old-cross-binutils/bfd/doc/bfd.texinfo

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\input texinfo.tex
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@setfilename bfd.info
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@c $Id$
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@tex
% NOTE LOCAL KLUGE TO AVOID TOO MUCH WHITESPACE
\global\long\def\example{%
\begingroup
\let\aboveenvbreak=\par
\let\afterenvbreak=\par
\parskip=0pt
\lisp}
\global\long\def\Eexample{%
\Elisp
\endgroup
\vskip -\parskip% to cancel out effect of following \par
}
@end tex
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@synindex fn cp
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@ifinfo
@format
START-INFO-DIR-ENTRY
* Bfd: (bfd). The Binary File Descriptor library.
END-INFO-DIR-ENTRY
@end format
@end ifinfo
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@ifinfo
This file documents the BFD library.
Copyright (C) 1991 Free Software Foundation, Inc.
Permission is granted to make and distribute verbatim copies of
this manual provided the copyright notice and this permission notice
are preserved on all copies.
@ignore
Permission is granted to process this file through Tex and print the
results, provided the printed document carries copying permission
notice identical to this one except for the removal of this paragraph
(this paragraph not being relevant to the printed manual).
@end ignore
Permission is granted to copy and distribute modified versions of this
manual under the conditions for verbatim copying, subject to the terms
of the GNU General Public License, which includes the provision that the
entire resulting derived work is distributed under the terms of a
permission notice identical to this one.
Permission is granted to copy and distribute translations of this manual
into another language, under the above conditions for modified versions.
@end ifinfo
@iftex
@c@finalout
@setchapternewpage on
@c@setchapternewpage odd
@settitle LIB BFD, the Binary File Descriptor Library
@titlepage
@title{libbfd}
@subtitle{The Binary File Descriptor Library}
@sp 1
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@subtitle First Edition---BFD version < 3.0
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@subtitle April 1991
@author {Steve Chamberlain}
@author {Cygnus Support}
@page
@tex
\def\$#1${{#1}} % Kluge: collect RCS revision info without $...$
\xdef\manvers{\$Revision$} % For use in headers, footers too
{\parskip=0pt
\hfill Cygnus Support\par
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\hfill sac\@cygnus.com\par
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\hfill {\it BFD}, \manvers\par
\hfill \TeX{}info \texinfoversion\par
}
\global\parindent=0pt % Steve likes it this way
@end tex
@vskip 0pt plus 1filll
Copyright @copyright{} 1991 Free Software Foundation, Inc.
Permission is granted to make and distribute verbatim copies of
this manual provided the copyright notice and this permission notice
are preserved on all copies.
Permission is granted to copy and distribute modified versions of this
manual under the conditions for verbatim copying, subject to the terms
of the GNU General Public License, which includes the provision that the
entire resulting derived work is distributed under the terms of a
permission notice identical to this one.
Permission is granted to copy and distribute translations of this manual
into another language, under the above conditions for modified versions.
@end titlepage
@end iftex
@node Top, Overview, (dir), (dir)
@ifinfo
This file documents the binary file descriptor library libbfd.
@end ifinfo
@menu
* Overview:: Overview of BFD
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* BFD front end:: BFD front end
* BFD back end:: BFD back end
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* Index:: Index
@end menu
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@node Overview, BFD front end, Top, Top
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@chapter Introduction
@cindex BFD
@cindex what is it?
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BFD is a package which allows applications to use the
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same routines to operate on object files whatever the object file
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format. A new object file format can be supported simply by
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creating a new BFD back end and adding it to the library.
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BFD is split into two parts: the front end, and the back ends (one for
each object file format).
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@itemize @bullet
@item The front end of BFD provides the interface to the user. It manages
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memory and various canonical data structures. The front end also
decides which back end to use and when to call back end routines.
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@item The back ends provide BFD its view of the real world. Each back
end provides a set of calls which the BFD front end can use to maintain
its canonical form. The back ends also may keep around information for
their own use, for greater efficiency.
@end itemize
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@menu
* History:: History
* How It Works:: How It Works
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* What BFD Version 2 Can Do:: What BFD Version 2 Can Do
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@end menu
@node History, How It Works, Overview, Overview
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@section History
One spur behind BFD was the desire, on the part of the GNU 960 team at
Intel Oregon, for interoperability of applications on their COFF and
b.out file formats. Cygnus was providing GNU support for the team, and
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was contracted to provide the required functionality.
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The name came from a conversation David Wallace was having with Richard
Stallman about the library: RMS said that it would be quite hard---David
said ``BFD''. Stallman was right, but the name stuck.
At the same time, Ready Systems wanted much the same thing, but for
different object file formats: IEEE-695, Oasys, Srecords, a.out and 68k
coff.
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BFD was first implemented by members of Cygnus Support; Steve
Chamberlain (@file{sac@@cygnus.com}), John Gilmore
(@file{gnu@@cygnus.com}), K. Richard Pixley (@file{rich@@cygnus.com})
and David Henkel-Wallace (@file{gumby@@cygnus.com}).
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@node How It Works, What BFD Version 2 Can Do, History, Overview
@section How To Use BFD
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To use the library, include @file{bfd.h} and link with @file{libbfd.a}.
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BFD provides a common interface to the parts of an object file
for a calling application.
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When an application sucessfully opens a target file (object, archive, or
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whatever) a pointer to an internal structure is returned. This pointer
points to a structure called @code{bfd}, described in
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@file{include/bfd.h}. Our convention is to call this pointer a BFD, and
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instances of it within code @code{abfd}. All operations on
the target object file are applied as methods to the BFD. The mapping is
defined within @code{bfd.h} in a set of macros, all beginning
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with @samp{bfd_} to reduce namespace pollution.
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For example, this sequence does what you would probably expect:
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return the number of sections in an object file attached to a BFD
@code{abfd}.
@lisp
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@c @cartouche
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#include "bfd.h"
unsigned int number_of_sections(abfd)
bfd *abfd;
@{
return bfd_count_sections(abfd);
@}
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@c @end cartouche
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@end lisp
The abstraction used within BFD is that an object file has a header,
a number of sections containing raw data, a set of relocations, and some
symbol information. Also, BFDs opened for archives have the
additional attribute of an index and contain subordinate BFDs. This approach is
fine for a.out and coff, but loses efficiency when applied to formats
such as S-records and IEEE-695.
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@node What BFD Version 2 Can Do, , How It Works, Overview
@section What BFD Version 2 Can Do
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As different information from the the object files is required,
BFD reads from different sections of the file and processes them.
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For example, a very common operation for the linker is processing symbol
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tables. Each BFD back end provides a routine for converting
between the object file's representation of symbols and an internal
canonical format. When the linker asks for the symbol table of an object
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file, it calls through the memory pointer to a routine from the
relevant BFD back end which reads and converts the table into a canonical
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form. The linker then operates upon the canonical form. When the link is
finished and the linker writes the output file's symbol table,
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another BFD back end routine is called to take the newly
created symbol table and convert it into the chosen output format.
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@menu
* BFD information loss:: Information Loss
* Mechanism:: Mechanism
@end menu
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@node BFD information loss, Mechanism, What BFD Version 2 Can Do, What BFD Version 2 Can Do
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@subsection Information Loss
@emph{Some information is lost due to the nature of the file format.} The output targets
supported by BFD do not provide identical facilities, and
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information which can be described in one form has nowhere to go in
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another format. One example of this is alignment information in
@code{b.out}. There is nowhere in an @code{a.out} format file to store
alignment information on the contained data, so when a file is linked
from @code{b.out} and an @code{a.out} image is produced, alignment
information will not propagate to the output file. (The linker will
still use the alignment information internally, so the link is performed
correctly).
Another example is COFF section names. COFF files may contain an
unlimited number of sections, each one with a textual section name. If
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the target of the link is a format which does not have many sections (e.g.,
@code{a.out}) or has sections without names (e.g., the Oasys format), the
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link cannot be done simply. You can circumvent this problem by
describing the desired input-to-output section mapping with the linker command
language.
@emph{Information can be lost during canonicalization.} The BFD
internal canonical form of the external formats is not exhaustive; there
are structures in input formats for which there is no direct
representation internally. This means that the BFD back ends
cannot maintain all possible data richness through the transformation
between external to internal and back to external formats.
This limitation is only a problem when an application reads one
format and writes another. Each BFD back end is responsible for
maintaining as much data as possible, and the internal BFD
canonical form has structures which are opaque to the BFD core,
and exported only to the back ends. When a file is read in one format,
the canonical form is generated for BFD and the application. At the
same time, the back end saves away any information which may otherwise
be lost. If the data is then written back in the same format, the back
end routine will be able to use the canonical form provided by the
BFD core as well as the information it prepared earlier. Since
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there is a great deal of commonality between back ends,
there is no information lost when
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linking or copying big endian COFF to little endian COFF, or @code{a.out} to
@code{b.out}. When a mixture of formats is linked, the information is
only lost from the files whose format differs from the destination.
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@node Mechanism, , BFD information loss, What BFD Version 2 Can Do
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@subsection Mechanism
The greatest potential for loss of information is when there is least
overlap between the information provided by the source format, that
stored by the canonical format, and the information needed by the
destination format. A brief description of the canonical form may help
you appreciate what kinds of data you can count on preserving across
conversions.
@cindex BFD canonical format
@cindex internal object-file format
@table @emph
@item files
Information on target machine architecture, particular implementation
and format type are stored on a per-file basis. Other information
includes a demand pageable bit and a write protected bit. Note that
information like Unix magic numbers is not stored here---only the magic
numbers' meaning, so a @code{ZMAGIC} file would have both the demand
pageable bit and the write protected text bit set. The byte order of
the target is stored on a per-file basis, so that big- and little-endian
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object files may be used with one another.
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@item sections
Each section in the input file contains the name of the section, the
original address in the object file, various flags, size and alignment
information and pointers into other BFD data structures.
@item symbols
Each symbol contains a pointer to the object file which originally
defined it, its name, its value, and various flag bits. When a
BFD back end reads in a symbol table, the back end relocates all
symbols to make them relative to the base of the section where they were
defined. This ensures that each symbol points to its containing
section. Each symbol also has a varying amount of hidden data to contain
private data for the BFD back end. Since the symbol points to the
original file, the private data format for that symbol is accessible.
@code{gld} can operate on a collection of symbols of wildly different
formats without problems.
Normal global and simple local symbols are maintained on output, so an
output file (no matter its format) will retain symbols pointing to
functions and to global, static, and common variables. Some symbol
information is not worth retaining; in @code{a.out} type information is
stored in the symbol table as long symbol names. This information would
be useless to most COFF debuggers; the linker has command line switches
to allow users to throw it away.
There is one word of type information within the symbol, so if the
format supports symbol type information within symbols (for example COFF,
IEEE, Oasys) and the type is simple enough to fit within one word
(nearly everything but aggregates) the information will be preserved.
@item relocation level
Each canonical BFD relocation record contains a pointer to the symbol to
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relocate to (if any), the offset of the data to relocate, the section the data
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is in and a pointer to a relocation type descriptor. Relocation is
performed effectively by message passing through the relocation type
descriptor and symbol pointer. It allows relocations to be performed
on output data using a relocation method only available in one of the
input formats. For instance, Oasys provides a byte relocation format.
A relocation record requesting this relocation type would point
indirectly to a routine to perform this, so the relocation may be
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performed on a byte being written to a 68k COFF file, even though 68k COFF
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has no such relocation type.
@item line numbers
Object formats can contain, for debugging purposes, some form of mapping
between symbols, source line numbers, and addresses in the output file.
These addresses have to be relocated along with the symbol information.
Each symbol with an associated list of line number records points to the
first record of the list. The head of a line number list consists of a
pointer to the symbol, which allows divination of the address of the
function whose line number is being described. The rest of the list is
made up of pairs: offsets into the section and line numbers. Any format
which can simply derive this information can pass it successfully
between formats (COFF, IEEE and Oasys).
@end table
@c FIXME: what is this line about? Do we want introductory remarks
@c FIXME... on back ends? commented out for now.
@c What is a backend
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@node BFD front end, BFD back end, Overview, Top
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@chapter BFD front end
@include bfd.texi
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@menu
* Memory Usage::
* Initialization::
* Sections::
* Symbols::
* Archives::
* Formats::
* Relocations::
* Core Files::
* Targets::
* Architectures::
* Opening and Closing::
* Constructors::
* Internal::
* File Caching::
@end menu
@node Memory Usage, Initialization, BFD front end, BFD front end
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@section Memory Usage
BFD keeps all its internal structures in obstacks. There is one obstack
per open BFD file, into which the current state is stored. When a BFD is
closed, the obstack is deleted, and so everything which has been
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allocated by @code{libbfd} for the closing file will be thrown away.
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BFD will not free anything created by an application, but pointers into
@code{bfd} structures will be invalidated on a @code{bfd_close}; for example,
after a @code{bfd_close} the vector passed to
@code{bfd_canonicalize_symtab} will still be around, since it has been
allocated by the application, but the data that it pointed to will be
lost.
The general rule is not to close a BFD until all operations dependent
upon data from the BFD have been completed, or all the data from within
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the file has been copied. To help with the management of memory, there
is a function (@code{bfd_alloc_size}) which returns the number of bytes
in obstacks associated with the supplied BFD. This could be used to
select the greediest open BFD, close it to reclaim the memory, perform
some operation and reopen the BFD again, to get a fresh copy of the data
structures.
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@node Initialization, Sections, Memory Usage, BFD front end
@include init.texi
@node Sections, Symbols, Initialization, BFD front end
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@include section.texi
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@node Symbols, Archives, Sections, BFD front end
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@include syms.texi
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@node Archives, Formats, Symbols, BFD front end
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@include archive.texi
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@node Formats, Relocations, Archives, BFD front end
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@include format.texi
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@node Relocations, Core Files, Formats, BFD front end
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@include reloc.texi
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@node Core Files, Targets, Relocations, BFD front end
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@include core.texi
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@node Targets, Architectures, Core Files, BFD front end
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@include targets.texi
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@node Architectures, Opening and Closing, Targets, BFD front end
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@include archures.texi
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@node Opening and Closing, Constructors, Architectures, BFD front end
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@include opncls.texi
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@node Constructors, Internal, Opening and Closing, BFD front end
@include ctor.texi
@node Internal, File Caching, Constructors, BFD front end
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@include libbfd.texi
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@node File Caching, , Internal, BFD front end
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@include cache.texi
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@node BFD back end, Index, BFD front end, Top
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@chapter BFD back end
@menu
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* What to Put Where::
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* aout :: a.out backends
* coff :: coff backends
@ignore
* oasys :: oasys backends
* ieee :: ieee backend
* srecord :: s-record backend
@end ignore
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@end menu
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@node What to Put Where, aout, BFD back end, BFD back end
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All of BFD lives in one directory.
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@node aout, coff, What to Put Where, BFD back end
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@include aoutx.texi
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@node coff, , aout, BFD back end
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@include coffcode.texi
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@node Index, , BFD back end, Top
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@unnumbered Index
@printindex cp
@tex
% I think something like @colophon should be in texinfo. In the
% meantime:
\long\def\colophon{\hbox to0pt{}\vfill
\centerline{The body of this manual is set in}
\centerline{\fontname\tenrm,}
\centerline{with headings in {\bf\fontname\tenbf}}
\centerline{and examples in {\tt\fontname\tentt}.}
\centerline{{\it\fontname\tenit\/} and}
\centerline{{\sl\fontname\tensl\/}}
\centerline{are used for emphasis.}\vfill}
\page\colophon
% Blame: pesch@cygnus.com, 28mar91.
@end tex
@contents
@bye