1 // symtab.h -- the gold symbol table -*- C++ -*-
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.
31 #include "parameters.h"
32 #include "stringpool.h"
43 template<int size
, bool big_endian
>
46 template<int size
, bool big_endian
>
49 class Version_script_info
;
57 // The base class of an entry in the symbol table. The symbol table
58 // can have a lot of entries, so we don't want this class to big.
59 // Size dependent fields can be found in the template class
60 // Sized_symbol. Targets may support their own derived classes.
65 // Because we want the class to be small, we don't use any virtual
66 // functions. But because symbols can be defined in different
67 // places, we need to classify them. This enum is the different
68 // sources of symbols we support.
71 // Symbol defined in a relocatable or dynamic input file--this is
72 // the most common case.
74 // Symbol defined in an Output_data, a special section created by
77 // Symbol defined in an Output_segment, with no associated
80 // Symbol value is constant.
84 // When the source is IN_OUTPUT_SEGMENT, we need to describe what
86 enum Segment_offset_base
88 // From the start of the segment.
90 // From the end of the segment.
92 // From the filesz of the segment--i.e., after the loaded bytes
93 // but before the bytes which are allocated but zeroed.
97 // Return the symbol name.
100 { return this->name_
; }
102 // Return the (ANSI) demangled version of the name, if
103 // parameters.demangle() is true. Otherwise, return the name. This
104 // is intended to be used only for logging errors, so it's not
107 demangled_name() const;
109 // Return the symbol version. This will return NULL for an
110 // unversioned symbol.
113 { return this->version_
; }
115 // Return whether this version is the default for this symbol name
116 // (eg, "foo@@V2" is a default version; "foo@V1" is not). Only
117 // meaningful for versioned symbols.
121 gold_assert(this->version_
!= NULL
);
122 return this->is_def_
;
125 // Set whether this version is the default for this symbol name.
127 set_is_default(bool def
)
128 { this->is_def_
= def
; }
130 // Return the symbol source.
133 { return this->source_
; }
135 // Return the object with which this symbol is associated.
139 gold_assert(this->source_
== FROM_OBJECT
);
140 return this->u_
.from_object
.object
;
143 // Return the index of the section in the input relocatable or
144 // dynamic object file.
148 gold_assert(this->source_
== FROM_OBJECT
);
149 return this->u_
.from_object
.shndx
;
152 // Return the output data section with which this symbol is
153 // associated, if the symbol was specially defined with respect to
154 // an output data section.
158 gold_assert(this->source_
== IN_OUTPUT_DATA
);
159 return this->u_
.in_output_data
.output_data
;
162 // If this symbol was defined with respect to an output data
163 // section, return whether the value is an offset from end.
165 offset_is_from_end() const
167 gold_assert(this->source_
== IN_OUTPUT_DATA
);
168 return this->u_
.in_output_data
.offset_is_from_end
;
171 // Return the output segment with which this symbol is associated,
172 // if the symbol was specially defined with respect to an output
175 output_segment() const
177 gold_assert(this->source_
== IN_OUTPUT_SEGMENT
);
178 return this->u_
.in_output_segment
.output_segment
;
181 // If this symbol was defined with respect to an output segment,
182 // return the offset base.
186 gold_assert(this->source_
== IN_OUTPUT_SEGMENT
);
187 return this->u_
.in_output_segment
.offset_base
;
190 // Return the symbol binding.
193 { return this->binding_
; }
195 // Return the symbol type.
198 { return this->type_
; }
200 // Return the symbol visibility.
203 { return this->visibility_
; }
205 // Return the non-visibility part of the st_other field.
208 { return this->nonvis_
; }
210 // Return whether this symbol is a forwarder. This will never be
211 // true of a symbol found in the hash table, but may be true of
212 // symbol pointers attached to object files.
215 { return this->is_forwarder_
; }
217 // Mark this symbol as a forwarder.
220 { this->is_forwarder_
= true; }
222 // Return whether this symbol has an alias in the weak aliases table
226 { return this->has_alias_
; }
228 // Mark this symbol as having an alias.
231 { this->has_alias_
= true; }
233 // Return whether this symbol needs an entry in the dynamic symbol
236 needs_dynsym_entry() const
238 return (this->needs_dynsym_entry_
239 || (this->in_reg() && this->in_dyn()));
242 // Mark this symbol as needing an entry in the dynamic symbol table.
244 set_needs_dynsym_entry()
245 { this->needs_dynsym_entry_
= true; }
247 // Return whether this symbol should be added to the dynamic symbol
250 should_add_dynsym_entry() const;
252 // Return whether this symbol has been seen in a regular object.
255 { return this->in_reg_
; }
257 // Mark this symbol as having been seen in a regular object.
260 { this->in_reg_
= true; }
262 // Return whether this symbol has been seen in a dynamic object.
265 { return this->in_dyn_
; }
267 // Mark this symbol as having been seen in a dynamic object.
270 { this->in_dyn_
= true; }
272 // Return the index of this symbol in the output file symbol table.
273 // A value of -1U means that this symbol is not going into the
274 // output file. This starts out as zero, and is set to a non-zero
275 // value by Symbol_table::finalize. It is an error to ask for the
276 // symbol table index before it has been set.
280 gold_assert(this->symtab_index_
!= 0);
281 return this->symtab_index_
;
284 // Set the index of the symbol in the output file symbol table.
286 set_symtab_index(unsigned int index
)
288 gold_assert(index
!= 0);
289 this->symtab_index_
= index
;
292 // Return whether this symbol already has an index in the output
293 // file symbol table.
295 has_symtab_index() const
296 { return this->symtab_index_
!= 0; }
298 // Return the index of this symbol in the dynamic symbol table. A
299 // value of -1U means that this symbol is not going into the dynamic
300 // symbol table. This starts out as zero, and is set to a non-zero
301 // during Layout::finalize. It is an error to ask for the dynamic
302 // symbol table index before it has been set.
306 gold_assert(this->dynsym_index_
!= 0);
307 return this->dynsym_index_
;
310 // Set the index of the symbol in the dynamic symbol table.
312 set_dynsym_index(unsigned int index
)
314 gold_assert(index
!= 0);
315 this->dynsym_index_
= index
;
318 // Return whether this symbol already has an index in the dynamic
321 has_dynsym_index() const
322 { return this->dynsym_index_
!= 0; }
324 // Return whether this symbol has an entry in the GOT section.
325 // For a TLS symbol, this GOT entry will hold its tp-relative offset.
327 has_got_offset() const
328 { return this->has_got_offset_
; }
330 // Return the offset into the GOT section of this symbol.
334 gold_assert(this->has_got_offset());
335 return this->got_offset_
;
338 // Set the GOT offset of this symbol.
340 set_got_offset(unsigned int got_offset
)
342 this->has_got_offset_
= true;
343 this->got_offset_
= got_offset
;
346 // Return whether this TLS symbol has an entry in the GOT section for
347 // its module index or, if NEED_PAIR is true, has a pair of entries
348 // for its module index and dtv-relative offset.
350 has_tls_got_offset(bool need_pair
) const
352 return (this->has_tls_mod_got_offset_
353 && (!need_pair
|| this->has_tls_pair_got_offset_
));
356 // Return the offset into the GOT section for this symbol's TLS module
357 // index or, if NEED_PAIR is true, for the pair of entries for the
358 // module index and dtv-relative offset.
360 tls_got_offset(bool need_pair
) const
362 gold_assert(this->has_tls_got_offset(need_pair
));
363 return this->tls_mod_got_offset_
;
366 // Set the GOT offset of this symbol.
368 set_tls_got_offset(unsigned int got_offset
, bool have_pair
)
370 this->has_tls_mod_got_offset_
= true;
371 this->has_tls_pair_got_offset_
= have_pair
;
372 this->tls_mod_got_offset_
= got_offset
;
375 // Return whether this symbol has an entry in the PLT section.
377 has_plt_offset() const
378 { return this->has_plt_offset_
; }
380 // Return the offset into the PLT section of this symbol.
384 gold_assert(this->has_plt_offset());
385 return this->plt_offset_
;
388 // Set the PLT offset of this symbol.
390 set_plt_offset(unsigned int plt_offset
)
392 this->has_plt_offset_
= true;
393 this->plt_offset_
= plt_offset
;
396 // Return whether this dynamic symbol needs a special value in the
397 // dynamic symbol table.
399 needs_dynsym_value() const
400 { return this->needs_dynsym_value_
; }
402 // Set that this dynamic symbol needs a special value in the dynamic
405 set_needs_dynsym_value()
407 gold_assert(this->object()->is_dynamic());
408 this->needs_dynsym_value_
= true;
411 // Return true if the final value of this symbol is known at link
414 final_value_is_known() const;
416 // Return whether this is a defined symbol (not undefined or
421 return (this->source_
!= FROM_OBJECT
422 || (this->shndx() != elfcpp::SHN_UNDEF
423 && this->shndx() != elfcpp::SHN_COMMON
));
426 // Return true if this symbol is from a dynamic object.
428 is_from_dynobj() const
430 return this->source_
== FROM_OBJECT
&& this->object()->is_dynamic();
433 // Return whether this is an undefined symbol.
437 return this->source_
== FROM_OBJECT
&& this->shndx() == elfcpp::SHN_UNDEF
;
440 // Return whether this is a common symbol.
444 return (this->source_
== FROM_OBJECT
445 && (this->shndx() == elfcpp::SHN_COMMON
446 || this->type_
== elfcpp::STT_COMMON
));
449 // Return whether this symbol can be seen outside this object.
451 is_externally_visible() const
453 return (this->visibility_
== elfcpp::STV_DEFAULT
454 || this->visibility_
== elfcpp::STV_PROTECTED
);
457 // Return true if this symbol can be preempted by a definition in
458 // another link unit.
460 is_preemptible() const
462 // It doesn't make sense to ask whether a symbol defined in
463 // another object is preemptible.
464 gold_assert(!this->is_from_dynobj());
466 return (this->visibility_
!= elfcpp::STV_INTERNAL
467 && this->visibility_
!= elfcpp::STV_HIDDEN
468 && this->visibility_
!= elfcpp::STV_PROTECTED
469 && !this->is_forced_local_
470 && parameters
->output_is_shared()
471 && !parameters
->symbolic());
474 // Return true if this symbol is a function that needs a PLT entry.
475 // If the symbol is defined in a dynamic object or if it is subject
476 // to pre-emption, we need to make a PLT entry.
478 needs_plt_entry() const
480 return (this->type() == elfcpp::STT_FUNC
481 && (this->is_from_dynobj() || this->is_preemptible()));
484 // When determining whether a reference to a symbol needs a dynamic
485 // relocation, we need to know several things about the reference.
486 // These flags may be or'ed together.
489 // Reference to the symbol's absolute address.
491 // A non-PIC reference.
497 // Given a direct absolute or pc-relative static relocation against
498 // the global symbol, this function returns whether a dynamic relocation
502 needs_dynamic_reloc(int flags
) const
504 // An absolute reference within a position-independent output file
505 // will need a dynamic relocation.
506 if ((flags
& ABSOLUTE_REF
)
507 && parameters
->output_is_position_independent())
510 // A function call that can branch to a local PLT entry does not need
511 // a dynamic relocation. A non-pic pc-relative function call in a
512 // shared library cannot use a PLT entry.
513 if ((flags
& FUNCTION_CALL
)
514 && this->has_plt_offset()
515 && !((flags
& NON_PIC_REF
) && parameters
->output_is_shared()))
518 // A reference to any PLT entry in a non-position-independent executable
519 // does not need a dynamic relocation.
520 if (!parameters
->output_is_position_independent()
521 && this->has_plt_offset())
524 // A reference to a symbol defined in a dynamic object or to a
525 // symbol that is preemptible will need a dynamic relocation.
526 if (this->is_from_dynobj() || this->is_preemptible())
529 // For all other cases, return FALSE.
533 // Given a direct absolute static relocation against
534 // the global symbol, where a dynamic relocation is needed, this
535 // function returns whether a relative dynamic relocation can be used.
536 // The caller must determine separately whether the static relocation
537 // is compatible with a relative relocation.
540 can_use_relative_reloc(bool is_function_call
) const
542 // A function call that can branch to a local PLT entry can
543 // use a RELATIVE relocation.
544 if (is_function_call
&& this->has_plt_offset())
547 // A reference to a symbol defined in a dynamic object or to a
548 // symbol that is preemptible can not use a RELATIVE relocaiton.
549 if (this->is_from_dynobj() || this->is_preemptible())
552 // For all other cases, return TRUE.
556 // Return whether there should be a warning for references to this
560 { return this->has_warning_
; }
562 // Mark this symbol as having a warning.
565 { this->has_warning_
= true; }
567 // Return whether this symbol is defined by a COPY reloc from a
570 is_copied_from_dynobj() const
571 { return this->is_copied_from_dynobj_
; }
573 // Mark this symbol as defined by a COPY reloc.
575 set_is_copied_from_dynobj()
576 { this->is_copied_from_dynobj_
= true; }
578 // Return whether this symbol is forced to visibility STB_LOCAL
579 // by a "local:" entry in a version script.
581 is_forced_local() const
582 { return this->is_forced_local_
; }
584 // Mark this symbol as forced to STB_LOCAL visibility.
586 set_is_forced_local()
587 { this->is_forced_local_
= true; }
590 // Instances of this class should always be created at a specific
593 { memset(this, 0, sizeof *this); }
595 // Initialize the general fields.
597 init_fields(const char* name
, const char* version
,
598 elfcpp::STT type
, elfcpp::STB binding
,
599 elfcpp::STV visibility
, unsigned char nonvis
);
601 // Initialize fields from an ELF symbol in OBJECT.
602 template<int size
, bool big_endian
>
604 init_base(const char *name
, const char* version
, Object
* object
,
605 const elfcpp::Sym
<size
, big_endian
>&);
607 // Initialize fields for an Output_data.
609 init_base(const char* name
, Output_data
*, elfcpp::STT
, elfcpp::STB
,
610 elfcpp::STV
, unsigned char nonvis
, bool offset_is_from_end
);
612 // Initialize fields for an Output_segment.
614 init_base(const char* name
, Output_segment
* os
, elfcpp::STT type
,
615 elfcpp::STB binding
, elfcpp::STV visibility
,
616 unsigned char nonvis
, Segment_offset_base offset_base
);
618 // Initialize fields for a constant.
620 init_base(const char* name
, elfcpp::STT type
, elfcpp::STB binding
,
621 elfcpp::STV visibility
, unsigned char nonvis
);
623 // Override existing symbol.
624 template<int size
, bool big_endian
>
626 override_base(const elfcpp::Sym
<size
, big_endian
>&, Object
* object
,
627 const char* version
);
629 // Override existing symbol with a special symbol.
631 override_base_with_special(const Symbol
* from
);
633 // Allocate a common symbol by giving it a location in the output
636 allocate_base_common(Output_data
*);
639 Symbol(const Symbol
&);
640 Symbol
& operator=(const Symbol
&);
642 // Symbol name (expected to point into a Stringpool).
644 // Symbol version (expected to point into a Stringpool). This may
646 const char* version_
;
650 // This struct is used if SOURCE_ == FROM_OBJECT.
653 // Object in which symbol is defined, or in which it was first
656 // Section number in object_ in which symbol is defined.
660 // This struct is used if SOURCE_ == IN_OUTPUT_DATA.
663 // Output_data in which symbol is defined. Before
664 // Layout::finalize the symbol's value is an offset within the
666 Output_data
* output_data
;
667 // True if the offset is from the end, false if the offset is
668 // from the beginning.
669 bool offset_is_from_end
;
672 // This struct is used if SOURCE_ == IN_OUTPUT_SEGMENT.
675 // Output_segment in which the symbol is defined. Before
676 // Layout::finalize the symbol's value is an offset.
677 Output_segment
* output_segment
;
678 // The base to use for the offset before Layout::finalize.
679 Segment_offset_base offset_base
;
683 // The index of this symbol in the output file. If the symbol is
684 // not going into the output file, this value is -1U. This field
685 // starts as always holding zero. It is set to a non-zero value by
686 // Symbol_table::finalize.
687 unsigned int symtab_index_
;
689 // The index of this symbol in the dynamic symbol table. If the
690 // symbol is not going into the dynamic symbol table, this value is
691 // -1U. This field starts as always holding zero. It is set to a
692 // non-zero value during Layout::finalize.
693 unsigned int dynsym_index_
;
695 // If this symbol has an entry in the GOT section (has_got_offset_
696 // is true), this is the offset from the start of the GOT section.
697 // For a TLS symbol, if has_tls_tpoff_got_offset_ is true, this
698 // serves as the GOT offset for the GOT entry that holds its
699 // TP-relative offset.
700 unsigned int got_offset_
;
702 // If this is a TLS symbol and has an entry in the GOT section
703 // for a module index or a pair of entries (module index,
704 // dtv-relative offset), these are the offsets from the start
705 // of the GOT section.
706 unsigned int tls_mod_got_offset_
;
707 unsigned int tls_pair_got_offset_
;
709 // If this symbol has an entry in the PLT section (has_plt_offset_
710 // is true), then this is the offset from the start of the PLT
712 unsigned int plt_offset_
;
715 elfcpp::STT type_
: 4;
717 elfcpp::STB binding_
: 4;
718 // Symbol visibility.
719 elfcpp::STV visibility_
: 2;
720 // Rest of symbol st_other field.
721 unsigned int nonvis_
: 6;
722 // The type of symbol.
724 // True if this symbol always requires special target-specific
726 bool is_target_special_
: 1;
727 // True if this is the default version of the symbol.
729 // True if this symbol really forwards to another symbol. This is
730 // used when we discover after the fact that two different entries
731 // in the hash table really refer to the same symbol. This will
732 // never be set for a symbol found in the hash table, but may be set
733 // for a symbol found in the list of symbols attached to an Object.
734 // It forwards to the symbol found in the forwarders_ map of
736 bool is_forwarder_
: 1;
737 // True if the symbol has an alias in the weak_aliases table in
740 // True if this symbol needs to be in the dynamic symbol table.
741 bool needs_dynsym_entry_
: 1;
742 // True if we've seen this symbol in a regular object.
744 // True if we've seen this symbol in a dynamic object.
746 // True if the symbol has an entry in the GOT section.
747 // For a TLS symbol, this GOT entry will hold its tp-relative offset.
748 bool has_got_offset_
: 1;
749 // True if the symbol has an entry in the GOT section for its
751 bool has_tls_mod_got_offset_
: 1;
752 // True if the symbol has a pair of entries in the GOT section for its
753 // module index and dtv-relative offset.
754 bool has_tls_pair_got_offset_
: 1;
755 // True if the symbol has an entry in the PLT section.
756 bool has_plt_offset_
: 1;
757 // True if this is a dynamic symbol which needs a special value in
758 // the dynamic symbol table.
759 bool needs_dynsym_value_
: 1;
760 // True if there is a warning for this symbol.
761 bool has_warning_
: 1;
762 // True if we are using a COPY reloc for this symbol, so that the
763 // real definition lives in a dynamic object.
764 bool is_copied_from_dynobj_
: 1;
765 // True if this symbol was forced to local visibility by a version
767 bool is_forced_local_
: 1;
770 // The parts of a symbol which are size specific. Using a template
771 // derived class like this helps us use less space on a 32-bit system.
774 class Sized_symbol
: public Symbol
777 typedef typename
elfcpp::Elf_types
<size
>::Elf_Addr Value_type
;
778 typedef typename
elfcpp::Elf_types
<size
>::Elf_WXword Size_type
;
783 // Initialize fields from an ELF symbol in OBJECT.
784 template<bool big_endian
>
786 init(const char *name
, const char* version
, Object
* object
,
787 const elfcpp::Sym
<size
, big_endian
>&);
789 // Initialize fields for an Output_data.
791 init(const char* name
, Output_data
*, Value_type value
, Size_type symsize
,
792 elfcpp::STT
, elfcpp::STB
, elfcpp::STV
, unsigned char nonvis
,
793 bool offset_is_from_end
);
795 // Initialize fields for an Output_segment.
797 init(const char* name
, Output_segment
*, Value_type value
, Size_type symsize
,
798 elfcpp::STT
, elfcpp::STB
, elfcpp::STV
, unsigned char nonvis
,
799 Segment_offset_base offset_base
);
801 // Initialize fields for a constant.
803 init(const char* name
, Value_type value
, Size_type symsize
,
804 elfcpp::STT
, elfcpp::STB
, elfcpp::STV
, unsigned char nonvis
);
806 // Override existing symbol.
807 template<bool big_endian
>
809 override(const elfcpp::Sym
<size
, big_endian
>&, Object
* object
,
810 const char* version
);
812 // Override existing symbol with a special symbol.
814 override_with_special(const Sized_symbol
<size
>*);
816 // Return the symbol's value.
819 { return this->value_
; }
821 // Return the symbol's size (we can't call this 'size' because that
822 // is a template parameter).
825 { return this->symsize_
; }
827 // Set the symbol size. This is used when resolving common symbols.
829 set_symsize(Size_type symsize
)
830 { this->symsize_
= symsize
; }
832 // Set the symbol value. This is called when we store the final
833 // values of the symbols into the symbol table.
835 set_value(Value_type value
)
836 { this->value_
= value
; }
838 // Allocate a common symbol by giving it a location in the output
841 allocate_common(Output_data
*, Value_type value
);
844 Sized_symbol(const Sized_symbol
&);
845 Sized_symbol
& operator=(const Sized_symbol
&);
847 // Symbol value. Before Layout::finalize this is the offset in the
848 // input section. This is set to the final value during
855 // A struct describing a symbol defined by the linker, where the value
856 // of the symbol is defined based on an output section. This is used
857 // for symbols defined by the linker, like "_init_array_start".
859 struct Define_symbol_in_section
863 // The name of the output section with which this symbol should be
864 // associated. If there is no output section with that name, the
865 // symbol will be defined as zero.
866 const char* output_section
;
867 // The offset of the symbol within the output section. This is an
868 // offset from the start of the output section, unless start_at_end
869 // is true, in which case this is an offset from the end of the
872 // The size of the symbol.
876 // The symbol binding.
878 // The symbol visibility.
879 elfcpp::STV visibility
;
880 // The rest of the st_other field.
881 unsigned char nonvis
;
882 // If true, the value field is an offset from the end of the output
884 bool offset_is_from_end
;
885 // If true, this symbol is defined only if we see a reference to it.
889 // A struct describing a symbol defined by the linker, where the value
890 // of the symbol is defined based on a segment. This is used for
891 // symbols defined by the linker, like "_end". We describe the
892 // segment with which the symbol should be associated by its
893 // characteristics. If no segment meets these characteristics, the
894 // symbol will be defined as zero. If there is more than one segment
895 // which meets these characteristics, we will use the first one.
897 struct Define_symbol_in_segment
901 // The segment type where the symbol should be defined, typically
903 elfcpp::PT segment_type
;
904 // Bitmask of segment flags which must be set.
905 elfcpp::PF segment_flags_set
;
906 // Bitmask of segment flags which must be clear.
907 elfcpp::PF segment_flags_clear
;
908 // The offset of the symbol within the segment. The offset is
909 // calculated from the position set by offset_base.
911 // The size of the symbol.
915 // The symbol binding.
917 // The symbol visibility.
918 elfcpp::STV visibility
;
919 // The rest of the st_other field.
920 unsigned char nonvis
;
921 // The base from which we compute the offset.
922 Symbol::Segment_offset_base offset_base
;
923 // If true, this symbol is defined only if we see a reference to it.
927 // This class manages warnings. Warnings are a GNU extension. When
928 // we see a section named .gnu.warning.SYM in an object file, and if
929 // we wind using the definition of SYM from that object file, then we
930 // will issue a warning for any relocation against SYM from a
931 // different object file. The text of the warning is the contents of
932 // the section. This is not precisely the definition used by the old
933 // GNU linker; the old GNU linker treated an occurrence of
934 // .gnu.warning.SYM as defining a warning symbol. A warning symbol
935 // would trigger a warning on any reference. However, it was
936 // inconsistent in that a warning in a dynamic object only triggered
937 // if there was no definition in a regular object. This linker is
938 // different in that we only issue a warning if we use the symbol
939 // definition from the same object file as the warning section.
948 // Add a warning for symbol NAME in object OBJ. WARNING is the text
951 add_warning(Symbol_table
* symtab
, const char* name
, Object
* obj
,
952 const std::string
& warning
);
954 // For each symbol for which we should give a warning, make a note
957 note_warnings(Symbol_table
* symtab
);
959 // Issue a warning for a reference to SYM at RELINFO's location.
960 template<int size
, bool big_endian
>
962 issue_warning(const Symbol
* sym
, const Relocate_info
<size
, big_endian
>*,
963 size_t relnum
, off_t reloffset
) const;
966 Warnings(const Warnings
&);
967 Warnings
& operator=(const Warnings
&);
969 // What we need to know to get the warning text.
970 struct Warning_location
972 // The object the warning is in.
978 : object(NULL
), text()
982 set(Object
* o
, const std::string
& t
)
989 // A mapping from warning symbol names (canonicalized in
990 // Symbol_table's namepool_ field) to warning information.
991 typedef Unordered_map
<const char*, Warning_location
> Warning_table
;
993 Warning_table warnings_
;
996 // The main linker symbol table.
1001 // COUNT is an estimate of how many symbosl will be inserted in the
1002 // symbol table. It's ok to put 0 if you don't know; a correct
1003 // guess will just save some CPU by reducing hashtable resizes.
1004 Symbol_table(unsigned int count
, const Version_script_info
& version_script
);
1008 // Add COUNT external symbols from the relocatable object RELOBJ to
1009 // the symbol table. SYMS is the symbols, SYM_NAMES is their names,
1010 // SYM_NAME_SIZE is the size of SYM_NAMES. This sets SYMPOINTERS to
1011 // point to the symbols in the symbol table.
1012 template<int size
, bool big_endian
>
1014 add_from_relobj(Sized_relobj
<size
, big_endian
>* relobj
,
1015 const unsigned char* syms
, size_t count
,
1016 const char* sym_names
, size_t sym_name_size
,
1017 typename Sized_relobj
<size
, big_endian
>::Symbols
*);
1019 // Add COUNT dynamic symbols from the dynamic object DYNOBJ to the
1020 // symbol table. SYMS is the symbols. SYM_NAMES is their names.
1021 // SYM_NAME_SIZE is the size of SYM_NAMES. The other parameters are
1022 // symbol version data.
1023 template<int size
, bool big_endian
>
1025 add_from_dynobj(Sized_dynobj
<size
, big_endian
>* dynobj
,
1026 const unsigned char* syms
, size_t count
,
1027 const char* sym_names
, size_t sym_name_size
,
1028 const unsigned char* versym
, size_t versym_size
,
1029 const std::vector
<const char*>*);
1031 // Define a special symbol based on an Output_data. It is a
1032 // multiple definition error if this symbol is already defined.
1034 define_in_output_data(const Target
*, const char* name
, const char* version
,
1035 Output_data
*, uint64_t value
, uint64_t symsize
,
1036 elfcpp::STT type
, elfcpp::STB binding
,
1037 elfcpp::STV visibility
, unsigned char nonvis
,
1038 bool offset_is_from_end
, bool only_if_ref
);
1040 // Define a special symbol based on an Output_segment. It is a
1041 // multiple definition error if this symbol is already defined.
1043 define_in_output_segment(const Target
*, const char* name
,
1044 const char* version
, Output_segment
*,
1045 uint64_t value
, uint64_t symsize
,
1046 elfcpp::STT type
, elfcpp::STB binding
,
1047 elfcpp::STV visibility
, unsigned char nonvis
,
1048 Symbol::Segment_offset_base
, bool only_if_ref
);
1050 // Define a special symbol with a constant value. It is a multiple
1051 // definition error if this symbol is already defined.
1053 define_as_constant(const Target
*, const char* name
, const char* version
,
1054 uint64_t value
, uint64_t symsize
, elfcpp::STT type
,
1055 elfcpp::STB binding
, elfcpp::STV visibility
,
1056 unsigned char nonvis
, bool only_if_ref
);
1058 // Define a set of symbols in output sections.
1060 define_symbols(const Layout
*, const Target
*, int count
,
1061 const Define_symbol_in_section
*);
1063 // Define a set of symbols in output segments.
1065 define_symbols(const Layout
*, const Target
*, int count
,
1066 const Define_symbol_in_segment
*);
1068 // Define SYM using a COPY reloc. POSD is the Output_data where the
1069 // symbol should be defined--typically a .dyn.bss section. VALUE is
1070 // the offset within POSD.
1073 define_with_copy_reloc(const Target
*, Sized_symbol
<size
>* sym
,
1075 typename
elfcpp::Elf_types
<size
>::Elf_Addr
);
1077 // Look up a symbol.
1079 lookup(const char*, const char* version
= NULL
) const;
1081 // Return the real symbol associated with the forwarder symbol FROM.
1083 resolve_forwards(const Symbol
* from
) const;
1085 // Return the sized version of a symbol in this table.
1088 get_sized_symbol(Symbol
* ACCEPT_SIZE
) const;
1091 const Sized_symbol
<size
>*
1092 get_sized_symbol(const Symbol
* ACCEPT_SIZE
) const;
1094 // Return the count of undefined symbols seen.
1096 saw_undefined() const
1097 { return this->saw_undefined_
; }
1099 // Allocate the common symbols
1101 allocate_commons(const General_options
&, Layout
*);
1103 // Add a warning for symbol NAME in object OBJ. WARNING is the text
1106 add_warning(const char* name
, Object
* obj
, const std::string
& warning
)
1107 { this->warnings_
.add_warning(this, name
, obj
, warning
); }
1109 // Canonicalize a symbol name for use in the hash table.
1111 canonicalize_name(const char* name
)
1112 { return this->namepool_
.add(name
, true, NULL
); }
1114 // Possibly issue a warning for a reference to SYM at LOCATION which
1116 template<int size
, bool big_endian
>
1118 issue_warning(const Symbol
* sym
,
1119 const Relocate_info
<size
, big_endian
>* relinfo
,
1120 size_t relnum
, off_t reloffset
) const
1121 { this->warnings_
.issue_warning(sym
, relinfo
, relnum
, reloffset
); }
1123 // Check candidate_odr_violations_ to find symbols with the same name
1124 // but apparently different definitions (different source-file/line-no).
1126 detect_odr_violations(const Task
*, const char* output_file_name
) const;
1128 // SYM is defined using a COPY reloc. Return the dynamic object
1129 // where the original definition was found.
1131 get_copy_source(const Symbol
* sym
) const;
1133 // Set the dynamic symbol indexes. INDEX is the index of the first
1134 // global dynamic symbol. Pointers to the symbols are stored into
1135 // the vector. The names are stored into the Stringpool. This
1136 // returns an updated dynamic symbol index.
1138 set_dynsym_indexes(const Target
*, unsigned int index
,
1139 std::vector
<Symbol
*>*, Stringpool
*, Versions
*);
1141 // Finalize the symbol table after we have set the final addresses
1142 // of all the input sections. This sets the final symbol indexes,
1143 // values and adds the names to *POOL. *PLOCAL_SYMCOUNT is the
1144 // index of the first global symbol. OFF is the file offset of the
1145 // global symbol table, DYNOFF is the offset of the globals in the
1146 // dynamic symbol table, DYN_GLOBAL_INDEX is the index of the first
1147 // global dynamic symbol, and DYNCOUNT is the number of global
1148 // dynamic symbols. This records the parameters, and returns the
1149 // new file offset. It updates *PLOCAL_SYMCOUNT if it created any
1152 finalize(off_t off
, off_t dynoff
, size_t dyn_global_index
, size_t dyncount
,
1153 Stringpool
* pool
, unsigned int *plocal_symcount
);
1155 // Write out the global symbols.
1157 write_globals(const Input_objects
*, const Stringpool
*, const Stringpool
*,
1158 Output_file
*) const;
1160 // Write out a section symbol. Return the updated offset.
1162 write_section_symbol(const Output_section
*, Output_file
*, off_t
) const;
1164 // Dump statistical information to stderr.
1166 print_stats() const;
1168 // Return the version script information.
1169 const Version_script_info
&
1170 version_script() const
1171 { return version_script_
; }
1174 Symbol_table(const Symbol_table
&);
1175 Symbol_table
& operator=(const Symbol_table
&);
1177 // Make FROM a forwarder symbol to TO.
1179 make_forwarder(Symbol
* from
, Symbol
* to
);
1182 template<int size
, bool big_endian
>
1184 add_from_object(Object
*, const char *name
, Stringpool::Key name_key
,
1185 const char *version
, Stringpool::Key version_key
,
1186 bool def
, const elfcpp::Sym
<size
, big_endian
>& sym
,
1187 const elfcpp::Sym
<size
, big_endian
>& orig_sym
);
1190 template<int size
, bool big_endian
>
1192 resolve(Sized_symbol
<size
>* to
,
1193 const elfcpp::Sym
<size
, big_endian
>& sym
,
1194 const elfcpp::Sym
<size
, big_endian
>& orig_sym
,
1195 Object
*, const char* version
);
1197 template<int size
, bool big_endian
>
1199 resolve(Sized_symbol
<size
>* to
, const Sized_symbol
<size
>* from
,
1200 const char* version ACCEPT_SIZE_ENDIAN
);
1202 // Record that a symbol is forced to be local by a version script.
1204 force_local(Symbol
*);
1206 // Whether we should override a symbol, based on flags in
1209 should_override(const Symbol
*, unsigned int, Object
*, bool*);
1211 // Override a symbol.
1212 template<int size
, bool big_endian
>
1214 override(Sized_symbol
<size
>* tosym
,
1215 const elfcpp::Sym
<size
, big_endian
>& fromsym
,
1216 Object
* object
, const char* version
);
1218 // Whether we should override a symbol with a special symbol which
1219 // is automatically defined by the linker.
1221 should_override_with_special(const Symbol
*);
1223 // Override a symbol with a special symbol.
1226 override_with_special(Sized_symbol
<size
>* tosym
,
1227 const Sized_symbol
<size
>* fromsym
);
1229 // Record all weak alias sets for a dynamic object.
1232 record_weak_aliases(std::vector
<Sized_symbol
<size
>*>*);
1234 // Define a special symbol.
1235 template<int size
, bool big_endian
>
1237 define_special_symbol(const Target
* target
, const char** pname
,
1238 const char** pversion
, bool only_if_ref
,
1239 Sized_symbol
<size
>** poldsym ACCEPT_SIZE_ENDIAN
);
1241 // Define a symbol in an Output_data, sized version.
1244 do_define_in_output_data(const Target
*, const char* name
,
1245 const char* version
, Output_data
*,
1246 typename
elfcpp::Elf_types
<size
>::Elf_Addr value
,
1247 typename
elfcpp::Elf_types
<size
>::Elf_WXword ssize
,
1248 elfcpp::STT type
, elfcpp::STB binding
,
1249 elfcpp::STV visibility
, unsigned char nonvis
,
1250 bool offset_is_from_end
, bool only_if_ref
);
1252 // Define a symbol in an Output_segment, sized version.
1255 do_define_in_output_segment(
1256 const Target
*, const char* name
, const char* version
, Output_segment
* os
,
1257 typename
elfcpp::Elf_types
<size
>::Elf_Addr value
,
1258 typename
elfcpp::Elf_types
<size
>::Elf_WXword ssize
,
1259 elfcpp::STT type
, elfcpp::STB binding
,
1260 elfcpp::STV visibility
, unsigned char nonvis
,
1261 Symbol::Segment_offset_base offset_base
, bool only_if_ref
);
1263 // Define a symbol as a constant, sized version.
1266 do_define_as_constant(
1267 const Target
*, const char* name
, const char* version
,
1268 typename
elfcpp::Elf_types
<size
>::Elf_Addr value
,
1269 typename
elfcpp::Elf_types
<size
>::Elf_WXword ssize
,
1270 elfcpp::STT type
, elfcpp::STB binding
,
1271 elfcpp::STV visibility
, unsigned char nonvis
,
1274 // Allocate the common symbols, sized version.
1277 do_allocate_commons(const General_options
&, Layout
*);
1279 // Implement detect_odr_violations.
1280 template<int size
, bool big_endian
>
1282 sized_detect_odr_violations() const;
1284 // Finalize symbols specialized for size.
1287 sized_finalize(off_t
, Stringpool
*, unsigned int*);
1289 // Finalize a symbol. Return whether it should be added to the
1293 sized_finalize_symbol(Symbol
*);
1295 // Add a symbol the final symtab by setting its index.
1298 add_to_final_symtab(Symbol
*, Stringpool
*, unsigned int* pindex
, off_t
* poff
);
1300 // Write globals specialized for size and endianness.
1301 template<int size
, bool big_endian
>
1303 sized_write_globals(const Input_objects
*, const Stringpool
*,
1304 const Stringpool
*, Output_file
*) const;
1306 // Write out a symbol to P.
1307 template<int size
, bool big_endian
>
1309 sized_write_symbol(Sized_symbol
<size
>*,
1310 typename
elfcpp::Elf_types
<size
>::Elf_Addr value
,
1312 const Stringpool
*, unsigned char* p
1313 ACCEPT_SIZE_ENDIAN
) const;
1315 // Possibly warn about an undefined symbol from a dynamic object.
1317 warn_about_undefined_dynobj_symbol(const Input_objects
*, Symbol
*) const;
1319 // Write out a section symbol, specialized for size and endianness.
1320 template<int size
, bool big_endian
>
1322 sized_write_section_symbol(const Output_section
*, Output_file
*, off_t
) const;
1324 // The type of the symbol hash table.
1326 typedef std::pair
<Stringpool::Key
, Stringpool::Key
> Symbol_table_key
;
1328 struct Symbol_table_hash
1331 operator()(const Symbol_table_key
&) const;
1334 struct Symbol_table_eq
1337 operator()(const Symbol_table_key
&, const Symbol_table_key
&) const;
1340 typedef Unordered_map
<Symbol_table_key
, Symbol
*, Symbol_table_hash
,
1341 Symbol_table_eq
> Symbol_table_type
;
1343 // The type of the list of common symbols.
1344 typedef std::vector
<Symbol
*> Commons_type
;
1346 // The type of the list of symbols which have been forced local.
1347 typedef std::vector
<Symbol
*> Forced_locals
;
1349 // A map from symbols with COPY relocs to the dynamic objects where
1350 // they are defined.
1351 typedef Unordered_map
<const Symbol
*, Dynobj
*> Copied_symbol_dynobjs
;
1353 // A map from symbol name (as a pointer into the namepool) to all
1354 // the locations the symbols is (weakly) defined (and certain other
1355 // conditions are met). This map will be used later to detect
1356 // possible One Definition Rule (ODR) violations.
1357 struct Symbol_location
1359 Object
* object
; // Object where the symbol is defined.
1360 unsigned int shndx
; // Section-in-object where the symbol is defined.
1361 off_t offset
; // Offset-in-section where the symbol is defined.
1362 bool operator==(const Symbol_location
& that
) const
1364 return (this->object
== that
.object
1365 && this->shndx
== that
.shndx
1366 && this->offset
== that
.offset
);
1370 struct Symbol_location_hash
1372 size_t operator()(const Symbol_location
& loc
) const
1373 { return reinterpret_cast<uintptr_t>(loc
.object
) ^ loc
.offset
^ loc
.shndx
; }
1376 typedef Unordered_map
<const char*,
1377 Unordered_set
<Symbol_location
, Symbol_location_hash
> >
1380 // We increment this every time we see a new undefined symbol, for
1381 // use in archive groups.
1383 // The index of the first global symbol in the output file.
1384 unsigned int first_global_index_
;
1385 // The file offset within the output symtab section where we should
1388 // The number of global symbols we want to write out.
1389 unsigned int output_count_
;
1390 // The file offset of the global dynamic symbols, or 0 if none.
1391 off_t dynamic_offset_
;
1392 // The index of the first global dynamic symbol.
1393 unsigned int first_dynamic_global_index_
;
1394 // The number of global dynamic symbols, or 0 if none.
1395 unsigned int dynamic_count_
;
1396 // The symbol hash table.
1397 Symbol_table_type table_
;
1398 // A pool of symbol names. This is used for all global symbols.
1399 // Entries in the hash table point into this pool.
1400 Stringpool namepool_
;
1401 // Forwarding symbols.
1402 Unordered_map
<const Symbol
*, Symbol
*> forwarders_
;
1403 // Weak aliases. A symbol in this list points to the next alias.
1404 // The aliases point to each other in a circular list.
1405 Unordered_map
<Symbol
*, Symbol
*> weak_aliases_
;
1406 // We don't expect there to be very many common symbols, so we keep
1407 // a list of them. When we find a common symbol we add it to this
1408 // list. It is possible that by the time we process the list the
1409 // symbol is no longer a common symbol. It may also have become a
1411 Commons_type commons_
;
1412 // A list of symbols which have been forced to be local. We don't
1413 // expect there to be very many of them, so we keep a list of them
1414 // rather than walking the whole table to find them.
1415 Forced_locals forced_locals_
;
1416 // Manage symbol warnings.
1418 // Manage potential One Definition Rule (ODR) violations.
1419 Odr_map candidate_odr_violations_
;
1421 // When we emit a COPY reloc for a symbol, we define it in an
1422 // Output_data. When it's time to emit version information for it,
1423 // we need to know the dynamic object in which we found the original
1424 // definition. This maps symbols with COPY relocs to the dynamic
1425 // object where they were defined.
1426 Copied_symbol_dynobjs copied_symbol_dynobjs_
;
1427 // Information parsed from the version script, if any.
1428 const Version_script_info
& version_script_
;
1431 // We inline get_sized_symbol for efficiency.
1435 Symbol_table::get_sized_symbol(Symbol
* sym ACCEPT_SIZE
) const
1437 gold_assert(size
== parameters
->get_size());
1438 return static_cast<Sized_symbol
<size
>*>(sym
);
1442 const Sized_symbol
<size
>*
1443 Symbol_table::get_sized_symbol(const Symbol
* sym ACCEPT_SIZE
) const
1445 gold_assert(size
== parameters
->get_size());
1446 return static_cast<const Sized_symbol
<size
>*>(sym
);
1449 } // End namespace gold.
1451 #endif // !defined(GOLD_SYMTAB_H)