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500 lines
22 KiB
Plaintext
500 lines
22 KiB
Plaintext
@section Linker Functions
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@cindex Linker
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The linker uses three special entry points in the BFD target
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vector. It is not necessary to write special routines for
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these entry points when creating a new BFD back end, since
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generic versions are provided. However, writing them can
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speed up linking and make it use significantly less runtime
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memory.
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The first routine creates a hash table used by the other
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routines. The second routine adds the symbols from an object
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file to the hash table. The third routine takes all the
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object files and links them together to create the output
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file. These routines are designed so that the linker proper
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does not need to know anything about the symbols in the object
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files that it is linking. The linker merely arranges the
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sections as directed by the linker script and lets BFD handle
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the details of symbols and relocs.
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The second routine and third routines are passed a pointer to
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a @code{struct bfd_link_info} structure (defined in
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@code{bfdlink.h}) which holds information relevant to the link,
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including the linker hash table (which was created by the
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first routine) and a set of callback functions to the linker
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proper.
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The generic linker routines are in @code{linker.c}, and use the
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header file @code{genlink.h}. As of this writing, the only back
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ends which have implemented versions of these routines are
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a.out (in @code{aoutx.h}) and ECOFF (in @code{ecoff.c}). The a.out
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routines are used as examples throughout this section.
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@menu
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* Creating a Linker Hash Table::
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* Adding Symbols to the Hash Table::
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* Performing the Final Link::
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@end menu
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@node Creating a Linker Hash Table, Adding Symbols to the Hash Table, Linker Functions, Linker Functions
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@subsection Creating a linker hash table
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@cindex _bfd_link_hash_table_create in target vector
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@cindex target vector (_bfd_link_hash_table_create)
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The linker routines must create a hash table, which must be
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derived from @code{struct bfd_link_hash_table} described in
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@code{bfdlink.c}. @xref{Hash Tables}, for information on how to
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create a derived hash table. This entry point is called using
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the target vector of the linker output file.
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The @code{_bfd_link_hash_table_create} entry point must allocate
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and initialize an instance of the desired hash table. If the
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back end does not require any additional information to be
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stored with the entries in the hash table, the entry point may
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simply create a @code{struct bfd_link_hash_table}. Most likely,
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however, some additional information will be needed.
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For example, with each entry in the hash table the a.out
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linker keeps the index the symbol has in the final output file
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(this index number is used so that when doing a relocatable
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link the symbol index used in the output file can be quickly
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filled in when copying over a reloc). The a.out linker code
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defines the required structures and functions for a hash table
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derived from @code{struct bfd_link_hash_table}. The a.out linker
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hash table is created by the function
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@code{NAME(aout,link_hash_table_create)}; it simply allocates
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space for the hash table, initializes it, and returns a
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pointer to it.
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When writing the linker routines for a new back end, you will
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generally not know exactly which fields will be required until
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you have finished. You should simply create a new hash table
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which defines no additional fields, and then simply add fields
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as they become necessary.
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@node Adding Symbols to the Hash Table, Performing the Final Link, Creating a Linker Hash Table, Linker Functions
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@subsection Adding symbols to the hash table
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@cindex _bfd_link_add_symbols in target vector
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@cindex target vector (_bfd_link_add_symbols)
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The linker proper will call the @code{_bfd_link_add_symbols}
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entry point for each object file or archive which is to be
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linked (typically these are the files named on the command
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line, but some may also come from the linker script). The
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entry point is responsible for examining the file. For an
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object file, BFD must add any relevant symbol information to
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the hash table. For an archive, BFD must determine which
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elements of the archive should be used and adding them to the
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link.
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The a.out version of this entry point is
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@code{NAME(aout,link_add_symbols)}.
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@menu
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* Differing file formats::
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* Adding symbols from an object file::
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* Adding symbols from an archive::
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@end menu
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@node Differing file formats, Adding symbols from an object file, Adding Symbols to the Hash Table, Adding Symbols to the Hash Table
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@subsubsection Differing file formats
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Normally all the files involved in a link will be of the same
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format, but it is also possible to link together different
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format object files, and the back end must support that. The
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@code{_bfd_link_add_symbols} entry point is called via the target
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vector of the file to be added. This has an important
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consequence: the function may not assume that the hash table
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is the type created by the corresponding
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@code{_bfd_link_hash_table_create} vector. All the
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@code{_bfd_link_add_symbols} function can assume about the hash
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table is that it is derived from @code{struct
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bfd_link_hash_table}.
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Sometimes the @code{_bfd_link_add_symbols} function must store
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some information in the hash table entry to be used by the
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@code{_bfd_final_link} function. In such a case the output bfd
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xvec must be checked to make sure that the hash table was
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created by an object file of the same format.
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The @code{_bfd_final_link} routine must be prepared to handle a
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hash entry without any extra information added by the
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@code{_bfd_link_add_symbols} function. A hash entry without
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extra information will also occur when the linker script
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directs the linker to create a symbol. Note that, regardless
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of how a hash table entry is added, all the fields will be
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initialized to some sort of null value by the hash table entry
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initialization function.
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See @code{ecoff_link_add_externals} for an example of how to
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check the output bfd before saving information (in this
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case, the ECOFF external symbol debugging information) in a
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hash table entry.
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@node Adding symbols from an object file, Adding symbols from an archive, Differing file formats, Adding Symbols to the Hash Table
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@subsubsection Adding symbols from an object file
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When the @code{_bfd_link_add_symbols} routine is passed an object
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file, it must add all externally visible symbols in that
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object file to the hash table. The actual work of adding the
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symbol to the hash table is normally handled by the function
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@code{_bfd_generic_link_add_one_symbol}. The
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@code{_bfd_link_add_symbols} routine is responsible for reading
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all the symbols from the object file and passing the correct
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information to @code{_bfd_generic_link_add_one_symbol}.
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The @code{_bfd_link_add_symbols} routine should not use
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@code{bfd_canonicalize_symtab} to read the symbols. The point of
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providing this routine is to avoid the overhead of converting
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the symbols into generic @code{asymbol} structures.
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@findex _bfd_generic_link_add_one_symbol
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@code{_bfd_generic_link_add_one_symbol} handles the details of
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combining common symbols, warning about multiple definitions,
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and so forth. It takes arguments which describe the symbol to
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add, notably symbol flags, a section, and an offset. The
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symbol flags include such things as @code{BSF_WEAK} or
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@code{BSF_INDIRECT}. The section is a section in the object
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file, or something like @code{bfd_und_section_ptr} for an undefined
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symbol or @code{bfd_com_section_ptr} for a common symbol.
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If the @code{_bfd_final_link} routine is also going to need to
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read the symbol information, the @code{_bfd_link_add_symbols}
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routine should save it somewhere attached to the object file
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BFD. However, the information should only be saved if the
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@code{keep_memory} field of the @code{info} argument is TRUE, so
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that the @code{-no-keep-memory} linker switch is effective.
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The a.out function which adds symbols from an object file is
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@code{aout_link_add_object_symbols}, and most of the interesting
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work is in @code{aout_link_add_symbols}. The latter saves
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pointers to the hash tables entries created by
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@code{_bfd_generic_link_add_one_symbol} indexed by symbol number,
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so that the @code{_bfd_final_link} routine does not have to call
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the hash table lookup routine to locate the entry.
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@node Adding symbols from an archive, , Adding symbols from an object file, Adding Symbols to the Hash Table
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@subsubsection Adding symbols from an archive
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When the @code{_bfd_link_add_symbols} routine is passed an
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archive, it must look through the symbols defined by the
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archive and decide which elements of the archive should be
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included in the link. For each such element it must call the
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@code{add_archive_element} linker callback, and it must add the
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symbols from the object file to the linker hash table. (The
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callback may in fact indicate that a replacement BFD should be
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used, in which case the symbols from that BFD should be added
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to the linker hash table instead.)
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@findex _bfd_generic_link_add_archive_symbols
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In most cases the work of looking through the symbols in the
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archive should be done by the
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@code{_bfd_generic_link_add_archive_symbols} function.
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@code{_bfd_generic_link_add_archive_symbols} is passed a function
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to call to make the final decision about adding an archive
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element to the link and to do the actual work of adding the
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symbols to the linker hash table. If the element is to
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be included, the @code{add_archive_element} linker callback
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routine must be called with the element as an argument, and
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the element's symbols must be added to the linker hash table
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just as though the element had itself been passed to the
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@code{_bfd_link_add_symbols} function.
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When the a.out @code{_bfd_link_add_symbols} function receives an
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archive, it calls @code{_bfd_generic_link_add_archive_symbols}
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passing @code{aout_link_check_archive_element} as the function
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argument. @code{aout_link_check_archive_element} calls
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@code{aout_link_check_ar_symbols}. If the latter decides to add
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the element (an element is only added if it provides a real,
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non-common, definition for a previously undefined or common
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symbol) it calls the @code{add_archive_element} callback and then
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@code{aout_link_check_archive_element} calls
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@code{aout_link_add_symbols} to actually add the symbols to the
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linker hash table - possibly those of a substitute BFD, if the
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@code{add_archive_element} callback avails itself of that option.
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The ECOFF back end is unusual in that it does not normally
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call @code{_bfd_generic_link_add_archive_symbols}, because ECOFF
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archives already contain a hash table of symbols. The ECOFF
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back end searches the archive itself to avoid the overhead of
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creating a new hash table.
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@node Performing the Final Link, , Adding Symbols to the Hash Table, Linker Functions
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@subsection Performing the final link
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@cindex _bfd_link_final_link in target vector
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@cindex target vector (_bfd_final_link)
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When all the input files have been processed, the linker calls
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the @code{_bfd_final_link} entry point of the output BFD. This
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routine is responsible for producing the final output file,
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which has several aspects. It must relocate the contents of
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the input sections and copy the data into the output sections.
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It must build an output symbol table including any local
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symbols from the input files and the global symbols from the
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hash table. When producing relocatable output, it must
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modify the input relocs and write them into the output file.
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There may also be object format dependent work to be done.
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The linker will also call the @code{write_object_contents} entry
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point when the BFD is closed. The two entry points must work
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together in order to produce the correct output file.
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The details of how this works are inevitably dependent upon
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the specific object file format. The a.out
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@code{_bfd_final_link} routine is @code{NAME(aout,final_link)}.
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@menu
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* Information provided by the linker::
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* Relocating the section contents::
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* Writing the symbol table::
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@end menu
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@node Information provided by the linker, Relocating the section contents, Performing the Final Link, Performing the Final Link
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@subsubsection Information provided by the linker
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Before the linker calls the @code{_bfd_final_link} entry point,
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it sets up some data structures for the function to use.
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The @code{input_bfds} field of the @code{bfd_link_info} structure
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will point to a list of all the input files included in the
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link. These files are linked through the @code{link.next} field
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of the @code{bfd} structure.
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Each section in the output file will have a list of
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@code{link_order} structures attached to the @code{map_head.link_order}
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field (the @code{link_order} structure is defined in
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@code{bfdlink.h}). These structures describe how to create the
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contents of the output section in terms of the contents of
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various input sections, fill constants, and, eventually, other
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types of information. They also describe relocs that must be
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created by the BFD backend, but do not correspond to any input
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file; this is used to support -Ur, which builds constructors
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while generating a relocatable object file.
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@node Relocating the section contents, Writing the symbol table, Information provided by the linker, Performing the Final Link
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@subsubsection Relocating the section contents
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The @code{_bfd_final_link} function should look through the
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@code{link_order} structures attached to each section of the
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output file. Each @code{link_order} structure should either be
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handled specially, or it should be passed to the function
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@code{_bfd_default_link_order} which will do the right thing
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(@code{_bfd_default_link_order} is defined in @code{linker.c}).
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For efficiency, a @code{link_order} of type
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@code{bfd_indirect_link_order} whose associated section belongs
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to a BFD of the same format as the output BFD must be handled
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specially. This type of @code{link_order} describes part of an
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output section in terms of a section belonging to one of the
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input files. The @code{_bfd_final_link} function should read the
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contents of the section and any associated relocs, apply the
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relocs to the section contents, and write out the modified
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section contents. If performing a relocatable link, the
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relocs themselves must also be modified and written out.
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@findex _bfd_relocate_contents
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@findex _bfd_final_link_relocate
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The functions @code{_bfd_relocate_contents} and
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@code{_bfd_final_link_relocate} provide some general support for
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performing the actual relocations, notably overflow checking.
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Their arguments include information about the symbol the
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relocation is against and a @code{reloc_howto_type} argument
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which describes the relocation to perform. These functions
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are defined in @code{reloc.c}.
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The a.out function which handles reading, relocating, and
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writing section contents is @code{aout_link_input_section}. The
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actual relocation is done in @code{aout_link_input_section_std}
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and @code{aout_link_input_section_ext}.
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@node Writing the symbol table, , Relocating the section contents, Performing the Final Link
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@subsubsection Writing the symbol table
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The @code{_bfd_final_link} function must gather all the symbols
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in the input files and write them out. It must also write out
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all the symbols in the global hash table. This must be
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controlled by the @code{strip} and @code{discard} fields of the
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@code{bfd_link_info} structure.
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The local symbols of the input files will not have been
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entered into the linker hash table. The @code{_bfd_final_link}
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routine must consider each input file and include the symbols
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in the output file. It may be convenient to do this when
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looking through the @code{link_order} structures, or it may be
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done by stepping through the @code{input_bfds} list.
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The @code{_bfd_final_link} routine must also traverse the global
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hash table to gather all the externally visible symbols. It
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is possible that most of the externally visible symbols may be
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written out when considering the symbols of each input file,
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but it is still necessary to traverse the hash table since the
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linker script may have defined some symbols that are not in
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any of the input files.
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The @code{strip} field of the @code{bfd_link_info} structure
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controls which symbols are written out. The possible values
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are listed in @code{bfdlink.h}. If the value is @code{strip_some},
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then the @code{keep_hash} field of the @code{bfd_link_info}
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structure is a hash table of symbols to keep; each symbol
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should be looked up in this hash table, and only symbols which
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are present should be included in the output file.
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If the @code{strip} field of the @code{bfd_link_info} structure
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permits local symbols to be written out, the @code{discard} field
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is used to further controls which local symbols are included
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in the output file. If the value is @code{discard_l}, then all
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local symbols which begin with a certain prefix are discarded;
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this is controlled by the @code{bfd_is_local_label_name} entry point.
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The a.out backend handles symbols by calling
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@code{aout_link_write_symbols} on each input BFD and then
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traversing the global hash table with the function
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@code{aout_link_write_other_symbol}. It builds a string table
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while writing out the symbols, which is written to the output
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file at the end of @code{NAME(aout,final_link)}.
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@findex bfd_link_split_section
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@subsubsection @code{bfd_link_split_section}
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@strong{Synopsis}
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@example
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bfd_boolean bfd_link_split_section (bfd *abfd, asection *sec);
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@end example
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@strong{Description}@*
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Return nonzero if @var{sec} should be split during a
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reloceatable or final link.
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@example
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#define bfd_link_split_section(abfd, sec) \
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BFD_SEND (abfd, _bfd_link_split_section, (abfd, sec))
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@end example
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@findex bfd_section_already_linked
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@subsubsection @code{bfd_section_already_linked}
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@strong{Synopsis}
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@example
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bfd_boolean bfd_section_already_linked (bfd *abfd,
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asection *sec,
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struct bfd_link_info *info);
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@end example
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@strong{Description}@*
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Check if @var{data} has been already linked during a reloceatable
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or final link. Return TRUE if it has.
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@example
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#define bfd_section_already_linked(abfd, sec, info) \
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BFD_SEND (abfd, _section_already_linked, (abfd, sec, info))
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@end example
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@findex bfd_generic_define_common_symbol
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@subsubsection @code{bfd_generic_define_common_symbol}
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@strong{Synopsis}
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@example
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bfd_boolean bfd_generic_define_common_symbol
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(bfd *output_bfd, struct bfd_link_info *info,
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struct bfd_link_hash_entry *h);
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@end example
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@strong{Description}@*
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Convert common symbol @var{h} into a defined symbol.
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Return TRUE on success and FALSE on failure.
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@example
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#define bfd_define_common_symbol(output_bfd, info, h) \
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BFD_SEND (output_bfd, _bfd_define_common_symbol, (output_bfd, info, h))
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@end example
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@findex bfd_generic_define_start_stop
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@subsubsection @code{bfd_generic_define_start_stop}
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@strong{Synopsis}
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@example
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struct bfd_link_hash_entry *bfd_generic_define_start_stop
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(struct bfd_link_info *info,
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const char *symbol, asection *sec);
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@end example
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@strong{Description}@*
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Define a __start, __stop, .startof. or .sizeof. symbol.
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Return the symbol or NULL if no such undefined symbol exists.
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@example
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#define bfd_define_start_stop(output_bfd, info, symbol, sec) \
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BFD_SEND (output_bfd, _bfd_define_start_stop, (info, symbol, sec))
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@end example
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@findex bfd_find_version_for_sym
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@subsubsection @code{bfd_find_version_for_sym}
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@strong{Synopsis}
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@example
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struct bfd_elf_version_tree * bfd_find_version_for_sym
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(struct bfd_elf_version_tree *verdefs,
|
|
const char *sym_name, bfd_boolean *hide);
|
|
@end example
|
|
@strong{Description}@*
|
|
Search an elf version script tree for symbol versioning
|
|
info and export / don't-export status for a given symbol.
|
|
Return non-NULL on success and NULL on failure; also sets
|
|
the output @samp{hide} boolean parameter.
|
|
|
|
@findex bfd_hide_sym_by_version
|
|
@subsubsection @code{bfd_hide_sym_by_version}
|
|
@strong{Synopsis}
|
|
@example
|
|
bfd_boolean bfd_hide_sym_by_version
|
|
(struct bfd_elf_version_tree *verdefs, const char *sym_name);
|
|
@end example
|
|
@strong{Description}@*
|
|
Search an elf version script tree for symbol versioning
|
|
info for a given symbol. Return TRUE if the symbol is hidden.
|
|
|
|
@findex bfd_link_check_relocs
|
|
@subsubsection @code{bfd_link_check_relocs}
|
|
@strong{Synopsis}
|
|
@example
|
|
bfd_boolean bfd_link_check_relocs
|
|
(bfd *abfd, struct bfd_link_info *info);
|
|
@end example
|
|
@strong{Description}@*
|
|
Checks the relocs in ABFD for validity.
|
|
Does not execute the relocs.
|
|
Return TRUE if everything is OK, FALSE otherwise.
|
|
This is the external entry point to this code.
|
|
|
|
@findex _bfd_generic_link_check_relocs
|
|
@subsubsection @code{_bfd_generic_link_check_relocs}
|
|
@strong{Synopsis}
|
|
@example
|
|
bfd_boolean _bfd_generic_link_check_relocs
|
|
(bfd *abfd, struct bfd_link_info *info);
|
|
@end example
|
|
@strong{Description}@*
|
|
Stub function for targets that do not implement reloc checking.
|
|
Return TRUE.
|
|
This is an internal function. It should not be called from
|
|
outside the BFD library.
|
|
|
|
@findex bfd_merge_private_bfd_data
|
|
@subsubsection @code{bfd_merge_private_bfd_data}
|
|
@strong{Synopsis}
|
|
@example
|
|
bfd_boolean bfd_merge_private_bfd_data
|
|
(bfd *ibfd, struct bfd_link_info *info);
|
|
@end example
|
|
@strong{Description}@*
|
|
Merge private BFD information from the BFD @var{ibfd} to the
|
|
the output file BFD when linking. Return @code{TRUE} on success,
|
|
@code{FALSE} on error. Possible error returns are:
|
|
|
|
@itemize @bullet
|
|
|
|
@item
|
|
@code{bfd_error_no_memory} -
|
|
Not enough memory exists to create private data for @var{obfd}.
|
|
@end itemize
|
|
@example
|
|
#define bfd_merge_private_bfd_data(ibfd, info) \
|
|
BFD_SEND ((info)->output_bfd, _bfd_merge_private_bfd_data, \
|
|
(ibfd, info))
|
|
@end example
|
|
|
|
@findex _bfd_generic_verify_endian_match
|
|
@subsubsection @code{_bfd_generic_verify_endian_match}
|
|
@strong{Synopsis}
|
|
@example
|
|
bfd_boolean _bfd_generic_verify_endian_match
|
|
(bfd *ibfd, struct bfd_link_info *info);
|
|
@end example
|
|
@strong{Description}@*
|
|
Can be used from / for bfd_merge_private_bfd_data to check that
|
|
endianness matches between input and output file. Returns
|
|
TRUE for a match, otherwise returns FALSE and emits an error.
|
|
|