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authorRoland Pesch <pesch@cygnus>1991-09-20 00:40:36 +0000
committerRoland Pesch <pesch@cygnus>1991-09-20 00:40:36 +0000
commit97f3cb72753d6cf3ccedbc4eeb0dbf5c066b8e3e (patch)
tree4e8385c5edf7ea9be1352cd2e987f37fb1dadfc7
parentc44582c81a2bc57a9067ce957affbefcc0c1fc31 (diff)
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Reorder contents; reorganize new-host, new-target, and new-config
chapters; fix minor typos; come closer to usual GNU markup conventions for @file @samp @code @var.
-rw-r--r--gdb/doc/gdbint.texinfo839
1 files changed, 438 insertions, 401 deletions
diff --git a/gdb/doc/gdbint.texinfo b/gdb/doc/gdbint.texinfo
index 3eadfce..e7767aa 100644
--- a/gdb/doc/gdbint.texinfo
+++ b/gdb/doc/gdbint.texinfo
@@ -50,303 +50,249 @@ are preserved on all copies.
@end titlepage
-@node Top, Cleanups, (dir), (dir)
+@node Top, README, (dir), (dir)
@menu
-* Cleanups:: Cleanups
-* Wrapping:: Wrapping output lines
-* Releases:: Configuring GDB for release
-* README:: The README file
-* New Architectures:: Defining a new host or target architecture
+* README:: The README File
+* New Architectures:: Defining a New Host or Target Architecture
+* Config:: Adding a New Configuration
* Host:: Adding a New Host
* Target:: Adding a New Target
-* Config:: Extending @code{configure}
+* Languages:: Defining New Source Languages
+* Releases:: Configuring GDB for Release
* BFD support for GDB:: How BFD and GDB interface
-* Host versus Target:: What features are in which files
-* Symbol Reading:: Defining new symbol readers
-* Languages:: Defining new source languages
+* Symbol Reading:: Defining New Symbol Readers
+* Cleanups:: Cleanups
+* Wrapping:: Wrapping Output Lines
@end menu
-@node Cleanups, Wrapping, Top, Top
-@chapter Cleanups
+@node README, New Architectures, Top, Top
+@chapter The @file{README} File
-Cleanups are a structured way to deal with things that need to be done
-later. When your code does something (like @code{malloc} some memory, or open
-a file) that needs to be undone later (e.g. free the memory or close
-the file), it can make a cleanup. The cleanup will be done at some
-future point: when the command is finished, when an error occurs, or
-when your code decides it's time to do cleanups.
+Check the @file{README} file, it often has useful information that does not
+appear anywhere else in the directory.
-You can also discard cleanups, that is, throw them away without doing
-what they say. This is only done if you ask that it be done.
-Syntax:
+@node New Architectures, Config, README, Top
+@chapter Defining a New Host or Target Architecture
-@table @code
-@item @var{old_chain} = make_cleanup (@var{function}, @var{arg});
-Make a cleanup which will cause @var{function} to be called with @var{arg}
-(a @code{char *}) later. The result, @var{old_chain}, is a handle that can be
-passed to @code{do_cleanups} or @code{discard_cleanups} later. Unless you are
-going to call @code{do_cleanups} or @code{discard_cleanups} yourself,
-you can ignore the result from @code{make_cleanup}.
+When building support for a new host and/or target, much of the work you
+need to do is handled by specifying configuration files;
+@pxref{Config,,Adding a New Configuration}. Further work can be
+divided into ``host-dependent'' (@pxref{Host,,Adding a New Host}) and
+``target=dependent'' (@pxref{Target,,Adding a New Target}). The
+following discussion is meant to explain the difference between hosts
+and targets.
+@heading What is considered ``host-dependent'' versus ``target-dependent''?
-@item do_cleanups (@var{old_chain});
-Perform all cleanups done since @code{make_cleanup} returned @var{old_chain}.
-E.g.:
-@example
-make_cleanup (a, 0);
-old = make_cleanup (b, 0);
-do_cleanups (old);
-@end example
-@noindent
-will call @code{b()} but will not call @code{a()}. The cleanup that calls @code{a()} will remain
-in the cleanup chain, and will be done later unless otherwise discarded.@refill
-
-@item discard_cleanups (@var{old_chain});
-Same as @code{do_cleanups} except that it just removes the cleanups from the
-chain and does not call the specified functions.
+The @file{xconfig/*}, @file{xm-*.h} and @file{*-xdep.c} files are for
+host support. Similarly, the @file{tconfig/*}, @file{tm-*.h} and
+@file{*-tdep.c} files are for target support. The question is, what
+features or aspects of a debugging or cross-debugging environment are
+considered to be ``host'' support?
-@end table
+Defines and include files needed to build on the host are host support.
+Examples are tty support, system defined types, host byte order, host
+float format.
-Some functions, e.g. @code{fputs_filtered()} or @code{error()}, specify that they
-``should not be called when cleanups are not in place''. This means
-that any actions you need to reverse in the case of an error or
-interruption must be on the cleanup chain before you call these functions,
-since they might never return to your code (they @samp{longjmp} instead).
+Unix child process support is considered an aspect of the host. Since
+when you fork on the host you are still on the host, the various macros
+needed for finding the registers in the upage, running @code{ptrace}, and such
+are all in the host-dependent files.
+@c FIXME so what kinds of things are target support?
-@node Wrapping, Releases, Cleanups, Top
-@chapter Wrapping output lines
+This is still somewhat of a grey area; I (John Gilmore) didn't do the
+@file{xm-*} and @file{tm-*} split for gdb (it was done by Jim Kingdon)
+so I have had to figure out the grounds on which it was split, and make
+my own choices as I evolve it. I have moved many things out of the xdep
+files actually, partly as a result of BFD and partly by removing
+duplicated code.
-Output that goes through @code{printf_filtered} or @code{fputs_filtered} or
-@code{fputs_demangled} needs only to have calls to @code{wrap_here} added
-in places that would be good breaking points. The utility routines
-will take care of actually wrapping if the line width is exceeded.
-The argument to @code{wrap_here} is an indentation string which is printed
-@emph{only} if the line breaks there. This argument is saved away and used
-later. It must remain valid until the next call to @code{wrap_here} or
-until a newline has been printed through the @code{*_filtered} functions.
-Don't pass in a local variable and then return!
+@node Config, Host, New Architectures, Top
+@chapter Adding a New Configuration
-It is usually best to call wrap_here() after printing a comma or space.
-If you call it before printing a space, make sure that your indentation
-properly accounts for the leading space that will print if the line wraps
-there.
+Most of the work in making GDB compile on a new machine is in specifying
+the configuration of the machine. This is done in a dizzying variety of
+header files and configuration scripts, which we hope to make more
+sensible soon. Let's say your new host is called an @var{xxx} (e.g.
+@samp{sun4}), and its full three-part configuration name is
+@code{@var{xarch}-@var{xvend}-@var{xos}} (e.g. @samp{sparc-sun-sunos4}). In
+particular:
+
+At the top level, edit @file{config.sub} and add @var{xarch},
+@var{xvend}, and @var{xos} to the lists of supported architectures,
+vendors, and operating systems near the bottom of the file. Also, add
+@var{xxx} as an alias that maps to
+@code{@var{xarch}-@var{xvend}-@var{xos}}. You can test your changes by
+running
-Any function or set of functions that produce filtered output must finish
-by printing a newline, to flush the wrap buffer, before switching to
-unfiltered ("printf") output. Symbol reading routines that print
-warnings are a good example.
+@example
+./config.sub @var{xxx}
+@end example
+@noindent
+and
+@example
+./config.sub @code{@var{xarch}-@var{xvend}-@var{xos}}
+@end example
+@noindent
+which should both respond with @code{@var{xarch}-@var{xvend}-@var{xos}}
+and no error messages.
+Then edit @file{include/sysdep.h}. Add a new @code{#define} for
+@samp{@var{xxx}_SYS}, with a numeric value not already in use. Add a
+new section that says
-@node Releases, README, Wrapping, Top
-@chapter Configuring GDB for release
+@example
+#if HOST_SYS==@var{xxx}_SYS
+#include <sys/h-@var{xxx}.h>
+#endif
+@end example
+Now create a new file @file{include/sys/h-@var{xxx}.h}. Examine the
+other @file{h-*.h} files as templates, and create one that brings in the
+right include files for your system, and defines any host-specific
+macros needed by GDB.
-GDB should be released after doing @samp{./configure none} in the top level
-directory. This will leave a makefile there, but no tm- or xm- files.
-The makefile is needed, for example, for @samp{make gdb.tar.Z}@dots{} If you
-have tm- or xm-files in the main source directory, C's include rules
-cause them to be used in preference to tm- and xm-files in the
-subdirectories where the user will actually configure and build the
-binaries.
+Now, go to the @file{bfd} directory and edit @file{bfd/configure.in}.
+Add shell script code to recognize your
+@code{@var{xarch}-@var{xvend}-@var{xos}} configuration, and set
+@code{bfd_host} to @var{xxx} when you recognize it. Now create a file
+@file{bfd/config/hmake-@var{xxx}}, which includes the line:
-@samp{./configure none} is also a good way to rebuild the top level Makefile
-after changing Makefile.in, alldeps.mak, etc.
+@example
+HDEFINES=-DHOST_SYS=@var{xxx}_SYS
+@end example
-@emph{TEMPORARY RELEASE PROCEDURE FOR DOCUMENTATION}
-@file{gdb.texinfo} is currently marked up using the texinfo-2 macros,
-which are not yet a default for anything (but we have to start using
-them sometime).
+(If you have the binary utilities in the same tree, you'll have to do
+the same thing to in the @file{binutils} directory as you've done in the
+@file{bfd} directory.)
+
+It's likely that the @file{libiberty} and @file{readline} directories
+won't need any changes for your configuration, but if they do, you can
+change the @file{configure.in} file there to recognize your system and
+map to an @file{hmake-@var{xxx}} file. Then add @file{hmake-@var{xxx}}
+to the @file{config/} subdirectory, to set any makefile variables you
+need. The only current options in there are things like @samp{-DSYSV}.
+
+Aha! Now to configure GDB itself! You shouldn't edit the
+@code{configure} script itself to add hosts or targets; instead, edit
+the script fragments in the file @code{configure.in}. Modify
+@file{gdb/configure.in} to recognize your system and set @code{gdb_host}
+to @var{xxx}, and (unless your desired target is already available) also
+set @code{gdb_target} to something appropriate (for instance,
+@var{xxx}). To handle new hosts, modify the segment after the comment
+@samp{# per-host}; to handle new targets, modify after @samp{#
+per-target}.
+@c Would it be simpler to just use different per-host and per-target
+@c *scripts*, and call them from {configure} ?
-For making paper, the only thing this implies is the right generation of
-texinfo.tex needs to be included in the distribution.
+Then fold your changes into the @code{configure} script by using the
+@code{+template} option, and specifying @code{configure} itself as the
+template:
+@example
+configure +template=configure
+@end example
+@c If "configure" is the only workable option value for +template, it's
+@c kind of silly to insist that it be provided. If it isn't, somebody
+@c please fill in here what are others... (then delete this comment!)
-For making info files, however, rather than duplicating the texinfo2
-distribution, generate gdb.texinfo locally, and include the files
-gdb.info* in the distribution. Note the plural;
-@samp{M-x texinfo-format-buffer} will split the document into one overall file
-and five or so include files.
+Finally, you'll need to specify and define the host- and
+target-dependent files used for your configuration; the next two
+chapters discuss those.
-@node README, New Architectures, Releases, Top
-@chapter The README file
+@node Host, Target, Config, Top
+@chapter Adding a New Host
-Check the README file, it often has useful information that does not
-appear anywhere else in the directory.
+Once you have specified a new configuration for your host
+(@pxref{Config,,Adding a New Configuration}), there are two remaining
+pieces to making GDB work on a new machine. First, you have to make it
+host on the new machine (compile there, handle that machine's terminals
+properly, etc). If you will be cross-debugging to some other kind of
+system that's already supported, you are done.
+If you want to use GDB to debug programs that run on the new machine,
+you have to get it to understand the machine's object files, symbol
+files, and interfaces to processes. @pxref{Target}.
+Add a file @file{gdb/xconfig/@var{xxx}} which specifies whatever object
+files are needed as the makefile macro @samp{XDEPFILES=@dots{}}. In the
+same file, specify the header file to describe @var{xxx} as
+@samp{XM_FILE= xm-@var{xxx}.h}. You can also define @samp{CC},
+@samp{REGEX} and @samp{REGEX1}, @samp{SYSV_DEFINE}, @samp{XM_CFLAGS},
+etc. in there; see @file{Makefile.in}.
-@node New Architectures, Host, README, Top
-@chapter Defining a new host or target architecture
+Create @file{gdb/xm-@var{xxx}.h} with the appropriate @code{#define}s
+for your system (crib from existing @file{xm-*.h} files).
+There are some ``generic'' versions of routines that can be used by
+various host systems. These can be customized in various ways by macros
+defined in your @file{xm-@var{xxx}.h} file. If these routines work for
+the @var{xxx} host, you can just include the generic file's name (with
+@samp{.o}, not @samp{.c}) in @code{XDEPFILES}.
-When building support for a new host and/or target, this will help you
-organize where to put the various parts. @var{ARCH} stands for the
-architecture involved.
+Otherwise, if your machine needs custom support routines, you will need
+to write routines that perform the same functions as the generic file.
+Put them into @code{@var{xxx}-xdep.c}, and put @code{@var{xxx}-xdep.o}
+into @code{XDEPFILES}.
-Object files needed when the host system is an @var{ARCH} are listed in
-the file @file{xconfig/@var{ARCH}}, in the Makefile macro @samp{XDEPFILES
-= }@dots{}. The header file that defines the host system should be
-called xm-@var{ARCH}.h, and should be specified as the value of @samp{XM_FILE=}
-in @file{xconfig/@var{ARCH}}.
-You can also define @samp{CC}, @samp{REGEX} and @samp{REGEX1},
-@samp{SYSV_DEFINE}, @samp{XM_CFLAGS}, etc in there; see @file{Makefile.in}.
+@subheading Generic Host Support Files
-There are some ``generic'' versions of routines that can be used by
-various host systems. If these routines work for the @var{ARCH} host,
-you can just include the generic file's name (with .o, not .c) in
-@code{XDEPFILES}. Otherwise, you will need to write routines that
-perform the same functions as the generic file, put them into
-@code{@var{ARCH}-xdep.c}, and put @code{@var{ARCH}-xdep.o} into
-@code{XDEPFILES}. These generic host support files include:
+@table @code
-@example
- coredep.c, coredep.o
-@end example
+@item infptrace.c
+@code{ptrace} support.
-@table @code
-@item fetch_core_registers()
+@item coredep.c:fetch_core_registers()
Support for reading registers out of a core file. This routine calls
@code{register_addr(}), see below.
-@item register_addr()
-If your @code{xm-@var{ARCH}.h} file defines the macro
+@item coredep.c:register_addr()
+If your @code{xm-@var{xxx}.h} file defines the macro
@code{REGISTER_U_ADDR(reg)} to be the offset within the @samp{user}
struct of a register (represented as a GDB register number),
@file{coredep.c} will define the @code{register_addr()} function and use
the macro in it. If you do not define @code{REGISTER_U_ADDR}, but you
-are using the standard @code{fetch_core_registers}, you will need to
-define your own version of @code{register_addr}, put it into your
-@code{@var{ARCH}-xdep.c} file, and be sure @code{@var{ARCH}-xdep.o} is
-in the @code{XDEPFILES} list. If you have your own
-@code{fetch_core_registers}, you only need to define
-@code{register_addr} if your @code{fetch_core_registers} calls it. Many
-custom @code{fetch_core_registers} implementations simply locate the
-registers themselves.@refill
+are using the standard @code{fetch_core_registers()}, you will need to
+define your own version of @code{register_addr()}, put it into your
+@code{@var{xxx}-xdep.c} file, and be sure @code{@var{xxx}-xdep.o} is in
+the @code{XDEPFILES} list. If you have your own
+@code{fetch_core_registers()}, you may not need a separate
+@code{register_addr()}. Many custom @code{fetch_core_registers()}
+implementations simply locate the registers themselves.@refill
@end table
-Object files needed when the target system is an @var{ARCH} are listed in
-the file @file{tconfig/@var{ARCH}}, in the Makefile macro @samp{TDEPFILES
-= }@dots{}. The header file that defines the target system should be
-called tm-@var{ARCH}.h, and should be specified as the value of @samp{TM_FILE}
-in @file{tconfig/@var{ARCH}}.
-You can also define @samp{TM_CFLAGS}, @samp{TM_CLIBS}, and @samp{TM_CDEPS}
-in there; see @file{Makefile.in}.
-
-Similar generic support files for target systems are:
-
-@example
- exec.c, exec.o:
-@end example
-
-This file defines functions for accessing files that are executable
-on the target system. These functions open and examine an exec file,
-extract data from one, write data to one, print information about one,
-etc. Now that executable files are handled with BFD, every architecture
-should be able to use the generic exec.c rather than its own custom code.
-
-@node Host, Target, New Architectures, Top
-@chapter Adding a New Host
-
-There are two halves to making GDB work on a new machine. First,
-you have to make it host on the new machine (compile there, handle
-that machine's terminals properly, etc). If you will be cross-debugging
-to some other kind of system, you are done.
-
-(If you want to use GDB to debug programs that run on the new machine,
-you have to get it to understand the machine's object files, symbol
-files, and interfaces to processes. @pxref{Target}.)
-
-Most of the work in making GDB compile on a new machine is in specifying
-the configuration of the machine. This is done in a dizzying variety
-of header files and configuration scripts, which we hope to make more
-sensible soon. Let's say your new host is called an XXX (e.g. sun4),
-and its full three-part configuration name is XARCH-XVEND-XOS (e.g.
-sparc-sun-sunos4). In particular:
-
-At the top level, edit @file{config.sub} and add XARCH, XVEND, and
-XOS to the lists of supported architectures, vendors, and operating systems
-near the bottom of the file. Also, add XXX as an alias that maps to
-XARCH-XVEND-XOS. You can test your changes by running
-
-@example
-./config.sub XXX
-@end example
-@noindent
-and
-@example
-./config.sub XARCH-XVEND-XOS
-@end example
-@noindent
-which should both respond with XARCH-XVEND-XOS and no error messages.
-
-Then edit @file{include/sysdep.h}. Add a new #define for XXX_SYS, with
-a numeric value not already in use. Add a new section that says
-
-@example
-#if HOST_SYS==XXX_SYS
-#include <sys/h-XXX.h>
-#endif
-@end example
-
-Now create a new file @file{include/sys/h-XXX.h}. Examine the other
-h-*.h files as templates, and create one that brings in the right include
-files for your system, and defines any host-specific macros needed by
-GDB.
-
-Now, go to the bfd directory and edit @file{bfd/configure.in}. Add shell
-script code to recognize your XARCH-XVEND-XOS configuration, and set
-bfd_host to XXX when you recognize it. Now create a file
-@file{bfd/config/hmake-XXX}, which includes the line:
-
-@example
-HDEFINES=-DHOST_SYS=XXX_SYS
-@end example
+Object files needed when the target system is an @var{xxx} are listed
+in the file @file{tconfig/@var{xxx}}, in the makefile macro
+@samp{TDEPFILES = }@dots{}. The header file that defines the target
+system should be called @file{tm-@var{xxx}.h}, and should be specified
+as the value of @samp{TM_FILE} in @file{tconfig/@var{xxx}}. You can
+also define @samp{TM_CFLAGS}, @samp{TM_CLIBS}, and @samp{TM_CDEPS} in
+there; see @file{Makefile.in}.
-(If you have the binutils in the same tree, you'll have to do the same
-thing to in the binutils directory as you've done in the bfd directory.)
-
-It's likely that the libiberty and readline directories won't need any
-changes for your configuration, but if they do, you can change the
-@file{configure.in} file there to recognize your system and map to an
-hmake-XXX file. Then add @file{hmake-XXX} to the @file{config/} subdirectory,
-to set any makefile variables you need. The only current options
-in there are things like -DSYSV.
-
-Aha! Now to configure GDB itself! Modify @file{gdb/configure.in} to
-recognize your system and set gdb_host to XXX. Add a file
-@file{gdb/xconfig/XXX} which specifies XDEPFILES=(whatever is needed),
-and XM_FILE= xm-XXX.h. Create @file{gdb/xm-XXX.h} with the appropriate
-#define's for your system (crib from existing xm-*.h files).
-If your machine needs custom support routines, you can put them in
-a file @file{gdb/XXX-xdep.c}, and add XXX-xdep.o to the XDEPFILES=
-line. If not, you can use the generic routines for ptrace support
-(infptrace.o) and core files (coredep.o). These can be customized
-in various ways by macros defined in your @file{xm-XXX.h} file.
-
-Now, from the top level (above bfd, gdb, etc), run:
+Now, from the top level (above @file{bfd}, @file{gdb}, etc), run:
@example
./configure -template=./configure
@end example
This will rebuild all your configure scripts, using the new
-configure.in files that you modified. (You can also run this command
+@file{configure.in} files that you modified. (You can also run this command
at any subdirectory level.) You are now ready to try configuring
GDB to compile for your system. Do:
@example
-./configure XXX +target=vxworks960
+./configure @var{xxx} +target=vxworks960
@end example
This will configure your system to cross-compile for VxWorks on
the Intel 960, which is probably not what you really want, but it's
a test case that works at this stage. (You haven't set up to be
-able to debug programs that run @emph{on} XXX yet.)
+able to debug programs that run @emph{on} @var{xxx} yet.)
If this succeeds, you can try building it all with:
@@ -355,88 +301,222 @@ make
@end example
Good luck! Comments and suggestions about this section are particularly
-welcome; send them to bug-gdb@@prep.ai.mit.edu.
-
-When hosting GDB on a new operating system, to make it possible
-to debug core files, you will need to either
-write specific code for parsing your OS's core files, or customize
-bfd/trad-core.c. First, use whatever #include files your machine uses
-to define the struct of registers that is accessible (possibly in the
-upage) in a core file (rather than <machine/reg.h>), and an include
-file that defines whatever header exists on a core file (e.g. the
-u-area or a "struct core"). Then modify @samp{trad_unix_core_file_p}
-to use these values to set up the section information for the data
-segment, stack segment, any other segments in the core file (perhaps
-shared library contents or control information), "registers" segment,
-and if there are two discontiguous sets of registers (e.g. integer and
-float), the "reg2" segment. This section information basically
-delimits areas in the core file in a standard way, which the
-section-reading routines in BFD know how to seek around in.
-
-Then back in GDB, you need a matching routine called fetch_core_registers.
-If you can use the generic one, it's in core-dep.c; if not, it's in
-your foobar-xdep.c file. It will be passed a char pointer
-to the entire "registers" segment, its length, and a zero; or a char
-pointer to the entire "regs2" segment, its length, and a 2. The
+welcome; send them to @samp{bug-gdb@@prep.ai.mit.edu}.
+
+When hosting GDB on a new operating system, to make it possible to debug
+core files, you will need to either write specific code for parsing your
+OS's core files, or customize @file{bfd/trad-core.c}. First, use
+whatever @code{#include} files your machine uses to define the struct of
+registers that is accessible (possibly in the u-area) in a core file
+(rather than @file{machine/reg.h}), and an include file that defines whatever
+header exists on a core file (e.g. the u-area or a @samp{struct core}). Then
+modify @code{trad_unix_core_file_p()} to use these values to set up the
+section information for the data segment, stack segment, any other
+segments in the core file (perhaps shared library contents or control
+information), ``registers'' segment, and if there are two discontiguous
+sets of registers (e.g. integer and float), the ``reg2'' segment. This
+section information basically delimits areas in the core file in a
+standard way, which the section-reading routines in BFD know how to seek
+around in.
+
+Then back in GDB, you need a matching routine called @code{fetch_core_registers()}.
+If you can use the generic one, it's in @file{core-dep.c}; if not, it's in
+your @file{@var{xxx}-xdep.c} file. It will be passed a char pointer
+to the entire ``registers'' segment, its length, and a zero; or a char
+pointer to the entire ``regs2'' segment, its length, and a 2. The
routine should suck out the supplied register values and install them into
-gdb's "registers" array. (@xref{New Architectures}
+GDB's ``registers'' array. (@xref{New Architectures}
for more info about this.)
-@node Target, Config, Host, Top
+
+@node Target, Languages, Host, Top
@chapter Adding a New Target
+For a new target called @var{ttt}, first specify the configuration as
+described in @ref{Config,,Adding a New Configuration}. If your new
+target is the same as your new host, you've probably already done that.
+
+Add a file @file{gdb/tconfig/@var{ttt}} which specifies whatever object
+files are needed as the makefile macro @samp{TDEPFILES=@dots{}}. In the
+same file, specify the header file to describe @var{ttt} as
+@samp{TM_FILE= tm-@var{ttt}.h}. You can also define @samp{CC},
+@samp{REGEX} and @samp{REGEX1}, @samp{SYSV_DEFINE}, @samp{XM_CFLAGS},
+etc. in there; see @file{Makefile.in}.
+
+Create @file{gdb/tm-@var{ttt}.h} with the appropriate @code{#define}s
+for your system (crib from existing @file{tm-*.h} files).
+
When adding support for a new target machine, there are various areas
of support that might need change, or might be OK.
+The file @file{exec.c} defines functions for accessing files that are
+executable on the target system. These functions open and examine an
+exec file, extract data from one, write data to one, print information
+about one, etc. Now that executable files are handled with BFD, every
+target should be able to use the generic exec.c rather than its
+own custom code.
+
If you are using an existing object file format (a.out or COFF),
there is probably little to be done. See @file{bfd/doc/bfd.texinfo}
for more information on writing new a.out or COFF versions.
If you need to add a new object file format, you are beyond the scope
of this document right now. Look at the structure of the a.out
-and COFF support, build a transfer vector (xvec) for your new format,
+and COFF support, build a transfer vector (@code{xvec}) for your new format,
and start populating it with routines. Add it to the list in
@file{bfd/targets.c}.
If you are adding a new existing CPU chip (e.g. m68k family), you'll
-need to define an XARCH-opcode.h file, a tm-XARCH.h file that gives
-the basic layout of the chip (registers, stack, etc), probably
-an XARCH-tdep.c file that has support routines for tm-XARCH.h, etc.
-
-If you are adding a new operating system for an existing CPU chip,
-add a tm-XOS.h file that describes the operating system facilities
-that are unusual (extra symbol table info; the breakpoint
-instruction needed; etc). Then write a @file{tm-XARCH-XOS.h}
-that just #include's tm-XARCH.h and tm-XOS.h. (Now that we have
+need to define an @file{@var{xarch}-opcode.h} file, a
+@file{tm-@var{xarch}.h} file that gives the basic layout of the chip
+(registers, stack, etc), probably an @file{@var{xarch}-tdep.c} file that
+has support routines for @file{tm-@var{xarch}.h}, etc.
+
+If you are adding a new operating system for an existing CPU chip, add a
+@file{tm-@var{xos}.h} file that describes the operating system
+facilities that are unusual (extra symbol table info; the breakpoint
+instruction needed; etc). Then write a
+@file{tm-@var{xarch}-@var{xos}.h} that just @code{#include}s
+@file{tm-@var{xarch}.h} and @file{tm-@var{xos}.h}. (Now that we have
three-part configuration names, this will probably get revised to
-separate the OS configuration from the ARCH configuration. FIXME.)
-
-@node Config, BFD support for GDB, Target, Top
-@chapter Extending @code{configure}
-Once you have added a new host, target, or both, you'll also need to
-extend the @code{configure} script to recognize the new configuration
-possibilities.
-
-You shouldn't edit the @code{configure} script itself to add hosts or
-targets; instead, edit the script fragments in the file
-@code{configure.in}. To handle new hosts, modify the segment after the
-comment @samp{# per-host}; to handle new targets, modify after @samp{#
-per-target}.
-@c Would it be simpler to just use different per-host and per-target
-@c *scripts*, and call them from {configure} ?
+separate the @var{xos} configuration from the @var{xarch}
+configuration.)
+
+
+@node Languages, Releases, Target, Top
+@chapter Adding a Source Language to GDB
+
+To add other languages to GDB's expression parser, follow the following steps:
+
+@table @emph
+@item Create the expression parser.
+
+This should reside in a file @file{@var{lang}-exp.y}. Routines for building
+parsed expressions into a @samp{union exp_element} list are in @file{parse.c}.
+
+Since we can't depend upon everyone having Bison, the following lines
+@emph{must} be included at the top of the YACC parser:
-Then fold your changes into the @code{configure} script by using the
-@code{+template} option, and specifying @code{configure} itself as the
-template:
@example
-configure +template=configure
+#define yyparse @var{lang}_parse
+#define yylex @var{lang}_lex
+#define yyerror @var{lang}_error
+#define yylval @var{lang}_lval
+#define yychar @var{lang}_char
+#define yydebug @var{lang}_debug
+#define yypact @var{lang}_pact
+#define yyr1 @var{lang}_r1
+#define yyr2 @var{lang}_r2
+#define yydef @var{lang}_def
+#define yychk @var{lang}_chk
+#define yypgo @var{lang}_pgo
+#define yyact @var{lang}_act
+#define yyexca @var{lang}_exca
@end example
-@c If "configure" is the only workable option value for +template, it's
-@c kind of silly to insist that it be provided. If it isn't, somebody
-@c please fill in here what are others... (then delete this comment!)
-@node BFD support for GDB, Host versus Target, Config, Top
-@chapter Binary File Descriptor library support for GDB
+This will prevent name conflicts between the various parsers.
+
+@item Add any evaluation routines, if necessary
+
+If you need new opcodes (that represent the operations of the language),
+add them to the enumerated type in @file{expression.h}. Add support
+code for these operations in @code{eval.c:evaluate_subexp()}. Add cases
+for new opcodes in two functions from @file{parse.c}:
+@code{prefixify_subexp()} and @code{length_of_subexp()}. These compute
+the number of @code{exp_element}s that a given operation takes up.
+
+@item Update some existing code
+
+Add an enumerated identifier for your language to the enumerated type
+@code{enum language} in @file{defs.h}.
+
+Update the routines in @file{language.c} so your language is included. These
+routines include type predicates and such, which (in some cases) are
+language dependent. If your language does not appear in the switch
+statement, an error is reported.
+
+Also included in @file{language.c} is the code that updates the variable
+@code{current_language}, and the routines that translate the
+@code{language_@var{lang}} enumerated identifier into a printable
+string.
+
+Update the function @code{_initialize_language} to include your language. This
+function picks the default language upon startup, so is dependent upon
+which languages that GDB is built for.
+
+Update @code{symfile.c} and/or symbol-reading code so that the language of
+each symtab (source file) is set properly. This is used to determine the
+language to use at each stack frame level. Currently, the language
+is set based upon the extension of the source file. If the language
+can be better inferred from the symbol information, please set the
+language of the symtab in the symbol-reading code.
+
+Add helper code to @code{expprint.c:print_subexp()} to handle any new
+expression opcodes you have added to @file{expression.h}. Also, add the
+printed representations of your operators to @code{op_print_tab}.
+
+@item Add a place of call
+
+Add a call to @code{@var{lang}_parse()} and @code{@var{lang}_error} in
+@code{parse.c:parse_exp_1()}.
+
+@item Use macros to trim code
+
+The user has the option of building GDB for some or all of the
+languages. If the user decides to build GDB for the language
+@var{lang}, then every file dependent on @file{language.h} will have the
+macro @code{_LANG_@var{lang}} defined in it. Use @code{#ifdef}s to
+leave out large routines that the user won't need if he or she is not
+using your language.
+
+Note that you do not need to do this in your YACC parser, since if GDB
+is not build for @var{lang}, then @file{@var{lang}-exp.tab.o} (the
+compiled form of your parser) is not linked into GDB at all.
+
+See the file @file{configure.in} for how GDB is configured for different
+languages.
+
+@item Edit @file{Makefile.in}
+
+Add dependencies in @file{Makefile.in}. Make sure you update the macro
+variables such as @code{HFILES} and @code{OBJS}, otherwise your code may
+not get linked in, or, worse yet, it may not get @code{tar}red into the
+distribution!
+@end table
+
+
+@node Releases, BFD support for GDB, Languages, Top
+@chapter Configuring GDB for Release
+
+GDB should be released after doing @samp{./configure none} in the top
+level directory. This will leave a makefile there, but no @file{tm-*}
+or @file{xm-*} files. The makefile is needed, for example, for
+@samp{make gdb.tar.Z}@dots{} If you have @file{tm-*} or @file{xm-*}
+files in the main source directory, C's include rules cause them to be
+used in preference to @file{tm-*} and @file{xm-*} files in the
+subdirectories where the user will actually configure and build the
+binaries.
+
+@samp{./configure none} is also a good way to rebuild the top level @file{Makefile}
+after changing @file{Makefile.in}, @file{alldeps.mak}, etc.
+
+@subheading TEMPORARY RELEASE PROCEDURE FOR DOCUMENTATION
+
+@file{gdb.texinfo} is currently marked up using the texinfo-2 macros,
+which are not yet a default for anything (but we have to start using
+them sometime).
+
+For making paper, the only thing this implies is the right generation of
+@file{texinfo.tex} needs to be included in the distribution.
+
+For making info files, however, rather than duplicating the texinfo2
+distribution, generate @file{gdb-all.texinfo} locally, and include the files
+@file{gdb.info*} in the distribution. Note the plural; @code{makeinfo} will
+split the document into one overall file and five or so included files.
+
+
+@node BFD support for GDB, Symbol Reading, Releases, Top
+@chapter Binary File Descriptor Library Support for GDB
BFD provides support for GDB in several ways:
@@ -465,33 +545,10 @@ symbols, but GDB uses BFD's cached information to find the symbols,
string table, etc.
@end table
-The interface for symbol reading is described in @xref{Symbol Reading}.
-
-@node Host versus Target, Symbol Reading, BFD support for GDB, Top
-@chapter What is considered ``host-dependent'' versus ``target-dependent''?
+@c The interface for symbol reading is described in @ref{Symbol Reading}.
-The xconfig/*, xm-*.h and *-xdep.c files are for host support. The
-question is, what features or aspects of a debugging or cross-debugging
-environment are considered to be ``host'' support.
-
-Defines and include files needed to build on the host are host support.
-Examples are tty support, system defined types, host byte order, host
-float format.
-Unix child process support is considered an aspect of the host. Since
-when you fork on the host you are still on the host, the various macros
-needed for finding the registers in the upage, running ptrace, and such
-are all in the host-dependent files.
-
-This is still somewhat of a grey area; I (John Gilmore) didn't do the
-xm- and tm- split for gdb (it was done by Jim Kingdon) so I have had to
-figure out the grounds on which it was split, and make my own choices
-as I evolve it. I have moved many things out of the xdep files
-actually, partly as a result of BFD and partly by removing duplicated
-code.
-
-
-@node Symbol Reading, Languages, Host versus Target, Top
+@node Symbol Reading, Cleanups, BFD support for GDB, Top
@chapter Symbol Reading
GDB reads symbols from "symbol files". The usual symbol file is the
@@ -516,7 +573,7 @@ prefix.
The functions supplied by each module are:
@table @code
-@item XXX_symfile_init(struct sym_fns *sf)
+@item @var{xxx}_symfile_init(struct sym_fns *sf)
Called from @code{symbol_file_add} when we are about to read a new
symbol file. This function should clean up any internal state
@@ -526,34 +583,34 @@ which we are reading might be a new "main" symbol file, or might
be a secondary symbol file whose symbols are being added to the
existing symbol table.
-The argument to @code{XXX_symfile_init} is a newly allocated
+The argument to @code{@var{xxx}_symfile_init} is a newly allocated
@code{struct sym_fns} whose @code{bfd} field contains the BFD
for the new symbol file being read. Its @code{private} field
has been zeroed, and can be modified as desired. Typically,
a struct of private information will be @code{malloc}'d, and
a pointer to it will be placed in the @code{private} field.
-There is no result from @code{XXX_symfile_init}, but it can call
+There is no result from @code{@var{xxx}_symfile_init}, but it can call
@code{error} if it detects an unavoidable problem.
-@item XXX_new_init()
+@item @var{xxx}_new_init()
Called from @code{symbol_file_add} when discarding existing symbols.
This function need only handle
the symbol-reading module's internal state; the symbol table data
structures visible to the rest of GDB will be discarded by
@code{symbol_file_add}. It has no arguments and no result.
-It may be called after @code{XXX_symfile_init}, if a new symbol
+It may be called after @code{@var{xxx}_symfile_init}, if a new symbol
table is being read, or may be called alone if all symbols are
simply being discarded.
-@item XXX_symfile_read(struct sym_fns *sf, CORE_ADDR addr, int mainline)
+@item @var{xxx}_symfile_read(struct sym_fns *sf, CORE_ADDR addr, int mainline)
Called from @code{symbol_file_add} to actually read the symbols from a
symbol-file into a set of psymtabs or symtabs.
@code{sf} points to the struct sym_fns originally passed to
-@code{XXX_sym_init} for possible initialization. @code{addr} is the
+@code{@var{xxx}_sym_init} for possible initialization. @code{addr} is the
offset between the file's specified start address and its true address
in memory. @code{mainline} is 1 if this is the main symbol table being
read, and 0 if a secondary symbol file (e.g. shared library or
@@ -561,12 +618,12 @@ dynamically loaded file) is being read.@refill
@end table
In addition, if a symbol-reading module creates psymtabs when
-XXX_symfile_read is called, these psymtabs will contain a pointer to
-a function @code{XXX_psymtab_to_symtab}, which can be called from
+@var{xxx}_symfile_read is called, these psymtabs will contain a pointer to
+a function @code{@var{xxx}_psymtab_to_symtab}, which can be called from
any point in the GDB symbol-handling code.
@table @code
-@item XXX_psymtab_to_symtab (struct partial_symtab *pst)
+@item @var{xxx}_psymtab_to_symtab (struct partial_symtab *pst)
Called from @code{psymtab_to_symtab} (or the PSYMTAB_TO_SYMTAB
macro) if the psymtab has not already been read in and had its
@@ -577,100 +634,80 @@ pointer to the new corresponding symtab, or zero if there
were no symbols in that part of the symbol file.
@end table
-@node Languages, , Host versus Target, Top
-@chapter Adding a Source Language to GDB
-
-To add other languages to GDB's expression parser, follow the following steps:
-
-@table @emph
-@item Create the expression parser.
-
-This should reside in a file called <lang>-exp.y. Routines for building
-parsed expressions into a (struct exp_elt) list are in parser-code.c.
-
-Since we can't depend upon everyone having Bison, the following lines
-@emph{musg} be included at the top of the YACC parser:
-
-@example
-#define yyparse <lang>_parse
-#define yylex <lang>_lex
-#define yyerror <lang>_error
-#define yylval <lang>_lval
-#define yychar <lang>_char
-#define yydebug <lang>_debug
-#define yypact <lang>_pact
-#define yyr1 <lang>_r1
-#define yyr2 <lang>_r2
-#define yydef <lang>_def
-#define yychk <lang>_chk
-#define yypgo <lang>_pgo
-#define yyact <lang>_act
-#define yyexca <lang>_exca
-@end example
-This will prevent name conflicts between the various parsers.
-
-@item Add any evaluation routines, if necessary
+@node Cleanups, Wrapping, Symbol Reading, Top
+@chapter Cleanups
-If you need new opcodes (that represent the operations of the language),
-add them to the ennumerated type in expression.h.
-Add support code for these operations in eval.c:evaluate_subexp()
-Add cases for new opcodes in parser-code.c:prefixify_subexp() and
-parser-code.c:length_of_subexp(). These compute the number of
-exp_elements that a given operation takes up.
+Cleanups are a structured way to deal with things that need to be done
+later. When your code does something (like @code{malloc} some memory, or open
+a file) that needs to be undone later (e.g. free the memory or close
+the file), it can make a cleanup. The cleanup will be done at some
+future point: when the command is finished, when an error occurs, or
+when your code decides it's time to do cleanups.
-@item Update some existing code
+You can also discard cleanups, that is, throw them away without doing
+what they say. This is only done if you ask that it be done.
-Add an ennumerated identifier for your language to the ennumerated type
-enum language in symtab.h.
+Syntax:
-Update the routines in language.c so your language is included. These
-routines include type predicates and such, which (in some cases) are
-language dependent. If your language does not appear in the switch
-statement, an error is reported.
+@table @code
+@item @var{old_chain} = make_cleanup (@var{function}, @var{arg});
+Make a cleanup which will cause @var{function} to be called with @var{arg}
+(a @code{char *}) later. The result, @var{old_chain}, is a handle that can be
+passed to @code{do_cleanups} or @code{discard_cleanups} later. Unless you are
+going to call @code{do_cleanups} or @code{discard_cleanups} yourself,
+you can ignore the result from @code{make_cleanup}.
-Also included in language.c is the code that updates the variable
-working_lang, and the routines that translate the language_<lang>
-ennumerated identifier into a printable string.
-Update the function _intitialize_language to include your language. This
-function picks the default language upon startup, so is dependent upon
-which languages that GDB is built for.
+@item do_cleanups (@var{old_chain});
+Perform all cleanups done since @code{make_cleanup} returned @var{old_chain}.
+E.g.:
+@example
+make_cleanup (a, 0);
+old = make_cleanup (b, 0);
+do_cleanups (old);
+@end example
+@noindent
+will call @code{b()} but will not call @code{a()}. The cleanup that calls @code{a()} will remain
+in the cleanup chain, and will be done later unless otherwise discarded.@refill
-Update symfile.c and/or symbol-reading code so that the language of
-each symtab (source file) is set properly. This is used to determine the
-language to use at each stack frame level. Currently, the language
-is set based upon the extension of the source file. If the language
-can be better inferred from the symbol information, please set the
-language of the symtab in the symbol-reading code.
+@item discard_cleanups (@var{old_chain});
+Same as @code{do_cleanups} except that it just removes the cleanups from the
+chain and does not call the specified functions.
-Add helper code to expprint.c:print_subexp() to handle any new expression
-opcodes you have added to expression.h. Also, add the printed
-representations of your operators to op_print_tab.
+@end table
-@item Add a place of call
+Some functions, e.g. @code{fputs_filtered()} or @code{error()}, specify that they
+``should not be called when cleanups are not in place''. This means
+that any actions you need to reverse in the case of an error or
+interruption must be on the cleanup chain before you call these functions,
+since they might never return to your code (they @samp{longjmp} instead).
-Add a call to <lang>_parse() and <lang>_error in parse.c:parse_exp_1().
-@item Use macros to trim code
+@node Wrapping, , Cleanups, Top
+@chapter Wrapping Output Lines
-The user has the option of building GDB for some or all of the languages.
-If the user decides to build GDB for the language <lang>, then every file
-dependent on language.h will have the macro _LANG_<lang> defined in it.
-Use #ifdefs to leave out large routines that the user won't need if
-he/she is not using your language.
+Output that goes through @code{printf_filtered} or @code{fputs_filtered} or
+@code{fputs_demangled} needs only to have calls to @code{wrap_here} added
+in places that would be good breaking points. The utility routines
+will take care of actually wrapping if the line width is exceeded.
-Note that you do not need to do this in your YACC parser, since if GDB is
-not build for <lang>, then <lang>-exp.tab.o (the compiled form of your
-parser) is not linked into GDB at all.
+The argument to @code{wrap_here} is an indentation string which is printed
+@emph{only} if the line breaks there. This argument is saved away and used
+later. It must remain valid until the next call to @code{wrap_here} or
+until a newline has been printed through the @code{*_filtered} functions.
+Don't pass in a local variable and then return!
-See the file configure.in for how GDB is configured for different languages.
+It is usually best to call @code{wrap_here()} after printing a comma or space.
+If you call it before printing a space, make sure that your indentation
+properly accounts for the leading space that will print if the line wraps
+there.
-@item Edit Makefile.in
+Any function or set of functions that produce filtered output must finish
+by printing a newline, to flush the wrap buffer, before switching to
+unfiltered (``@code{printf}'') output. Symbol reading routines that print
+warnings are a good example.
-Add dependencies in Makefile.in. Make sure you update the macro
-variables such as HFILES and OBJS, otherwise your code may not get linked
-in, or, worse yet, it may not get tarred into the distribution!
@contents
@bye