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219 lines
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219 lines
8.0 KiB
Plaintext
\input texinfo
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@setfilename gdb-internals
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@ifinfo
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This file documents the internals of the GNU debugger GDB.
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Copyright (C) 1990, 1991 Free Software Foundation, Inc.
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Contributed by Cygnus Support. Written by John Gilmore.
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Permission is granted to make and distribute verbatim copies of
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this manual provided the copyright notice and this permission notice
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are preserved on all copies.
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@ignore
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Permission is granted to process this file through Tex and print the
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results, provided the printed document carries copying permission
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notice identical to this one except for the removal of this paragraph
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(this paragraph not being relevant to the printed manual).
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@end ignore
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Permission is granted to copy or distribute modified versions of this
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manual under the terms of the GPL (for which purpose this text may be
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regarded as a program in the language TeX).
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@end ifinfo
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@setchapternewpage odd
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@settitle GDB Internals
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@titlepage
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@title{Working in GDB}
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@subtitle{A guide to the internals of the GNU debugger}
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@author John Gilmore
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@author Cygnus Support
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@page
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@tex
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\def\$#1${{#1}} % Kluge: collect RCS revision info without $...$
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\xdef\manvers{\$Revision$} % For use in headers, footers too
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{\parskip=0pt
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\hfill Cygnus Support\par
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\hfill \manvers\par
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\hfill \TeX{}info \texinfoversion\par
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}
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@end tex
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@vskip 0pt plus 1filll
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Copyright @copyright{} 1990, 1991 Free Software Foundation, Inc.
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Permission is granted to make and distribute verbatim copies of
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this manual provided the copyright notice and this permission notice
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are preserved on all copies.
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@end titlepage
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@node Top, Cleanups, (dir), (dir)
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@menu
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* Cleanups:: Cleanups
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* Wrapping:: Wrapping output lines
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* Releases:: Configuring GDB for release
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* README:: The README file
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* New Architectures:: Defining a new host or target architecture
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@end menu
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@node Cleanups, Wrapping, Top, Top
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@chapter Cleanups
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Cleanups are a structured way to deal with things that need to be done
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later. When your code does something (like malloc some memory, or open
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a file) that needs to be undone later (e.g. free the memory or close
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the file), it can make a cleanup. The cleanup will be done at some
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future point: when the command is finished, when an error occurs, or
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when your code decides it's time to do cleanups.
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You can also discard cleanups, that is, throw them away without doing
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what they say. This is only done if you ask that it be done.
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Syntax:
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@table @code
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@item old_chain = make_cleanup (function, arg);
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This makes a cleanup which will cause FUNCTION to be called with ARG
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(a char *) later. The result, OLD_CHAIN, is a handle that can be
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passed to do_cleanups or discard_cleanups later. Unless you are
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going to call do_cleanups or discard_cleanups yourself,
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you can ignore the result from make_cleanup.
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@item do_cleanups (old_chain);
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Performs all cleanups done since make_cleanup returned OLD_CHAIN.
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E.g.: make_cleanup (a, 0); old = make_cleanup (b, 0); do_cleanups (old);
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will call b() but will not call a(). The cleanup that calls a() will remain
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in the cleanup chain, and will be done later unless otherwise discarded.
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@item discard_cleanups (old_chain);
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Same as do_cleanups except that it just removes the cleanups from the
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chain and does not call the specified functions.
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@end table
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Some functions, e.g. @code{fputs_filtered()} or @code{error()}, specify that they
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``should not be called when cleanups are not in place''. This means
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that any actions you need to reverse in the case of an error or
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interruption must be on the cleanup chain before you call these functions,
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since they might never return to your code (they @samp{longjmp} instead).
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@node Wrapping, Releases, Cleanups, Top
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@chapter Wrapping output lines
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Output that goes through printf_filtered or fputs_filtered or
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fputs_demangled needs only to have calls to wrap_here() added
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in places that would be good breaking points. The utility routines
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will take care of actually wrapping if the line width is exceeded.
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The argument to wrap_here() is an indentation string which is printed
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ONLY if the line breaks there. This argument is saved away and used
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later. It must remain valid until the next call to wrap_here() or
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until a newline has been printed through the *_filtered functions.
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Don't pass in a local variable and then return!
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It is usually best to call wrap_here() after printing a comma or space.
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If you call it before printing a space, make sure that your indentation
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properly accounts for the leading space that will print if the line wraps
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there.
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Any function or set of functions that produce filtered output must finish
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by printing a newline, to flush the wrap buffer, before switching to
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unfiltered ("printf") output. Symbol reading routines that print
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warnings are a good example.
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@node Releases, README, Wrapping, Top
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@chapter Configuring GDB for release
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GDB should be released after doing @samp{config.gdb none} in the top level
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directory. This will leave a makefile there, but no tm- or xm- files.
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The makefile is needed, for example, for @samp{make gdb.tar.Z}@dots{} If you
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have tm- or xm-files in the main source directory, C's include rules
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cause them to be used in preference to tm- and xm-files in the
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subdirectories where the user will actually configure and build the
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binaries.
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@samp{config.gdb none} is also a good way to rebuild the top level Makefile
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after changing Makefile.dist, alldeps.mak, etc.
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@node README, New Architectures, Releases, Top
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@chapter The README file
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Check the README file, it often has useful information that does not
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appear anywhere else in the directory.
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@node New Architectures, , README, Top
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@chapter Defining a new host or target architecture
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When building support for a new host and/or target, this will help you
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organize where to put the various parts. @var{ARCH} stands for the
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architecture involved.
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Object files needed when the host system is an @var{ARCH} are listed in
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the file @file{xconfig/@var{ARCH}}, in the Makefile macro @samp{XDEPFILES
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= }@dots{}. You can also define XXXXXX in there.
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There are some ``generic'' versions of routines that can be used by
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various host systems. If these routines work for the @var{ARCH} host,
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you can just include the generic file's name (with .o, not .c) in
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@code{XDEPFILES}. Otherwise, you will need to write routines that
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perform the same functions as the generic file, put them into
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@code{@var{ARCH}-xdep.c}, and put @code{@var{ARCH}-xdep.o} into
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@code{XDEPFILES}. These generic host support files include:
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@example
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coredep.c, coredep.o
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@end example
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@table @code
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@item fetch_core_registers()
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Support for reading registers out of a core file. This routine calls
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@code{register_addr(}), see below.
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@item register_addr()
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If your @code{xm-@var{ARCH}.h} file defines the macro @code{REGISTER_U_ADDR(reg)} to be the
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offset within the @samp{user} struct of a register (represented as a GDB
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register number), @file{coredep.c} will define the @code{register_addr()} function
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and use the macro in it. If you do not define @code{REGISTER_U_ADDR}, but
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you are using the standard @code{fetch_core_registers}, you
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will need to define your own version of @code{register_addr}, put it into
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your @code{@var{ARCH}-xdep.c} file, and be sure @code{@var{ARCH}-xdep.o} is in the @code{XDEPFILES} list.
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If you have your own @code{fetch_core_registers}, you only need to define
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@code{register_addr} if your @code{fetch_core_registers} calls it. Many custom
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@code{fetch_core_registers} implementations simply locate the registers
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themselves.
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@end table
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Files needed when the target system is an @var{ARCH} are listed in the file
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@file{tconfig/@var{ARCH}}, in the @code{Makefile} macro @samp{TDEPFILES = }@dots{}. You can also
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define XXXXXX in there.
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Similar generic support files for target systems are:
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@example
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exec.c, exec.o:
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@end example
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This file defines functions for accessing files that are executable
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on the target system. These functions open and examine an exec file,
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extract data from one, write data to one, print information about one,
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etc. Now that executable files are handled with BFD, every architecture
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should be able to use the generic exec.c rather than its own custom code.
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@contents
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@bye
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