_t count,
1430 const char* sym_names,
1431 size_t sym_name_size,
1432 const unsigned char* versym,
1433 size_t versym_size,
92de84a6 1434 const std::vector<const char*>* version_map,
6fa2a40b 1435 typename Sized_relobj_file<size, big_endian>::Symbols* sympointers,
92de84a6 1436 size_t* defined)
dbe717ef 1437{
92de84a6
ILT
1438 *defined = 0;
1439
8851ecca 1440 gold_assert(size == parameters->target().get_size());
dbe717ef 1441
88dd47ac
ILT
1442 if (dynobj->just_symbols())
1443 {
1444 gold_error(_("--just-symbols does not make sense with a shared object"));
1445 return;
1446 }
1447
a7dac153
CC
1448 // FIXME: For incremental links, we don't store version information,
1449 // so we need to ignore version symbols for now.
1450 if (parameters->incremental_update())
1451 versym = NULL;
1452
dbe717ef
ILT
1453 if (versym != NULL && versym_size / 2 < count)
1454 {
75f2446e
ILT
1455 dynobj->error(_("too few symbol versions"));
1456 return;
dbe717ef
ILT
1457 }
1458
1459 const int sym_size = elfcpp::Elf_sizes<size>::sym_size;
1460
aeddab66
ILT
1461 // We keep a list of all STT_OBJECT symbols, so that we can resolve
1462 // weak aliases. This is necessary because if the dynamic object
1463 // provides the same variable under two names, one of which is a
1464 // weak definition, and the regular object refers to the weak
1465 // definition, we have to put both the weak definition and the
1466 // strong definition into the dynamic symbol table. Given a weak
1467 // definition, the only way that we can find the corresponding
1468 // strong definition, if any, is to search the symbol table.
1469 std::vector<Sized_symbol<size>*> object_symbols;
1470
dbe717ef
ILT
1471 const unsigned char* p = syms;
1472 const unsigned char* vs = versym;
1473 for (size_t i = 0; i < count; ++i, p += sym_size, vs += 2)
1474 {
1475 elfcpp::Sym<size, big_endian> sym(p);
1476
92de84a6
ILT
1477 if (sympointers != NULL)
1478 (*sympointers)[i] = NULL;
1479
65778909
ILT
1480 // Ignore symbols with local binding or that have
1481 // internal or hidden visibility.
1482 if (sym.get_st_bind() == elfcpp::STB_LOCAL
1483 || sym.get_st_visibility() == elfcpp::STV_INTERNAL
1484 || sym.get_st_visibility() == elfcpp::STV_HIDDEN)
dbe717ef
ILT
1485 continue;
1486
8bdcdf2c
ILT
1487 // A protected symbol in a shared library must be treated as a
1488 // normal symbol when viewed from outside the shared library.
1489 // Implement this by overriding the visibility here.
3d4fde69
CC
1490 // Likewise, an IFUNC symbol in a shared library must be treated
1491 // as a normal FUNC symbol.
8bdcdf2c
ILT
1492 elfcpp::Sym<size, big_endian>* psym = &sym;
1493 unsigned char symbuf[sym_size];
1494 elfcpp::Sym<size, big_endian> sym2(symbuf);
3d4fde69
CC
1495 if (sym.get_st_visibility() == elfcpp::STV_PROTECTED
1496 || sym.get_st_type() == elfcpp::STT_GNU_IFUNC)
8bdcdf2c
ILT
1497 {
1498 memcpy(symbuf, p, sym_size);
1499 elfcpp::Sym_write<size, big_endian> sw(symbuf);
3d4fde69
CC
1500 if (sym.get_st_visibility() == elfcpp::STV_PROTECTED)
1501 sw.put_st_other(elfcpp::STV_DEFAULT, sym.get_st_nonvis());
1502 if (sym.get_st_type() == elfcpp::STT_GNU_IFUNC)
1503 sw.put_st_info(sym.get_st_bind(), elfcpp::STT_FUNC);
8bdcdf2c
ILT
1504 psym = &sym2;
1505 }
1506
1507 unsigned int st_name = psym->get_st_name();
dbe717ef
ILT
1508 if (st_name >= sym_name_size)
1509 {
75f2446e
ILT
1510 dynobj->error(_("bad symbol name offset %u at %zu"),
1511 st_name, i);
1512 continue;
dbe717ef
ILT
1513 }
1514
2ea97941 1515 const char* name = sym_names + st_name;
dbe717ef 1516
d491d34e 1517 bool is_ordinary;
8bdcdf2c 1518 unsigned int st_shndx = dynobj->adjust_sym_shndx(i, psym->get_st_shndx(),
d491d34e
ILT
1519 &is_ordinary);
1520
92de84a6
ILT
1521 if (st_shndx != elfcpp::SHN_UNDEF)
1522 ++*defined;
1523
aeddab66
ILT
1524 Sized_symbol<size>* res;
1525
dbe717ef
ILT
1526 if (versym == NULL)
1527 {
1528 Stringpool::Key name_key;
2ea97941
ILT
1529 name = this->namepool_.add(name, true, &name_key);
1530 res = this->add_from_object(dynobj, name, name_key, NULL, 0,
8bdcdf2c 1531 false, *psym, st_shndx, is_ordinary,
d491d34e 1532 st_shndx);
dbe717ef 1533 }
aeddab66
ILT
1534 else
1535 {
1536 // Read the version information.
dbe717ef 1537
aeddab66 1538 unsigned int v = elfcpp::Swap<16, big_endian>::readval(vs);
dbe717ef 1539
aeddab66
ILT
1540 bool hidden = (v & elfcpp::VERSYM_HIDDEN) != 0;
1541 v &= elfcpp::VERSYM_VERSION;
dbe717ef 1542
aeddab66
ILT
1543 // The Sun documentation says that V can be VER_NDX_LOCAL,
1544 // or VER_NDX_GLOBAL, or a version index. The meaning of
1545 // VER_NDX_LOCAL is defined as "Symbol has local scope."
1546 // The old GNU linker will happily generate VER_NDX_LOCAL
1547 // for an undefined symbol. I don't know what the Sun
1548 // linker will generate.
dbe717ef 1549
aeddab66 1550 if (v == static_cast<unsigned int>(elfcpp::VER_NDX_LOCAL)
d491d34e 1551 && st_shndx != elfcpp::SHN_UNDEF)
aeddab66
ILT
1552 {
1553 // This symbol should not be visible outside the object.
1554 continue;
1555 }
64707334 1556
aeddab66
ILT
1557 // At this point we are definitely going to add this symbol.
1558 Stringpool::Key name_key;
2ea97941 1559 name = this->namepool_.add(name, true, &name_key);
dbe717ef 1560
aeddab66
ILT
1561 if (v == static_cast<unsigned int>(elfcpp::VER_NDX_LOCAL)
1562 || v == static_cast<unsigned int>(elfcpp::VER_NDX_GLOBAL))
1563 {
1564 // This symbol does not have a version.
2ea97941 1565 res = this->add_from_object(dynobj, name, name_key, NULL, 0,
8bdcdf2c 1566 false, *psym, st_shndx, is_ordinary,
d491d34e 1567 st_shndx);
aeddab66
ILT
1568 }
1569 else
1570 {
1571 if (v >= version_map->size())
1572 {
1573 dynobj->error(_("versym for symbol %zu out of range: %u"),
1574 i, v);
1575 continue;
1576 }
dbe717ef 1577
2ea97941
ILT
1578 const char* version = (*version_map)[v];
1579 if (version == NULL)
aeddab66
ILT
1580 {
1581 dynobj->error(_("versym for symbol %zu has no name: %u"),
1582 i, v);
1583 continue;
1584 }
dbe717ef 1585
aeddab66 1586 Stringpool::Key version_key;
2ea97941 1587 version = this->namepool_.add(version, true, &version_key);
aeddab66
ILT
1588
1589 // If this is an absolute symbol, and the version name
1590 // and symbol name are the same, then this is the
1591 // version definition symbol. These symbols exist to
1592 // support using -u to pull in particular versions. We
1593 // do not want to record a version for them.
d491d34e
ILT
1594 if (st_shndx == elfcpp::SHN_ABS
1595 && !is_ordinary
aeddab66 1596 && name_key == version_key)
2ea97941 1597 res = this->add_from_object(dynobj, name, name_key, NULL, 0,
8bdcdf2c 1598 false, *psym, st_shndx, is_ordinary,
d491d34e 1599 st_shndx);
aeddab66
ILT
1600 else
1601 {
8781f709
ILT
1602 const bool is_default_version =
1603 !hidden && st_shndx != elfcpp::SHN_UNDEF;
2ea97941 1604 res = this->add_from_object(dynobj, name, name_key, version,
8781f709
ILT
1605 version_key, is_default_version,
1606 *psym, st_shndx,
d491d34e 1607 is_ordinary, st_shndx);
aeddab66
ILT
1608 }
1609 }
dbe717ef
ILT
1610 }
1611
2c00092d
JC
1612 if (res == NULL)
1613 continue;
1614
99a37bfd 1615 // Note that it is possible that RES was overridden by an
a4bb589a 1616 // earlier object, in which case it can't be aliased here.
d491d34e
ILT
1617 if (st_shndx != elfcpp::SHN_UNDEF
1618 && is_ordinary
8bdcdf2c 1619 && psym->get_st_type() == elfcpp::STT_OBJECT
99a37bfd
ILT
1620 && res->source() == Symbol::FROM_OBJECT
1621 && res->object() == dynobj)
aeddab66 1622 object_symbols.push_back(res);
92de84a6 1623
6eeb0170
CC
1624 // If the symbol has protected visibility in the dynobj,
1625 // mark it as such if it was not overridden.
1626 if (res->source() == Symbol::FROM_OBJECT
1627 && res->object() == dynobj
1628 && sym.get_st_visibility() == elfcpp::STV_PROTECTED)
1629 res->set_is_protected();
1630
92de84a6
ILT
1631 if (sympointers != NULL)
1632 (*sympointers)[i] = res;
aeddab66
ILT
1633 }
1634
1635 this->record_weak_aliases(&object_symbols);
1636}
1637
cdc29364
CC
1638// Add a symbol from a incremental object file.
1639
1640template<int size, bool big_endian>
26d3c67d 1641Sized_symbol<size>*
cdc29364
CC
1642Symbol_table::add_from_incrobj(
1643 Object* obj,
1644 const char* name,
1645 const char* ver,
1646 elfcpp::Sym<size, big_endian>* sym)
1647{
1648 unsigned int st_shndx = sym->get_st_shndx();
1649 bool is_ordinary = st_shndx < elfcpp::SHN_LORESERVE;
1650
1651 Stringpool::Key ver_key = 0;
1652 bool is_default_version = false;
cdc29364
CC
1653
1654 Stringpool::Key name_key;
1655 name = this->namepool_.add(name, true, &name_key);
1656
1657 Sized_symbol<size>* res;
1658 res = this->add_from_object(obj, name, name_key, ver, ver_key,
1659 is_default_version, *sym, st_shndx,
1660 is_ordinary, st_shndx);
1661
cdc29364
CC
1662 return res;
1663}
1664
aeddab66
ILT
1665// This is used to sort weak aliases. We sort them first by section
1666// index, then by offset, then by weak ahead of strong.
1667
1668template<int size>
1669class Weak_alias_sorter
1670{
1671 public:
1672 bool operator()(const Sized_symbol<size>*, const Sized_symbol<size>*) const;
1673};
1674
1675template<int size>
1676bool
1677Weak_alias_sorter<size>::operator()(const Sized_symbol<size>* s1,
1678 const Sized_symbol<size>* s2) const
1679{
d491d34e
ILT
1680 bool is_ordinary;
1681 unsigned int s1_shndx = s1->shndx(&is_ordinary);
1682 gold_assert(is_ordinary);
1683 unsigned int s2_shndx = s2->shndx(&is_ordinary);
1684 gold_assert(is_ordinary);
1685 if (s1_shndx != s2_shndx)
1686 return s1_shndx < s2_shndx;
1687
aeddab66
ILT
1688 if (s1->value() != s2->value())
1689 return s1->value() < s2->value();
1690 if (s1->binding() != s2->binding())
1691 {
1692 if (s1->binding() == elfcpp::STB_WEAK)
1693 return true;
1694 if (s2->binding() == elfcpp::STB_WEAK)
1695 return false;
1696 }
1697 return std::string(s1->name()) < std::string(s2->name());
1698}
dbe717ef 1699
aeddab66
ILT
1700// SYMBOLS is a list of object symbols from a dynamic object. Look
1701// for any weak aliases, and record them so that if we add the weak
1702// alias to the dynamic symbol table, we also add the corresponding
1703// strong symbol.
dbe717ef 1704
aeddab66
ILT
1705template<int size>
1706void
1707Symbol_table::record_weak_aliases(std::vector<Sized_symbol<size>*>* symbols)
1708{
1709 // Sort the vector by section index, then by offset, then by weak
1710 // ahead of strong.
1711 std::sort(symbols->begin(), symbols->end(), Weak_alias_sorter<size>());
1712
1713 // Walk through the vector. For each weak definition, record
1714 // aliases.
1715 for (typename std::vector<Sized_symbol<size>*>::const_iterator p =
1716 symbols->begin();
1717 p != symbols->end();
1718 ++p)
1719 {
1720 if ((*p)->binding() != elfcpp::STB_WEAK)
1721 continue;
1722
1723 // Build a circular list of weak aliases. Each symbol points to
1724 // the next one in the circular list.
1725
1726 Sized_symbol<size>* from_sym = *p;
1727 typename std::vector<Sized_symbol<size>*>::const_iterator q;
1728 for (q = p + 1; q != symbols->end(); ++q)
dbe717ef 1729 {
d491d34e
ILT
1730 bool dummy;
1731 if ((*q)->shndx(&dummy) != from_sym->shndx(&dummy)
aeddab66
ILT
1732 || (*q)->value() != from_sym->value())
1733 break;
1734
1735 this->weak_aliases_[from_sym] = *q;
1736 from_sym->set_has_alias();
1737 from_sym = *q;
dbe717ef
ILT
1738 }
1739
aeddab66
ILT
1740 if (from_sym != *p)
1741 {
1742 this->weak_aliases_[from_sym] = *p;
1743 from_sym->set_has_alias();
1744 }
dbe717ef 1745
aeddab66 1746 p = q - 1;
dbe717ef
ILT
1747 }
1748}
1749
ead1e424
ILT
1750// Create and return a specially defined symbol. If ONLY_IF_REF is
1751// true, then only create the symbol if there is a reference to it.
86f2e683 1752// If this does not return NULL, it sets *POLDSYM to the existing
8c500701
ILT
1753// symbol if there is one. This sets *RESOLVE_OLDSYM if we should
1754// resolve the newly created symbol to the old one. This
1755// canonicalizes *PNAME and *PVERSION.
ead1e424
ILT
1756
1757template<int size, bool big_endian>
1758Sized_symbol<size>*
9b07f471
ILT
1759Symbol_table::define_special_symbol(const char** pname, const char** pversion,
1760 bool only_if_ref,
8c500701 1761 Sized_symbol<size>** poldsym,
40d7d93f 1762 bool* resolve_oldsym, bool is_forced_local)
ead1e424 1763{
8c500701 1764 *resolve_oldsym = false;
8cc69fb6 1765 *poldsym = NULL;
ead1e424 1766
55a93433
ILT
1767 // If the caller didn't give us a version, see if we get one from
1768 // the version script.
057ead22 1769 std::string v;
8c500701 1770 bool is_default_version = false;
40d7d93f 1771 if (!is_forced_local && *pversion == NULL)
55a93433 1772 {
98e090bd
ILT
1773 bool is_global;
1774 if (this->version_script_.get_symbol_version(*pname, &v, &is_global))
057ead22 1775 {
98e090bd
ILT
1776 if (is_global && !v.empty())
1777 {
1778 *pversion = v.c_str();
1779 // If we get the version from a version script, then we
1780 // are also the default version.
1781 is_default_version = true;
1782 }
057ead22 1783 }
55a93433
ILT
1784 }
1785
8c500701
ILT
1786 Symbol* oldsym;
1787 Sized_symbol<size>* sym;
1788
1789 bool add_to_table = false;
1790 typename Symbol_table_type::iterator add_loc = this->table_.end();
1791 bool add_def_to_table = false;
1792 typename Symbol_table_type::iterator add_def_loc = this->table_.end();
1793
ead1e424
ILT
1794 if (only_if_ref)
1795 {
306d9ef0 1796 oldsym = this->lookup(*pname, *pversion);
8c500701
ILT
1797 if (oldsym == NULL && is_default_version)
1798 oldsym = this->lookup(*pname, NULL);
f6ce93d6 1799 if (oldsym == NULL || !oldsym->is_undefined())
ead1e424 1800 return NULL;
306d9ef0
ILT
1801
1802 *pname = oldsym->name();
eebd87a5
ILT
1803 if (is_default_version)
1804 *pversion = this->namepool_.add(*pversion, true, NULL);
1805 else
8c500701 1806 *pversion = oldsym->version();
ead1e424
ILT
1807 }
1808 else
1809 {
14b31740 1810 // Canonicalize NAME and VERSION.
f0641a0b 1811 Stringpool::Key name_key;
cfd73a4e 1812 *pname = this->namepool_.add(*pname, true, &name_key);
ead1e424 1813
14b31740 1814 Stringpool::Key version_key = 0;
306d9ef0 1815 if (*pversion != NULL)
cfd73a4e 1816 *pversion = this->namepool_.add(*pversion, true, &version_key);
14b31740 1817
ead1e424 1818 Symbol* const snull = NULL;
ead1e424 1819 std::pair<typename Symbol_table_type::iterator, bool> ins =
14b31740
ILT
1820 this->table_.insert(std::make_pair(std::make_pair(name_key,
1821 version_key),
ead1e424
ILT
1822 snull));
1823
8781f709 1824 std::pair<typename Symbol_table_type::iterator, bool> insdefault =
8c500701
ILT
1825 std::make_pair(this->table_.end(), false);
1826 if (is_default_version)
1827 {
1828 const Stringpool::Key vnull = 0;
8781f709
ILT
1829 insdefault =
1830 this->table_.insert(std::make_pair(std::make_pair(name_key,
1831 vnull),
1832 snull));
8c500701
ILT
1833 }
1834
ead1e424
ILT
1835 if (!ins.second)
1836 {
14b31740 1837 // We already have a symbol table entry for NAME/VERSION.
ead1e424 1838 oldsym = ins.first->second;
a3ad94ed 1839 gold_assert(oldsym != NULL);
8c500701
ILT
1840
1841 if (is_default_version)
1842 {
1843 Sized_symbol<size>* soldsym =
1844 this->get_sized_symbol<size>(oldsym);
1845 this->define_default_version<size, big_endian>(soldsym,
8781f709
ILT
1846 insdefault.second,
1847 insdefault.first);
8c500701 1848 }
ead1e424
ILT
1849 }
1850 else
1851 {
1852 // We haven't seen this symbol before.
a3ad94ed 1853 gold_assert(ins.first->second == NULL);
8c500701
ILT
1854
1855 add_to_table = true;
1856 add_loc = ins.first;
1857
8781f709 1858 if (is_default_version && !insdefault.second)
8c500701
ILT
1859 {
1860 // We are adding NAME/VERSION, and it is the default
1861 // version. We already have an entry for NAME/NULL.
8781f709 1862 oldsym = insdefault.first->second;
8c500701
ILT
1863 *resolve_oldsym = true;
1864 }
1865 else
1866 {
1867 oldsym = NULL;
1868
1869 if (is_default_version)
1870 {
1871 add_def_to_table = true;
8781f709 1872 add_def_loc = insdefault.first;
8c500701
ILT
1873 }
1874 }
ead1e424
ILT
1875 }
1876 }
1877
8851ecca
ILT
1878 const Target& target = parameters->target();
1879 if (!target.has_make_symbol())
86f2e683
ILT
1880 sym = new Sized_symbol<size>();
1881 else
ead1e424 1882 {
029ba973
ILT
1883 Sized_target<size, big_endian>* sized_target =
1884 parameters->sized_target<size, big_endian>();
dc1c8a16
CC
1885 sym = sized_target->make_symbol(*pname, elfcpp::STT_NOTYPE,
1886 NULL, elfcpp::SHN_UNDEF, 0);
86f2e683
ILT
1887 if (sym == NULL)
1888 return NULL;
1889 }
ead1e424 1890
86f2e683
ILT
1891 if (add_to_table)
1892 add_loc->second = sym;
1893 else
1894 gold_assert(oldsym != NULL);
ead1e424 1895
8c500701
ILT
1896 if (add_def_to_table)
1897 add_def_loc->second = sym;
1898
7d1a9ebb 1899 *poldsym = this->get_sized_symbol<size>(oldsym);
ead1e424
ILT
1900
1901 return sym;
1902}
1903
1904// Define a symbol based on an Output_data.
1905
14b31740 1906Symbol*
2ea97941
ILT
1907Symbol_table::define_in_output_data(const char* name,
1908 const char* version,
99fff23b 1909 Defined defined,
9b07f471 1910 Output_data* od,
2ea97941
ILT
1911 uint64_t value,
1912 uint64_t symsize,
9b07f471
ILT
1913 elfcpp::STT type,
1914 elfcpp::STB binding,
ead1e424
ILT
1915 elfcpp::STV visibility,
1916 unsigned char nonvis,
2ea97941 1917 bool offset_is_from_end,
ead1e424
ILT
1918 bool only_if_ref)
1919{
8851ecca 1920 if (parameters->target().get_size() == 32)
86f2e683
ILT
1921 {
1922#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
99fff23b 1923 return this->do_define_in_output_data<32>(name, version, defined, od,
2ea97941 1924 value, symsize, type, binding,
86f2e683 1925 visibility, nonvis,
2ea97941 1926 offset_is_from_end,
86f2e683
ILT
1927 only_if_ref);
1928#else
1929 gold_unreachable();
1930#endif
1931 }
8851ecca 1932 else if (parameters->target().get_size() == 64)
86f2e683
ILT
1933 {
1934#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
99fff23b 1935 return this->do_define_in_output_data<64>(name, version, defined, od,
2ea97941 1936 value, symsize, type, binding,
86f2e683 1937 visibility, nonvis,
2ea97941 1938 offset_is_from_end,
86f2e683
ILT
1939 only_if_ref);
1940#else
1941 gold_unreachable();
1942#endif
1943 }
ead1e424 1944 else
a3ad94ed 1945 gold_unreachable();
ead1e424
ILT
1946}
1947
1948// Define a symbol in an Output_data, sized version.
1949
1950template<int size>
14b31740 1951Sized_symbol<size>*
ead1e424 1952Symbol_table::do_define_in_output_data(
2ea97941
ILT
1953 const char* name,
1954 const char* version,
99fff23b 1955 Defined defined,
ead1e424 1956 Output_data* od,
2ea97941
ILT
1957 typename elfcpp::Elf_types<size>::Elf_Addr value,
1958 typename elfcpp::Elf_types<size>::Elf_WXword symsize,
ead1e424
ILT
1959 elfcpp::STT type,
1960 elfcpp::STB binding,
1961 elfcpp::STV visibility,
1962 unsigned char nonvis,
2ea97941 1963 bool offset_is_from_end,
ead1e424
ILT
1964 bool only_if_ref)
1965{
1966 Sized_symbol<size>* sym;
86f2e683 1967 Sized_symbol<size>* oldsym;
8c500701 1968 bool resolve_oldsym;
40d7d93f 1969 const bool is_forced_local = binding == elfcpp::STB_LOCAL;
ead1e424 1970
8851ecca 1971 if (parameters->target().is_big_endian())
193a53d9
ILT
1972 {
1973#if defined(HAVE_TARGET_32_BIG) || defined(HAVE_TARGET_64_BIG)
2ea97941 1974 sym = this->define_special_symbol<size, true>(&name, &version,
8c500701 1975 only_if_ref, &oldsym,
40d7d93f
CC
1976 &resolve_oldsym,
1977 is_forced_local);
193a53d9
ILT
1978#else
1979 gold_unreachable();
1980#endif
1981 }
ead1e424 1982 else
193a53d9
ILT
1983 {
1984#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_64_LITTLE)
2ea97941 1985 sym = this->define_special_symbol<size, false>(&name, &version,
8c500701 1986 only_if_ref, &oldsym,
40d7d93f
CC
1987 &resolve_oldsym,
1988 is_forced_local);
193a53d9
ILT
1989#else
1990 gold_unreachable();
1991#endif
1992 }
ead1e424
ILT
1993
1994 if (sym == NULL)
14b31740 1995 return NULL;
ead1e424 1996
2ea97941 1997 sym->init_output_data(name, version, od, value, symsize, type, binding,
5146f448
CC
1998 visibility, nonvis, offset_is_from_end,
1999 defined == PREDEFINED);
14b31740 2000
e5756efb 2001 if (oldsym == NULL)
55a93433 2002 {
40d7d93f 2003 if (is_forced_local || this->version_script_.symbol_is_local(name))
55a93433 2004 this->force_local(sym);
2ea97941 2005 else if (version != NULL)
75517b77 2006 sym->set_is_default();
55a93433
ILT
2007 return sym;
2008 }
86f2e683 2009
62855347 2010 if (Symbol_table::should_override_with_special(oldsym, type, defined))
e5756efb 2011 this->override_with_special(oldsym, sym);
8c500701
ILT
2012
2013 if (resolve_oldsym)
2014 return sym;
2015 else
2016 {
db1ff028 2017 if (defined == PREDEFINED
40d7d93f 2018 && (is_forced_local || this->version_script_.symbol_is_local(name)))
5417c94d 2019 this->force_local(oldsym);
8c500701
ILT
2020 delete sym;
2021 return oldsym;
2022 }
ead1e424
ILT
2023}
2024
2025// Define a symbol based on an Output_segment.
2026
14b31740 2027Symbol*
2ea97941 2028Symbol_table::define_in_output_segment(const char* name,
99fff23b
ILT
2029 const char* version,
2030 Defined defined,
2031 Output_segment* os,
2ea97941
ILT
2032 uint64_t value,
2033 uint64_t symsize,
9b07f471
ILT
2034 elfcpp::STT type,
2035 elfcpp::STB binding,
ead1e424
ILT
2036 elfcpp::STV visibility,
2037 unsigned char nonvis,
2ea97941 2038 Symbol::Segment_offset_base offset_base,
ead1e424
ILT
2039 bool only_if_ref)
2040{
8851ecca 2041 if (parameters->target().get_size() == 32)
86f2e683
ILT
2042 {
2043#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
99fff23b 2044 return this->do_define_in_output_segment<32>(name, version, defined, os,
2ea97941 2045 value, symsize, type,
86f2e683 2046 binding, visibility, nonvis,
2ea97941 2047 offset_base, only_if_ref);
86f2e683
ILT
2048#else
2049 gold_unreachable();
2050#endif
2051 }
8851ecca 2052 else if (parameters->target().get_size() == 64)
86f2e683
ILT
2053 {
2054#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
99fff23b 2055 return this->do_define_in_output_segment<64>(name, version, defined, os,
2ea97941 2056 value, symsize, type,
86f2e683 2057 binding, visibility, nonvis,
2ea97941 2058 offset_base, only_if_ref);
86f2e683
ILT
2059#else
2060 gold_unreachable();
2061#endif
2062 }
ead1e424 2063 else
a3ad94ed 2064 gold_unreachable();
ead1e424
ILT
2065}
2066
2067// Define a symbol in an Output_segment, sized version.
2068
2069template<int size>
14b31740 2070Sized_symbol<size>*
ead1e424 2071Symbol_table::do_define_in_output_segment(
2ea97941
ILT
2072 const char* name,
2073 const char* version,
99fff23b 2074 Defined defined,
ead1e424 2075 Output_segment* os,
2ea97941
ILT
2076 typename elfcpp::Elf_types<size>::Elf_Addr value,
2077 typename elfcpp::Elf_types<size>::Elf_WXword symsize,
ead1e424
ILT
2078 elfcpp::STT type,
2079 elfcpp::STB binding,
2080 elfcpp::STV visibility,
2081 unsigned char nonvis,
2ea97941 2082 Symbol::Segment_offset_base offset_base,
ead1e424
ILT
2083 bool only_if_ref)
2084{
2085 Sized_symbol<size>* sym;
86f2e683 2086 Sized_symbol<size>* oldsym;
8c500701 2087 bool resolve_oldsym;
40d7d93f 2088 const bool is_forced_local = binding == elfcpp::STB_LOCAL;
ead1e424 2089
8851ecca 2090 if (parameters->target().is_big_endian())
9025d29d
ILT
2091 {
2092#if defined(HAVE_TARGET_32_BIG) || defined(HAVE_TARGET_64_BIG)
2ea97941 2093 sym = this->define_special_symbol<size, true>(&name, &version,
8c500701 2094 only_if_ref, &oldsym,
40d7d93f
CC
2095 &resolve_oldsym,
2096 is_forced_local);
9025d29d
ILT
2097#else
2098 gold_unreachable();
2099#endif
2100 }
ead1e424 2101 else
9025d29d
ILT
2102 {
2103#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_64_LITTLE)
2ea97941 2104 sym = this->define_special_symbol<size, false>(&name, &version,
8c500701 2105 only_if_ref, &oldsym,
40d7d93f
CC
2106 &resolve_oldsym,
2107 is_forced_local);
9025d29d
ILT
2108#else
2109 gold_unreachable();
2110#endif
2111 }
ead1e424
ILT
2112
2113 if (sym == NULL)
14b31740 2114 return NULL;
ead1e424 2115
2ea97941 2116 sym->init_output_segment(name, version, os, value, symsize, type, binding,
5146f448
CC
2117 visibility, nonvis, offset_base,
2118 defined == PREDEFINED);
14b31740 2119
e5756efb 2120 if (oldsym == NULL)
55a93433 2121 {
40d7d93f 2122 if (is_forced_local || this->version_script_.symbol_is_local(name))
55a93433 2123 this->force_local(sym);
2ea97941 2124 else if (version != NULL)
75517b77 2125 sym->set_is_default();
55a93433
ILT
2126 return sym;
2127 }
86f2e683 2128
62855347 2129 if (Symbol_table::should_override_with_special(oldsym, type, defined))
e5756efb 2130 this->override_with_special(oldsym, sym);
8c500701
ILT
2131
2132 if (resolve_oldsym)
2133 return sym;
2134 else
2135 {
40d7d93f 2136 if (is_forced_local || this->version_script_.symbol_is_local(name))
5417c94d 2137 this->force_local(oldsym);
8c500701
ILT
2138 delete sym;
2139 return oldsym;
2140 }
ead1e424
ILT
2141}
2142
2143// Define a special symbol with a constant value. It is a multiple
2144// definition error if this symbol is already defined.
2145
14b31740 2146Symbol*
2ea97941
ILT
2147Symbol_table::define_as_constant(const char* name,
2148 const char* version,
99fff23b 2149 Defined defined,
2ea97941
ILT
2150 uint64_t value,
2151 uint64_t symsize,
9b07f471
ILT
2152 elfcpp::STT type,
2153 elfcpp::STB binding,
2154 elfcpp::STV visibility,
2155 unsigned char nonvis,
caa9d5d9
ILT
2156 bool only_if_ref,
2157 bool force_override)
ead1e424 2158{
8851ecca 2159 if (parameters->target().get_size() == 32)
86f2e683
ILT
2160 {
2161#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
99fff23b 2162 return this->do_define_as_constant<32>(name, version, defined, value,
2ea97941 2163 symsize, type, binding,
caa9d5d9
ILT
2164 visibility, nonvis, only_if_ref,
2165 force_override);
86f2e683
ILT
2166#else
2167 gold_unreachable();
2168#endif
2169 }
8851ecca 2170 else if (parameters->target().get_size() == 64)
86f2e683
ILT
2171 {
2172#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
99fff23b 2173 return this->do_define_as_constant<64>(name, version, defined, value,
2ea97941 2174 symsize, type, binding,
caa9d5d9
ILT
2175 visibility, nonvis, only_if_ref,
2176 force_override);
86f2e683
ILT
2177#else
2178 gold_unreachable();
2179#endif
2180 }
ead1e424 2181 else
a3ad94ed 2182 gold_unreachable();
ead1e424
ILT
2183}
2184
2185// Define a symbol as a constant, sized version.
2186
2187template<int size>
14b31740 2188Sized_symbol<size>*
ead1e424 2189Symbol_table::do_define_as_constant(
2ea97941
ILT
2190 const char* name,
2191 const char* version,
99fff23b 2192 Defined defined,
2ea97941
ILT
2193 typename elfcpp::Elf_types<size>::Elf_Addr value,
2194 typename elfcpp::Elf_types<size>::Elf_WXword symsize,
ead1e424
ILT
2195 elfcpp::STT type,
2196 elfcpp::STB binding,
2197 elfcpp::STV visibility,
2198 unsigned char nonvis,
caa9d5d9
ILT
2199 bool only_if_ref,
2200 bool force_override)
ead1e424
ILT
2201{
2202 Sized_symbol<size>* sym;
86f2e683 2203 Sized_symbol<size>* oldsym;
8c500701 2204 bool resolve_oldsym;
40d7d93f 2205 const bool is_forced_local = binding == elfcpp::STB_LOCAL;
ead1e424 2206
8851ecca 2207 if (parameters->target().is_big_endian())
9025d29d
ILT
2208 {
2209#if defined(HAVE_TARGET_32_BIG) || defined(HAVE_TARGET_64_BIG)
2ea97941 2210 sym = this->define_special_symbol<size, true>(&name, &version,
8c500701 2211 only_if_ref, &oldsym,
40d7d93f
CC
2212 &resolve_oldsym,
2213 is_forced_local);
9025d29d
ILT
2214#else
2215 gold_unreachable();
2216#endif
2217 }
ead1e424 2218 else
9025d29d
ILT
2219 {
2220#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_64_LITTLE)
2ea97941 2221 sym = this->define_special_symbol<size, false>(&name, &version,
8c500701 2222 only_if_ref, &oldsym,
40d7d93f
CC
2223 &resolve_oldsym,
2224 is_forced_local);
9025d29d
ILT
2225#else
2226 gold_unreachable();
2227#endif
2228 }
ead1e424
ILT
2229
2230 if (sym == NULL)
14b31740 2231 return NULL;
ead1e424 2232
2ea97941 2233 sym->init_constant(name, version, value, symsize, type, binding, visibility,
5146f448 2234 nonvis, defined == PREDEFINED);
14b31740 2235
e5756efb 2236 if (oldsym == NULL)
55a93433 2237 {
686c8caf
ILT
2238 // Version symbols are absolute symbols with name == version.
2239 // We don't want to force them to be local.
2ea97941
ILT
2240 if ((version == NULL
2241 || name != version
2242 || value != 0)
40d7d93f 2243 && (is_forced_local || this->version_script_.symbol_is_local(name)))
55a93433 2244 this->force_local(sym);
2ea97941
ILT
2245 else if (version != NULL
2246 && (name != version || value != 0))
75517b77 2247 sym->set_is_default();
55a93433
ILT
2248 return sym;
2249 }
86f2e683 2250
99fff23b 2251 if (force_override
62855347 2252 || Symbol_table::should_override_with_special(oldsym, type, defined))
e5756efb 2253 this->override_with_special(oldsym, sym);
8c500701
ILT
2254
2255 if (resolve_oldsym)
2256 return sym;
2257 else
2258 {
40d7d93f 2259 if (is_forced_local || this->version_script_.symbol_is_local(name))
5417c94d 2260 this->force_local(oldsym);
8c500701
ILT
2261 delete sym;
2262 return oldsym;
2263 }
ead1e424
ILT
2264}
2265
2266// Define a set of symbols in output sections.
2267
2268void
9b07f471 2269Symbol_table::define_symbols(const Layout* layout, int count,
a445fddf
ILT
2270 const Define_symbol_in_section* p,
2271 bool only_if_ref)
ead1e424
ILT
2272{
2273 for (int i = 0; i < count; ++i, ++p)
2274 {
2275 Output_section* os = layout->find_output_section(p->output_section);
2276 if (os != NULL)
99fff23b 2277 this->define_in_output_data(p->name, NULL, PREDEFINED, os, p->value,
14b31740
ILT
2278 p->size, p->type, p->binding,
2279 p->visibility, p->nonvis,
a445fddf
ILT
2280 p->offset_is_from_end,
2281 only_if_ref || p->only_if_ref);
ead1e424 2282 else
99fff23b
ILT
2283 this->define_as_constant(p->name, NULL, PREDEFINED, 0, p->size,
2284 p->type, p->binding, p->visibility, p->nonvis,
caa9d5d9
ILT
2285 only_if_ref || p->only_if_ref,
2286 false);
ead1e424
ILT
2287 }
2288}
2289
2290// Define a set of symbols in output segments.
2291
2292void
9b07f471 2293Symbol_table::define_symbols(const Layout* layout, int count,
a445fddf
ILT
2294 const Define_symbol_in_segment* p,
2295 bool only_if_ref)
ead1e424
ILT
2296{
2297 for (int i = 0; i < count; ++i, ++p)
2298 {
2299 Output_segment* os = layout->find_output_segment(p->segment_type,
2300 p->segment_flags_set,
2301 p->segment_flags_clear);
2302 if (os != NULL)
99fff23b 2303 this->define_in_output_segment(p->name, NULL, PREDEFINED, os, p->value,
14b31740
ILT
2304 p->size, p->type, p->binding,
2305 p->visibility, p->nonvis,
a445fddf
ILT
2306 p->offset_base,
2307 only_if_ref || p->only_if_ref);
ead1e424 2308 else
99fff23b
ILT
2309 this->define_as_constant(p->name, NULL, PREDEFINED, 0, p->size,
2310 p->type, p->binding, p->visibility, p->nonvis,
caa9d5d9
ILT
2311 only_if_ref || p->only_if_ref,
2312 false);
ead1e424
ILT
2313 }
2314}
2315
46fe1623
ILT
2316// Define CSYM using a COPY reloc. POSD is the Output_data where the
2317// symbol should be defined--typically a .dyn.bss section. VALUE is
2318// the offset within POSD.
2319
2320template<int size>
2321void
fe8718a4 2322Symbol_table::define_with_copy_reloc(
fe8718a4
ILT
2323 Sized_symbol<size>* csym,
2324 Output_data* posd,
2ea97941 2325 typename elfcpp::Elf_types<size>::Elf_Addr value)
46fe1623
ILT
2326{
2327 gold_assert(csym->is_from_dynobj());
2328 gold_assert(!csym->is_copied_from_dynobj());
2ea97941
ILT
2329 Object* object = csym->object();
2330 gold_assert(object->is_dynamic());
2331 Dynobj* dynobj = static_cast<Dynobj*>(object);
46fe1623
ILT
2332
2333 // Our copied variable has to override any variable in a shared
2334 // library.
2335 elfcpp::STB binding = csym->binding();
2336 if (binding == elfcpp::STB_WEAK)
2337 binding = elfcpp::STB_GLOBAL;
2338
99fff23b 2339 this->define_in_output_data(csym->name(), csym->version(), COPY,
2ea97941 2340 posd, value, csym->symsize(),
46fe1623
ILT
2341 csym->type(), binding,
2342 csym->visibility(), csym->nonvis(),
2343 false, false);
2344
2345 csym->set_is_copied_from_dynobj();
2346 csym->set_needs_dynsym_entry();
2347
2348 this->copied_symbol_dynobjs_[csym] = dynobj;
2349
2350 // We have now defined all aliases, but we have not entered them all
2351 // in the copied_symbol_dynobjs_ map.
2352 if (csym->has_alias())
2353 {
2354 Symbol* sym = csym;
2355 while (true)
2356 {
2357 sym = this->weak_aliases_[sym];
2358 if (sym == csym)
2359 break;
2360 gold_assert(sym->output_data() == posd);
2361
2362 sym->set_is_copied_from_dynobj();
2363 this->copied_symbol_dynobjs_[sym] = dynobj;
2364 }
2365 }
2366}
2367
2368// SYM is defined using a COPY reloc. Return the dynamic object where
2369// the original definition was found.
2370
2371Dynobj*
2372Symbol_table::get_copy_source(const Symbol* sym) const
2373{
2374 gold_assert(sym->is_copied_from_dynobj());
2375 Copied_symbol_dynobjs::const_iterator p =
2376 this->copied_symbol_dynobjs_.find(sym);
2377 gold_assert(p != this->copied_symbol_dynobjs_.end());
2378 return p->second;
2379}
2380
f3e9c5c5
ILT
2381// Add any undefined symbols named on the command line.
2382
2383void
88a4108b 2384Symbol_table::add_undefined_symbols_from_command_line(Layout* layout)
f3e9c5c5 2385{
88a4108b
ILT
2386 if (parameters->options().any_undefined()
2387 || layout->script_options()->any_unreferenced())
f3e9c5c5
ILT
2388 {
2389 if (parameters->target().get_size() == 32)
2390 {
5adf9721 2391#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
88a4108b 2392 this->do_add_undefined_symbols_from_command_line<32>(layout);
f3e9c5c5
ILT
2393#else
2394 gold_unreachable();
2395#endif
2396 }
2397 else if (parameters->target().get_size() == 64)
2398 {
2399#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
88a4108b 2400 this->do_add_undefined_symbols_from_command_line<64>(layout);
f3e9c5c5
ILT
2401#else
2402 gold_unreachable();
2403#endif
2404 }
2405 else
2406 gold_unreachable();
2407 }
2408}
2409
2410template<int size>
2411void
88a4108b 2412Symbol_table::do_add_undefined_symbols_from_command_line(Layout* layout)
f3e9c5c5
ILT
2413{
2414 for (options::String_set::const_iterator p =
2415 parameters->options().undefined_begin();
2416 p != parameters->options().undefined_end();
2417 ++p)
88a4108b 2418 this->add_undefined_symbol_from_command_line<size>(p->c_str());
f3e9c5c5 2419
31821be0
CC
2420 for (options::String_set::const_iterator p =
2421 parameters->options().export_dynamic_symbol_begin();
2422 p != parameters->options().export_dynamic_symbol_end();
2423 ++p)
2424 this->add_undefined_symbol_from_command_line<size>(p->c_str());
2425
88a4108b
ILT
2426 for (Script_options::referenced_const_iterator p =
2427 layout->script_options()->referenced_begin();
2428 p != layout->script_options()->referenced_end();
2429 ++p)
2430 this->add_undefined_symbol_from_command_line<size>(p->c_str());
2431}
2432
2433template<int size>
2434void
2435Symbol_table::add_undefined_symbol_from_command_line(const char* name)
2436{
2437 if (this->lookup(name) != NULL)
2438 return;
f3e9c5c5 2439
88a4108b 2440 const char* version = NULL;
f3e9c5c5 2441
88a4108b
ILT
2442 Sized_symbol<size>* sym;
2443 Sized_symbol<size>* oldsym;
2444 bool resolve_oldsym;
2445 if (parameters->target().is_big_endian())
2446 {
f3e9c5c5 2447#if defined(HAVE_TARGET_32_BIG) || defined(HAVE_TARGET_64_BIG)
88a4108b
ILT
2448 sym = this->define_special_symbol<size, true>(&name, &version,
2449 false, &oldsym,
40d7d93f
CC
2450 &resolve_oldsym,
2451 false);
f3e9c5c5 2452#else
88a4108b 2453 gold_unreachable();
f3e9c5c5 2454#endif
88a4108b
ILT
2455 }
2456 else
2457 {
f3e9c5c5 2458#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_64_LITTLE)
88a4108b
ILT
2459 sym = this->define_special_symbol<size, false>(&name, &version,
2460 false, &oldsym,
40d7d93f
CC
2461 &resolve_oldsym,
2462 false);
f3e9c5c5 2463#else
88a4108b 2464 gold_unreachable();
f3e9c5c5 2465#endif
88a4108b 2466 }
f3e9c5c5 2467
88a4108b 2468 gold_assert(oldsym == NULL);
f3e9c5c5 2469
dc1c8a16 2470 sym->init_undefined(name, version, 0, elfcpp::STT_NOTYPE, elfcpp::STB_GLOBAL,
88a4108b
ILT
2471 elfcpp::STV_DEFAULT, 0);
2472 ++this->saw_undefined_;
f3e9c5c5
ILT
2473}
2474
a3ad94ed 2475// Set the dynamic symbol indexes. INDEX is the index of the first
c4d5a762
CC
2476// global dynamic symbol. Pointers to the global symbols are stored
2477// into the vector SYMS. The names are added to DYNPOOL.
2478// This returns an updated dynamic symbol index.
a3ad94ed
ILT
2479
2480unsigned int
9b07f471 2481Symbol_table::set_dynsym_indexes(unsigned int index,
c4d5a762 2482 unsigned int* pforced_local_count,
a3ad94ed 2483 std::vector<Symbol*>* syms,
14b31740
ILT
2484 Stringpool* dynpool,
2485 Versions* versions)
a3ad94ed 2486{
32e2b61d
AM
2487 std::vector<Symbol*> as_needed_sym;
2488
c4d5a762
CC
2489 // First process all the symbols which have been forced to be local,
2490 // as they must appear before all global symbols.
2491 unsigned int forced_local_count = 0;
2492 for (Forced_locals::iterator p = this->forced_locals_.begin();
2493 p != this->forced_locals_.end();
2494 ++p)
2495 {
2496 Symbol* sym = *p;
2497 gold_assert(sym->is_forced_local());
2498 if (sym->has_dynsym_index())
2499 continue;
2500 if (!sym->should_add_dynsym_entry(this))
2501 sym->set_dynsym_index(-1U);
2502 else
2503 {
2504 sym->set_dynsym_index(index);
2505 ++index;
2506 ++forced_local_count;
2507 dynpool->add(sym->name(), false, NULL);
2508 }
2509 }
2510 *pforced_local_count = forced_local_count;
2511
98ff9231
CC
2512 // Allow a target to set dynsym indexes.
2513 if (parameters->target().has_custom_set_dynsym_indexes())
2514 {
2515 std::vector<Symbol*> dyn_symbols;
2516 for (Symbol_table_type::iterator p = this->table_.begin();
2517 p != this->table_.end();
2518 ++p)
2519 {
2520 Symbol* sym = p->second;
c4d5a762
CC
2521 if (sym->is_forced_local())
2522 continue;
98ff9231
CC
2523 if (!sym->should_add_dynsym_entry(this))
2524 sym->set_dynsym_index(-1U);
2525 else
2526 dyn_symbols.push_back(sym);
2527 }
2528
2529 return parameters->target().set_dynsym_indexes(&dyn_symbols, index, syms,
2530 dynpool, versions, this);
2531 }
2532
a3ad94ed
ILT
2533 for (Symbol_table_type::iterator p = this->table_.begin();
2534 p != this->table_.end();
2535 ++p)
2536 {
2537 Symbol* sym = p->second;
16649710 2538
c4d5a762
CC
2539 if (sym->is_forced_local())
2540 continue;
2541
16649710
ILT
2542 // Note that SYM may already have a dynamic symbol index, since
2543 // some symbols appear more than once in the symbol table, with
2544 // and without a version.
2545
ce97fa81 2546 if (!sym->should_add_dynsym_entry(this))
16649710
ILT
2547 sym->set_dynsym_index(-1U);
2548 else if (!sym->has_dynsym_index())
a3ad94ed
ILT
2549 {
2550 sym->set_dynsym_index(index);
2551 ++index;
2552 syms->push_back(sym);
cfd73a4e 2553 dynpool->add(sym->name(), false, NULL);
14b31740 2554
594c8e5e 2555 // If the symbol is defined in a dynamic object and is
32e2b61d
AM
2556 // referenced strongly in a regular object, then mark the
2557 // dynamic object as needed. This is used to implement
2558 // --as-needed.
2559 if (sym->is_from_dynobj()
2560 && sym->in_reg()
2561 && !sym->is_undef_binding_weak())
594c8e5e 2562 sym->object()->set_is_needed();
32e2b61d
AM
2563
2564 // Record any version information, except those from
2565 // as-needed libraries not seen to be needed. Note that the
2566 // is_needed state for such libraries can change in this loop.
2567 if (sym->version() != NULL)
2568 {
2569 if (!sym->is_from_dynobj()
2570 || !sym->object()->as_needed()
2571 || sym->object()->is_needed())
2572 versions->record_version(this, dynpool, sym);
2573 else
2574 as_needed_sym.push_back(sym);
2575 }
a3ad94ed
ILT
2576 }
2577 }
2578
32e2b61d
AM
2579 // Process version information for symbols from as-needed libraries.
2580 for (std::vector<Symbol*>::iterator p = as_needed_sym.begin();
2581 p != as_needed_sym.end();
2582 ++p)
2583 {
2584 Symbol* sym = *p;
2585
2586 if (sym->object()->is_needed())
2587 versions->record_version(this, dynpool, sym);
2588 else
2589 sym->clear_version();
2590 }
2591
14b31740
ILT
2592 // Finish up the versions. In some cases this may add new dynamic
2593 // symbols.
9b07f471 2594 index = versions->finalize(this, index, syms);
14b31740 2595
dc1c8a16
CC
2596 // Process target-specific symbols.
2597 for (std::vector<Symbol*>::iterator p = this->target_symbols_.begin();
2598 p != this->target_symbols_.end();
2599 ++p)
2600 {
2601 (*p)->set_dynsym_index(index);
2602 ++index;
2603 syms->push_back(*p);
2604 dynpool->add((*p)->name(), false, NULL);
2605 }
2606
a3ad94ed
ILT
2607 return index;
2608}
2609
c06b7b0b 2610// Set the final values for all the symbols. The index of the first
55a93433
ILT
2611// global symbol in the output file is *PLOCAL_SYMCOUNT. Record the
2612// file offset OFF. Add their names to POOL. Return the new file
c4d5a762
CC
2613// offset. Update *PLOCAL_SYMCOUNT if necessary. DYNOFF and
2614// DYN_GLOBAL_INDEX refer to the start of the symbols that will be
2615// written from the global symbol table in Symtab::write_globals(),
2616// which will include forced-local symbols. DYN_GLOBAL_INDEX is
2617// not necessarily the same as the sh_info field for the .dynsym
2618// section, which will point to the first real global symbol.
54dc6425 2619
75f65a3e 2620off_t
55a93433
ILT
2621Symbol_table::finalize(off_t off, off_t dynoff, size_t dyn_global_index,
2622 size_t dyncount, Stringpool* pool,
ca09d69a 2623 unsigned int* plocal_symcount)
54dc6425 2624{
f6ce93d6
ILT
2625 off_t ret;
2626
55a93433
ILT
2627 gold_assert(*plocal_symcount != 0);
2628 this->first_global_index_ = *plocal_symcount;
c06b7b0b 2629
16649710
ILT
2630 this->dynamic_offset_ = dynoff;
2631 this->first_dynamic_global_index_ = dyn_global_index;
2632 this->dynamic_count_ = dyncount;
2633
8851ecca 2634 if (parameters->target().get_size() == 32)
9025d29d
ILT
2635 {
2636#if defined(HAVE_TARGET_32_BIG) || defined(HAVE_TARGET_32_LITTLE)
55a93433 2637 ret = this->sized_finalize<32>(off, pool, plocal_symcount);
9025d29d
ILT
2638#else
2639 gold_unreachable();
2640#endif
2641 }
8851ecca 2642 else if (parameters->target().get_size() == 64)
9025d29d
ILT
2643 {
2644#if defined(HAVE_TARGET_64_BIG) || defined(HAVE_TARGET_64_LITTLE)
55a93433 2645 ret = this->sized_finalize<64>(off, pool, plocal_symcount);
9025d29d
ILT
2646#else
2647 gold_unreachable();
2648#endif
2649 }
61ba1cf9 2650 else
a3ad94ed 2651 gold_unreachable();
f6ce93d6
ILT
2652
2653 // Now that we have the final symbol table, we can reliably note
2654 // which symbols should get warnings.
cb295612 2655 this->warnings_.note_warnings(this);
f6ce93d6
ILT
2656
2657 return ret;
75f65a3e
ILT
2658}
2659
55a93433
ILT
2660// SYM is going into the symbol table at *PINDEX. Add the name to
2661// POOL, update *PINDEX and *POFF.
2662
2663template<int size>
2664void
2665Symbol_table::add_to_final_symtab(Symbol* sym, Stringpool* pool,
2666 unsigned int* pindex, off_t* poff)
2667{
2668 sym->set_symtab_index(*pindex);
6d1c4efb
ILT
2669 if (sym->version() == NULL || !parameters->options().relocatable())
2670 pool->add(sym->name(), false, NULL);
2671 else
2672 pool->add(sym->versioned_name(), true, NULL);
55a93433
ILT
2673 ++*pindex;
2674 *poff += elfcpp::Elf_sizes<size>::sym_size;
2675}
2676
ead1e424
ILT
2677// Set the final value for all the symbols. This is called after
2678// Layout::finalize, so all the output sections have their final
2679// address.
75f65a3e
ILT
2680
2681template<int size>
2682off_t
55a93433
ILT
2683Symbol_table::sized_finalize(off_t off, Stringpool* pool,
2684 unsigned int* plocal_symcount)
75f65a3e 2685{
ead1e424 2686 off = align_address(off, size >> 3);
75f65a3e
ILT
2687 this->offset_ = off;
2688
55a93433
ILT
2689 unsigned int index = *plocal_symcount;
2690 const unsigned int orig_index = index;
c06b7b0b 2691
55a93433
ILT
2692 // First do all the symbols which have been forced to be local, as
2693 // they must appear before all global symbols.
2694 for (Forced_locals::iterator p = this->forced_locals_.begin();
2695 p != this->forced_locals_.end();
2696 ++p)
2697 {
2698 Symbol* sym = *p;
2699 gold_assert(sym->is_forced_local());
2700 if (this->sized_finalize_symbol<size>(sym))
2701 {
2702 this->add_to_final_symtab<size>(sym, pool, &index, &off);
2703 ++*plocal_symcount;
2704 }
2705 }
2706
2707 // Now do all the remaining symbols.
c06b7b0b
ILT
2708 for (Symbol_table_type::iterator p = this->table_.begin();
2709 p != this->table_.end();
2710 ++p)
54dc6425 2711 {
55a93433
ILT
2712 Symbol* sym = p->second;
2713 if (this->sized_finalize_symbol<size>(sym))
2714 this->add_to_final_symtab<size>(sym, pool, &index, &off);
2715 }
54dc6425 2716
dc1c8a16
CC
2717 // Now do target-specific symbols.
2718 for (std::vector<Symbol*>::iterator p = this->target_symbols_.begin();
2719 p != this->target_symbols_.end();
2720 ++p)
2721 {
2722 this->add_to_final_symtab<size>(*p, pool, &index, &off);
2723 }
2724
55a93433 2725 this->output_count_ = index - orig_index;
a3ad94ed 2726
55a93433
ILT
2727 return off;
2728}
75f65a3e 2729
c0a62865
DK
2730// Compute the final value of SYM and store status in location PSTATUS.
2731// During relaxation, this may be called multiple times for a symbol to
2732// compute its would-be final value in each relaxation pass.
008db82e 2733
55a93433 2734template<int size>
c0a62865
DK
2735typename Sized_symbol<size>::Value_type
2736Symbol_table::compute_final_value(
2737 const Sized_symbol<size>* sym,
2738 Compute_final_value_status* pstatus) const
55a93433 2739{
ef9beddf 2740 typedef typename Sized_symbol<size>::Value_type Value_type;
2ea97941 2741 Value_type value;
ead1e424 2742
55a93433
ILT
2743 switch (sym->source())
2744 {
2745 case Symbol::FROM_OBJECT:
2746 {
d491d34e 2747 bool is_ordinary;
2ea97941 2748 unsigned int shndx = sym->shndx(&is_ordinary);
ead1e424 2749
d491d34e 2750 if (!is_ordinary
2ea97941
ILT
2751 && shndx != elfcpp::SHN_ABS
2752 && !Symbol::is_common_shndx(shndx))
55a93433 2753 {
c0a62865
DK
2754 *pstatus = CFVS_UNSUPPORTED_SYMBOL_SECTION;
2755 return 0;
ead1e424 2756 }
ead1e424 2757
55a93433
ILT
2758 Object* symobj = sym->object();
2759 if (symobj->is_dynamic())
ead1e424 2760 {
2ea97941
ILT
2761 value = 0;
2762 shndx = elfcpp::SHN_UNDEF;
ead1e424 2763 }
89fc3421
CC
2764 else if (symobj->pluginobj() != NULL)
2765 {
2ea97941
ILT
2766 value = 0;
2767 shndx = elfcpp::SHN_UNDEF;
89fc3421 2768 }
2ea97941
ILT
2769 else if (shndx == elfcpp::SHN_UNDEF)
2770 value = 0;
d491d34e 2771 else if (!is_ordinary
2ea97941
ILT
2772 && (shndx == elfcpp::SHN_ABS
2773 || Symbol::is_common_shndx(shndx)))
2774 value = sym->value();
55a93433 2775 else
ead1e424 2776 {
55a93433 2777 Relobj* relobj = static_cast<Relobj*>(symobj);
2ea97941 2778 Output_section* os = relobj->output_section(shndx);
55a93433 2779
2ea97941 2780 if (this->is_section_folded(relobj, shndx))
ef15dade
ST
2781 {
2782 gold_assert(os == NULL);
2783 // Get the os of the section it is folded onto.
2784 Section_id folded = this->icf_->get_folded_section(relobj,
2ea97941 2785 shndx);
ef15dade
ST
2786 gold_assert(folded.first != NULL);
2787 Relobj* folded_obj = reinterpret_cast<Relobj*>(folded.first);
d6344fb5
DK
2788 unsigned folded_shndx = folded.second;
2789
2790 os = folded_obj->output_section(folded_shndx);
ef15dade 2791 gold_assert(os != NULL);
d6344fb5
DK
2792
2793 // Replace (relobj, shndx) with canonical ICF input section.
2794 shndx = folded_shndx;
2795 relobj = folded_obj;
ef15dade
ST
2796 }
2797
d6344fb5 2798 uint64_t secoff64 = relobj->output_section_offset(shndx);
ef15dade 2799 if (os == NULL)
ead1e424 2800 {
6d03d481
ST
2801 bool static_or_reloc = (parameters->doing_static_link() ||
2802 parameters->options().relocatable());
2803 gold_assert(static_or_reloc || sym->dynsym_index() == -1U);
2804
c0a62865
DK
2805 *pstatus = CFVS_NO_OUTPUT_SECTION;
2806 return 0;
ead1e424 2807 }
55a93433 2808
eff45813
CC
2809 if (secoff64 == -1ULL)
2810 {
2811 // The section needs special handling (e.g., a merge section).
ef15dade 2812
2ea97941 2813 value = os->output_address(relobj, shndx, sym->value());
eff45813
CC
2814 }
2815 else
2816 {
2817 Value_type secoff =
2818 convert_types<Value_type, uint64_t>(secoff64);
2819 if (sym->type() == elfcpp::STT_TLS)
2ea97941 2820 value = sym->value() + os->tls_offset() + secoff;
eff45813 2821 else
2ea97941 2822 value = sym->value() + os->address() + secoff;
eff45813 2823 }
ead1e424 2824 }
55a93433
ILT
2825 }
2826 break;
2827
2828 case Symbol::IN_OUTPUT_DATA:
2829 {
2830 Output_data* od = sym->output_data();
2ea97941 2831 value = sym->value();
155a0dd7 2832 if (sym->type() != elfcpp::STT_TLS)
2ea97941 2833 value += od->address();
155a0dd7
ILT
2834 else
2835 {
2836 Output_section* os = od->output_section();
2837 gold_assert(os != NULL);
2ea97941 2838 value += os->tls_offset() + (od->address() - os->address());
155a0dd7 2839 }
55a93433 2840 if (sym->offset_is_from_end())
2ea97941 2841 value += od->data_size();
55a93433
ILT
2842 }
2843 break;
2844
2845 case Symbol::IN_OUTPUT_SEGMENT:
2846 {
2847 Output_segment* os = sym->output_segment();
2ea97941 2848 value = sym->value();
edfbb029 2849 if (sym->type() != elfcpp::STT_TLS)
2ea97941 2850 value += os->vaddr();
55a93433
ILT
2851 switch (sym->offset_base())
2852 {
2853 case Symbol::SEGMENT_START:
2854 break;
2855 case Symbol::SEGMENT_END:
2ea97941 2856 value += os->memsz();
55a93433
ILT
2857 break;
2858 case Symbol::SEGMENT_BSS:
2ea97941 2859 value += os->filesz();
55a93433
ILT
2860 break;
2861 default:
2862 gold_unreachable();
2863 }
2864 }
2865 break;
ead1e424 2866
f3e9c5c5 2867 case Symbol::IS_CONSTANT:
2ea97941 2868 value = sym->value();
55a93433 2869 break;
ead1e424 2870
f3e9c5c5 2871 case Symbol::IS_UNDEFINED:
2ea97941 2872 value = 0;
f3e9c5c5
ILT
2873 break;
2874
55a93433
ILT
2875 default:
2876 gold_unreachable();
2877 }
ead1e424 2878
c0a62865 2879 *pstatus = CFVS_OK;
2ea97941 2880 return value;
c0a62865
DK
2881}
2882
2883// Finalize the symbol SYM. This returns true if the symbol should be
2884// added to the symbol table, false otherwise.
2885
2886template<int size>
2887bool
2888Symbol_table::sized_finalize_symbol(Symbol* unsized_sym)
2889{
2890 typedef typename Sized_symbol<size>::Value_type Value_type;
2891
2892 Sized_symbol<size>* sym = static_cast<Sized_symbol<size>*>(unsized_sym);
2893
2894 // The default version of a symbol may appear twice in the symbol
2895 // table. We only need to finalize it once.
2896 if (sym->has_symtab_index())
2897 return false;
2898
2899 if (!sym->in_reg())
2900 {
2901 gold_assert(!sym->has_symtab_index());
2902 sym->set_symtab_index(-1U);
2903 gold_assert(sym->dynsym_index() == -1U);
2904 return false;
2905 }
2906
badc8139
RÁE
2907 // If the symbol is only present on plugin files, the plugin decided we
2908 // don't need it.
2909 if (!sym->in_real_elf())
2910 {
2911 gold_assert(!sym->has_symtab_index());
2912 sym->set_symtab_index(-1U);
2913 return false;
2914 }
2915
c0a62865
DK
2916 // Compute final symbol value.
2917 Compute_final_value_status status;
2ea97941 2918 Value_type value = this->compute_final_value(sym, &status);
c0a62865
DK
2919
2920 switch (status)
2921 {
2922 case CFVS_OK:
2923 break;
2924 case CFVS_UNSUPPORTED_SYMBOL_SECTION:
2925 {
2926 bool is_ordinary;
2ea97941 2927 unsigned int shndx = sym->shndx(&is_ordinary);
c0a62865 2928 gold_error(_("%s: unsupported symbol section 0x%x"),
2ea97941 2929 sym->demangled_name().c_str(), shndx);
c0a62865
DK
2930 }
2931 break;
2932 case CFVS_NO_OUTPUT_SECTION:
2933 sym->set_symtab_index(-1U);
2934 return false;
2935 default:
2936 gold_unreachable();
2937 }
2938
2ea97941 2939 sym->set_value(value);
9e2dcb77 2940
8c604651
CS
2941 if (parameters->options().strip_all()
2942 || !parameters->options().should_retain_symbol(sym->name()))
55a93433
ILT
2943 {
2944 sym->set_symtab_index(-1U);
2945 return false;
54dc6425 2946 }
75f65a3e 2947
55a93433 2948 return true;
54dc6425
ILT
2949}
2950
61ba1cf9
ILT
2951// Write out the global symbols.
2952
2953void
fd9d194f 2954Symbol_table::write_globals(const Stringpool* sympool,
d491d34e
ILT
2955 const Stringpool* dynpool,
2956 Output_symtab_xindex* symtab_xindex,
2957 Output_symtab_xindex* dynsym_xindex,
2958 Output_file* of) const
61ba1cf9 2959{
8851ecca 2960 switch (parameters->size_and_endianness())
61ba1cf9 2961 {
9025d29d 2962#ifdef HAVE_TARGET_32_LITTLE
8851ecca 2963 case Parameters::TARGET_32_LITTLE:
fd9d194f 2964 this->sized_write_globals<32, false>(sympool, dynpool, symtab_xindex,
d491d34e 2965 dynsym_xindex, of);
8851ecca 2966 break;
9025d29d 2967#endif
8851ecca
ILT
2968#ifdef HAVE_TARGET_32_BIG
2969 case Parameters::TARGET_32_BIG:
fd9d194f 2970 this->sized_write_globals<32, true>(sympool, dynpool, symtab_xindex,
d491d34e 2971 dynsym_xindex, of);
8851ecca 2972 break;
9025d29d 2973#endif
9025d29d 2974#ifdef HAVE_TARGET_64_LITTLE
8851ecca 2975 case Parameters::TARGET_64_LITTLE:
fd9d194f 2976 this->sized_write_globals<64, false>(sympool, dynpool, symtab_xindex,
d491d34e 2977 dynsym_xindex, of);
8851ecca 2978 break;
9025d29d 2979#endif
8851ecca
ILT
2980#ifdef HAVE_TARGET_64_BIG
2981 case Parameters::TARGET_64_BIG:
fd9d194f 2982 this->sized_write_globals<64, true>(sympool, dynpool, symtab_xindex,
d491d34e 2983 dynsym_xindex, of);
8851ecca
ILT
2984 break;
2985#endif
2986 default:
2987 gold_unreachable();
61ba1cf9 2988 }
61ba1cf9
ILT
2989}
2990
2991// Write out the global symbols.
2992
2993template<int size, bool big_endian>
2994void
fd9d194f 2995Symbol_table::sized_write_globals(const Stringpool* sympool,
16649710 2996 const Stringpool* dynpool,
d491d34e
ILT
2997 Output_symtab_xindex* symtab_xindex,
2998 Output_symtab_xindex* dynsym_xindex,
61ba1cf9
ILT
2999 Output_file* of) const
3000{
8851ecca 3001 const Target& target = parameters->target();
9a2d6984 3002
61ba1cf9 3003 const int sym_size = elfcpp::Elf_sizes<size>::sym_size;
55a93433
ILT
3004
3005 const unsigned int output_count = this->output_count_;
3006 const section_size_type oview_size = output_count * sym_size;
3007 const unsigned int first_global_index = this->first_global_index_;
5fe2a0f5
ILT
3008 unsigned char* psyms;
3009 if (this->offset_ == 0 || output_count == 0)
3010 psyms = NULL;
3011 else
3012 psyms = of->get_output_view(this->offset_, oview_size);
16649710 3013
55a93433
ILT
3014 const unsigned int dynamic_count = this->dynamic_count_;
3015 const section_size_type dynamic_size = dynamic_count * sym_size;
3016 const unsigned int first_dynamic_global_index =
3017 this->first_dynamic_global_index_;
16649710 3018 unsigned char* dynamic_view;
5fe2a0f5 3019 if (this->dynamic_offset_ == 0 || dynamic_count == 0)
16649710
ILT
3020 dynamic_view = NULL;
3021 else
3022 dynamic_view = of->get_output_view(this->dynamic_offset_, dynamic_size);
c06b7b0b 3023
61ba1cf9
ILT
3024 for (Symbol_table_type::const_iterator p = this->table_.begin();
3025 p != this->table_.end();
3026 ++p)
3027 {
3028 Sized_symbol<size>* sym = static_cast<Sized_symbol<size>*>(p->second);
3029
9a2d6984 3030 // Possibly warn about unresolved symbols in shared libraries.
fd9d194f 3031 this->warn_about_undefined_dynobj_symbol(sym);
e2827e5f 3032
a3ad94ed 3033 unsigned int sym_index = sym->symtab_index();
16649710
ILT
3034 unsigned int dynsym_index;
3035 if (dynamic_view == NULL)
3036 dynsym_index = -1U;
3037 else
3038 dynsym_index = sym->dynsym_index();
3039
3040 if (sym_index == -1U && dynsym_index == -1U)
a3ad94ed
ILT
3041 {
3042 // This symbol is not included in the output file.
3043 continue;
3044 }
16649710 3045
2ea97941 3046 unsigned int shndx;
88dd47ac
ILT
3047 typename elfcpp::Elf_types<size>::Elf_Addr sym_value = sym->value();
3048 typename elfcpp::Elf_types<size>::Elf_Addr dynsym_value = sym_value;
ce279a62 3049 elfcpp::STB binding = sym->binding();
9634ed06 3050
a100d66f
ST
3051 // If --weak-unresolved-symbols is set, change binding of unresolved
3052 // global symbols to STB_WEAK.
3053 if (parameters->options().weak_unresolved_symbols()
3054 && binding == elfcpp::STB_GLOBAL
3055 && sym->is_undefined())
3056 binding = elfcpp::STB_WEAK;
3057
9634ed06
CC
3058 // If --no-gnu-unique is set, change STB_GNU_UNIQUE to STB_GLOBAL.
3059 if (binding == elfcpp::STB_GNU_UNIQUE
3060 && !parameters->options().gnu_unique())
3061 binding = elfcpp::STB_GLOBAL;
3062
ead1e424
ILT
3063 switch (sym->source())
3064 {
3065 case Symbol::FROM_OBJECT:
3066 {
d491d34e
ILT
3067 bool is_ordinary;
3068 unsigned int in_shndx = sym->shndx(&is_ordinary);
ead1e424 3069
d491d34e 3070 if (!is_ordinary
0dfbdef4 3071 && in_shndx != elfcpp::SHN_ABS
8a5e3e08 3072 && !Symbol::is_common_shndx(in_shndx))
ead1e424 3073 {
75f2446e 3074 gold_error(_("%s: unsupported symbol section 0x%x"),
a2b1aa12 3075 sym->demangled_name().c_str(), in_shndx);
2ea97941 3076 shndx = in_shndx;
f6ce93d6 3077 }
ead1e424
ILT
3078 else
3079 {
75f2446e
ILT
3080 Object* symobj = sym->object();
3081 if (symobj->is_dynamic())
3082 {
3083 if (sym->needs_dynsym_value())
8851ecca 3084 dynsym_value = target.dynsym_value(sym);
2ea97941 3085 shndx = elfcpp::SHN_UNDEF;
ce279a62
CC
3086 if (sym->is_undef_binding_weak())
3087 binding = elfcpp::STB_WEAK;
74f67560
DK
3088 else
3089 binding = elfcpp::STB_GLOBAL;
75f2446e 3090 }
89fc3421 3091 else if (symobj->pluginobj() != NULL)
2ea97941 3092 shndx = elfcpp::SHN_UNDEF;
75f2446e 3093 else if (in_shndx == elfcpp::SHN_UNDEF
d491d34e
ILT
3094 || (!is_ordinary
3095 && (in_shndx == elfcpp::SHN_ABS
8a5e3e08 3096 || Symbol::is_common_shndx(in_shndx))))
2ea97941 3097 shndx = in_shndx;
75f2446e
ILT
3098 else
3099 {
3100 Relobj* relobj = static_cast<Relobj*>(symobj);
ef9beddf 3101 Output_section* os = relobj->output_section(in_shndx);
ef15dade
ST
3102 if (this->is_section_folded(relobj, in_shndx))
3103 {
3104 // This global symbol must be written out even though
3105 // it is folded.
3106 // Get the os of the section it is folded onto.
3107 Section_id folded =
3108 this->icf_->get_folded_section(relobj, in_shndx);
3109 gold_assert(folded.first !=NULL);
3110 Relobj* folded_obj =
3111 reinterpret_cast<Relobj*>(folded.first);
3112 os = folded_obj->output_section(folded.second);
3113 gold_assert(os != NULL);
3114 }
75f2446e 3115 gold_assert(os != NULL);
2ea97941 3116 shndx = os->out_shndx();
88dd47ac 3117
2ea97941 3118 if (shndx >= elfcpp::SHN_LORESERVE)
d491d34e
ILT
3119 {
3120 if (sym_index != -1U)
2ea97941 3121 symtab_xindex->add(sym_index, shndx);
d491d34e 3122 if (dynsym_index != -1U)
2ea97941
ILT
3123 dynsym_xindex->add(dynsym_index, shndx);
3124 shndx = elfcpp::SHN_XINDEX;
d491d34e
ILT
3125 }
3126
88dd47ac
ILT
3127 // In object files symbol values are section
3128 // relative.
8851ecca 3129 if (parameters->options().relocatable())
88dd47ac 3130 sym_value -= os->address();
75f2446e 3131 }
ead1e424
ILT
3132 }
3133 }
3134 break;
3135
3136 case Symbol::IN_OUTPUT_DATA:
502e8a84
CC
3137 {
3138 Output_data* od = sym->output_data();
3139
3140 shndx = od->out_shndx();
3141 if (shndx >= elfcpp::SHN_LORESERVE)
3142 {
3143 if (sym_index != -1U)
3144 symtab_xindex->add(sym_index, shndx);
3145 if (dynsym_index != -1U)
3146 dynsym_xindex->add(dynsym_index, shndx);
3147 shndx = elfcpp::SHN_XINDEX;
3148 }
3149
3150 // In object files symbol values are section
3151 // relative.
3152 if (parameters->options().relocatable())
89ede9f5
CC
3153 {
3154 Output_section* os = od->output_section();
3155 gold_assert(os != NULL);
3156 sym_value -= os->address();
3157 }
502e8a84 3158 }
ead1e424
ILT
3159 break;
3160
3161 case Symbol::IN_OUTPUT_SEGMENT:
eb390844
CC
3162 {
3163 Output_segment* oseg = sym->output_segment();
3164 Output_section* osect = oseg->first_section();
3165 if (osect == NULL)
3166 shndx = elfcpp::SHN_ABS;
3167 else
3168 shndx = osect->out_shndx();
3169 }
ead1e424
ILT
3170 break;
3171
f3e9c5c5 3172 case Symbol::IS_CONSTANT:
2ea97941 3173 shndx = elfcpp::SHN_ABS;
ead1e424
ILT
3174 break;
3175
f3e9c5c5 3176 case Symbol::IS_UNDEFINED:
2ea97941 3177 shndx = elfcpp::SHN_UNDEF;
f3e9c5c5
ILT
3178 break;
3179
ead1e424 3180 default:
a3ad94ed 3181 gold_unreachable();
ead1e424 3182 }
61ba1cf9 3183
16649710
ILT
3184 if (sym_index != -1U)
3185 {
55a93433
ILT
3186 sym_index -= first_global_index;
3187 gold_assert(sym_index < output_count);
3188 unsigned char* ps = psyms + (sym_index * sym_size);
2ea97941 3189 this->sized_write_symbol<size, big_endian>(sym, sym_value, shndx,
ce279a62 3190 binding, sympool, ps);
16649710 3191 }
61ba1cf9 3192
16649710
ILT
3193 if (dynsym_index != -1U)
3194 {
3195 dynsym_index -= first_dynamic_global_index;
3196 gold_assert(dynsym_index < dynamic_count);
3197 unsigned char* pd = dynamic_view + (dynsym_index * sym_size);
2ea97941 3198 this->sized_write_symbol<size, big_endian>(sym, dynsym_value, shndx,
ce279a62 3199 binding, dynpool, pd);
800d9823
CC
3200 // Allow a target to adjust dynamic symbol value.
3201 parameters->target().adjust_dyn_symbol(sym, pd);
16649710 3202 }
61ba1cf9
ILT
3203 }
3204
dc1c8a16
CC
3205 // Write the target-specific symbols.
3206 for (std::vector<Symbol*>::const_iterator p = this->target_symbols_.begin();
3207 p != this->target_symbols_.end();
3208 ++p)
3209 {
3210 Sized_symbol<size>* sym = static_cast<Sized_symbol<size>*>(*p);
3211
3212 unsigned int sym_index = sym->symtab_index();
3213 unsigned int dynsym_index;
3214 if (dynamic_view == NULL)
3215 dynsym_index = -1U;
3216 else
3217 dynsym_index = sym->dynsym_index();
3218
3219 unsigned int shndx;
3220 switch (sym->source())
3221 {
3222 case Symbol::IS_CONSTANT:
3223 shndx = elfcpp::SHN_ABS;
3224 break;
3225 case Symbol::IS_UNDEFINED:
3226 shndx = elfcpp::SHN_UNDEF;
3227 break;
3228 default:
3229 gold_unreachable();
3230 }
3231
3232 if (sym_index != -1U)
3233 {
3234 sym_index -= first_global_index;
3235 gold_assert(sym_index < output_count);
3236 unsigned char* ps = psyms + (sym_index * sym_size);
3237 this->sized_write_symbol<size, big_endian>(sym, sym->value(), shndx,
3238 sym->binding(), sympool,
3239 ps);
3240 }
3241
3242 if (dynsym_index != -1U)
3243 {
3244 dynsym_index -= first_dynamic_global_index;
3245 gold_assert(dynsym_index < dynamic_count);
3246 unsigned char* pd = dynamic_view + (dynsym_index * sym_size);
3247 this->sized_write_symbol<size, big_endian>(sym, sym->value(), shndx,
3248 sym->binding(), dynpool,
3249 pd);
3250 }
3251 }
3252
c06b7b0b 3253 of->write_output_view(this->offset_, oview_size, psyms);
16649710
ILT
3254 if (dynamic_view != NULL)
3255 of->write_output_view(this->dynamic_offset_, dynamic_size, dynamic_view);
3256}
3257
3258// Write out the symbol SYM, in section SHNDX, to P. POOL is the
3259// strtab holding the name.
3260
3261template<int size, bool big_endian>
3262void
ab5c9e90
ILT
3263Symbol_table::sized_write_symbol(
3264 Sized_symbol<size>* sym,
2ea97941
ILT
3265 typename elfcpp::Elf_types<size>::Elf_Addr value,
3266 unsigned int shndx,
ce279a62 3267 elfcpp::STB binding,
ab5c9e90 3268 const Stringpool* pool,
7d1a9ebb 3269 unsigned char* p) const
16649710
ILT
3270{
3271 elfcpp::Sym_write<size, big_endian> osym(p);
6d1c4efb
ILT
3272 if (sym->version() == NULL || !parameters->options().relocatable())
3273 osym.put_st_name(pool->get_offset(sym->name()));
3274 else
3275 osym.put_st_name(pool->get_offset(sym->versioned_name()));
2ea97941 3276 osym.put_st_value(value);
58e54ac2 3277 // Use a symbol size of zero for undefined symbols from shared libraries.
2ea97941 3278 if (shndx == elfcpp::SHN_UNDEF && sym->is_from_dynobj())
58e54ac2
CD
3279 osym.put_st_size(0);
3280 else
3281 osym.put_st_size(sym->symsize());
53d7974c 3282 elfcpp::STT type = sym->type();
358de988 3283 gold_assert(type != elfcpp::STT_GNU_IFUNC || !sym->is_from_dynobj());
55a93433
ILT
3284 // A version script may have overridden the default binding.
3285 if (sym->is_forced_local())
53d7974c 3286 osym.put_st_info(elfcpp::elf_st_info(elfcpp::STB_LOCAL, type));
55a93433 3287 else
ce279a62 3288 osym.put_st_info(elfcpp::elf_st_info(binding, type));
16649710 3289 osym.put_st_other(elfcpp::elf_st_other(sym->visibility(), sym->nonvis()));
2ea97941 3290 osym.put_st_shndx(shndx);
61ba1cf9
ILT
3291}
3292
9a2d6984
ILT
3293// Check for unresolved symbols in shared libraries. This is
3294// controlled by the --allow-shlib-undefined option.
3295
3296// We only warn about libraries for which we have seen all the
3297// DT_NEEDED entries. We don't try to track down DT_NEEDED entries
3298// which were not seen in this link. If we didn't see a DT_NEEDED
3299// entry, we aren't going to be able to reliably report whether the
3300// symbol is undefined.
3301
fd9d194f
ILT
3302// We also don't warn about libraries found in a system library
3303// directory (e.g., /lib or /usr/lib); we assume that those libraries
3304// are OK. This heuristic avoids problems on GNU/Linux, in which -ldl
3305// can have undefined references satisfied by ld-linux.so.
9a2d6984
ILT
3306
3307inline void
fd9d194f 3308Symbol_table::warn_about_undefined_dynobj_symbol(Symbol* sym) const
9a2d6984 3309{
d491d34e 3310 bool dummy;
9a2d6984
ILT
3311 if (sym->source() == Symbol::FROM_OBJECT
3312 && sym->object()->is_dynamic()
d491d34e 3313 && sym->shndx(&dummy) == elfcpp::SHN_UNDEF
9a2d6984 3314 && sym->binding() != elfcpp::STB_WEAK
8851ecca
ILT
3315 && !parameters->options().allow_shlib_undefined()
3316 && !parameters->target().is_defined_by_abi(sym)
fd9d194f 3317 && !sym->object()->is_in_system_directory())
9a2d6984
ILT
3318 {
3319 // A very ugly cast.
3320 Dynobj* dynobj = static_cast<Dynobj*>(sym->object());
3321 if (!dynobj->has_unknown_needed_entries())
f073bbf7 3322 gold_undefined_symbol(sym);
9a2d6984
ILT
3323 }
3324}
3325
a3ad94ed
ILT
3326// Write out a section symbol. Return the update offset.
3327
3328void
ca09d69a 3329Symbol_table::write_section_symbol(const Output_section* os,
d491d34e 3330 Output_symtab_xindex* symtab_xindex,
a3ad94ed
ILT
3331 Output_file* of,
3332 off_t offset) const
3333{
8851ecca 3334 switch (parameters->size_and_endianness())
a3ad94ed 3335 {
9025d29d 3336#ifdef HAVE_TARGET_32_LITTLE
8851ecca 3337 case Parameters::TARGET_32_LITTLE:
d491d34e
ILT
3338 this->sized_write_section_symbol<32, false>(os, symtab_xindex, of,
3339 offset);
8851ecca 3340 break;
9025d29d 3341#endif
8851ecca
ILT
3342#ifdef HAVE_TARGET_32_BIG
3343 case Parameters::TARGET_32_BIG:
d491d34e
ILT
3344 this->sized_write_section_symbol<32, true>(os, symtab_xindex, of,
3345 offset);
8851ecca 3346 break;
9025d29d 3347#endif
9025d29d 3348#ifdef HAVE_TARGET_64_LITTLE
8851ecca 3349 case Parameters::TARGET_64_LITTLE:
d491d34e
ILT
3350 this->sized_write_section_symbol<64, false>(os, symtab_xindex, of,
3351 offset);
8851ecca 3352 break;
9025d29d 3353#endif
8851ecca
ILT
3354#ifdef HAVE_TARGET_64_BIG
3355 case Parameters::TARGET_64_BIG:
d491d34e
ILT
3356 this->sized_write_section_symbol<64, true>(os, symtab_xindex, of,
3357 offset);
8851ecca
ILT
3358 break;
3359#endif
3360 default:
3361 gold_unreachable();
a3ad94ed 3362 }
a3ad94ed
ILT
3363}
3364
3365// Write out a section symbol, specialized for size and endianness.
3366
3367template<int size, bool big_endian>
3368void
3369Symbol_table::sized_write_section_symbol(const Output_section* os,
d491d34e 3370 Output_symtab_xindex* symtab_xindex,
a3ad94ed
ILT
3371 Output_file* of,
3372 off_t offset) const
3373{
3374 const int sym_size = elfcpp::Elf_sizes<size>::sym_size;
3375
3376 unsigned char* pov = of->get_output_view(offset, sym_size);
3377
3378 elfcpp::Sym_write<size, big_endian> osym(pov);
3379 osym.put_st_name(0);
b4ecf66b
ILT
3380 if (parameters->options().relocatable())
3381 osym.put_st_value(0);
3382 else
3383 osym.put_st_value(os->address());
a3ad94ed
ILT
3384 osym.put_st_size(0);
3385 osym.put_st_info(elfcpp::elf_st_info(elfcpp::STB_LOCAL,
3386 elfcpp::STT_SECTION));
3387 osym.put_st_other(elfcpp::elf_st_other(elfcpp::STV_DEFAULT, 0));
d491d34e 3388
2ea97941
ILT
3389 unsigned int shndx = os->out_shndx();
3390 if (shndx >= elfcpp::SHN_LORESERVE)
d491d34e 3391 {
2ea97941
ILT
3392 symtab_xindex->add(os->symtab_index(), shndx);
3393 shndx = elfcpp::SHN_XINDEX;
d491d34e 3394 }
2ea97941 3395 osym.put_st_shndx(shndx);
a3ad94ed
ILT
3396
3397 of->write_output_view(offset, sym_size, pov);
3398}
3399
abaa3995
ILT
3400// Print statistical information to stderr. This is used for --stats.
3401
3402void
3403Symbol_table::print_stats() const
3404{
3405#if defined(HAVE_TR1_UNORDERED_MAP) || defined(HAVE_EXT_HASH_MAP)
3406 fprintf(stderr, _("%s: symbol table entries: %zu; buckets: %zu\n"),
3407 program_name, this->table_.size(), this->table_.bucket_count());
3408#else
3409 fprintf(stderr, _("%s: symbol table entries: %zu\n"),
3410 program_name, this->table_.size());
3411#endif
ad8f37d1 3412 this->namepool_.print_stats("symbol table stringpool");
abaa3995
ILT
3413}
3414
ff541f30
ILT
3415// We check for ODR violations by looking for symbols with the same
3416// name for which the debugging information reports that they were
71ff8986 3417// defined in disjoint source locations. When comparing the source
55382fb7
ILT
3418// location, we consider instances with the same base filename to be
3419// the same. This is because different object files/shared libraries
3420// can include the same header file using different paths, and
3421// different optimization settings can make the line number appear to
3422// be a couple lines off, and we don't want to report an ODR violation
3423// in those cases.
ff541f30
ILT
3424
3425// This struct is used to compare line information, as returned by
7bf1f802 3426// Dwarf_line_info::one_addr2line. It implements a < comparison
71ff8986 3427// operator used with std::sort.
ff541f30
ILT
3428
3429struct Odr_violation_compare
3430{
3431 bool
3432 operator()(const std::string& s1, const std::string& s2) const
3433 {
55382fb7 3434 // Inputs should be of the form "dirname/filename:linenum" where
71ff8986 3435 // "dirname/" is optional. We want to compare just the filename:linenum.
55382fb7 3436
71ff8986 3437 // Find the last '/' in each string.
55382fb7
ILT
3438 std::string::size_type s1begin = s1.rfind('/');
3439 std::string::size_type s2begin = s2.rfind('/');
55382fb7
ILT
3440 // If there was no '/' in a string, start at the beginning.
3441 if (s1begin == std::string::npos)
3442 s1begin = 0;
3443 if (s2begin == std::string::npos)
3444 s2begin = 0;
71ff8986
ILT
3445 return s1.compare(s1begin, std::string::npos,
3446 s2, s2begin, std::string::npos) < 0;
ff541f30
ILT
3447 }
3448};
3449
71ff8986
ILT
3450// Returns all of the lines attached to LOC, not just the one the
3451// instruction actually came from.
3452std::vector<std::string>
3453Symbol_table::linenos_from_loc(const Task* task,
3454 const Symbol_location& loc)
3455{
3456 // We need to lock the object in order to read it. This
3457 // means that we have to run in a singleton Task. If we
3458 // want to run this in a general Task for better
3459 // performance, we will need one Task for object, plus
3460 // appropriate locking to ensure that we don't conflict with
3461 // other uses of the object. Also note, one_addr2line is not
3462 // currently thread-safe.
3463 Task_lock_obj<Object> tl(task, loc.object);
3464
3465 std::vector<std::string> result;
dc3714f3
AM
3466 Symbol_location code_loc = loc;
3467 parameters->target().function_location(&code_loc);
71ff8986
ILT
3468 // 16 is the size of the object-cache that one_addr2line should use.
3469 std::string canonical_result = Dwarf_line_info::one_addr2line(
dc3714f3 3470 code_loc.object, code_loc.shndx, code_loc.offset, 16, &result);
71ff8986
ILT
3471 if (!canonical_result.empty())
3472 result.push_back(canonical_result);
3473 return result;
3474}
3475
3476// OutputIterator that records if it was ever assigned to. This
3477// allows it to be used with std::set_intersection() to check for
3478// intersection rather than computing the intersection.
3479struct Check_intersection
3480{
3481 Check_intersection()
3482 : value_(false)
3483 {}
3484
3485 bool had_intersection() const
3486 { return this->value_; }
3487
3488 Check_intersection& operator++()
3489 { return *this; }
3490
3491 Check_intersection& operator*()
3492 { return *this; }
3493
3494 template<typename T>
3495 Check_intersection& operator=(const T&)
3496 {
3497 this->value_ = true;
3498 return *this;
3499 }
3500
3501 private:
3502 bool value_;
3503};
3504
70e654ba 3505// Check candidate_odr_violations_ to find symbols with the same name
71ff8986
ILT
3506// but apparently different definitions (different source-file/line-no
3507// for each line assigned to the first instruction).
70e654ba
ILT
3508
3509void
17a1d0a9
ILT
3510Symbol_table::detect_odr_violations(const Task* task,
3511 const char* output_file_name) const
70e654ba
ILT
3512{
3513 for (Odr_map::const_iterator it = candidate_odr_violations_.begin();
3514 it != candidate_odr_violations_.end();
3515 ++it)
3516 {
71ff8986
ILT
3517 const char* const symbol_name = it->first;
3518
3519 std::string first_object_name;
3520 std::vector<std::string> first_object_linenos;
3521
3522 Unordered_set<Symbol_location, Symbol_location_hash>::const_iterator
3523 locs = it->second.begin();
3524 const Unordered_set<Symbol_location, Symbol_location_hash>::const_iterator
3525 locs_end = it->second.end();
3526 for (; locs != locs_end && first_object_linenos.empty(); ++locs)
70e654ba 3527 {
71ff8986
ILT
3528 // Save the line numbers from the first definition to
3529 // compare to the other definitions. Ideally, we'd compare
3530 // every definition to every other, but we don't want to
3531 // take O(N^2) time to do this. This shortcut may cause
3532 // false negatives that appear or disappear depending on the
3533 // link order, but it won't cause false positives.
3534 first_object_name = locs->object->name();
3535 first_object_linenos = this->linenos_from_loc(task, *locs);
70e654ba 3536 }
437ddf0c
CC
3537 if (first_object_linenos.empty())
3538 continue;
70e654ba 3539
71ff8986 3540 // Sort by Odr_violation_compare to make std::set_intersection work.
437ddf0c 3541 std::string first_object_canonical_result = first_object_linenos.back();
71ff8986
ILT
3542 std::sort(first_object_linenos.begin(), first_object_linenos.end(),
3543 Odr_violation_compare());
3544
3545 for (; locs != locs_end; ++locs)
70e654ba 3546 {
71ff8986
ILT
3547 std::vector<std::string> linenos =
3548 this->linenos_from_loc(task, *locs);
3549 // linenos will be empty if we couldn't parse the debug info.
3550 if (linenos.empty())
3551 continue;
3552 // Sort by Odr_violation_compare to make std::set_intersection work.
437ddf0c
CC
3553 gold_assert(!linenos.empty());
3554 std::string second_object_canonical_result = linenos.back();
71ff8986
ILT
3555 std::sort(linenos.begin(), linenos.end(), Odr_violation_compare());
3556
3557 Check_intersection intersection_result =
3558 std::set_intersection(first_object_linenos.begin(),
3559 first_object_linenos.end(),
3560 linenos.begin(),
3561 linenos.end(),
3562 Check_intersection(),
3563 Odr_violation_compare());
3564 if (!intersection_result.had_intersection())
3565 {
3566 gold_warning(_("while linking %s: symbol '%s' defined in "
3567 "multiple places (possible ODR violation):"),
3568 output_file_name, demangle(symbol_name).c_str());
3569 // This only prints one location from each definition,
3570 // which may not be the location we expect to intersect
3571 // with another definition. We could print the whole
3572 // set of locations, but that seems too verbose.
71ff8986 3573 fprintf(stderr, _(" %s from %s\n"),
437ddf0c 3574 first_object_canonical_result.c_str(),
71ff8986
ILT
3575 first_object_name.c_str());
3576 fprintf(stderr, _(" %s from %s\n"),
437ddf0c 3577 second_object_canonical_result.c_str(),
71ff8986
ILT
3578 locs->object->name().c_str());
3579 // Only print one broken pair, to avoid needing to
3580 // compare against a list of the disjoint definition
3581 // locations we've found so far. (If we kept comparing
3582 // against just the first one, we'd get a lot of
3583 // redundant complaints about the second definition
3584 // location.)
3585 break;
3586 }
70e654ba
ILT
3587 }
3588 }
e4e5049b
CS
3589 // We only call one_addr2line() in this function, so we can clear its cache.
3590 Dwarf_line_info::clear_addr2line_cache();
70e654ba
ILT
3591}
3592
f6ce93d6
ILT
3593// Warnings functions.
3594
3595// Add a new warning.
3596
3597void
2ea97941 3598Warnings::add_warning(Symbol_table* symtab, const char* name, Object* obj,
cb295612 3599 const std::string& warning)
f6ce93d6 3600{
2ea97941
ILT
3601 name = symtab->canonicalize_name(name);
3602 this->warnings_[name].set(obj, warning);
f6ce93d6
ILT
3603}
3604
3605// Look through the warnings and mark the symbols for which we should
3606// warn. This is called during Layout::finalize when we know the
3607// sources for all the symbols.
3608
3609void
cb295612 3610Warnings::note_warnings(Symbol_table* symtab)
f6ce93d6
ILT
3611{
3612 for (Warning_table::iterator p = this->warnings_.begin();
3613 p != this->warnings_.end();
3614 ++p)
3615 {
3616 Symbol* sym = symtab->lookup(p->first, NULL);
3617 if (sym != NULL
3618 && sym->source() == Symbol::FROM_OBJECT
3619 && sym->object() == p->second.object)
cb295612 3620 sym->set_has_warning();
f6ce93d6
ILT
3621 }
3622}
3623
3624// Issue a warning. This is called when we see a relocation against a
3625// symbol for which has a warning.
3626
75f2446e 3627template<int size, bool big_endian>
f6ce93d6 3628void
75f2446e
ILT
3629Warnings::issue_warning(const Symbol* sym,
3630 const Relocate_info<size, big_endian>* relinfo,
3631 size_t relnum, off_t reloffset) const
f6ce93d6 3632{
a3ad94ed 3633 gold_assert(sym->has_warning());
9d3b0698
ILT
3634
3635 // We don't want to issue a warning for a relocation against the
3636 // symbol in the same object file in which the symbol is defined.
3637 if (sym->object() == relinfo->object)
3638 return;
3639
f6ce93d6 3640 Warning_table::const_iterator p = this->warnings_.find(sym->name());
a3ad94ed 3641 gold_assert(p != this->warnings_.end());
75f2446e
ILT
3642 gold_warning_at_location(relinfo, relnum, reloffset,
3643 "%s", p->second.text.c_str());
f6ce93d6
ILT
3644}
3645
14bfc3f5
ILT
3646// Instantiate the templates we need. We could use the configure
3647// script to restrict this to only the ones needed for implemented
3648// targets.
3649
c7912668
ILT
3650#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
3651template
3652void
3653Sized_symbol<32>::allocate_common(Output_data*, Value_type);
3654#endif
3655
3656#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
3657template
3658void
3659Sized_symbol<64>::allocate_common(Output_data*, Value_type);
3660#endif
3661
193a53d9 3662#ifdef HAVE_TARGET_32_LITTLE
14bfc3f5
ILT
3663template
3664void
193a53d9 3665Symbol_table::add_from_relobj<32, false>(
6fa2a40b 3666 Sized_relobj_file<32, false>* relobj,
f6ce93d6 3667 const unsigned char* syms,
14bfc3f5 3668 size_t count,
d491d34e 3669 size_t symndx_offset,
14bfc3f5
ILT
3670 const char* sym_names,
3671 size_t sym_name_size,
6fa2a40b 3672 Sized_relobj_file<32, false>::Symbols* sympointers,
92de84a6 3673 size_t* defined);
193a53d9 3674#endif
14bfc3f5 3675
193a53d9 3676#ifdef HAVE_TARGET_32_BIG
14bfc3f5
ILT
3677template
3678void
193a53d9 3679Symbol_table::add_from_relobj<32, true>(
6fa2a40b 3680 Sized_relobj_file<32, true>* relobj,
f6ce93d6 3681 const unsigned char* syms,
14bfc3f5 3682 size_t count,
d491d34e 3683 size_t symndx_offset,
14bfc3f5
ILT
3684 const char* sym_names,
3685 size_t sym_name_size,
6fa2a40b 3686 Sized_relobj_file<32, true>::Symbols* sympointers,
92de84a6 3687 size_t* defined);
193a53d9 3688#endif
14bfc3f5 3689
193a53d9 3690#ifdef HAVE_TARGET_64_LITTLE
14bfc3f5
ILT
3691template
3692void
193a53d9 3693Symbol_table::add_from_relobj<64, false>(
6fa2a40b 3694 Sized_relobj_file<64, false>* relobj,
f6ce93d6 3695 const unsigned char* syms,
14bfc3f5 3696 size_t count,
d491d34e 3697 size_t symndx_offset,
14bfc3f5
ILT
3698 const char* sym_names,
3699 size_t sym_name_size,
6fa2a40b 3700 Sized_relobj_file<64, false>::Symbols* sympointers,
92de84a6 3701 size_t* defined);
193a53d9 3702#endif
14bfc3f5 3703
193a53d9 3704#ifdef HAVE_TARGET_64_BIG
14bfc3f5
ILT
3705template
3706void
193a53d9 3707Symbol_table::add_from_relobj<64, true>(
6fa2a40b 3708 Sized_relobj_file<64, true>* relobj,
f6ce93d6 3709 const unsigned char* syms,
14bfc3f5 3710 size_t count,
d491d34e 3711 size_t symndx_offset,
14bfc3f5
ILT
3712 const char* sym_names,
3713 size_t sym_name_size,
6fa2a40b 3714 Sized_relobj_file<64, true>::Symbols* sympointers,
92de84a6 3715 size_t* defined);
193a53d9 3716#endif
14bfc3f5 3717
89fc3421
CC
3718#ifdef HAVE_TARGET_32_LITTLE
3719template
3720Symbol*
3721Symbol_table::add_from_pluginobj<32, false>(
3722 Sized_pluginobj<32, false>* obj,
3723 const char* name,
3724 const char* ver,
3725 elfcpp::Sym<32, false>* sym);
3726#endif
3727
3728#ifdef HAVE_TARGET_32_BIG
3729template
3730Symbol*
3731Symbol_table::add_from_pluginobj<32, true>(
3732 Sized_pluginobj<32, true>* obj,
3733 const char* name,
3734 const char* ver,
3735 elfcpp::Sym<32, true>* sym);
3736#endif
3737
3738#ifdef HAVE_TARGET_64_LITTLE
3739template
3740Symbol*
3741Symbol_table::add_from_pluginobj<64, false>(
3742 Sized_pluginobj<64, false>* obj,
3743 const char* name,
3744 const char* ver,
3745 elfcpp::Sym<64, false>* sym);
3746#endif
3747
3748#ifdef HAVE_TARGET_64_BIG
3749template
3750Symbol*
3751Symbol_table::add_from_pluginobj<64, true>(
3752 Sized_pluginobj<64, true>* obj,
3753 const char* name,
3754 const char* ver,
3755 elfcpp::Sym<64, true>* sym);
3756#endif
3757
193a53d9 3758#ifdef HAVE_TARGET_32_LITTLE
dbe717ef
ILT
3759template
3760void
193a53d9
ILT
3761Symbol_table::add_from_dynobj<32, false>(
3762 Sized_dynobj<32, false>* dynobj,
dbe717ef
ILT
3763 const unsigned char* syms,
3764 size_t count,
3765 const char* sym_names,
3766 size_t sym_name_size,
3767 const unsigned char* versym,
3768 size_t versym_size,
92de84a6 3769 const std::vector<const char*>* version_map,
6fa2a40b 3770 Sized_relobj_file<32, false>::Symbols* sympointers,
92de84a6 3771 size_t* defined);
193a53d9 3772#endif
dbe717ef 3773
193a53d9 3774#ifdef HAVE_TARGET_32_BIG
dbe717ef
ILT
3775template
3776void
193a53d9
ILT
3777Symbol_table::add_from_dynobj<32, true>(
3778 Sized_dynobj<32, true>* dynobj,
dbe717ef
ILT
3779 const unsigned char* syms,
3780 size_t count,
3781 const char* sym_names,
3782 size_t sym_name_size,
3783 const unsigned char* versym,
3784 size_t versym_size,
92de84a6 3785 const std::vector<const char*>* version_map,
6fa2a40b 3786 Sized_relobj_file<32, true>::Symbols* sympointers,
92de84a6 3787 size_t* defined);
193a53d9 3788#endif
dbe717ef 3789
193a53d9 3790#ifdef HAVE_TARGET_64_LITTLE
dbe717ef
ILT
3791template
3792void
193a53d9
ILT
3793Symbol_table::add_from_dynobj<64, false>(
3794 Sized_dynobj<64, false>* dynobj,
dbe717ef
ILT
3795 const unsigned char* syms,
3796 size_t count,
3797 const char* sym_names,
3798 size_t sym_name_size,
3799 const unsigned char* versym,
3800 size_t versym_size,
92de84a6 3801 const std::vector<const char*>* version_map,
6fa2a40b 3802 Sized_relobj_file<64, false>::Symbols* sympointers,
92de84a6 3803 size_t* defined);
193a53d9 3804#endif
dbe717ef 3805
193a53d9 3806#ifdef HAVE_TARGET_64_BIG
dbe717ef
ILT
3807template
3808void
193a53d9
ILT
3809Symbol_table::add_from_dynobj<64, true>(
3810 Sized_dynobj<64, true>* dynobj,
dbe717ef
ILT
3811 const unsigned char* syms,
3812 size_t count,
3813 const char* sym_names,
3814 size_t sym_name_size,
3815 const unsigned char* versym,
3816 size_t versym_size,
92de84a6 3817 const std::vector<const char*>* version_map,
6fa2a40b 3818 Sized_relobj_file<64, true>::Symbols* sympointers,
92de84a6 3819 size_t* defined);
193a53d9 3820#endif
dbe717ef 3821
cdc29364
CC
3822#ifdef HAVE_TARGET_32_LITTLE
3823template
26d3c67d 3824Sized_symbol<32>*
cdc29364
CC
3825Symbol_table::add_from_incrobj(
3826 Object* obj,
3827 const char* name,
3828 const char* ver,
3829 elfcpp::Sym<32, false>* sym);
3830#endif
3831
3832#ifdef HAVE_TARGET_32_BIG
3833template
26d3c67d 3834Sized_symbol<32>*
cdc29364
CC
3835Symbol_table::add_from_incrobj(
3836 Object* obj,
3837 const char* name,
3838 const char* ver,
3839 elfcpp::Sym<32, true>* sym);
3840#endif
3841
3842#ifdef HAVE_TARGET_64_LITTLE
3843template
26d3c67d 3844Sized_symbol<64>*
cdc29364
CC
3845Symbol_table::add_from_incrobj(
3846 Object* obj,
3847 const char* name,
3848 const char* ver,
3849 elfcpp::Sym<64, false>* sym);
3850#endif
3851
3852#ifdef HAVE_TARGET_64_BIG
3853template
26d3c67d 3854Sized_symbol<64>*
cdc29364
CC
3855Symbol_table::add_from_incrobj(
3856 Object* obj,
3857 const char* name,
3858 const char* ver,
3859 elfcpp::Sym<64, true>* sym);
3860#endif
3861
46fe1623
ILT
3862#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
3863template
3864void
fe8718a4 3865Symbol_table::define_with_copy_reloc<32>(
fe8718a4
ILT
3866 Sized_symbol<32>* sym,
3867 Output_data* posd,
2ea97941 3868 elfcpp::Elf_types<32>::Elf_Addr value);
46fe1623
ILT
3869#endif
3870
3871#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
3872template
3873void
fe8718a4 3874Symbol_table::define_with_copy_reloc<64>(
fe8718a4
ILT
3875 Sized_symbol<64>* sym,
3876 Output_data* posd,
2ea97941 3877 elfcpp::Elf_types<64>::Elf_Addr value);
46fe1623
ILT
3878#endif
3879
beacaa96
CC
3880#if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
3881template
3882void
3883Sized_symbol<32>::init_output_data(const char* name, const char* version,
3884 Output_data* od, Value_type value,
3885 Size_type symsize, elfcpp::STT type,
3886 elfcpp::STB binding,
3887 elfcpp::STV visibility,
3888 unsigned char nonvis,
3889 bool offset_is_from_end,
3890 bool is_predefined);
8d04e81d
CC
3891
3892template
3893void
3894Sized_symbol<32>::init_constant(const char* name, const char* version,
3895 Value_type value, Size_type symsize,
3896 elfcpp::STT type, elfcpp::STB binding,
3897 elfcpp::STV visibility, unsigned char nonvis,
3898 bool is_predefined);
3899
3900template
3901void
3902Sized_symbol<32>::init_undefined(const char* name, const char* version,
3903 Value_type value, elfcpp::STT type,
3904 elfcpp::STB binding, elfcpp::STV visibility,
3905 unsigned char nonvis);
beacaa96
CC
3906#endif
3907
3908#if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
3909template
3910void
3911Sized_symbol<64>::init_output_data(const char* name, const char* version,
3912 Output_data* od, Value_type value,
3913 Size_type symsize, elfcpp::STT type,
3914 elfcpp::STB binding,
3915 elfcpp::STV visibility,
3916 unsigned char nonvis,
3917 bool offset_is_from_end,
3918 bool is_predefined);
8d04e81d
CC
3919
3920template
3921void
3922Sized_symbol<64>::init_constant(const char* name, const char* version,
3923 Value_type value, Size_type symsize,
3924 elfcpp::STT type, elfcpp::STB binding,
3925 elfcpp::STV visibility, unsigned char nonvis,
3926 bool is_predefined);
3927
3928template
3929void
3930Sized_symbol<64>::init_undefined(const char* name, const char* version,
3931 Value_type value, elfcpp::STT type,
3932 elfcpp::STB binding, elfcpp::STV visibility,
3933 unsigned char nonvis);
beacaa96
CC
3934#endif
3935
75f2446e
ILT
3936#ifdef HAVE_TARGET_32_LITTLE
3937template
3938void
3939Warnings::issue_warning<32, false>(const Symbol* sym,
3940 const Relocate_info<32, false>* relinfo,
3941 size_t relnum, off_t reloffset) const;
3942#endif
3943
3944#ifdef HAVE_TARGET_32_BIG
3945template
3946void
3947Warnings::issue_warning<32, true>(const Symbol* sym,
3948 const Relocate_info<32, true>* relinfo,
3949 size_t relnum, off_t reloffset) const;
3950#endif
3951
3952#ifdef HAVE_TARGET_64_LITTLE
3953template
3954void
3955Warnings::issue_warning<64, false>(const Symbol* sym,
3956 const Relocate_info<64, false>* relinfo,
3957 size_t relnum, off_t reloffset) const;
3958#endif
3959
3960#ifdef HAVE_TARGET_64_BIG
3961template
3962void
3963Warnings::issue_warning<64, true>(const Symbol* sym,
3964 const Relocate_info<64, true>* relinfo,
3965 size_t relnum, off_t reloffset) const;
3966#endif
3967
14bfc3f5 3968} // End namespace gold.
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