1 // resolve.cc -- symbol resolution for gold
3 // Copyright 2006, 2007 Free Software Foundation, Inc.
4 // Written by Ian Lance Taylor <iant@google.com>.
6 // This file is part of gold.
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.
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.
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.
33 // Symbol methods used in this file.
35 // Override the fields in Symbol.
37 template<int size
, bool big_endian
>
39 Symbol::override_base(const elfcpp::Sym
<size
, big_endian
>& sym
,
40 Object
* object
, const char* version
)
42 gold_assert(this->source_
== FROM_OBJECT
);
43 this->u_
.from_object
.object
= object
;
44 if (version
!= NULL
&& this->version() != version
)
46 gold_assert(this->version() == NULL
);
47 this->version_
= version
;
49 // FIXME: Handle SHN_XINDEX.
50 this->u_
.from_object
.shndx
= sym
.get_st_shndx();
51 this->type_
= sym
.get_st_type();
52 this->binding_
= sym
.get_st_bind();
53 this->visibility_
= sym
.get_st_visibility();
54 this->nonvis_
= sym
.get_st_nonvis();
55 if (object
->is_dynamic())
61 // Override the fields in Sized_symbol.
64 template<bool big_endian
>
66 Sized_symbol
<size
>::override(const elfcpp::Sym
<size
, big_endian
>& sym
,
67 Object
* object
, const char* version
)
69 this->override_base(sym
, object
, version
);
70 this->value_
= sym
.get_st_value();
71 this->symsize_
= sym
.get_st_size();
74 // Override TOSYM with symbol FROMSYM, defined in OBJECT, with version
75 // VERSION. This handles all aliases of TOSYM.
77 template<int size
, bool big_endian
>
79 Symbol_table::override(Sized_symbol
<size
>* tosym
,
80 const elfcpp::Sym
<size
, big_endian
>& fromsym
,
81 Object
* object
, const char* version
)
83 tosym
->override(fromsym
, object
, version
);
84 if (tosym
->has_alias())
86 Symbol
* sym
= this->weak_aliases_
[tosym
];
87 gold_assert(sym
!= NULL
);
88 Sized_symbol
<size
>* ssym
;
89 ssym
= this->get_sized_symbol
SELECT_SIZE_NAME(size
) (sym
93 ssym
->override(fromsym
, object
, version
);
94 sym
= this->weak_aliases_
[ssym
];
95 gold_assert(sym
!= NULL
);
96 ssym
= this->get_sized_symbol
SELECT_SIZE_NAME(size
) (
97 sym
SELECT_SIZE(size
));
99 while (ssym
!= tosym
);
103 // The resolve functions build a little code for each symbol.
104 // Bit 0: 0 for global, 1 for weak.
105 // Bit 1: 0 for regular object, 1 for shared object
106 // Bits 2-3: 0 for normal, 1 for undefined, 2 for common
107 // This gives us values from 0 to 11.
109 static const int global_or_weak_shift
= 0;
110 static const unsigned int global_flag
= 0 << global_or_weak_shift
;
111 static const unsigned int weak_flag
= 1 << global_or_weak_shift
;
113 static const int regular_or_dynamic_shift
= 1;
114 static const unsigned int regular_flag
= 0 << regular_or_dynamic_shift
;
115 static const unsigned int dynamic_flag
= 1 << regular_or_dynamic_shift
;
117 static const int def_undef_or_common_shift
= 2;
118 static const unsigned int def_flag
= 0 << def_undef_or_common_shift
;
119 static const unsigned int undef_flag
= 1 << def_undef_or_common_shift
;
120 static const unsigned int common_flag
= 2 << def_undef_or_common_shift
;
122 // This convenience function combines all the flags based on facts
126 symbol_to_bits(elfcpp::STB binding
, bool is_dynamic
,
127 unsigned int shndx
, elfcpp::STT type
)
133 case elfcpp::STB_GLOBAL
:
137 case elfcpp::STB_WEAK
:
141 case elfcpp::STB_LOCAL
:
142 // We should only see externally visible symbols in the symbol
144 gold_error(_("invalid STB_LOCAL symbol in external symbols"));
148 // Any target which wants to handle STB_LOOS, etc., needs to
149 // define a resolve method.
150 gold_error(_("unsupported symbol binding"));
155 bits
|= dynamic_flag
;
157 bits
|= regular_flag
;
161 case elfcpp::SHN_UNDEF
:
165 case elfcpp::SHN_COMMON
:
170 if (type
== elfcpp::STT_COMMON
)
180 // Resolve a symbol. This is called the second and subsequent times
181 // we see a symbol. TO is the pre-existing symbol. ORIG_SYM is the
182 // new symbol, seen in OBJECT. SYM is almost always identical to
183 // ORIG_SYM, but may be munged (for instance, if we determine the
184 // symbol is in a to-be-discarded section, we'll set sym's shndx to
185 // UNDEFINED). VERSION of the version of SYM.
187 template<int size
, bool big_endian
>
189 Symbol_table::resolve(Sized_symbol
<size
>* to
,
190 const elfcpp::Sym
<size
, big_endian
>& sym
,
191 const elfcpp::Sym
<size
, big_endian
>& orig_sym
,
192 Object
* object
, const char* version
)
194 if (object
->target()->has_resolve())
196 Sized_target
<size
, big_endian
>* sized_target
;
197 sized_target
= object
->sized_target
198 SELECT_SIZE_ENDIAN_NAME(size
, big_endian
) (
199 SELECT_SIZE_ENDIAN_ONLY(size
, big_endian
));
200 sized_target
->resolve(to
, sym
, object
, version
);
204 if (!object
->is_dynamic())
206 // Record that we've seen this symbol in a regular object.
211 // Record that we've seen this symbol in a dynamic object.
215 unsigned int frombits
= symbol_to_bits(sym
.get_st_bind(),
216 object
->is_dynamic(),
220 bool adjust_common_sizes
;
221 if (Symbol_table::should_override(to
, frombits
, object
,
222 &adjust_common_sizes
))
224 typename Sized_symbol
<size
>::Size_type tosize
= to
->symsize();
226 this->override(to
, sym
, object
, version
);
228 if (adjust_common_sizes
&& tosize
> to
->symsize())
229 to
->set_symsize(tosize
);
233 if (adjust_common_sizes
&& sym
.get_st_size() > to
->symsize())
234 to
->set_symsize(sym
.get_st_size());
237 // A new weak undefined reference, merging with an old weak
238 // reference, could be a One Definition Rule (ODR) violation --
239 // especially if the types or sizes of the references differ. We'll
240 // store such pairs and look them up later to make sure they
241 // actually refer to the same lines of code. (Note: not all ODR
242 // violations can be found this way, and not everything this finds
243 // is an ODR violation. But it's helpful to warn about.)
244 // We use orig_sym here because we want the symbol exactly as it
245 // appears in the object file, not munged via our future processing.
246 if (parameters
->detect_odr_violations()
247 && orig_sym
.get_st_bind() == elfcpp::STB_WEAK
248 && to
->binding() == elfcpp::STB_WEAK
249 && orig_sym
.get_st_shndx() != elfcpp::SHN_UNDEF
250 && to
->shndx() != elfcpp::SHN_UNDEF
251 && orig_sym
.get_st_size() != 0 // Ignore weird 0-sized symbols.
252 && to
->symsize() != 0
253 && (orig_sym
.get_st_type() != to
->type()
254 || orig_sym
.get_st_size() != to
->symsize())
255 // C does not have a concept of ODR, so we only need to do this
256 // on C++ symbols. These have (mangled) names starting with _Z.
257 && to
->name()[0] == '_' && to
->name()[1] == 'Z')
259 Symbol_location fromloc
260 = { object
, orig_sym
.get_st_shndx(), orig_sym
.get_st_value() };
261 Symbol_location toloc
= { to
->object(), to
->shndx(), to
->value() };
262 this->candidate_odr_violations_
[to
->name()].insert(fromloc
);
263 this->candidate_odr_violations_
[to
->name()].insert(toloc
);
267 // Handle the core of symbol resolution. This is called with the
268 // existing symbol, TO, and a bitflag describing the new symbol. This
269 // returns true if we should override the existing symbol with the new
270 // one, and returns false otherwise. It sets *ADJUST_COMMON_SIZES to
271 // true if we should set the symbol size to the maximum of the TO and
272 // FROM sizes. It handles error conditions.
275 Symbol_table::should_override(const Symbol
* to
, unsigned int frombits
,
276 Object
* object
, bool* adjust_common_sizes
)
278 *adjust_common_sizes
= false;
280 unsigned int tobits
= symbol_to_bits(to
->binding(),
281 (to
->source() == Symbol::FROM_OBJECT
282 && to
->object()->is_dynamic()),
286 // FIXME: Warn if either but not both of TO and SYM are STT_TLS.
288 // We use a giant switch table for symbol resolution. This code is
289 // unwieldy, but: 1) it is efficient; 2) we definitely handle all
290 // cases; 3) it is easy to change the handling of a particular case.
291 // The alternative would be a series of conditionals, but it is easy
292 // to get the ordering wrong. This could also be done as a table,
293 // but that is no easier to understand than this large switch
296 // These are the values generated by the bit codes.
299 DEF
= global_flag
| regular_flag
| def_flag
,
300 WEAK_DEF
= weak_flag
| regular_flag
| def_flag
,
301 DYN_DEF
= global_flag
| dynamic_flag
| def_flag
,
302 DYN_WEAK_DEF
= weak_flag
| dynamic_flag
| def_flag
,
303 UNDEF
= global_flag
| regular_flag
| undef_flag
,
304 WEAK_UNDEF
= weak_flag
| regular_flag
| undef_flag
,
305 DYN_UNDEF
= global_flag
| dynamic_flag
| undef_flag
,
306 DYN_WEAK_UNDEF
= weak_flag
| dynamic_flag
| undef_flag
,
307 COMMON
= global_flag
| regular_flag
| common_flag
,
308 WEAK_COMMON
= weak_flag
| regular_flag
| common_flag
,
309 DYN_COMMON
= global_flag
| dynamic_flag
| common_flag
,
310 DYN_WEAK_COMMON
= weak_flag
| dynamic_flag
| common_flag
313 switch (tobits
* 16 + frombits
)
316 // Two definitions of the same symbol.
317 // FIXME: Do a better job of reporting locations.
318 gold_error(_("%s: multiple definition of %s"),
319 object
!= NULL
? object
->name().c_str() : _("command line"),
320 to
->demangled_name().c_str());
321 gold_error(_("%s: previous definition here"),
322 (to
->source() == Symbol::FROM_OBJECT
323 ? to
->object()->name().c_str()
324 : _("command line")));
327 case WEAK_DEF
* 16 + DEF
:
328 // We've seen a weak definition, and now we see a strong
329 // definition. In the original SVR4 linker, this was treated as
330 // a multiple definition error. In the Solaris linker and the
331 // GNU linker, a weak definition followed by a regular
332 // definition causes the weak definition to be overridden. We
333 // are currently compatible with the GNU linker. In the future
334 // we should add a target specific option to change this.
338 case DYN_DEF
* 16 + DEF
:
339 case DYN_WEAK_DEF
* 16 + DEF
:
340 // We've seen a definition in a dynamic object, and now we see a
341 // definition in a regular object. The definition in the
342 // regular object overrides the definition in the dynamic
346 case UNDEF
* 16 + DEF
:
347 case WEAK_UNDEF
* 16 + DEF
:
348 case DYN_UNDEF
* 16 + DEF
:
349 case DYN_WEAK_UNDEF
* 16 + DEF
:
350 // We've seen an undefined reference, and now we see a
351 // definition. We use the definition.
354 case COMMON
* 16 + DEF
:
355 case WEAK_COMMON
* 16 + DEF
:
356 case DYN_COMMON
* 16 + DEF
:
357 case DYN_WEAK_COMMON
* 16 + DEF
:
358 // We've seen a common symbol and now we see a definition. The
359 // definition overrides. FIXME: We should optionally issue, version a
363 case DEF
* 16 + WEAK_DEF
:
364 case WEAK_DEF
* 16 + WEAK_DEF
:
365 // We've seen a definition and now we see a weak definition. We
366 // ignore the new weak definition.
369 case DYN_DEF
* 16 + WEAK_DEF
:
370 case DYN_WEAK_DEF
* 16 + WEAK_DEF
:
371 // We've seen a dynamic definition and now we see a regular weak
372 // definition. The regular weak definition overrides.
375 case UNDEF
* 16 + WEAK_DEF
:
376 case WEAK_UNDEF
* 16 + WEAK_DEF
:
377 case DYN_UNDEF
* 16 + WEAK_DEF
:
378 case DYN_WEAK_UNDEF
* 16 + WEAK_DEF
:
379 // A weak definition of a currently undefined symbol.
382 case COMMON
* 16 + WEAK_DEF
:
383 case WEAK_COMMON
* 16 + WEAK_DEF
:
384 // A weak definition does not override a common definition.
387 case DYN_COMMON
* 16 + WEAK_DEF
:
388 case DYN_WEAK_COMMON
* 16 + WEAK_DEF
:
389 // A weak definition does override a definition in a dynamic
390 // object. FIXME: We should optionally issue a warning.
393 case DEF
* 16 + DYN_DEF
:
394 case WEAK_DEF
* 16 + DYN_DEF
:
395 case DYN_DEF
* 16 + DYN_DEF
:
396 case DYN_WEAK_DEF
* 16 + DYN_DEF
:
397 // Ignore a dynamic definition if we already have a definition.
400 case UNDEF
* 16 + DYN_DEF
:
401 case WEAK_UNDEF
* 16 + DYN_DEF
:
402 case DYN_UNDEF
* 16 + DYN_DEF
:
403 case DYN_WEAK_UNDEF
* 16 + DYN_DEF
:
404 // Use a dynamic definition if we have a reference.
407 case COMMON
* 16 + DYN_DEF
:
408 case WEAK_COMMON
* 16 + DYN_DEF
:
409 case DYN_COMMON
* 16 + DYN_DEF
:
410 case DYN_WEAK_COMMON
* 16 + DYN_DEF
:
411 // Ignore a dynamic definition if we already have a common
415 case DEF
* 16 + DYN_WEAK_DEF
:
416 case WEAK_DEF
* 16 + DYN_WEAK_DEF
:
417 case DYN_DEF
* 16 + DYN_WEAK_DEF
:
418 case DYN_WEAK_DEF
* 16 + DYN_WEAK_DEF
:
419 // Ignore a weak dynamic definition if we already have a
423 case UNDEF
* 16 + DYN_WEAK_DEF
:
424 case WEAK_UNDEF
* 16 + DYN_WEAK_DEF
:
425 case DYN_UNDEF
* 16 + DYN_WEAK_DEF
:
426 case DYN_WEAK_UNDEF
* 16 + DYN_WEAK_DEF
:
427 // Use a weak dynamic definition if we have a reference.
430 case COMMON
* 16 + DYN_WEAK_DEF
:
431 case WEAK_COMMON
* 16 + DYN_WEAK_DEF
:
432 case DYN_COMMON
* 16 + DYN_WEAK_DEF
:
433 case DYN_WEAK_COMMON
* 16 + DYN_WEAK_DEF
:
434 // Ignore a weak dynamic definition if we already have a common
438 case DEF
* 16 + UNDEF
:
439 case WEAK_DEF
* 16 + UNDEF
:
440 case DYN_DEF
* 16 + UNDEF
:
441 case DYN_WEAK_DEF
* 16 + UNDEF
:
442 case UNDEF
* 16 + UNDEF
:
443 // A new undefined reference tells us nothing.
446 case WEAK_UNDEF
* 16 + UNDEF
:
447 case DYN_UNDEF
* 16 + UNDEF
:
448 case DYN_WEAK_UNDEF
* 16 + UNDEF
:
449 // A strong undef overrides a dynamic or weak undef.
452 case COMMON
* 16 + UNDEF
:
453 case WEAK_COMMON
* 16 + UNDEF
:
454 case DYN_COMMON
* 16 + UNDEF
:
455 case DYN_WEAK_COMMON
* 16 + UNDEF
:
456 // A new undefined reference tells us nothing.
459 case DEF
* 16 + WEAK_UNDEF
:
460 case WEAK_DEF
* 16 + WEAK_UNDEF
:
461 case DYN_DEF
* 16 + WEAK_UNDEF
:
462 case DYN_WEAK_DEF
* 16 + WEAK_UNDEF
:
463 case UNDEF
* 16 + WEAK_UNDEF
:
464 case WEAK_UNDEF
* 16 + WEAK_UNDEF
:
465 case DYN_UNDEF
* 16 + WEAK_UNDEF
:
466 case DYN_WEAK_UNDEF
* 16 + WEAK_UNDEF
:
467 case COMMON
* 16 + WEAK_UNDEF
:
468 case WEAK_COMMON
* 16 + WEAK_UNDEF
:
469 case DYN_COMMON
* 16 + WEAK_UNDEF
:
470 case DYN_WEAK_COMMON
* 16 + WEAK_UNDEF
:
471 // A new weak undefined reference tells us nothing.
474 case DEF
* 16 + DYN_UNDEF
:
475 case WEAK_DEF
* 16 + DYN_UNDEF
:
476 case DYN_DEF
* 16 + DYN_UNDEF
:
477 case DYN_WEAK_DEF
* 16 + DYN_UNDEF
:
478 case UNDEF
* 16 + DYN_UNDEF
:
479 case WEAK_UNDEF
* 16 + DYN_UNDEF
:
480 case DYN_UNDEF
* 16 + DYN_UNDEF
:
481 case DYN_WEAK_UNDEF
* 16 + DYN_UNDEF
:
482 case COMMON
* 16 + DYN_UNDEF
:
483 case WEAK_COMMON
* 16 + DYN_UNDEF
:
484 case DYN_COMMON
* 16 + DYN_UNDEF
:
485 case DYN_WEAK_COMMON
* 16 + DYN_UNDEF
:
486 // A new dynamic undefined reference tells us nothing.
489 case DEF
* 16 + DYN_WEAK_UNDEF
:
490 case WEAK_DEF
* 16 + DYN_WEAK_UNDEF
:
491 case DYN_DEF
* 16 + DYN_WEAK_UNDEF
:
492 case DYN_WEAK_DEF
* 16 + DYN_WEAK_UNDEF
:
493 case UNDEF
* 16 + DYN_WEAK_UNDEF
:
494 case WEAK_UNDEF
* 16 + DYN_WEAK_UNDEF
:
495 case DYN_UNDEF
* 16 + DYN_WEAK_UNDEF
:
496 case DYN_WEAK_UNDEF
* 16 + DYN_WEAK_UNDEF
:
497 case COMMON
* 16 + DYN_WEAK_UNDEF
:
498 case WEAK_COMMON
* 16 + DYN_WEAK_UNDEF
:
499 case DYN_COMMON
* 16 + DYN_WEAK_UNDEF
:
500 case DYN_WEAK_COMMON
* 16 + DYN_WEAK_UNDEF
:
501 // A new weak dynamic undefined reference tells us nothing.
504 case DEF
* 16 + COMMON
:
505 // A common symbol does not override a definition.
508 case WEAK_DEF
* 16 + COMMON
:
509 case DYN_DEF
* 16 + COMMON
:
510 case DYN_WEAK_DEF
* 16 + COMMON
:
511 // A common symbol does override a weak definition or a dynamic
515 case UNDEF
* 16 + COMMON
:
516 case WEAK_UNDEF
* 16 + COMMON
:
517 case DYN_UNDEF
* 16 + COMMON
:
518 case DYN_WEAK_UNDEF
* 16 + COMMON
:
519 // A common symbol is a definition for a reference.
522 case COMMON
* 16 + COMMON
:
523 // Set the size to the maximum.
524 *adjust_common_sizes
= true;
527 case WEAK_COMMON
* 16 + COMMON
:
528 // I'm not sure just what a weak common symbol means, but
529 // presumably it can be overridden by a regular common symbol.
532 case DYN_COMMON
* 16 + COMMON
:
533 case DYN_WEAK_COMMON
* 16 + COMMON
:
534 // Use the real common symbol, but adjust the size if necessary.
535 *adjust_common_sizes
= true;
538 case DEF
* 16 + WEAK_COMMON
:
539 case WEAK_DEF
* 16 + WEAK_COMMON
:
540 case DYN_DEF
* 16 + WEAK_COMMON
:
541 case DYN_WEAK_DEF
* 16 + WEAK_COMMON
:
542 // Whatever a weak common symbol is, it won't override a
546 case UNDEF
* 16 + WEAK_COMMON
:
547 case WEAK_UNDEF
* 16 + WEAK_COMMON
:
548 case DYN_UNDEF
* 16 + WEAK_COMMON
:
549 case DYN_WEAK_UNDEF
* 16 + WEAK_COMMON
:
550 // A weak common symbol is better than an undefined symbol.
553 case COMMON
* 16 + WEAK_COMMON
:
554 case WEAK_COMMON
* 16 + WEAK_COMMON
:
555 case DYN_COMMON
* 16 + WEAK_COMMON
:
556 case DYN_WEAK_COMMON
* 16 + WEAK_COMMON
:
557 // Ignore a weak common symbol in the presence of a real common
561 case DEF
* 16 + DYN_COMMON
:
562 case WEAK_DEF
* 16 + DYN_COMMON
:
563 case DYN_DEF
* 16 + DYN_COMMON
:
564 case DYN_WEAK_DEF
* 16 + DYN_COMMON
:
565 // Ignore a dynamic common symbol in the presence of a
569 case UNDEF
* 16 + DYN_COMMON
:
570 case WEAK_UNDEF
* 16 + DYN_COMMON
:
571 case DYN_UNDEF
* 16 + DYN_COMMON
:
572 case DYN_WEAK_UNDEF
* 16 + DYN_COMMON
:
573 // A dynamic common symbol is a definition of sorts.
576 case COMMON
* 16 + DYN_COMMON
:
577 case WEAK_COMMON
* 16 + DYN_COMMON
:
578 case DYN_COMMON
* 16 + DYN_COMMON
:
579 case DYN_WEAK_COMMON
* 16 + DYN_COMMON
:
580 // Set the size to the maximum.
581 *adjust_common_sizes
= true;
584 case DEF
* 16 + DYN_WEAK_COMMON
:
585 case WEAK_DEF
* 16 + DYN_WEAK_COMMON
:
586 case DYN_DEF
* 16 + DYN_WEAK_COMMON
:
587 case DYN_WEAK_DEF
* 16 + DYN_WEAK_COMMON
:
588 // A common symbol is ignored in the face of a definition.
591 case UNDEF
* 16 + DYN_WEAK_COMMON
:
592 case WEAK_UNDEF
* 16 + DYN_WEAK_COMMON
:
593 case DYN_UNDEF
* 16 + DYN_WEAK_COMMON
:
594 case DYN_WEAK_UNDEF
* 16 + DYN_WEAK_COMMON
:
595 // I guess a weak common symbol is better than a definition.
598 case COMMON
* 16 + DYN_WEAK_COMMON
:
599 case WEAK_COMMON
* 16 + DYN_WEAK_COMMON
:
600 case DYN_COMMON
* 16 + DYN_WEAK_COMMON
:
601 case DYN_WEAK_COMMON
* 16 + DYN_WEAK_COMMON
:
602 // Set the size to the maximum.
603 *adjust_common_sizes
= true;
611 // A special case of should_override which is only called for a strong
612 // defined symbol from a regular object file. This is used when
613 // defining special symbols.
616 Symbol_table::should_override_with_special(const Symbol
* to
)
618 bool adjust_common_sizes
;
619 unsigned int frombits
= global_flag
| regular_flag
| def_flag
;
620 bool ret
= Symbol_table::should_override(to
, frombits
, NULL
,
621 &adjust_common_sizes
);
622 gold_assert(!adjust_common_sizes
);
626 // Override symbol base with a special symbol.
629 Symbol::override_base_with_special(const Symbol
* from
)
631 gold_assert(this->name_
== from
->name_
|| this->has_alias());
633 this->source_
= from
->source_
;
634 switch (from
->source_
)
637 this->u_
.from_object
= from
->u_
.from_object
;
640 this->u_
.in_output_data
= from
->u_
.in_output_data
;
642 case IN_OUTPUT_SEGMENT
:
643 this->u_
.in_output_segment
= from
->u_
.in_output_segment
;
652 if (from
->version_
!= NULL
&& this->version_
!= from
->version_
)
654 gold_assert(this->version_
== NULL
);
655 this->version_
= from
->version_
;
658 this->type_
= from
->type_
;
659 this->binding_
= from
->binding_
;
660 this->visibility_
= from
->visibility_
;
661 this->nonvis_
= from
->nonvis_
;
663 // Special symbols are always considered to be regular symbols.
664 this->in_reg_
= true;
666 if (from
->needs_dynsym_entry_
)
667 this->needs_dynsym_entry_
= true;
668 if (from
->needs_dynsym_value_
)
669 this->needs_dynsym_value_
= true;
671 // We shouldn't see these flags. If we do, we need to handle them
673 gold_assert(!from
->is_target_special_
|| this->is_target_special_
);
674 gold_assert(!from
->is_forwarder_
);
675 gold_assert(!from
->has_got_offset_
);
676 gold_assert(!from
->has_plt_offset_
);
677 gold_assert(!from
->has_warning_
);
678 gold_assert(!from
->is_copied_from_dynobj_
);
681 // Override a symbol with a special symbol.
685 Sized_symbol
<size
>::override_with_special(const Sized_symbol
<size
>* from
)
687 this->override_base_with_special(from
);
688 this->value_
= from
->value_
;
689 this->symsize_
= from
->symsize_
;
692 // Override TOSYM with the special symbol FROMSYM. This handles all
697 Symbol_table::override_with_special(Sized_symbol
<size
>* tosym
,
698 const Sized_symbol
<size
>* fromsym
)
700 tosym
->override_with_special(fromsym
);
701 if (tosym
->has_alias())
703 Symbol
* sym
= this->weak_aliases_
[tosym
];
704 gold_assert(sym
!= NULL
);
705 Sized_symbol
<size
>* ssym
;
706 ssym
= this->get_sized_symbol
SELECT_SIZE_NAME(size
) (sym
710 ssym
->override_with_special(fromsym
);
711 sym
= this->weak_aliases_
[ssym
];
712 gold_assert(sym
!= NULL
);
713 ssym
= this->get_sized_symbol
SELECT_SIZE_NAME(size
) (
714 sym
SELECT_SIZE(size
));
716 while (ssym
!= tosym
);
720 // Instantiate the templates we need. We could use the configure
721 // script to restrict this to only the ones needed for implemented
724 #ifdef HAVE_TARGET_32_LITTLE
727 Symbol_table::resolve
<32, false>(
728 Sized_symbol
<32>* to
,
729 const elfcpp::Sym
<32, false>& sym
,
730 const elfcpp::Sym
<32, false>& orig_sym
,
732 const char* version
);
735 #ifdef HAVE_TARGET_32_BIG
738 Symbol_table::resolve
<32, true>(
739 Sized_symbol
<32>* to
,
740 const elfcpp::Sym
<32, true>& sym
,
741 const elfcpp::Sym
<32, true>& orig_sym
,
743 const char* version
);
746 #ifdef HAVE_TARGET_64_LITTLE
749 Symbol_table::resolve
<64, false>(
750 Sized_symbol
<64>* to
,
751 const elfcpp::Sym
<64, false>& sym
,
752 const elfcpp::Sym
<64, false>& orig_sym
,
754 const char* version
);
757 #ifdef HAVE_TARGET_64_BIG
760 Symbol_table::resolve
<64, true>(
761 Sized_symbol
<64>* to
,
762 const elfcpp::Sym
<64, true>& sym
,
763 const elfcpp::Sym
<64, true>& orig_sym
,
765 const char* version
);
768 #if defined(HAVE_TARGET_32_LITTLE) || defined(HAVE_TARGET_32_BIG)
771 Symbol_table::override_with_special
<32>(Sized_symbol
<32>*,
772 const Sized_symbol
<32>*);
775 #if defined(HAVE_TARGET_64_LITTLE) || defined(HAVE_TARGET_64_BIG)
778 Symbol_table::override_with_special
<64>(Sized_symbol
<64>*,
779 const Sized_symbol
<64>*);
782 } // End namespace gold.