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authorAndrew Cagney <cagney@redhat.com>2002-05-04 16:00:30 +0000
committerAndrew Cagney <cagney@redhat.com>2002-05-04 16:00:30 +0000
commit2653173e854d07600717db85d57be4a0c3a9dbe8 (patch)
tree3ad549831763db7cd0911b9ef9060bc601971f24
parentcd9bfe1540597cc048bc965db716ac68fb2eaa16 (diff)
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* gdb.texinfo: Delete obsolete references to a29k.
-rw-r--r--gdb/doc/ChangeLog4
-rw-r--r--gdb/doc/gdb.texinfo252
2 files changed, 4 insertions, 252 deletions
diff --git a/gdb/doc/ChangeLog b/gdb/doc/ChangeLog
index bdfdd7e..776b1a3 100644
--- a/gdb/doc/ChangeLog
+++ b/gdb/doc/ChangeLog
@@ -1,3 +1,7 @@
+2002-05-04 Andrew Cagney <ac131313@redhat.com>
+
+ * gdb.texinfo: Delete obsolete references to a29k.
+
2002-04-24 Andrew Cagney <ac131313@redhat.com>
* gdbint.texinfo (Target Architecture Definition): Replace
diff --git a/gdb/doc/gdb.texinfo b/gdb/doc/gdb.texinfo
index 53dc07c..f37e288 100644
--- a/gdb/doc/gdb.texinfo
+++ b/gdb/doc/gdb.texinfo
@@ -9159,12 +9159,6 @@ execute a function from your program, but without cluttering the output
with @code{void} returned values. If the result is not void, it
is printed and saved in the value history.
-@c OBSOLETE For the A29K, a user-controlled variable @code{call_scratch_address},
-@c OBSOLETE specifies the location of a scratch area to be used when @value{GDBN}
-@c OBSOLETE calls a function in the target. This is necessary because the usual
-@c OBSOLETE method of putting the scratch area on the stack does not work in systems
-@c OBSOLETE that have separate instruction and data spaces.
-
@node Patching
@section Patching programs
@@ -11034,7 +11028,6 @@ This section goes into details specific to particular embedded
configurations.
-@c OBSOLETE * A29K Embedded:: AMD A29K Embedded
@menu
* ARM:: ARM
* H8/300:: Hitachi H8/300
@@ -11053,251 +11046,6 @@ configurations.
* Z8000:: Zilog Z8000
@end menu
-@c OBSOLETE @node A29K Embedded
-@c OBSOLETE @subsection AMD A29K Embedded
-@c OBSOLETE
-@c OBSOLETE @menu
-@c OBSOLETE * A29K UDI::
-@c OBSOLETE * A29K EB29K::
-@c OBSOLETE * Comms (EB29K):: Communications setup
-@c OBSOLETE * gdb-EB29K:: EB29K cross-debugging
-@c OBSOLETE * Remote Log:: Remote log
-@c OBSOLETE @end menu
-@c OBSOLETE
-@c OBSOLETE @table @code
-@c OBSOLETE
-@c OBSOLETE @kindex target adapt
-@c OBSOLETE @item target adapt @var{dev}
-@c OBSOLETE Adapt monitor for A29K.
-@c OBSOLETE
-@c OBSOLETE @kindex target amd-eb
-@c OBSOLETE @item target amd-eb @var{dev} @var{speed} @var{PROG}
-@c OBSOLETE @cindex AMD EB29K
-@c OBSOLETE Remote PC-resident AMD EB29K board, attached over serial lines.
-@c OBSOLETE @var{dev} is the serial device, as for @code{target remote};
-@c OBSOLETE @var{speed} allows you to specify the linespeed; and @var{PROG} is the
-@c OBSOLETE name of the program to be debugged, as it appears to DOS on the PC.
-@c OBSOLETE @xref{A29K EB29K, ,EBMON protocol for AMD29K}.
-@c OBSOLETE
-@c OBSOLETE @end table
-@c OBSOLETE
-@c OBSOLETE @node A29K UDI
-@c OBSOLETE @subsubsection A29K UDI
-@c OBSOLETE
-@c OBSOLETE @cindex UDI
-@c OBSOLETE @cindex AMD29K via UDI
-@c OBSOLETE
-@c OBSOLETE @value{GDBN} supports AMD's UDI (``Universal Debugger Interface'')
-@c OBSOLETE protocol for debugging the a29k processor family. To use this
-@c OBSOLETE configuration with AMD targets running the MiniMON monitor, you need the
-@c OBSOLETE program @code{MONTIP}, available from AMD at no charge. You can also
-@c OBSOLETE use @value{GDBN} with the UDI-conformant a29k simulator program
-@c OBSOLETE @code{ISSTIP}, also available from AMD.
-@c OBSOLETE
-@c OBSOLETE @table @code
-@c OBSOLETE @item target udi @var{keyword}
-@c OBSOLETE @kindex udi
-@c OBSOLETE Select the UDI interface to a remote a29k board or simulator, where
-@c OBSOLETE @var{keyword} is an entry in the AMD configuration file @file{udi_soc}.
-@c OBSOLETE This file contains keyword entries which specify parameters used to
-@c OBSOLETE connect to a29k targets. If the @file{udi_soc} file is not in your
-@c OBSOLETE working directory, you must set the environment variable @samp{UDICONF}
-@c OBSOLETE to its pathname.
-@c OBSOLETE @end table
-@c OBSOLETE
-@c OBSOLETE @node A29K EB29K
-@c OBSOLETE @subsubsection EBMON protocol for AMD29K
-@c OBSOLETE
-@c OBSOLETE @cindex EB29K board
-@c OBSOLETE @cindex running 29K programs
-@c OBSOLETE
-@c OBSOLETE AMD distributes a 29K development board meant to fit in a PC, together
-@c OBSOLETE with a DOS-hosted monitor program called @code{EBMON}. As a shorthand
-@c OBSOLETE term, this development system is called the ``EB29K''. To use
-@c OBSOLETE @value{GDBN} from a Unix system to run programs on the EB29K board, you
-@c OBSOLETE must first connect a serial cable between the PC (which hosts the EB29K
-@c OBSOLETE board) and a serial port on the Unix system. In the following, we
-@c OBSOLETE assume you've hooked the cable between the PC's @file{COM1} port and
-@c OBSOLETE @file{/dev/ttya} on the Unix system.
-@c OBSOLETE
-@c OBSOLETE @node Comms (EB29K)
-@c OBSOLETE @subsubsection Communications setup
-@c OBSOLETE
-@c OBSOLETE The next step is to set up the PC's port, by doing something like this
-@c OBSOLETE in DOS on the PC:
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE C:\> MODE com1:9600,n,8,1,none
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE @noindent
-@c OBSOLETE This example---run on an MS DOS 4.0 system---sets the PC port to 9600
-@c OBSOLETE bps, no parity, eight data bits, one stop bit, and no ``retry'' action;
-@c OBSOLETE you must match the communications parameters when establishing the Unix
-@c OBSOLETE end of the connection as well.
-@c OBSOLETE @c FIXME: Who knows what this "no retry action" crud from the DOS manual may
-@c OBSOLETE @c mean? It's optional; leave it out? ---doc@cygnus.com, 25feb91
-@c OBSOLETE @c
-@c OBSOLETE @c It's optional, but it's unwise to omit it: who knows what is the
-@c OBSOLETE @c default value set when the DOS machines boots? "No retry" means that
-@c OBSOLETE @c the DOS serial device driver won't retry the operation if it fails;
-@c OBSOLETE @c I understand that this is needed because the GDB serial protocol
-@c OBSOLETE @c handles any errors and retransmissions itself. ---Eli Zaretskii, 3sep99
-@c OBSOLETE
-@c OBSOLETE To give control of the PC to the Unix side of the serial line, type
-@c OBSOLETE the following at the DOS console:
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE C:\> CTTY com1
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE @noindent
-@c OBSOLETE (Later, if you wish to return control to the DOS console, you can use
-@c OBSOLETE the command @code{CTTY con}---but you must send it over the device that
-@c OBSOLETE had control, in our example over the @file{COM1} serial line.)
-@c OBSOLETE
-@c OBSOLETE From the Unix host, use a communications program such as @code{tip} or
-@c OBSOLETE @code{cu} to communicate with the PC; for example,
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE cu -s 9600 -l /dev/ttya
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE @noindent
-@c OBSOLETE The @code{cu} options shown specify, respectively, the linespeed and the
-@c OBSOLETE serial port to use. If you use @code{tip} instead, your command line
-@c OBSOLETE may look something like the following:
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE tip -9600 /dev/ttya
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE @noindent
-@c OBSOLETE Your system may require a different name where we show
-@c OBSOLETE @file{/dev/ttya} as the argument to @code{tip}. The communications
-@c OBSOLETE parameters, including which port to use, are associated with the
-@c OBSOLETE @code{tip} argument in the ``remote'' descriptions file---normally the
-@c OBSOLETE system table @file{/etc/remote}.
-@c OBSOLETE @c FIXME: What if anything needs doing to match the "n,8,1,none" part of
-@c OBSOLETE @c the DOS side's comms setup? cu can support -o (odd
-@c OBSOLETE @c parity), -e (even parity)---apparently no settings for no parity or
-@c OBSOLETE @c for character size. Taken from stty maybe...? John points out tip
-@c OBSOLETE @c can set these as internal variables, eg ~s parity=none; man stty
-@c OBSOLETE @c suggests that it *might* work to stty these options with stdin or
-@c OBSOLETE @c stdout redirected... ---doc@cygnus.com, 25feb91
-@c OBSOLETE @c
-@c OBSOLETE @c There's nothing to be done for the "none" part of the DOS MODE
-@c OBSOLETE @c command. The rest of the parameters should be matched by the
-@c OBSOLETE @c baudrate, bits, and parity used by the Unix side. ---Eli Zaretskii, 3Sep99
-@c OBSOLETE
-@c OBSOLETE @kindex EBMON
-@c OBSOLETE Using the @code{tip} or @code{cu} connection, change the DOS working
-@c OBSOLETE directory to the directory containing a copy of your 29K program, then
-@c OBSOLETE start the PC program @code{EBMON} (an EB29K control program supplied
-@c OBSOLETE with your board by AMD). You should see an initial display from
-@c OBSOLETE @code{EBMON} similar to the one that follows, ending with the
-@c OBSOLETE @code{EBMON} prompt @samp{#}---
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE C:\> G:
-@c OBSOLETE
-@c OBSOLETE G:\> CD \usr\joe\work29k
-@c OBSOLETE
-@c OBSOLETE G:\USR\JOE\WORK29K> EBMON
-@c OBSOLETE Am29000 PC Coprocessor Board Monitor, version 3.0-18
-@c OBSOLETE Copyright 1990 Advanced Micro Devices, Inc.
-@c OBSOLETE Written by Gibbons and Associates, Inc.
-@c OBSOLETE
-@c OBSOLETE Enter '?' or 'H' for help
-@c OBSOLETE
-@c OBSOLETE PC Coprocessor Type = EB29K
-@c OBSOLETE I/O Base = 0x208
-@c OBSOLETE Memory Base = 0xd0000
-@c OBSOLETE
-@c OBSOLETE Data Memory Size = 2048KB
-@c OBSOLETE Available I-RAM Range = 0x8000 to 0x1fffff
-@c OBSOLETE Available D-RAM Range = 0x80002000 to 0x801fffff
-@c OBSOLETE
-@c OBSOLETE PageSize = 0x400
-@c OBSOLETE Register Stack Size = 0x800
-@c OBSOLETE Memory Stack Size = 0x1800
-@c OBSOLETE
-@c OBSOLETE CPU PRL = 0x3
-@c OBSOLETE Am29027 Available = No
-@c OBSOLETE Byte Write Available = Yes
-@c OBSOLETE
-@c OBSOLETE # ~.
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE Then exit the @code{cu} or @code{tip} program (done in the example by
-@c OBSOLETE typing @code{~.} at the @code{EBMON} prompt). @code{EBMON} keeps
-@c OBSOLETE running, ready for @value{GDBN} to take over.
-@c OBSOLETE
-@c OBSOLETE For this example, we've assumed what is probably the most convenient
-@c OBSOLETE way to make sure the same 29K program is on both the PC and the Unix
-@c OBSOLETE system: a PC/NFS connection that establishes ``drive @file{G:}'' on the
-@c OBSOLETE PC as a file system on the Unix host. If you do not have PC/NFS or
-@c OBSOLETE something similar connecting the two systems, you must arrange some
-@c OBSOLETE other way---perhaps floppy-disk transfer---of getting the 29K program
-@c OBSOLETE from the Unix system to the PC; @value{GDBN} does @emph{not} download it over the
-@c OBSOLETE serial line.
-@c OBSOLETE
-@c OBSOLETE @node gdb-EB29K
-@c OBSOLETE @subsubsection EB29K cross-debugging
-@c OBSOLETE
-@c OBSOLETE Finally, @code{cd} to the directory containing an image of your 29K
-@c OBSOLETE program on the Unix system, and start @value{GDBN}---specifying as argument the
-@c OBSOLETE name of your 29K program:
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE cd /usr/joe/work29k
-@c OBSOLETE @value{GDBP} myfoo
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE @need 500
-@c OBSOLETE Now you can use the @code{target} command:
-@c OBSOLETE
-@c OBSOLETE @smallexample
-@c OBSOLETE target amd-eb /dev/ttya 9600 MYFOO
-@c OBSOLETE @c FIXME: test above 'target amd-eb' as spelled, with caps! caps are meant to
-@c OBSOLETE @c emphasize that this is the name as seen by DOS (since I think DOS is
-@c OBSOLETE @c single-minded about case of letters). ---doc@cygnus.com, 25feb91
-@c OBSOLETE @end smallexample
-@c OBSOLETE
-@c OBSOLETE @noindent
-@c OBSOLETE In this example, we've assumed your program is in a file called
-@c OBSOLETE @file{myfoo}. Note that the filename given as the last argument to
-@c OBSOLETE @code{target amd-eb} should be the name of the program as it appears to DOS.
-@c OBSOLETE In our example this is simply @code{MYFOO}, but in general it can include
-@c OBSOLETE a DOS path, and depending on your transfer mechanism may not resemble
-@c OBSOLETE the name on the Unix side.
-@c OBSOLETE
-@c OBSOLETE At this point, you can set any breakpoints you wish; when you are ready
-@c OBSOLETE to see your program run on the 29K board, use the @value{GDBN} command
-@c OBSOLETE @code{run}.
-@c OBSOLETE
-@c OBSOLETE To stop debugging the remote program, use the @value{GDBN} @code{detach}
-@c OBSOLETE command.
-@c OBSOLETE
-@c OBSOLETE To return control of the PC to its console, use @code{tip} or @code{cu}
-@c OBSOLETE once again, after your @value{GDBN} session has concluded, to attach to
-@c OBSOLETE @code{EBMON}. You can then type the command @code{q} to shut down
-@c OBSOLETE @code{EBMON}, returning control to the DOS command-line interpreter.
-@c OBSOLETE Type @kbd{CTTY con} to return command input to the main DOS console,
-@c OBSOLETE and type @kbd{~.} to leave @code{tip} or @code{cu}.
-@c OBSOLETE
-@c OBSOLETE @node Remote Log
-@c OBSOLETE @subsubsection Remote log
-@c OBSOLETE @cindex @file{eb.log}, a log file for EB29K
-@c OBSOLETE @cindex log file for EB29K
-@c OBSOLETE
-@c OBSOLETE The @code{target amd-eb} command creates a file @file{eb.log} in the
-@c OBSOLETE current working directory, to help debug problems with the connection.
-@c OBSOLETE @file{eb.log} records all the output from @code{EBMON}, including echoes
-@c OBSOLETE of the commands sent to it. Running @samp{tail -f} on this file in
-@c OBSOLETE another window often helps to understand trouble with @code{EBMON}, or
-@c OBSOLETE unexpected events on the PC side of the connection.
-
@node ARM
@subsection ARM