\input texinfo @c -*-texinfo-*-
@c Copyright 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998,
-@c 1999, 2000, 2001
+@c 1999, 2000, 2001, 2002
@c Free Software Foundation, Inc.
@c
@c %**start of header
of @cite{Debugging with @value{GDBN}: the @sc{gnu} Source-Level Debugger}
for @value{GDBN} Version @value{GDBVN}.
-Copyright (C) 1988,1989,1990,1991,1992,1993,1994,1995,1996,1998,1999,2000,2001
- Free Software Foundation, Inc.
+Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998,@*
+ 1999, 2000, 2001, 2002 Free Software Foundation, Inc.
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.1 or
Free Documentation'', with the Front-Cover Texts being ``A GNU Manual,''
and with the Back-Cover Texts as in (a) below.
-(a) The FSF's Back-Cover Text is: ``You have freedom to copy and modify
-this GNU Manual, like GNU software. Copies published by the Free
-Software Foundation raise funds for GNU development.''
+(a) The Free Software Foundation's Back-Cover Text is: ``You have
+freedom to copy and modify this GNU Manual, like GNU software. Copies
+published by the Free Software Foundation raise funds for GNU
+development.''
@end ifinfo
@titlepage
@end tex
@vskip 0pt plus 1filll
-Copyright @copyright{} 1988,1989,1990,1991,1992,1993,1994,1995,1996,1998,1999,2000,2001
- Free Software Foundation, Inc.
+Copyright @copyright{} 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995,
+1996, 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc.
@sp 2
Published by the Free Software Foundation @*
59 Temple Place - Suite 330, @*
Free Documentation'', with the Front-Cover Texts being ``A GNU Manual,''
and with the Back-Cover Texts as in (a) below.
-(a) The FSF's Back-Cover Text is: ``You have freedom to copy and modify
-this GNU Manual, like GNU software. Copies published by the Free
-Software Foundation raise funds for GNU development.''
+(a) The Free Software Foundation's Back-Cover Text is: ``You have
+freedom to copy and modify this GNU Manual, like GNU software. Copies
+published by the Free Software Foundation raise funds for GNU
+development.''
@end titlepage
@page
This is the @value{EDITION} Edition, @value{DATE}, for @value{GDBN} Version
@value{GDBVN}.
-Copyright (C) 1988-2001 Free Software Foundation, Inc.
+Copyright (C) 1988-2002 Free Software Foundation, Inc.
@menu
* Summary:: Summary of @value{GDBN}
* Altering:: Altering execution
* GDB Files:: @value{GDBN} files
* Targets:: Specifying a debugging target
+* Remote Debugging:: Debugging remote programs
* Configurations:: Configuration-specific information
* Controlling GDB:: Controlling @value{GDBN}
* Sequences:: Canned sequences of commands
* Command Line Editing:: Command Line Editing
* Using History Interactively:: Using History Interactively
* Installing GDB:: Installing GDB
+* Maintenance Commands:: Maintenance Commands
+* Remove Protocol:: GDB Remote Serial Protocol
+* GNU Free Documentation License:: The license for this documentation
* Index:: Index
@end menu
* Altering:: Altering execution
* GDB Files:: @value{GDBN} files
* Targets:: Specifying a debugging target
+* Remote Debugging:: Debugging remote programs
* Configurations:: Configuration-specific information
* Controlling GDB:: Controlling @value{GDBN}
* Sequences:: Canned sequences of commands
* Command Line Editing:: Command Line Editing
* Using History Interactively:: Using History Interactively
* Installing GDB:: Installing GDB
+* Maintenance Commands:: Maintenance Commands
+* Remove Protocol:: GDB Remote Serial Protocol
+* GNU Free Documentation License:: The license for this documentation
* Index:: Index
@end menu
option; it is up to you to raise the issue and say firmly that this is
what you want. If the publisher you are dealing with refuses, please
try other publishers. If you're not sure whether a proposed license
-is free, write to @email{icensing@@gnu.org}.
+is free, write to @email{licensing@@gnu.org}.
You can encourage commercial publishers to sell more free, copylefted
manuals and tutorials by buying them, and particularly by buying
improvements. Meanwhile, try to avoid buying non-free documentation
at all. Check the distribution terms of a manual before you buy it,
and insist that whoever seeks your business must respect your freedom.
-Check the history of the book, and try reward the publishers that have
-paid or pay the authors to work on it.
+Check the history of the book, and try to reward the publishers that
+have paid or pay the authors to work on it.
The Free Software Foundation maintains a list of free documentation
published by other publishers, at
When @value{GDBN} starts, it reads any arguments other than options as
specifying an executable file and core file (or process ID). This is
the same as if the arguments were specified by the @samp{-se} and
-@samp{-c} options respectively. (@value{GDBN} reads the first argument
-that does not have an associated option flag as equivalent to the
-@samp{-se} option followed by that argument; and the second argument
-that does not have an associated option flag, if any, as equivalent to
-the @samp{-c} option followed by that argument.)
+@samp{-c} (or @samp{-p} options respectively. (@value{GDBN} reads the
+first argument that does not have an associated option flag as
+equivalent to the @samp{-se} option followed by that argument; and the
+second argument that does not have an associated option flag, if any, as
+equivalent to the @samp{-c}/@samp{-p} option followed by that argument.)
+If the second argument begins with a decimal digit, @value{GDBN} will
+first attempt to attach to it as a process, and if that fails, attempt
+to open it as a corefile. If you have a corefile whose name begins with
+a digit, you can prevent @value{GDBN} from treating it as a pid by
+prefixing it with @file{./}, eg. @file{./12345}.
If @value{GDBN} has not been configured to included core file support,
such as for most embedded targets, then it will complain about a second
@itemx -c @var{file}
@cindex @code{--core}
@cindex @code{-c}
-Use file @var{file} as a core dump to examine.
+Use file @var{file} as a core dump to examine.
@item -c @var{number}
-Connect to process ID @var{number}, as with the @code{attach} command
-(unless there is a file in core-dump format named @var{number}, in which
-case @samp{-c} specifies that file as a core dump to read).
+@item -pid @var{number}
+@itemx -p @var{number}
+@cindex @code{--pid}
+@cindex @code{-p}
+Connect to process ID @var{number}, as with the @code{attach} command.
+If there is no such process, @value{GDBN} will attempt to open a core
+file named @var{number}.
@item -command @var{file}
@itemx -x @var{file}
@cindex negative breakpoint numbers
@cindex internal @value{GDBN} breakpoints
-@value{GDBN} itself sometimes sets breakpoints in your program for special
-purposes, such as proper handling of @code{longjmp} (in C programs).
-These internal breakpoints are assigned negative numbers, starting with
-@code{-1}; @samp{info breakpoints} does not display them.
-
+@value{GDBN} itself sometimes sets breakpoints in your program for
+special purposes, such as proper handling of @code{longjmp} (in C
+programs). These internal breakpoints are assigned negative numbers,
+starting with @code{-1}; @samp{info breakpoints} does not display them.
You can see these breakpoints with the @value{GDBN} maintenance command
-@samp{maint info breakpoints}.
-
-@table @code
-@kindex maint info breakpoints
-@item maint info breakpoints
-Using the same format as @samp{info breakpoints}, display both the
-breakpoints you've set explicitly, and those @value{GDBN} is using for
-internal purposes. Internal breakpoints are shown with negative
-breakpoint numbers. The type column identifies what kind of breakpoint
-is shown:
-
-@table @code
-@item breakpoint
-Normal, explicitly set breakpoint.
-
-@item watchpoint
-Normal, explicitly set watchpoint.
-
-@item longjmp
-Internal breakpoint, used to handle correctly stepping through
-@code{longjmp} calls.
-
-@item longjmp resume
-Internal breakpoint at the target of a @code{longjmp}.
-
-@item until
-Temporary internal breakpoint used by the @value{GDBN} @code{until} command.
-
-@item finish
-Temporary internal breakpoint used by the @value{GDBN} @code{finish} command.
-
-@item shlib events
-Shared library events.
-
-@end table
-
-@end table
+@samp{maint info breakpoints} (@pxref{maint info breakpoints}).
@node Set Watchpoints
unobtrusively, hopefully not disturbing the program's behavior.
The tracepoint facility is currently available only for remote
-targets. @xref{Targets}.
+targets. @xref{Targets}. In addition, your remote target must know how
+to collect trace data. This functionality is implemented in the remote
+stub; however, none of the stubs distributed with @value{GDBN} support
+tracepoints as of this writing.
This chapter describes the tracepoint commands and features.
Examples:
@smallexample
-(@value{GDBP}) @b{passcount 5 2} // Stop on the 5th execution of tracepoint 2
+(@value{GDBP}) @b{passcount 5 2} // Stop on the 5th execution of
+@exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// tracepoint 2}
(@value{GDBP}) @b{passcount 12} // Stop on the 12th execution of the
- // most recently defined tracepoint.
+@exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// most recently defined tracepoint.}
(@value{GDBP}) @b{trace foo}
(@value{GDBP}) @b{pass 3}
(@value{GDBP}) @b{trace bar}
(@value{GDBP}) @b{pass 2}
(@value{GDBP}) @b{trace baz}
(@value{GDBP}) @b{pass 1} // Stop tracing when foo has been
- // executed 3 times OR when bar has
- // been executed 2 times
- // OR when baz has been executed 1 time.
+@exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// executed 3 times OR when bar has}
+@exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// been executed 2 times}
+@exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// OR when baz has been executed 1 time.}
@end smallexample
@end table
@smallexample
(@value{GDBP}) @b{collect @var{data}} // collect some data
-(@value{GDBP}) @b{while-stepping 5} // single-step 5 times and collect data
+(@value{GDBP}) @b{while-stepping 5} // single-step 5 times, collect data
-(@value{GDBP}) @b{end} // signals the end of actions.
+(@value{GDBP}) @b{end} // signals the end of actions.
@end smallexample
In the following example, the action list begins with @code{collect}
@kindex info tracepoints
@cindex information about tracepoints
@item info tracepoints @r{[}@var{num}@r{]}
-Display information the tracepoint @var{num}. If you don't specify a
-tracepoint number displays information about all the tracepoints
+Display information about the tracepoint @var{num}. If you don't specify
+a tracepoint number, displays information about all the tracepoints
defined so far. For each tracepoint, the following information is
shown:
(@value{GDBP}) @b{info trace}
Num Enb Address PassC StepC What
1 y 0x002117c4 0 0 <gdb_asm>
-2 y 0x0020dc64 0 0 in gdb_test at gdb_test.c:375
-3 y 0x0020b1f4 0 0 in collect_data at ../foo.c:1741
+2 y 0x0020dc64 0 0 in g_test at g_test.c:1375
+3 y 0x0020b1f4 0 0 in get_data at ../foo.c:41
(@value{GDBP})
@end smallexample
with @code{void} returned values. If the result is not void, it
is printed and saved in the value history.
-For the A29K, a user-controlled variable @code{call_scratch_address},
-specifies the location of a scratch area to be used when @value{GDBN}
-calls a function in the target. This is necessary because the usual
-method of putting the scratch area on the stack does not work in systems
-that have separate instruction and data spaces.
+@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
Other remote targets may be available in your
configuration of @value{GDBN}; use @code{help target} to list them.
+@node KOD
+@section Kernel Object Display
+
+@cindex kernel object display
+@cindex kernel object
+@cindex KOD
+
+Some targets support kernel object display. Using this facility,
+@value{GDBN} communicates specially with the underlying operating system
+and can display information about operating system-level objects such as
+mutexes and other synchronization objects. Exactly which objects can be
+displayed is determined on a per-OS basis.
+
+Use the @code{set os} command to set the operating system. This tells
+@value{GDBN} which kernel object display module to initialize:
+
+@example
+(@value{GDBP}) set os cisco
+@end example
+
+If @code{set os} succeeds, @value{GDBN} will display some information
+about the operating system, and will create a new @code{info} command
+which can be used to query the target. The @code{info} command is named
+after the operating system:
+
+@example
+(@value{GDBP}) info cisco
+List of Cisco Kernel Objects
+Object Description
+any Any and all objects
+@end example
+
+Further subcommands can be used to query about particular objects known
+by the kernel.
+
+There is currently no way to determine whether a given operating system
+is supported other than to try it.
+
+
+@node Remote Debugging
+@chapter Debugging remote programs
+
@menu
-* Remote Serial:: @value{GDBN} remote serial protocol
+* Server:: Using the gdbserver program
+* NetWare:: Using the gdbserve.nlm program
+* remote stub:: Implementing a remote stub
@end menu
-@node Remote Serial
-@subsection The @value{GDBN} remote serial protocol
+@node Server
+@section Using the @code{gdbserver} program
+
+@kindex gdbserver
+@cindex remote connection without stubs
+@code{gdbserver} is a control program for Unix-like systems, which
+allows you to connect your program with a remote @value{GDBN} via
+@code{target remote}---but without linking in the usual debugging stub.
+
+@code{gdbserver} is not a complete replacement for the debugging stubs,
+because it requires essentially the same operating-system facilities
+that @value{GDBN} itself does. In fact, a system that can run
+@code{gdbserver} to connect to a remote @value{GDBN} could also run
+@value{GDBN} locally! @code{gdbserver} is sometimes useful nevertheless,
+because it is a much smaller program than @value{GDBN} itself. It is
+also easier to port than all of @value{GDBN}, so you may be able to get
+started more quickly on a new system by using @code{gdbserver}.
+Finally, if you develop code for real-time systems, you may find that
+the tradeoffs involved in real-time operation make it more convenient to
+do as much development work as possible on another system, for example
+by cross-compiling. You can use @code{gdbserver} to make a similar
+choice for debugging.
+
+@value{GDBN} and @code{gdbserver} communicate via either a serial line
+or a TCP connection, using the standard @value{GDBN} remote serial
+protocol.
+
+@table @emph
+@item On the target machine,
+you need to have a copy of the program you want to debug.
+@code{gdbserver} does not need your program's symbol table, so you can
+strip the program if necessary to save space. @value{GDBN} on the host
+system does all the symbol handling.
+
+To use the server, you must tell it how to communicate with @value{GDBN};
+the name of your program; and the arguments for your program. The
+syntax is:
+
+@smallexample
+target> gdbserver @var{comm} @var{program} [ @var{args} @dots{} ]
+@end smallexample
+
+@var{comm} is either a device name (to use a serial line) or a TCP
+hostname and portnumber. For example, to debug Emacs with the argument
+@samp{foo.txt} and communicate with @value{GDBN} over the serial port
+@file{/dev/com1}:
+
+@smallexample
+target> gdbserver /dev/com1 emacs foo.txt
+@end smallexample
+
+@code{gdbserver} waits passively for the host @value{GDBN} to communicate
+with it.
+
+To use a TCP connection instead of a serial line:
+
+@smallexample
+target> gdbserver host:2345 emacs foo.txt
+@end smallexample
+
+The only difference from the previous example is the first argument,
+specifying that you are communicating with the host @value{GDBN} via
+TCP. The @samp{host:2345} argument means that @code{gdbserver} is to
+expect a TCP connection from machine @samp{host} to local TCP port 2345.
+(Currently, the @samp{host} part is ignored.) You can choose any number
+you want for the port number as long as it does not conflict with any
+TCP ports already in use on the target system (for example, @code{23} is
+reserved for @code{telnet}).@footnote{If you choose a port number that
+conflicts with another service, @code{gdbserver} prints an error message
+and exits.} You must use the same port number with the host @value{GDBN}
+@code{target remote} command.
+
+@item On the @value{GDBN} host machine,
+you need an unstripped copy of your program, since @value{GDBN} needs
+symbols and debugging information. Start up @value{GDBN} as usual,
+using the name of the local copy of your program as the first argument.
+(You may also need the @w{@samp{--baud}} option if the serial line is
+running at anything other than 9600@dmn{bps}.) After that, use @code{target
+remote} to establish communications with @code{gdbserver}. Its argument
+is either a device name (usually a serial device, like
+@file{/dev/ttyb}), or a TCP port descriptor in the form
+@code{@var{host}:@var{PORT}}. For example:
+
+@smallexample
+(@value{GDBP}) target remote /dev/ttyb
+@end smallexample
+
+@noindent
+communicates with the server via serial line @file{/dev/ttyb}, and
+
+@smallexample
+(@value{GDBP}) target remote the-target:2345
+@end smallexample
+
+@noindent
+communicates via a TCP connection to port 2345 on host @w{@file{the-target}}.
+For TCP connections, you must start up @code{gdbserver} prior to using
+the @code{target remote} command. Otherwise you may get an error whose
+text depends on the host system, but which usually looks something like
+@samp{Connection refused}.
+@end table
+
+@node NetWare
+@section Using the @code{gdbserve.nlm} program
+
+@kindex gdbserve.nlm
+@code{gdbserve.nlm} is a control program for NetWare systems, which
+allows you to connect your program with a remote @value{GDBN} via
+@code{target remote}.
+
+@value{GDBN} and @code{gdbserve.nlm} communicate via a serial line,
+using the standard @value{GDBN} remote serial protocol.
+
+@table @emph
+@item On the target machine,
+you need to have a copy of the program you want to debug.
+@code{gdbserve.nlm} does not need your program's symbol table, so you
+can strip the program if necessary to save space. @value{GDBN} on the
+host system does all the symbol handling.
+
+To use the server, you must tell it how to communicate with
+@value{GDBN}; the name of your program; and the arguments for your
+program. The syntax is:
+
+@smallexample
+load gdbserve [ BOARD=@var{board} ] [ PORT=@var{port} ]
+ [ BAUD=@var{baud} ] @var{program} [ @var{args} @dots{} ]
+@end smallexample
+
+@var{board} and @var{port} specify the serial line; @var{baud} specifies
+the baud rate used by the connection. @var{port} and @var{node} default
+to 0, @var{baud} defaults to 9600@dmn{bps}.
+
+For example, to debug Emacs with the argument @samp{foo.txt}and
+communicate with @value{GDBN} over serial port number 2 or board 1
+using a 19200@dmn{bps} connection:
+
+@smallexample
+load gdbserve BOARD=1 PORT=2 BAUD=19200 emacs foo.txt
+@end smallexample
+
+@item On the @value{GDBN} host machine,
+you need an unstripped copy of your program, since @value{GDBN} needs
+symbols and debugging information. Start up @value{GDBN} as usual,
+using the name of the local copy of your program as the first argument.
+(You may also need the @w{@samp{--baud}} option if the serial line is
+running at anything other than 9600@dmn{bps}. After that, use @code{target
+remote} to establish communications with @code{gdbserve.nlm}. Its
+argument is a device name (usually a serial device, like
+@file{/dev/ttyb}). For example:
+
+@smallexample
+(@value{GDBP}) target remote /dev/ttyb
+@end smallexample
+
+@noindent
+communications with the server via serial line @file{/dev/ttyb}.
+@end table
+
+@node remote stub
+@section Implementing a remote stub
+
+@cindex debugging stub, example
+@cindex remote stub, example
+@cindex stub example, remote debugging
+The stub files provided with @value{GDBN} implement the target side of the
+communication protocol, and the @value{GDBN} side is implemented in the
+@value{GDBN} source file @file{remote.c}. Normally, you can simply allow
+these subroutines to communicate, and ignore the details. (If you're
+implementing your own stub file, you can still ignore the details: start
+with one of the existing stub files. @file{sparc-stub.c} is the best
+organized, and therefore the easiest to read.)
@cindex remote serial debugging, overview
To debug a program running on another machine (the debugging
* Stub Contents:: What the stub can do for you
* Bootstrapping:: What you must do for the stub
* Debug Session:: Putting it all together
-* Protocol:: Definition of the communication protocol
-* Server:: Using the `gdbserver' program
-* NetWare:: Using the `gdbserve.nlm' program
@end menu
@node Stub Contents
-@subsubsection What the stub can do for you
+@subsection What the stub can do for you
@cindex remote serial stub
The debugging stub for your architecture supplies these three
@end table
@node Bootstrapping
-@subsubsection What you must do for the stub
+@subsection What you must do for the stub
@cindex remote stub, support routines
The debugging stubs that come with @value{GDBN} are set up for a particular
@node Debug Session
-@subsubsection Putting it all together
+@subsection Putting it all together
@cindex remote serial debugging summary
In summary, when your program is ready to debug, you must follow these
remote} again to connect once more.) If you type @kbd{n}, @value{GDBN}
goes back to waiting.
-@node Protocol
-@subsubsection Communication protocol
-@cindex debugging stub, example
-@cindex remote stub, example
-@cindex stub example, remote debugging
-The stub files provided with @value{GDBN} implement the target side of the
-communication protocol, and the @value{GDBN} side is implemented in the
-@value{GDBN} source file @file{remote.c}. Normally, you can simply allow
-these subroutines to communicate, and ignore the details. (If you're
-implementing your own stub file, you can still ignore the details: start
-with one of the existing stub files. @file{sparc-stub.c} is the best
-organized, and therefore the easiest to read.)
+@node Configurations
+@chapter Configuration-Specific Information
-However, there may be occasions when you need to know something about
-the protocol---for example, if there is only one serial port to your
-target machine, you might want your program to do something special if
-it recognizes a packet meant for @value{GDBN}.
-
-In the examples below, @samp{<-} and @samp{->} are used to indicate
-transmitted and received data respectfully.
+While nearly all @value{GDBN} commands are available for all native and
+cross versions of the debugger, there are some exceptions. This chapter
+describes things that are only available in certain configurations.
-@cindex protocol, @value{GDBN} remote serial
-@cindex serial protocol, @value{GDBN} remote
-@cindex remote serial protocol
-All @value{GDBN} commands and responses (other than acknowledgments) are
-sent as a @var{packet}. A @var{packet} is introduced with the character
-@samp{$}, the actual @var{packet-data}, and the terminating character
-@samp{#} followed by a two-digit @var{checksum}:
+There are three major categories of configurations: native
+configurations, where the host and target are the same, embedded
+operating system configurations, which are usually the same for several
+different processor architectures, and bare embedded processors, which
+are quite different from each other.
-@example
-@code{$}@var{packet-data}@code{#}@var{checksum}
-@end example
-@noindent
+@menu
+* Native::
+* Embedded OS::
+* Embedded Processors::
+* Architectures::
+@end menu
-@cindex checksum, for @value{GDBN} remote
-@noindent
-The two-digit @var{checksum} is computed as the modulo 256 sum of all
-characters between the leading @samp{$} and the trailing @samp{#} (an
-eight bit unsigned checksum).
+@node Native
+@section Native
-Implementors should note that prior to @value{GDBN} 5.0 the protocol
-specification also included an optional two-digit @var{sequence-id}:
+This section describes details specific to particular native
+configurations.
-@example
-@code{$}@var{sequence-id}@code{:}@var{packet-data}@code{#}@var{checksum}
-@end example
+@menu
+* HP-UX:: HP-UX
+* SVR4 Process Information:: SVR4 process information
+* DJGPP Native:: Features specific to the DJGPP port
+@end menu
-@cindex sequence-id, for @value{GDBN} remote
-@noindent
-That @var{sequence-id} was appended to the acknowledgment. @value{GDBN}
-has never output @var{sequence-id}s. Stubs that handle packets added
-since @value{GDBN} 5.0 must not accept @var{sequence-id}.
+@node HP-UX
+@subsection HP-UX
-@cindex acknowledgment, for @value{GDBN} remote
-When either the host or the target machine receives a packet, the first
-response expected is an acknowledgment: either @samp{+} (to indicate
-the package was received correctly) or @samp{-} (to request
-retransmission):
+On HP-UX systems, if you refer to a function or variable name that
+begins with a dollar sign, @value{GDBN} searches for a user or system
+name first, before it searches for a convenience variable.
-@example
-<- @code{$}@var{packet-data}@code{#}@var{checksum}
--> @code{+}
-@end example
-@noindent
+@node SVR4 Process Information
+@subsection SVR4 process information
-The host (@value{GDBN}) sends @var{command}s, and the target (the
-debugging stub incorporated in your program) sends a @var{response}. In
-the case of step and continue @var{command}s, the response is only sent
-when the operation has completed (the target has again stopped).
+@kindex /proc
+@cindex process image
-@var{packet-data} consists of a sequence of characters with the
-exception of @samp{#} and @samp{$} (see @samp{X} packet for additional
-exceptions).
+Many versions of SVR4 provide a facility called @samp{/proc} that can be
+used to examine the image of a running process using file-system
+subroutines. If @value{GDBN} is configured for an operating system with
+this facility, the command @code{info proc} is available to report on
+several kinds of information about the process running your program.
+@code{info proc} works only on SVR4 systems that include the
+@code{procfs} code. This includes OSF/1 (Digital Unix), Solaris, Irix,
+and Unixware, but not HP-UX or Linux, for example.
-Fields within the packet should be separated using @samp{,} @samp{;} or
-@samp{:}. Except where otherwise noted all numbers are represented in
-HEX with leading zeros suppressed.
+@table @code
+@kindex info proc
+@item info proc
+Summarize available information about the process.
-Implementors should note that prior to @value{GDBN} 5.0, the character
-@samp{:} could not appear as the third character in a packet (as it
-would potentially conflict with the @var{sequence-id}).
+@kindex info proc mappings
+@item info proc mappings
+Report on the address ranges accessible in the program, with information
+on whether your program may read, write, or execute each range.
+@ignore
+@comment These sub-options of 'info proc' were not included when
+@comment procfs.c was re-written. Keep their descriptions around
+@comment against the day when someone finds the time to put them back in.
+@kindex info proc times
+@item info proc times
+Starting time, user CPU time, and system CPU time for your program and
+its children.
-Response @var{data} can be run-length encoded to save space. A @samp{*}
-means that the next character is an @sc{ascii} encoding giving a repeat count
-which stands for that many repetitions of the character preceding the
-@samp{*}. The encoding is @code{n+29}, yielding a printable character
-where @code{n >=3} (which is where rle starts to win). The printable
-characters @samp{$}, @samp{#}, @samp{+} and @samp{-} or with a numeric
-value greater than 126 should not be used.
+@kindex info proc id
+@item info proc id
+Report on the process IDs related to your program: its own process ID,
+the ID of its parent, the process group ID, and the session ID.
-Some remote systems have used a different run-length encoding mechanism
-loosely refered to as the cisco encoding. Following the @samp{*}
-character are two hex digits that indicate the size of the packet.
+@kindex info proc status
+@item info proc status
+General information on the state of the process. If the process is
+stopped, this report includes the reason for stopping, and any signal
+received.
-So:
-@example
-"@code{0* }"
-@end example
-@noindent
-means the same as "0000".
+@item info proc all
+Show all the above information about the process.
+@end ignore
+@end table
-The error response returned for some packets includes a two character
-error number. That number is not well defined.
+@node DJGPP Native
+@subsection Features for Debugging @sc{djgpp} Programs
+@cindex @sc{djgpp} debugging
+@cindex native @sc{djgpp} debugging
+@cindex MS-DOS-specific commands
-For any @var{command} not supported by the stub, an empty response
-(@samp{$#00}) should be returned. That way it is possible to extend the
-protocol. A newer @value{GDBN} can tell if a packet is supported based
-on that response.
+@sc{djgpp} is the port of @sc{gnu} development tools to MS-DOS and
+MS-Windows. @sc{djgpp} programs are 32-bit protected-mode programs
+that use the @dfn{DPMI} (DOS Protected-Mode Interface) API to run on
+top of real-mode DOS systems and their emulations.
-A stub is required to support the @samp{g}, @samp{G}, @samp{m}, @samp{M},
-@samp{c}, and @samp{s} @var{command}s. All other @var{command}s are
-optional.
+@value{GDBN} supports native debugging of @sc{djgpp} programs, and
+defines a few commands specific to the @sc{djgpp} port. This
+subsection describes those commands.
-Below is a complete list of all currently defined @var{command}s and
-their corresponding response @var{data}:
-@page
-@multitable @columnfractions .30 .30 .40
-@item Packet
-@tab Request
-@tab Description
+@table @code
+@kindex info dos
+@item info dos
+This is a prefix of @sc{djgpp}-specific commands which print
+information about the target system and important OS structures.
-@item extended mode
-@tab @code{!}
-@tab
-Enable extended mode. In extended mode, the remote server is made
-persistent. The @samp{R} packet is used to restart the program being
-debugged.
-@item
-@tab reply @samp{OK}
-@tab
-The remote target both supports and has enabled extended mode.
+@kindex sysinfo
+@cindex MS-DOS system info
+@cindex free memory information (MS-DOS)
+@item info dos sysinfo
+This command displays assorted information about the underlying
+platform: the CPU type and features, the OS version and flavor, the
+DPMI version, and the available conventional and DPMI memory.
-@item last signal
-@tab @code{?}
-@tab
-Indicate the reason the target halted. The reply is the same as for step
-and continue.
-@item
-@tab reply
-@tab see below
+@cindex GDT
+@cindex LDT
+@cindex IDT
+@cindex segment descriptor tables
+@cindex descriptor tables display
+@item info dos gdt
+@itemx info dos ldt
+@itemx info dos idt
+These 3 commands display entries from, respectively, Global, Local,
+and Interrupt Descriptor Tables (GDT, LDT, and IDT). The descriptor
+tables are data structures which store a descriptor for each segment
+that is currently in use. The segment's selector is an index into a
+descriptor table; the table entry for that index holds the
+descriptor's base address and limit, and its attributes and access
+rights.
+A typical @sc{djgpp} program uses 3 segments: a code segment, a data
+segment (used for both data and the stack), and a DOS segment (which
+allows access to DOS/BIOS data structures and absolute addresses in
+conventional memory). However, the DPMI host will usually define
+additional segments in order to support the DPMI environment.
-@item reserved
-@tab @code{a}
-@tab Reserved for future use
+@cindex garbled pointers
+These commands allow to display entries from the descriptor tables.
+Without an argument, all entries from the specified table are
+displayed. An argument, which should be an integer expression, means
+display a single entry whose index is given by the argument. For
+example, here's a convenient way to display information about the
+debugged program's data segment:
-@item set program arguments @strong{(reserved)}
-@tab @code{A}@var{arglen}@code{,}@var{argnum}@code{,}@var{arg}@code{,...}
-@tab
-@item
-@tab
-@tab
-Initialized @samp{argv[]} array passed into program. @var{arglen}
-specifies the number of bytes in the hex encoded byte stream @var{arg}.
-See @file{gdbserver} for more details.
-@item
-@tab reply @code{OK}
-@item
-@tab reply @code{E}@var{NN}
+@smallexample
+@exdent @code{(@value{GDBP}) info dos ldt $ds}
+@exdent @code{0x13f: base=0x11970000 limit=0x0009ffff 32-Bit Data (Read/Write, Exp-up)}
+@end smallexample
-@item set baud @strong{(deprecated)}
-@tab @code{b}@var{baud}
-@tab
-Change the serial line speed to @var{baud}. JTC: @emph{When does the
-transport layer state change? When it's received, or after the ACK is
-transmitted. In either case, there are problems if the command or the
-acknowledgment packet is dropped.} Stan: @emph{If people really wanted
-to add something like this, and get it working for the first time, they
-ought to modify ser-unix.c to send some kind of out-of-band message to a
-specially-setup stub and have the switch happen "in between" packets, so
-that from remote protocol's point of view, nothing actually
-happened.}
+@noindent
+This comes in handy when you want to see whether a pointer is outside
+the data segment's limit (i.e.@: @dfn{garbled}).
-@item set breakpoint @strong{(deprecated)}
-@tab @code{B}@var{addr},@var{mode}
-@tab
-Set (@var{mode} is @samp{S}) or clear (@var{mode} is @samp{C}) a
-breakpoint at @var{addr}. @emph{This has been replaced by the @samp{Z} and
-@samp{z} packets.}
+@cindex page tables display (MS-DOS)
+@item info dos pde
+@itemx info dos pte
+These two commands display entries from, respectively, the Page
+Directory and the Page Tables. Page Directories and Page Tables are
+data structures which control how virtual memory addresses are mapped
+into physical addresses. A Page Table includes an entry for every
+page of memory that is mapped into the program's address space; there
+may be several Page Tables, each one holding up to 4096 entries. A
+Page Directory has up to 4096 entries, one each for every Page Table
+that is currently in use.
-@item continue
-@tab @code{c}@var{addr}
-@tab
-@var{addr} is address to resume. If @var{addr} is omitted, resume at
-current address.
-@item
-@tab reply
-@tab see below
+Without an argument, @kbd{info dos pde} displays the entire Page
+Directory, and @kbd{info dos pte} displays all the entries in all of
+the Page Tables. An argument, an integer expression, given to the
+@kbd{info dos pde} command means display only that entry from the Page
+Directory table. An argument given to the @kbd{info dos pte} command
+means display entries from a single Page Table, the one pointed to by
+the specified entry in the Page Directory.
-@item continue with signal
-@tab @code{C}@var{sig}@code{;}@var{addr}
-@tab
-Continue with signal @var{sig} (hex signal number). If
-@code{;}@var{addr} is omitted, resume at same address.
-@item
-@tab reply
-@tab see below
+@cindex direct memory access (DMA) on MS-DOS
+These commands are useful when your program uses @dfn{DMA} (Direct
+Memory Access), which needs physical addresses to program the DMA
+controller.
-@item toggle debug @strong{(deprecated)}
-@tab @code{d}
-@tab
-toggle debug flag.
+These commands are supported only with some DPMI servers.
-@item detach
-@tab @code{D}
-@tab
-Detach @value{GDBN} from the remote system. Sent to the remote target before
-@value{GDBN} disconnects.
-@item
-@tab reply @emph{no response}
-@tab
-@value{GDBN} does not check for any response after sending this packet.
+@cindex physical address from linear address
+@item info dos address-pte @var{addr}
+This command displays the Page Table entry for a specified linear
+address. The argument linear address @var{addr} should already have the
+appropriate segment's base address added to it, because this command
+accepts addresses which may belong to @emph{any} segment. For
+example, here's how to display the Page Table entry for the page where
+the variable @code{i} is stored:
-@item reserved
-@tab @code{e}
-@tab Reserved for future use
+@smallexample
+@exdent @code{(@value{GDBP}) info dos address-pte __djgpp_base_address + (char *)&i}
+@exdent @code{Page Table entry for address 0x11a00d30:}
+@exdent @code{Base=0x02698000 Dirty Acc. Not-Cached Write-Back Usr Read-Write +0xd30}
+@end smallexample
-@item reserved
-@tab @code{E}
-@tab Reserved for future use
+@noindent
+This says that @code{i} is stored at offset @code{0xd30} from the page
+whose physical base address is @code{0x02698000}, and prints all the
+attributes of that page.
-@item reserved
-@tab @code{f}
-@tab Reserved for future use
+Note that you must cast the addresses of variables to a @code{char *},
+since otherwise the value of @code{__djgpp_base_address}, the base
+address of all variables and functions in a @sc{djgpp} program, will
+be added using the rules of C pointer arithmetics: if @code{i} is
+declared an @code{int}, @value{GDBN} will add 4 times the value of
+@code{__djgpp_base_address} to the address of @code{i}.
-@item reserved
-@tab @code{F}
-@tab Reserved for future use
+Here's another example, it displays the Page Table entry for the
+transfer buffer:
-@item read registers
-@tab @code{g}
-@tab Read general registers.
-@item
-@tab reply @var{XX...}
-@tab
-Each byte of register data is described by two hex digits. The bytes
-with the register are transmitted in target byte order. The size of
-each register and their position within the @samp{g} @var{packet} are
-determined by the @value{GDBN} internal macros @var{REGISTER_RAW_SIZE} and
-@var{REGISTER_NAME} macros. The specification of several standard
-@code{g} packets is specified below.
-@item
-@tab @code{E}@var{NN}
-@tab for an error.
+@smallexample
+@exdent @code{(@value{GDBP}) info dos address-pte *((unsigned *)&_go32_info_block + 3)}
+@exdent @code{Page Table entry for address 0x29110:}
+@exdent @code{Base=0x00029000 Dirty Acc. Not-Cached Write-Back Usr Read-Write +0x110}
+@end smallexample
-@item write regs
-@tab @code{G}@var{XX...}
-@tab
-See @samp{g} for a description of the @var{XX...} data.
-@item
-@tab reply @code{OK}
-@tab for success
-@item
-@tab reply @code{E}@var{NN}
-@tab for an error
+@noindent
+(The @code{+ 3} offset is because the transfer buffer's address is the
+3rd member of the @code{_go32_info_block} structure.) The output of
+this command clearly shows that addresses in conventional memory are
+mapped 1:1, i.e.@: the physical and linear addresses are identical.
-@item reserved
-@tab @code{h}
-@tab Reserved for future use
+This command is supported only with some DPMI servers.
+@end table
-@item set thread
-@tab @code{H}@var{c}@var{t...}
-@tab
-Set thread for subsequent operations (@samp{m}, @samp{M}, @samp{g},
-@samp{G}, et.al.). @var{c} = @samp{c} for thread used in step and
-continue; @var{t...} can be -1 for all threads. @var{c} = @samp{g} for
-thread used in other operations. If zero, pick a thread, any thread.
-@item
-@tab reply @code{OK}
-@tab for success
-@item
-@tab reply @code{E}@var{NN}
-@tab for an error
+@node Embedded OS
+@section Embedded Operating Systems
-@c FIXME: JTC:
-@c 'H': How restrictive (or permissive) is the thread model. If a
-@c thread is selected and stopped, are other threads allowed
-@c to continue to execute? As I mentioned above, I think the
-@c semantics of each command when a thread is selected must be
-@c described. For example:
-@c
-@c 'g': If the stub supports threads and a specific thread is
-@c selected, returns the register block from that thread;
-@c otherwise returns current registers.
-@c
-@c 'G' If the stub supports threads and a specific thread is
-@c selected, sets the registers of the register block of
-@c that thread; otherwise sets current registers.
+This section describes configurations involving the debugging of
+embedded operating systems that are available for several different
+architectures.
-@item cycle step @strong{(draft)}
-@tab @code{i}@var{addr}@code{,}@var{nnn}
-@tab
-Step the remote target by a single clock cycle. If @code{,}@var{nnn} is
-present, cycle step @var{nnn} cycles. If @var{addr} is present, cycle
-step starting at that address.
+@menu
+* VxWorks:: Using @value{GDBN} with VxWorks
+@end menu
-@item signal then cycle step @strong{(reserved)}
-@tab @code{I}
-@tab
-See @samp{i} and @samp{S} for likely syntax and semantics.
+@value{GDBN} includes the ability to debug programs running on
+various real-time operating systems.
-@item reserved
-@tab @code{j}
-@tab Reserved for future use
+@node VxWorks
+@subsection Using @value{GDBN} with VxWorks
-@item reserved
-@tab @code{J}
-@tab Reserved for future use
+@cindex VxWorks
-@item kill request
-@tab @code{k}
-@tab
-FIXME: @emph{There is no description of how operate when a specific
-thread context has been selected (ie. does 'k' kill only that thread?)}.
+@table @code
-@item reserved
-@tab @code{l}
-@tab Reserved for future use
+@kindex target vxworks
+@item target vxworks @var{machinename}
+A VxWorks system, attached via TCP/IP. The argument @var{machinename}
+is the target system's machine name or IP address.
-@item reserved
-@tab @code{L}
-@tab Reserved for future use
+@end table
-@item read memory
-@tab @code{m}@var{addr}@code{,}@var{length}
-@tab
-Read @var{length} bytes of memory starting at address @var{addr}.
-Neither @value{GDBN} nor the stub assume that sized memory transfers are assumed
-using word alligned accesses. FIXME: @emph{A word aligned memory
-transfer mechanism is needed.}
-@item
-@tab reply @var{XX...}
-@tab
-@var{XX...} is mem contents. Can be fewer bytes than requested if able
-to read only part of the data. Neither @value{GDBN} nor the stub assume that
-sized memory transfers are assumed using word alligned accesses. FIXME:
-@emph{A word aligned memory transfer mechanism is needed.}
-@item
-@tab reply @code{E}@var{NN}
-@tab @var{NN} is errno
+On VxWorks, @code{load} links @var{filename} dynamically on the
+current target system as well as adding its symbols in @value{GDBN}.
-@item write mem
-@tab @code{M}@var{addr},@var{length}@code{:}@var{XX...}
-@tab
-Write @var{length} bytes of memory starting at address @var{addr}.
-@var{XX...} is the data.
-@item
-@tab reply @code{OK}
-@tab for success
-@item
-@tab reply @code{E}@var{NN}
-@tab
-for an error (this includes the case where only part of the data was
-written).
+@value{GDBN} enables developers to spawn and debug tasks running on networked
+VxWorks targets from a Unix host. Already-running tasks spawned from
+the VxWorks shell can also be debugged. @value{GDBN} uses code that runs on
+both the Unix host and on the VxWorks target. The program
+@code{@value{GDBP}} is installed and executed on the Unix host. (It may be
+installed with the name @code{vxgdb}, to distinguish it from a
+@value{GDBN} for debugging programs on the host itself.)
-@item reserved
-@tab @code{n}
-@tab Reserved for future use
+@table @code
+@item VxWorks-timeout @var{args}
+@kindex vxworks-timeout
+All VxWorks-based targets now support the option @code{vxworks-timeout}.
+This option is set by the user, and @var{args} represents the number of
+seconds @value{GDBN} waits for responses to rpc's. You might use this if
+your VxWorks target is a slow software simulator or is on the far side
+of a thin network line.
+@end table
-@item reserved
-@tab @code{N}
-@tab Reserved for future use
+The following information on connecting to VxWorks was current when
+this manual was produced; newer releases of VxWorks may use revised
+procedures.
-@item reserved
-@tab @code{o}
-@tab Reserved for future use
+@kindex INCLUDE_RDB
+To use @value{GDBN} with VxWorks, you must rebuild your VxWorks kernel
+to include the remote debugging interface routines in the VxWorks
+library @file{rdb.a}. To do this, define @code{INCLUDE_RDB} in the
+VxWorks configuration file @file{configAll.h} and rebuild your VxWorks
+kernel. The resulting kernel contains @file{rdb.a}, and spawns the
+source debugging task @code{tRdbTask} when VxWorks is booted. For more
+information on configuring and remaking VxWorks, see the manufacturer's
+manual.
+@c VxWorks, see the @cite{VxWorks Programmer's Guide}.
-@item reserved
-@tab @code{O}
-@tab Reserved for future use
+Once you have included @file{rdb.a} in your VxWorks system image and set
+your Unix execution search path to find @value{GDBN}, you are ready to
+run @value{GDBN}. From your Unix host, run @code{@value{GDBP}} (or
+@code{vxgdb}, depending on your installation).
-@item read reg @strong{(reserved)}
-@tab @code{p}@var{n...}
-@tab
-See write register.
-@item
-@tab return @var{r....}
-@tab The hex encoded value of the register in target byte order.
+@value{GDBN} comes up showing the prompt:
-@item write reg
-@tab @code{P}@var{n...}@code{=}@var{r...}
-@tab
-Write register @var{n...} with value @var{r...}, which contains two hex
-digits for each byte in the register (target byte order).
-@item
-@tab reply @code{OK}
-@tab for success
-@item
-@tab reply @code{E}@var{NN}
-@tab for an error
+@example
+(vxgdb)
+@end example
-@item general query
-@tab @code{q}@var{query}
-@tab
-Request info about @var{query}. In general @value{GDBN} queries
-have a leading upper case letter. Custom vendor queries should use a
-company prefix (in lower case) ex: @samp{qfsf.var}. @var{query} may
-optionally be followed by a @samp{,} or @samp{;} separated list. Stubs
-must ensure that they match the full @var{query} name.
-@item
-@tab reply @code{XX...}
-@tab Hex encoded data from query. The reply can not be empty.
-@item
-@tab reply @code{E}@var{NN}
-@tab error reply
-@item
-@tab reply @samp{}
-@tab Indicating an unrecognized @var{query}.
+@menu
+* VxWorks Connection:: Connecting to VxWorks
+* VxWorks Download:: VxWorks download
+* VxWorks Attach:: Running tasks
+@end menu
-@item general set
-@tab @code{Q}@var{var}@code{=}@var{val}
-@tab
-Set value of @var{var} to @var{val}. See @samp{q} for a discussing of
-naming conventions.
+@node VxWorks Connection
+@subsubsection Connecting to VxWorks
-@item reset @strong{(deprecated)}
-@tab @code{r}
-@tab
-Reset the entire system.
+The @value{GDBN} command @code{target} lets you connect to a VxWorks target on the
+network. To connect to a target whose host name is ``@code{tt}'', type:
-@item remote restart
-@tab @code{R}@var{XX}
-@tab
-Restart the program being debugged. @var{XX}, while needed, is ignored.
-This packet is only available in extended mode.
-@item
-@tab
-no reply
-@tab
-The @samp{R} packet has no reply.
+@example
+(vxgdb) target vxworks tt
+@end example
-@item step
-@tab @code{s}@var{addr}
-@tab
-@var{addr} is address to resume. If @var{addr} is omitted, resume at
-same address.
-@item
-@tab reply
-@tab see below
+@need 750
+@value{GDBN} displays messages like these:
-@item step with signal
-@tab @code{S}@var{sig}@code{;}@var{addr}
-@tab
-Like @samp{C} but step not continue.
-@item
-@tab reply
-@tab see below
+@smallexample
+Attaching remote machine across net...
+Connected to tt.
+@end smallexample
-@item search
-@tab @code{t}@var{addr}@code{:}@var{PP}@code{,}@var{MM}
-@tab
-Search backwards starting at address @var{addr} for a match with pattern
-@var{PP} and mask @var{MM}. @var{PP} and @var{MM} are 4
-bytes. @var{addr} must be at least 3 digits.
+@need 1000
+@value{GDBN} then attempts to read the symbol tables of any object modules
+loaded into the VxWorks target since it was last booted. @value{GDBN} locates
+these files by searching the directories listed in the command search
+path (@pxref{Environment, ,Your program's environment}); if it fails
+to find an object file, it displays a message such as:
-@item thread alive
-@tab @code{T}@var{XX}
-@tab Find out if the thread XX is alive.
-@item
-@tab reply @code{OK}
-@tab thread is still alive
-@item
-@tab reply @code{E}@var{NN}
-@tab thread is dead
+@example
+prog.o: No such file or directory.
+@end example
-@item reserved
-@tab @code{u}
-@tab Reserved for future use
+When this happens, add the appropriate directory to the search path with
+the @value{GDBN} command @code{path}, and execute the @code{target}
+command again.
-@item reserved
-@tab @code{U}
-@tab Reserved for future use
+@node VxWorks Download
+@subsubsection VxWorks download
-@item reserved
-@tab @code{v}
-@tab Reserved for future use
+@cindex download to VxWorks
+If you have connected to the VxWorks target and you want to debug an
+object that has not yet been loaded, you can use the @value{GDBN}
+@code{load} command to download a file from Unix to VxWorks
+incrementally. The object file given as an argument to the @code{load}
+command is actually opened twice: first by the VxWorks target in order
+to download the code, then by @value{GDBN} in order to read the symbol
+table. This can lead to problems if the current working directories on
+the two systems differ. If both systems have NFS mounted the same
+filesystems, you can avoid these problems by using absolute paths.
+Otherwise, it is simplest to set the working directory on both systems
+to the directory in which the object file resides, and then to reference
+the file by its name, without any path. For instance, a program
+@file{prog.o} may reside in @file{@var{vxpath}/vw/demo/rdb} in VxWorks
+and in @file{@var{hostpath}/vw/demo/rdb} on the host. To load this
+program, type this on VxWorks:
-@item reserved
-@tab @code{V}
-@tab Reserved for future use
+@example
+-> cd "@var{vxpath}/vw/demo/rdb"
+@end example
-@item reserved
-@tab @code{w}
-@tab Reserved for future use
+@noindent
+Then, in @value{GDBN}, type:
-@item reserved
-@tab @code{W}
-@tab Reserved for future use
+@example
+(vxgdb) cd @var{hostpath}/vw/demo/rdb
+(vxgdb) load prog.o
+@end example
-@item reserved
-@tab @code{x}
-@tab Reserved for future use
+@value{GDBN} displays a response similar to this:
-@item write mem (binary)
-@tab @code{X}@var{addr}@code{,}@var{length}@var{:}@var{XX...}
-@tab
-@var{addr} is address, @var{length} is number of bytes, @var{XX...} is
-binary data. The characters @code{$}, @code{#}, and @code{0x7d} are
-escaped using @code{0x7d}.
-@item
-@tab reply @code{OK}
-@tab for success
-@item
-@tab reply @code{E}@var{NN}
-@tab for an error
+@smallexample
+Reading symbol data from wherever/vw/demo/rdb/prog.o... done.
+@end smallexample
-@item reserved
-@tab @code{y}
-@tab Reserved for future use
+You can also use the @code{load} command to reload an object module
+after editing and recompiling the corresponding source file. Note that
+this makes @value{GDBN} delete all currently-defined breakpoints,
+auto-displays, and convenience variables, and to clear the value
+history. (This is necessary in order to preserve the integrity of
+debugger's data structures that reference the target system's symbol
+table.)
-@item reserved
-@tab @code{Y}
-@tab Reserved for future use
+@node VxWorks Attach
+@subsubsection Running tasks
-@item remove break or watchpoint @strong{(draft)}
-@tab @code{z}@var{t}@code{,}@var{addr}@code{,}@var{length}
-@tab
-See @samp{Z}.
+@cindex running VxWorks tasks
+You can also attach to an existing task using the @code{attach} command as
+follows:
-@item insert break or watchpoint @strong{(draft)}
-@tab @code{Z}@var{t}@code{,}@var{addr}@code{,}@var{length}
-@tab
-@var{t} is type: @samp{0} - software breakpoint, @samp{1} - hardware
-breakpoint, @samp{2} - write watchpoint, @samp{3} - read watchpoint,
-@samp{4} - access watchpoint; @var{addr} is address; @var{length} is in
-bytes. For a software breakpoint, @var{length} specifies the size of
-the instruction to be patched. For hardware breakpoints and watchpoints
-@var{length} specifies the memory region to be monitored. To avoid
-potential problems with duplicate packets, the operations should be
-implemented in an idempotent way.
-@item
-@tab reply @code{E}@var{NN}
-@tab for an error
-@item
-@tab reply @code{OK}
-@tab for success
-@item
-@tab @samp{}
-@tab If not supported.
+@example
+(vxgdb) attach @var{task}
+@end example
-@item reserved
-@tab <other>
-@tab Reserved for future use
+@noindent
+where @var{task} is the VxWorks hexadecimal task ID. The task can be running
+or suspended when you attach to it. Running tasks are suspended at
+the time of attachment.
-@end multitable
+@node Embedded Processors
+@section Embedded Processors
-The @samp{C}, @samp{c}, @samp{S}, @samp{s} and @samp{?} packets can
-receive any of the below as a reply. In the case of the @samp{C},
-@samp{c}, @samp{S} and @samp{s} packets, that reply is only returned
-when the target halts. In the below the exact meaning of @samp{signal
-number} is poorly defined. In general one of the UNIX signal numbering
-conventions is used.
+This section goes into details specific to particular embedded
+configurations.
-@multitable @columnfractions .4 .6
-@item @code{S}@var{AA}
-@tab @var{AA} is the signal number
+@c OBSOLETE * A29K Embedded:: AMD A29K Embedded
+@menu
+* ARM:: ARM
+* H8/300:: Hitachi H8/300
+* H8/500:: Hitachi H8/500
+* i960:: Intel i960
+* M32R/D:: Mitsubishi M32R/D
+* M68K:: Motorola M68K
+* M88K:: Motorola M88K
+* MIPS Embedded:: MIPS Embedded
+* PA:: HP PA Embedded
+* PowerPC: PowerPC
+* SH:: Hitachi SH
+* Sparclet:: Tsqware Sparclet
+* Sparclite:: Fujitsu Sparclite
+* ST2000:: Tandem ST2000
+* Z8000:: Zilog Z8000
+@end menu
-@item @code{T}@var{AA}@var{n...}@code{:}@var{r...}@code{;}@var{n...}@code{:}@var{r...}@code{;}@var{n...}@code{:}@var{r...}@code{;}
-@tab
-@var{AA} = two hex digit signal number; @var{n...} = register number
-(hex), @var{r...} = target byte ordered register contents, size defined
-by @code{REGISTER_RAW_SIZE}; @var{n...} = @samp{thread}, @var{r...} =
-thread process ID, this is a hex integer; @var{n...} = other string not
-starting with valid hex digit. @value{GDBN} should ignore this
-@var{n...}, @var{r...} pair and go on to the next. This way we can
-extend the protocol.
+@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 @example
+@c OBSOLETE C:\> MODE com1:9600,n,8,1,none
+@c OBSOLETE @end example
+@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 @example
+@c OBSOLETE C:\> CTTY com1
+@c OBSOLETE @end example
+@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 @example
+@c OBSOLETE cu -s 9600 -l /dev/ttya
+@c OBSOLETE @end example
+@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 @example
+@c OBSOLETE tip -9600 /dev/ttya
+@c OBSOLETE @end example
+@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 @example
+@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 example
+@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 @example
+@c OBSOLETE cd /usr/joe/work29k
+@c OBSOLETE @value{GDBP} myfoo
+@c OBSOLETE @end example
+@c OBSOLETE
+@c OBSOLETE @need 500
+@c OBSOLETE Now you can use the @code{target} command:
+@c OBSOLETE
+@c OBSOLETE @example
+@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 example
+@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.
-@item @code{W}@var{AA}
-@tab
-The process exited, and @var{AA} is the exit status. This is only
-applicable for certains sorts of targets.
+@node ARM
+@subsection ARM
-@item @code{X}@var{AA}
-@tab
-The process terminated with signal @var{AA}.
+@table @code
-@item @code{N}@var{AA}@code{;}@var{t...}@code{;}@var{d...}@code{;}@var{b...} @strong{(obsolete)}
-@tab
-@var{AA} = signal number; @var{t...} = address of symbol "_start";
-@var{d...} = base of data section; @var{b...} = base of bss section.
-@emph{Note: only used by Cisco Systems targets. The difference between
-this reply and the "qOffsets" query is that the 'N' packet may arrive
-spontaneously whereas the 'qOffsets' is a query initiated by the host
-debugger.}
+@kindex target rdi
+@item target rdi @var{dev}
+ARM Angel monitor, via RDI library interface to ADP protocol. You may
+use this target to communicate with both boards running the Angel
+monitor, or with the EmbeddedICE JTAG debug device.
-@item @code{O}@var{XX...}
-@tab
-@var{XX...} is hex encoding of @sc{ascii} data. This can happen at any time
-while the program is running and the debugger should continue to wait
-for 'W', 'T', etc.
+@kindex target rdp
+@item target rdp @var{dev}
+ARM Demon monitor.
-@end multitable
+@end table
-The following set and query packets have already been defined.
+@node H8/300
+@subsection Hitachi H8/300
-@multitable @columnfractions .2 .2 .6
+@table @code
-@item current thread
-@tab @code{q}@code{C}
-@tab Return the current thread id.
-@item
-@tab reply @code{QC}@var{pid}
-@tab
-Where @var{pid} is a HEX encoded 16 bit process id.
-@item
-@tab reply *
-@tab Any other reply implies the old pid.
+@kindex target hms@r{, with H8/300}
+@item target hms @var{dev}
+A Hitachi SH, H8/300, or H8/500 board, attached via serial line to your host.
+Use special commands @code{device} and @code{speed} to control the serial
+line and the communications speed used.
-@item all thread ids
-@tab @code{q}@code{fThreadInfo}
-@item
-@tab @code{q}@code{sThreadInfo}
-@tab
-Obtain a list of active thread ids from the target (OS). Since there
-may be too many active threads to fit into one reply packet, this query
-works iteratively: it may require more than one query/reply sequence to
-obtain the entire list of threads. The first query of the sequence will
-be the @code{qf}@code{ThreadInfo} query; subsequent queries in the
-sequence will be the @code{qs}@code{ThreadInfo} query.
-@item
-@tab
-@tab NOTE: replaces the @code{qL} query (see below).
-@item
-@tab reply @code{m}@var{<id>}
-@tab A single thread id
-@item
-@tab reply @code{m}@var{<id>},@var{<id>...}
-@tab a comma-separated list of thread ids
-@item
-@tab reply @code{l}
-@tab (lower case 'el') denotes end of list.
-@item
-@tab
-@tab
-In response to each query, the target will reply with a list of one
-or more thread ids, in big-endian hex, separated by commas. GDB will
-respond to each reply with a request for more thread ids (using the
-@code{qs} form of the query), until the target responds with @code{l}
-(lower-case el, for @code{'last'}).
+@kindex target e7000@r{, with H8/300}
+@item target e7000 @var{dev}
+E7000 emulator for Hitachi H8 and SH.
-@item extra thread info
-@tab @code{q}@code{ThreadExtraInfo}@code{,}@var{id}
-@tab
-@item
-@tab
-@tab
-Where @var{<id>} is a thread-id in big-endian hex.
-Obtain a printable string description of a thread's attributes from
-the target OS. This string may contain anything that the target OS
-thinks is interesting for @value{GDBN} to tell the user about the thread.
-The string is displayed in @value{GDBN}'s @samp{info threads} display.
-Some examples of possible thread extra info strings are "Runnable", or
-"Blocked on Mutex".
-@item
-@tab reply @var{XX...}
-@tab
-Where @var{XX...} is a hex encoding of @sc{ascii} data, comprising the
-printable string containing the extra information about the thread's
-attributes.
+@kindex target sh3@r{, with H8/300}
+@kindex target sh3e@r{, with H8/300}
+@item target sh3 @var{dev}
+@itemx target sh3e @var{dev}
+Hitachi SH-3 and SH-3E target systems.
-@item query @var{LIST} or @var{threadLIST} @strong{(deprecated)}
-@tab @code{q}@code{L}@var{startflag}@var{threadcount}@var{nextthread}
-@tab
-@item
-@tab
-@tab
-Obtain thread information from RTOS. Where: @var{startflag} (one hex
-digit) is one to indicate the first query and zero to indicate a
-subsequent query; @var{threadcount} (two hex digits) is the maximum
-number of threads the response packet can contain; and @var{nextthread}
-(eight hex digits), for subsequent queries (@var{startflag} is zero), is
-returned in the response as @var{argthread}.
-@item
-@tab
-@tab NOTE: this query is replaced by the @code{q}@code{fThreadInfo}
-query (see above).
-@item
-@tab reply @code{q}@code{M}@var{count}@var{done}@var{argthread}@var{thread...}
-@tab
-@item
-@tab
-@tab
-Where: @var{count} (two hex digits) is the number of threads being
-returned; @var{done} (one hex digit) is zero to indicate more threads
-and one indicates no further threads; @var{argthreadid} (eight hex
-digits) is @var{nextthread} from the request packet; @var{thread...} is
-a sequence of thread IDs from the target. @var{threadid} (eight hex
-digits). See @code{remote.c:parse_threadlist_response()}.
+@end table
-@item compute CRC of memory block
-@tab @code{q}@code{CRC:}@var{addr}@code{,}@var{length}
-@tab
-@item
-@tab reply @code{E}@var{NN}
-@tab An error (such as memory fault)
-@item
-@tab reply @code{C}@var{CRC32}
-@tab A 32 bit cyclic redundancy check of the specified memory region.
+@cindex download to H8/300 or H8/500
+@cindex H8/300 or H8/500 download
+@cindex download to Hitachi SH
+@cindex Hitachi SH download
+When you select remote debugging to a Hitachi SH, H8/300, or H8/500
+board, the @code{load} command downloads your program to the Hitachi
+board and also opens it as the current executable target for
+@value{GDBN} on your host (like the @code{file} command).
-@item query sect offs
-@tab @code{q}@code{Offsets}
-@tab
-Get section offsets that the target used when re-locating the downloaded
-image. @emph{Note: while a @code{Bss} offset is included in the
-response, @value{GDBN} ignores this and instead applies the @code{Data}
-offset to the @code{Bss} section.}
-@item
-@tab reply @code{Text=}@var{xxx}@code{;Data=}@var{yyy}@code{;Bss=}@var{zzz}
+@value{GDBN} needs to know these things to talk to your
+Hitachi SH, H8/300, or H8/500:
-@item thread info request
-@tab @code{q}@code{P}@var{mode}@var{threadid}
-@tab
-@item
-@tab
-@tab
-Returns information on @var{threadid}. Where: @var{mode} is a hex
-encoded 32 bit mode; @var{threadid} is a hex encoded 64 bit thread ID.
+@enumerate
@item
-@tab reply *
-@tab
-See @code{remote.c:remote_unpack_thread_info_response()}.
+that you want to use @samp{target hms}, the remote debugging interface
+for Hitachi microprocessors, or @samp{target e7000}, the in-circuit
+emulator for the Hitachi SH and the Hitachi 300H. (@samp{target hms} is
+the default when @value{GDBN} is configured specifically for the Hitachi SH,
+H8/300, or H8/500.)
-@item remote command
-@tab @code{q}@code{Rcmd,}@var{COMMAND}
-@tab
@item
-@tab
-@tab
-@var{COMMAND} (hex encoded) is passed to the local interpreter for
-execution. Invalid commands should be reported using the output string.
-Before the final result packet, the target may also respond with a
-number of intermediate @code{O}@var{OUTPUT} console output
-packets. @emph{Implementors should note that providing access to a
-stubs's interpreter may have security implications}.
-@item
-@tab reply @code{OK}
-@tab
-A command response with no output.
-@item
-@tab reply @var{OUTPUT}
-@tab
-A command response with the hex encoded output string @var{OUTPUT}.
-@item
-@tab reply @code{E}@var{NN}
-@tab
-Indicate a badly formed request.
+what serial device connects your host to your Hitachi board (the first
+serial device available on your host is the default).
@item
-@tab reply @samp{}
-@tab
-When @samp{q}@samp{Rcmd} is not recognized.
+what speed to use over the serial device.
+@end enumerate
-@item symbol lookup
-@tab @code{qSymbol::}
-@tab
-Notify the target that @value{GDBN} is prepared to serve symbol lookup
-requests. Accept requests from the target for the values of symbols.
-@item
-@tab
-@tab
-@item
-@tab reply @code{OK}
-@tab
-The target does not need to look up any (more) symbols.
-@item
-@tab reply @code{qSymbol:}@var{sym_name}
-@tab
-The target requests the value of symbol @var{sym_name} (hex encoded).
-@value{GDBN} may provide the value by using the
-@code{qSymbol:}@var{sym_value}:@var{sym_name}
-message, described below.
+@menu
+* Hitachi Boards:: Connecting to Hitachi boards.
+* Hitachi ICE:: Using the E7000 In-Circuit Emulator.
+* Hitachi Special:: Special @value{GDBN} commands for Hitachi micros.
+@end menu
-@item symbol value
-@tab @code{qSymbol:}@var{sym_value}:@var{sym_name}
-@tab
-Set the value of SYM_NAME to SYM_VALUE.
-@item
-@tab
-@tab
-@var{sym_name} (hex encoded) is the name of a symbol whose value
-the target has previously requested.
-@item
-@tab
-@tab
-@var{sym_value} (hex) is the value for symbol @var{sym_name}.
-If @value{GDBN} cannot supply a value for @var{sym_name}, then this
-field will be empty.
-@item
-@tab reply @code{OK}
-@tab
-The target does not need to look up any (more) symbols.
-@item
-@tab reply @code{qSymbol:}@var{sym_name}
-@tab
-The target requests the value of a new symbol @var{sym_name} (hex encoded).
-@value{GDBN} will continue to supply the values of symbols (if available),
-until the target ceases to request them.
+@node Hitachi Boards
+@subsubsection Connecting to Hitachi boards
-@end multitable
+@c only for Unix hosts
+@kindex device
+@cindex serial device, Hitachi micros
+Use the special @code{@value{GDBN}} command @samp{device @var{port}} if you
+need to explicitly set the serial device. The default @var{port} is the
+first available port on your host. This is only necessary on Unix
+hosts, where it is typically something like @file{/dev/ttya}.
-The following @samp{g}/@samp{G} packets have previously been defined.
-In the below, some thirty-two bit registers are transferred as sixty-four
-bits. Those registers should be zero/sign extended (which?) to fill the
-space allocated. Register bytes are transfered in target byte order.
-The two nibbles within a register byte are transfered most-significant -
-least-significant.
+@kindex speed
+@cindex serial line speed, Hitachi micros
+@code{@value{GDBN}} has another special command to set the communications
+speed: @samp{speed @var{bps}}. This command also is only used from Unix
+hosts; on DOS hosts, set the line speed as usual from outside @value{GDBN} with
+the DOS @code{mode} command (for instance,
+@w{@kbd{mode com2:9600,n,8,1,p}} for a 9600@dmn{bps} connection).
-@multitable @columnfractions .5 .5
+The @samp{device} and @samp{speed} commands are available only when you
+use a Unix host to debug your Hitachi microprocessor programs. If you
+use a DOS host,
+@value{GDBN} depends on an auxiliary terminate-and-stay-resident program
+called @code{asynctsr} to communicate with the development board
+through a PC serial port. You must also use the DOS @code{mode} command
+to set up the serial port on the DOS side.
-@item MIPS32
-@tab
-All registers are transfered as thirty-two bit quantities in the order:
-32 general-purpose; sr; lo; hi; bad; cause; pc; 32 floating-point
-registers; fsr; fir; fp.
+The following sample session illustrates the steps needed to start a
+program under @value{GDBN} control on an H8/300. The example uses a
+sample H8/300 program called @file{t.x}. The procedure is the same for
+the Hitachi SH and the H8/500.
-@item MIPS64
-@tab
-All registers are transfered as sixty-four bit quantities (including
-thirty-two bit registers such as @code{sr}). The ordering is the same
-as @code{MIPS32}.
+First hook up your development board. In this example, we use a
+board attached to serial port @code{COM2}; if you use a different serial
+port, substitute its name in the argument of the @code{mode} command.
+When you call @code{asynctsr}, the auxiliary comms program used by the
+debugger, you give it just the numeric part of the serial port's name;
+for example, @samp{asyncstr 2} below runs @code{asyncstr} on
+@code{COM2}.
-@end multitable
+@example
+C:\H8300\TEST> asynctsr 2
+C:\H8300\TEST> mode com2:9600,n,8,1,p
-Example sequence of a target being re-started. Notice how the restart
-does not get any direct output:
+Resident portion of MODE loaded
+
+COM2: 9600, n, 8, 1, p
-@example
-<- @code{R00}
--> @code{+}
-@emph{target restarts}
-<- @code{?}
--> @code{+}
--> @code{T001:1234123412341234}
-<- @code{+}
@end example
-Example sequence of a target being stepped by a single instruction:
+@quotation
+@emph{Warning:} We have noticed a bug in PC-NFS that conflicts with
+@code{asynctsr}. If you also run PC-NFS on your DOS host, you may need to
+disable it, or even boot without it, to use @code{asynctsr} to control
+your development board.
+@end quotation
-@example
-<- @code{G1445...}
--> @code{+}
-<- @code{s}
--> @code{+}
-@emph{time passes}
--> @code{T001:1234123412341234}
-<- @code{+}
-<- @code{g}
--> @code{+}
--> @code{1455...}
-<- @code{+}
-@end example
+@kindex target hms@r{, and serial protocol}
+Now that serial communications are set up, and the development board is
+connected, you can start up @value{GDBN}. Call @code{@value{GDBP}} with
+the name of your program as the argument. @code{@value{GDBN}} prompts
+you, as usual, with the prompt @samp{(@value{GDBP})}. Use two special
+commands to begin your debugging session: @samp{target hms} to specify
+cross-debugging to the Hitachi board, and the @code{load} command to
+download your program to the board. @code{load} displays the names of
+the program's sections, and a @samp{*} for each 2K of data downloaded.
+(If you want to refresh @value{GDBN} data on symbols or on the
+executable file without downloading, use the @value{GDBN} commands
+@code{file} or @code{symbol-file}. These commands, and @code{load}
+itself, are described in @ref{Files,,Commands to specify files}.)
-@node Server
-@subsubsection Using the @code{gdbserver} program
+@smallexample
+(eg-C:\H8300\TEST) @value{GDBP} t.x
+@value{GDBN} is free software and you are welcome to distribute copies
+ of it under certain conditions; type "show copying" to see
+ the conditions.
+There is absolutely no warranty for @value{GDBN}; type "show warranty"
+for details.
+@value{GDBN} @value{GDBVN}, Copyright 1992 Free Software Foundation, Inc...
+(@value{GDBP}) target hms
+Connected to remote H8/300 HMS system.
+(@value{GDBP}) load t.x
+.text : 0x8000 .. 0xabde ***********
+.data : 0xabde .. 0xad30 *
+.stack : 0xf000 .. 0xf014 *
+@end smallexample
-@kindex gdbserver
-@cindex remote connection without stubs
-@code{gdbserver} is a control program for Unix-like systems, which
-allows you to connect your program with a remote @value{GDBN} via
-@code{target remote}---but without linking in the usual debugging stub.
+At this point, you're ready to run or debug your program. From here on,
+you can use all the usual @value{GDBN} commands. The @code{break} command
+sets breakpoints; the @code{run} command starts your program;
+@code{print} or @code{x} display data; the @code{continue} command
+resumes execution after stopping at a breakpoint. You can use the
+@code{help} command at any time to find out more about @value{GDBN} commands.
-@code{gdbserver} is not a complete replacement for the debugging stubs,
-because it requires essentially the same operating-system facilities
-that @value{GDBN} itself does. In fact, a system that can run
-@code{gdbserver} to connect to a remote @value{GDBN} could also run
-@value{GDBN} locally! @code{gdbserver} is sometimes useful nevertheless,
-because it is a much smaller program than @value{GDBN} itself. It is
-also easier to port than all of @value{GDBN}, so you may be able to get
-started more quickly on a new system by using @code{gdbserver}.
-Finally, if you develop code for real-time systems, you may find that
-the tradeoffs involved in real-time operation make it more convenient to
-do as much development work as possible on another system, for example
-by cross-compiling. You can use @code{gdbserver} to make a similar
-choice for debugging.
+Remember, however, that @emph{operating system} facilities aren't
+available on your development board; for example, if your program hangs,
+you can't send an interrupt---but you can press the @sc{reset} switch!
-@value{GDBN} and @code{gdbserver} communicate via either a serial line
-or a TCP connection, using the standard @value{GDBN} remote serial
-protocol.
+Use the @sc{reset} button on the development board
+@itemize @bullet
+@item
+to interrupt your program (don't use @kbd{ctl-C} on the DOS host---it has
+no way to pass an interrupt signal to the development board); and
-@table @emph
-@item On the target machine,
-you need to have a copy of the program you want to debug.
-@code{gdbserver} does not need your program's symbol table, so you can
-strip the program if necessary to save space. @value{GDBN} on the host
-system does all the symbol handling.
+@item
+to return to the @value{GDBN} command prompt after your program finishes
+normally. The communications protocol provides no other way for @value{GDBN}
+to detect program completion.
+@end itemize
-To use the server, you must tell it how to communicate with @value{GDBN};
-the name of your program; and the arguments for your program. The
-syntax is:
+In either case, @value{GDBN} sees the effect of a @sc{reset} on the
+development board as a ``normal exit'' of your program.
-@smallexample
-target> gdbserver @var{comm} @var{program} [ @var{args} @dots{} ]
-@end smallexample
+@node Hitachi ICE
+@subsubsection Using the E7000 in-circuit emulator
-@var{comm} is either a device name (to use a serial line) or a TCP
-hostname and portnumber. For example, to debug Emacs with the argument
-@samp{foo.txt} and communicate with @value{GDBN} over the serial port
-@file{/dev/com1}:
+@kindex target e7000@r{, with Hitachi ICE}
+You can use the E7000 in-circuit emulator to develop code for either the
+Hitachi SH or the H8/300H. Use one of these forms of the @samp{target
+e7000} command to connect @value{GDBN} to your E7000:
-@smallexample
-target> gdbserver /dev/com1 emacs foo.txt
-@end smallexample
+@table @code
+@item target e7000 @var{port} @var{speed}
+Use this form if your E7000 is connected to a serial port. The
+@var{port} argument identifies what serial port to use (for example,
+@samp{com2}). The third argument is the line speed in bits per second
+(for example, @samp{9600}).
-@code{gdbserver} waits passively for the host @value{GDBN} to communicate
-with it.
+@item target e7000 @var{hostname}
+If your E7000 is installed as a host on a TCP/IP network, you can just
+specify its hostname; @value{GDBN} uses @code{telnet} to connect.
+@end table
-To use a TCP connection instead of a serial line:
+@node Hitachi Special
+@subsubsection Special @value{GDBN} commands for Hitachi micros
-@smallexample
-target> gdbserver host:2345 emacs foo.txt
-@end smallexample
+Some @value{GDBN} commands are available only for the H8/300:
-The only difference from the previous example is the first argument,
-specifying that you are communicating with the host @value{GDBN} via
-TCP. The @samp{host:2345} argument means that @code{gdbserver} is to
-expect a TCP connection from machine @samp{host} to local TCP port 2345.
-(Currently, the @samp{host} part is ignored.) You can choose any number
-you want for the port number as long as it does not conflict with any
-TCP ports already in use on the target system (for example, @code{23} is
-reserved for @code{telnet}).@footnote{If you choose a port number that
-conflicts with another service, @code{gdbserver} prints an error message
-and exits.} You must use the same port number with the host @value{GDBN}
-@code{target remote} command.
-
-@item On the @value{GDBN} host machine,
-you need an unstripped copy of your program, since @value{GDBN} needs
-symbols and debugging information. Start up @value{GDBN} as usual,
-using the name of the local copy of your program as the first argument.
-(You may also need the @w{@samp{--baud}} option if the serial line is
-running at anything other than 9600@dmn{bps}.) After that, use @code{target
-remote} to establish communications with @code{gdbserver}. Its argument
-is either a device name (usually a serial device, like
-@file{/dev/ttyb}), or a TCP port descriptor in the form
-@code{@var{host}:@var{PORT}}. For example:
-
-@smallexample
-(@value{GDBP}) target remote /dev/ttyb
-@end smallexample
-
-@noindent
-communicates with the server via serial line @file{/dev/ttyb}, and
+@table @code
-@smallexample
-(@value{GDBP}) target remote the-target:2345
-@end smallexample
+@kindex set machine
+@kindex show machine
+@item set machine h8300
+@itemx set machine h8300h
+Condition @value{GDBN} for one of the two variants of the H8/300
+architecture with @samp{set machine}. You can use @samp{show machine}
+to check which variant is currently in effect.
-@noindent
-communicates via a TCP connection to port 2345 on host @w{@file{the-target}}.
-For TCP connections, you must start up @code{gdbserver} prior to using
-the @code{target remote} command. Otherwise you may get an error whose
-text depends on the host system, but which usually looks something like
-@samp{Connection refused}.
@end table
-@node NetWare
-@subsubsection Using the @code{gdbserve.nlm} program
+@node H8/500
+@subsection H8/500
-@kindex gdbserve.nlm
-@code{gdbserve.nlm} is a control program for NetWare systems, which
-allows you to connect your program with a remote @value{GDBN} via
-@code{target remote}.
+@table @code
-@value{GDBN} and @code{gdbserve.nlm} communicate via a serial line,
-using the standard @value{GDBN} remote serial protocol.
+@kindex set memory @var{mod}
+@cindex memory models, H8/500
+@item set memory @var{mod}
+@itemx show memory
+Specify which H8/500 memory model (@var{mod}) you are using with
+@samp{set memory}; check which memory model is in effect with @samp{show
+memory}. The accepted values for @var{mod} are @code{small},
+@code{big}, @code{medium}, and @code{compact}.
-@table @emph
-@item On the target machine,
-you need to have a copy of the program you want to debug.
-@code{gdbserve.nlm} does not need your program's symbol table, so you
-can strip the program if necessary to save space. @value{GDBN} on the
-host system does all the symbol handling.
+@end table
-To use the server, you must tell it how to communicate with
-@value{GDBN}; the name of your program; and the arguments for your
-program. The syntax is:
+@node i960
+@subsection Intel i960
-@smallexample
-load gdbserve [ BOARD=@var{board} ] [ PORT=@var{port} ]
- [ BAUD=@var{baud} ] @var{program} [ @var{args} @dots{} ]
-@end smallexample
+@table @code
-@var{board} and @var{port} specify the serial line; @var{baud} specifies
-the baud rate used by the connection. @var{port} and @var{node} default
-to 0, @var{baud} defaults to 9600@dmn{bps}.
+@kindex target mon960
+@item target mon960 @var{dev}
+MON960 monitor for Intel i960.
-For example, to debug Emacs with the argument @samp{foo.txt}and
-communicate with @value{GDBN} over serial port number 2 or board 1
-using a 19200@dmn{bps} connection:
+@kindex target nindy
+@item target nindy @var{devicename}
+An Intel 960 board controlled by a Nindy Monitor. @var{devicename} is
+the name of the serial device to use for the connection, e.g.
+@file{/dev/ttya}.
-@smallexample
-load gdbserve BOARD=1 PORT=2 BAUD=19200 emacs foo.txt
-@end smallexample
+@end table
-@item On the @value{GDBN} host machine,
-you need an unstripped copy of your program, since @value{GDBN} needs
-symbols and debugging information. Start up @value{GDBN} as usual,
-using the name of the local copy of your program as the first argument.
-(You may also need the @w{@samp{--baud}} option if the serial line is
-running at anything other than 9600@dmn{bps}. After that, use @code{target
-remote} to establish communications with @code{gdbserve.nlm}. Its
-argument is a device name (usually a serial device, like
-@file{/dev/ttyb}). For example:
+@cindex Nindy
+@cindex i960
+@dfn{Nindy} is a ROM Monitor program for Intel 960 target systems. When
+@value{GDBN} is configured to control a remote Intel 960 using Nindy, you can
+tell @value{GDBN} how to connect to the 960 in several ways:
-@smallexample
-(@value{GDBP}) target remote /dev/ttyb
-@end smallexample
+@itemize @bullet
+@item
+Through command line options specifying serial port, version of the
+Nindy protocol, and communications speed;
-@noindent
-communications with the server via serial line @file{/dev/ttyb}.
-@end table
+@item
+By responding to a prompt on startup;
-@node KOD
-@section Kernel Object Display
+@item
+By using the @code{target} command at any point during your @value{GDBN}
+session. @xref{Target Commands, ,Commands for managing targets}.
-@cindex kernel object display
-@cindex kernel object
-@cindex KOD
+@end itemize
-Some targets support kernel object display. Using this facility,
-@value{GDBN} communicates specially with the underlying operating system
-and can display information about operating system-level objects such as
-mutexes and other synchronization objects. Exactly which objects can be
-displayed is determined on a per-OS basis.
+@cindex download to Nindy-960
+With the Nindy interface to an Intel 960 board, @code{load}
+downloads @var{filename} to the 960 as well as adding its symbols in
+@value{GDBN}.
-Use the @code{set os} command to set the operating system. This tells
-@value{GDBN} which kernel object display module to initialize:
+@menu
+* Nindy Startup:: Startup with Nindy
+* Nindy Options:: Options for Nindy
+* Nindy Reset:: Nindy reset command
+@end menu
-@example
-(@value{GDBP}) set os cisco
-@end example
+@node Nindy Startup
+@subsubsection Startup with Nindy
-If @code{set os} succeeds, @value{GDBN} will display some information
-about the operating system, and will create a new @code{info} command
-which can be used to query the target. The @code{info} command is named
-after the operating system:
+If you simply start @code{@value{GDBP}} without using any command-line
+options, you are prompted for what serial port to use, @emph{before} you
+reach the ordinary @value{GDBN} prompt:
@example
-(@value{GDBP}) info cisco
-List of Cisco Kernel Objects
-Object Description
-any Any and all objects
+Attach /dev/ttyNN -- specify NN, or "quit" to quit:
@end example
-Further subcommands can be used to query about particular objects known
-by the kernel.
+@noindent
+Respond to the prompt with whatever suffix (after @samp{/dev/tty})
+identifies the serial port you want to use. You can, if you choose,
+simply start up with no Nindy connection by responding to the prompt
+with an empty line. If you do this and later wish to attach to Nindy,
+use @code{target} (@pxref{Target Commands, ,Commands for managing targets}).
-There is currently no way to determine whether a given operating system
-is supported other than to try it.
+@node Nindy Options
+@subsubsection Options for Nindy
+These are the startup options for beginning your @value{GDBN} session with a
+Nindy-960 board attached:
-@node Configurations
-@chapter Configuration-Specific Information
+@table @code
+@item -r @var{port}
+Specify the serial port name of a serial interface to be used to connect
+to the target system. This option is only available when @value{GDBN} is
+configured for the Intel 960 target architecture. You may specify
+@var{port} as any of: a full pathname (e.g. @samp{-r /dev/ttya}), a
+device name in @file{/dev} (e.g. @samp{-r ttya}), or simply the unique
+suffix for a specific @code{tty} (e.g. @samp{-r a}).
-While nearly all @value{GDBN} commands are available for all native and
-cross versions of the debugger, there are some exceptions. This chapter
-describes things that are only available in certain configurations.
+@item -O
+(An uppercase letter ``O'', not a zero.) Specify that @value{GDBN} should use
+the ``old'' Nindy monitor protocol to connect to the target system.
+This option is only available when @value{GDBN} is configured for the Intel 960
+target architecture.
-There are three major categories of configurations: native
-configurations, where the host and target are the same, embedded
-operating system configurations, which are usually the same for several
-different processor architectures, and bare embedded processors, which
-are quite different from each other.
+@quotation
+@emph{Warning:} if you specify @samp{-O}, but are actually trying to
+connect to a target system that expects the newer protocol, the connection
+fails, appearing to be a speed mismatch. @value{GDBN} repeatedly
+attempts to reconnect at several different line speeds. You can abort
+this process with an interrupt.
+@end quotation
-@menu
-* Native::
-* Embedded OS::
-* Embedded Processors::
-* Architectures::
-@end menu
+@item -brk
+Specify that @value{GDBN} should first send a @code{BREAK} signal to the target
+system, in an attempt to reset it, before connecting to a Nindy target.
-@node Native
-@section Native
+@quotation
+@emph{Warning:} Many target systems do not have the hardware that this
+requires; it only works with a few boards.
+@end quotation
+@end table
-This section describes details specific to particular native
-configurations.
+The standard @samp{-b} option controls the line speed used on the serial
+port.
-@menu
-* HP-UX:: HP-UX
-* SVR4 Process Information:: SVR4 process information
-* DJGPP Native:: Features specific to the DJGPP port
-@end menu
+@c @group
+@node Nindy Reset
+@subsubsection Nindy reset command
-@node HP-UX
-@subsection HP-UX
+@table @code
+@item reset
+@kindex reset
+For a Nindy target, this command sends a ``break'' to the remote target
+system; this is only useful if the target has been equipped with a
+circuit to perform a hard reset (or some other interesting action) when
+a break is detected.
+@end table
+@c @end group
-On HP-UX systems, if you refer to a function or variable name that
-begins with a dollar sign, @value{GDBN} searches for a user or system
-name first, before it searches for a convenience variable.
+@node M32R/D
+@subsection Mitsubishi M32R/D
-@node SVR4 Process Information
-@subsection SVR4 process information
+@table @code
-@kindex /proc
-@cindex process image
+@kindex target m32r
+@item target m32r @var{dev}
+Mitsubishi M32R/D ROM monitor.
-Many versions of SVR4 provide a facility called @samp{/proc} that can be
-used to examine the image of a running process using file-system
-subroutines. If @value{GDBN} is configured for an operating system with
-this facility, the command @code{info proc} is available to report on
-several kinds of information about the process running your program.
-@code{info proc} works only on SVR4 systems that include the
-@code{procfs} code. This includes OSF/1 (Digital Unix), Solaris, Irix,
-and Unixware, but not HP-UX or Linux, for example.
-
-@table @code
-@kindex info proc
-@item info proc
-Summarize available information about the process.
-
-@kindex info proc mappings
-@item info proc mappings
-Report on the address ranges accessible in the program, with information
-on whether your program may read, write, or execute each range.
-@ignore
-@comment These sub-options of 'info proc' were not included when
-@comment procfs.c was re-written. Keep their descriptions around
-@comment against the day when someone finds the time to put them back in.
-@kindex info proc times
-@item info proc times
-Starting time, user CPU time, and system CPU time for your program and
-its children.
+@end table
-@kindex info proc id
-@item info proc id
-Report on the process IDs related to your program: its own process ID,
-the ID of its parent, the process group ID, and the session ID.
+@node M68K
+@subsection M68k
-@kindex info proc status
-@item info proc status
-General information on the state of the process. If the process is
-stopped, this report includes the reason for stopping, and any signal
-received.
+The Motorola m68k configuration includes ColdFire support, and
+target command for the following ROM monitors.
-@item info proc all
-Show all the above information about the process.
-@end ignore
-@end table
+@table @code
-@node DJGPP Native
-@subsection Features for Debugging @sc{djgpp} Programs
-@cindex @sc{djgpp} debugging
-@cindex native @sc{djgpp} debugging
-@cindex MS-DOS-specific commands
+@kindex target abug
+@item target abug @var{dev}
+ABug ROM monitor for M68K.
-@sc{djgpp} is the port of @sc{gnu} development tools to MS-DOS and
-MS-Windows. @sc{djgpp} programs are 32-bit protected-mode programs
-that use the @dfn{DPMI} (DOS Protected-Mode Interface) API to run on
-top of real-mode DOS systems and their emulations.
+@kindex target cpu32bug
+@item target cpu32bug @var{dev}
+CPU32BUG monitor, running on a CPU32 (M68K) board.
-@value{GDBN} supports native debugging of @sc{djgpp} programs, and
-defines a few commands specific to the @sc{djgpp} port. This
-subsection describes those commands.
+@kindex target dbug
+@item target dbug @var{dev}
+dBUG ROM monitor for Motorola ColdFire.
-@table @code
-@kindex info dos
-@item info dos
-This is a prefix of @sc{djgpp}-specific commands which print
-information about the target system and important OS structures.
+@kindex target est
+@item target est @var{dev}
+EST-300 ICE monitor, running on a CPU32 (M68K) board.
-@kindex sysinfo
-@cindex MS-DOS system info
-@cindex free memory information (MS-DOS)
-@item info dos sysinfo
-This command displays assorted information about the underlying
-platform: the CPU type and features, the OS version and flavor, the
-DPMI version, and the available conventional and DPMI memory.
+@kindex target rom68k
+@item target rom68k @var{dev}
+ROM 68K monitor, running on an M68K IDP board.
-@cindex GDT
-@cindex LDT
-@cindex IDT
-@cindex segment descriptor tables
-@cindex descriptor tables display
-@item info dos gdt
-@itemx info dos ldt
-@itemx info dos idt
-These 3 commands display entries from, respectively, Global, Local,
-and Interrupt Descriptor Tables (GDT, LDT, and IDT). The descriptor
-tables are data structures which store a descriptor for each segment
-that is currently in use. The segment's selector is an index into a
-descriptor table; the table entry for that index holds the
-descriptor's base address and limit, and its attributes and access
-rights.
+@end table
-A typical @sc{djgpp} program uses 3 segments: a code segment, a data
-segment (used for both data and the stack), and a DOS segment (which
-allows access to DOS/BIOS data structures and absolute addresses in
-conventional memory). However, the DPMI host will usually define
-additional segments in order to support the DPMI environment.
+If @value{GDBN} is configured with @code{m68*-ericsson-*}, it will
+instead have only a single special target command:
-@cindex garbled pointers
-These commands allow to display entries from the descriptor tables.
-Without an argument, all entries from the specified table are
-displayed. An argument, which should be an integer expression, means
-display a single entry whose index is given by the argument. For
-example, here's a convenient way to display information about the
-debugged program's data segment:
+@table @code
-@smallexample
-(@value{GDBP}) info dos ldt $ds
-0x13f: base=0x11970000 limit=0x0009ffff 32-Bit Data (Read/Write, Exp-up)
-@end smallexample
+@kindex target es1800
+@item target es1800 @var{dev}
+ES-1800 emulator for M68K.
-@noindent
-This comes in handy when you want to see whether a pointer is outside
-the data segment's limit (i.e.@: @dfn{garbled}).
+@end table
-@cindex page tables display (MS-DOS)
-@item info dos pde
-@itemx info dos pte
-These two commands display entries from, respectively, the Page
-Directory and the Page Tables. Page Directories and Page Tables are
-data structures which control how virtual memory addresses are mapped
-into physical addresses. A Page Table includes an entry for every
-page of memory that is mapped into the program's address space; there
-may be several Page Tables, each one holding up to 4096 entries. A
-Page Directory has up to 4096 entries, one each for every Page Table
-that is currently in use.
+[context?]
-Without an argument, @kbd{info dos pde} displays the entire Page
-Directory, and @kbd{info dos pte} displays all the entries in all of
-the Page Tables. An argument, an integer expression, given to the
-@kbd{info dos pde} command means display only that entry from the Page
-Directory table. An argument given to the @kbd{info dos pte} command
-means display entries from a single Page Table, the one pointed to by
-the specified entry in the Page Directory.
+@table @code
-These commands are useful when your program uses @dfn{DMA} (Direct
-Memory Access), which needs physical addresses to program the DMA
-controller.
+@kindex target rombug
+@item target rombug @var{dev}
+ROMBUG ROM monitor for OS/9000.
-These commands are supported only with some DPMI servers.
+@end table
-@cindex physical address from linear address
-@item info dos address-pte
-This command displays the Page Table entry for a specified linear
-address. The argument linear address should already have the
-appropriate segment's base address added to it, because this command
-accepts addresses which may belong to @emph{any} segment. For
-example, here's how to display the Page Table entry for the page where
-the variable @code{i} is stored:
+@node M88K
+@subsection M88K
-@smallexample
-(@value{GDBP}) info dos address-pte __djgpp_base_address + (char *)&i
-Page Table entry for address 0x11a00d30:
-Base=0x02698000 Dirty Acc. Not-Cached Write-Back Usr Read-Write +0xd30
-@end smallexample
+@table @code
-@noindent
-This says that @code{i} is stored at offset @code{0xd30} from the page
-whose physical base address is @code{0x02698000}, and prints all the
-attributes of that page.
+@kindex target bug
+@item target bug @var{dev}
+BUG monitor, running on a MVME187 (m88k) board.
-Note that you must cast the addresses of variables to a @code{char *},
-since otherwise the value of @code{__djgpp_base_address}, the base
-address of all variables and functions in a @sc{djgpp} program, will
-be added using the rules of C pointer arithmetics: if @code{i} is
-declared an @code{int}, @value{GDBN} will add 4 times the value of
-@code{__djgpp_base_address} to the address of @code{i}.
+@end table
-Here's another example, it displays the Page Table entry for the
-transfer buffer:
+@node MIPS Embedded
+@subsection MIPS Embedded
-@smallexample
-(@value{GDBP}) info dos address-pte *((unsigned *)&_go32_info_block + 3)
-Page Table entry for address 0x29110:
-Base=0x00029000 Dirty Acc. Not-Cached Write-Back Usr Read-Write +0x110
-@end smallexample
+@cindex MIPS boards
+@value{GDBN} can use the MIPS remote debugging protocol to talk to a
+MIPS board attached to a serial line. This is available when
+you configure @value{GDBN} with @samp{--target=mips-idt-ecoff}.
-@noindent
-(The @code{+ 3} offset is because the transfer buffer's address is the
-3rd member of the @code{_go32_info_block} structure.) The output of
-this command clearly shows that addresses in conventional memory are
-mapped 1:1, i.e.@: the physical and linear addresses are identical.
+@need 1000
+Use these @value{GDBN} commands to specify the connection to your target board:
-This command is supported only with some DPMI servers.
-@end table
+@table @code
+@item target mips @var{port}
+@kindex target mips @var{port}
+To run a program on the board, start up @code{@value{GDBP}} with the
+name of your program as the argument. To connect to the board, use the
+command @samp{target mips @var{port}}, where @var{port} is the name of
+the serial port connected to the board. If the program has not already
+been downloaded to the board, you may use the @code{load} command to
+download it. You can then use all the usual @value{GDBN} commands.
-@node Embedded OS
-@section Embedded Operating Systems
+For example, this sequence connects to the target board through a serial
+port, and loads and runs a program called @var{prog} through the
+debugger:
-This section describes configurations involving the debugging of
-embedded operating systems that are available for several different
-architectures.
+@example
+host$ @value{GDBP} @var{prog}
+@value{GDBN} is free software and @dots{}
+(@value{GDBP}) target mips /dev/ttyb
+(@value{GDBP}) load @var{prog}
+(@value{GDBP}) run
+@end example
-@menu
-* VxWorks:: Using @value{GDBN} with VxWorks
-@end menu
+@item target mips @var{hostname}:@var{portnumber}
+On some @value{GDBN} host configurations, you can specify a TCP
+connection (for instance, to a serial line managed by a terminal
+concentrator) instead of a serial port, using the syntax
+@samp{@var{hostname}:@var{portnumber}}.
-@value{GDBN} includes the ability to debug programs running on
-various real-time operating systems.
+@item target pmon @var{port}
+@kindex target pmon @var{port}
+PMON ROM monitor.
-@node VxWorks
-@subsection Using @value{GDBN} with VxWorks
+@item target ddb @var{port}
+@kindex target ddb @var{port}
+NEC's DDB variant of PMON for Vr4300.
-@cindex VxWorks
+@item target lsi @var{port}
+@kindex target lsi @var{port}
+LSI variant of PMON.
-@table @code
+@kindex target r3900
+@item target r3900 @var{dev}
+Densan DVE-R3900 ROM monitor for Toshiba R3900 Mips.
-@kindex target vxworks
-@item target vxworks @var{machinename}
-A VxWorks system, attached via TCP/IP. The argument @var{machinename}
-is the target system's machine name or IP address.
+@kindex target array
+@item target array @var{dev}
+Array Tech LSI33K RAID controller board.
@end table
-On VxWorks, @code{load} links @var{filename} dynamically on the
-current target system as well as adding its symbols in @value{GDBN}.
-@value{GDBN} enables developers to spawn and debug tasks running on networked
-VxWorks targets from a Unix host. Already-running tasks spawned from
-the VxWorks shell can also be debugged. @value{GDBN} uses code that runs on
-both the Unix host and on the VxWorks target. The program
-@code{@value{GDBP}} is installed and executed on the Unix host. (It may be
-installed with the name @code{vxgdb}, to distinguish it from a
-@value{GDBN} for debugging programs on the host itself.)
+@noindent
+@value{GDBN} also supports these special commands for MIPS targets:
@table @code
-@item VxWorks-timeout @var{args}
-@kindex vxworks-timeout
-All VxWorks-based targets now support the option @code{vxworks-timeout}.
-This option is set by the user, and @var{args} represents the number of
-seconds @value{GDBN} waits for responses to rpc's. You might use this if
-your VxWorks target is a slow software simulator or is on the far side
-of a thin network line.
-@end table
+@item set processor @var{args}
+@itemx show processor
+@kindex set processor @var{args}
+@kindex show processor
+Use the @code{set processor} command to set the type of MIPS
+processor when you want to access processor-type-specific registers.
+For example, @code{set processor @var{r3041}} tells @value{GDBN}
+to use the CPU registers appropriate for the 3041 chip.
+Use the @code{show processor} command to see what MIPS processor @value{GDBN}
+is using. Use the @code{info reg} command to see what registers
+@value{GDBN} is using.
-The following information on connecting to VxWorks was current when
-this manual was produced; newer releases of VxWorks may use revised
-procedures.
+@item set mipsfpu double
+@itemx set mipsfpu single
+@itemx set mipsfpu none
+@itemx show mipsfpu
+@kindex set mipsfpu
+@kindex show mipsfpu
+@cindex MIPS remote floating point
+@cindex floating point, MIPS remote
+If your target board does not support the MIPS floating point
+coprocessor, you should use the command @samp{set mipsfpu none} (if you
+need this, you may wish to put the command in your @value{GDBN} init
+file). This tells @value{GDBN} how to find the return value of
+functions which return floating point values. It also allows
+@value{GDBN} to avoid saving the floating point registers when calling
+functions on the board. If you are using a floating point coprocessor
+with only single precision floating point support, as on the @sc{r4650}
+processor, use the command @samp{set mipsfpu single}. The default
+double precision floating point coprocessor may be selected using
+@samp{set mipsfpu double}.
-@kindex INCLUDE_RDB
-To use @value{GDBN} with VxWorks, you must rebuild your VxWorks kernel
-to include the remote debugging interface routines in the VxWorks
-library @file{rdb.a}. To do this, define @code{INCLUDE_RDB} in the
-VxWorks configuration file @file{configAll.h} and rebuild your VxWorks
-kernel. The resulting kernel contains @file{rdb.a}, and spawns the
-source debugging task @code{tRdbTask} when VxWorks is booted. For more
-information on configuring and remaking VxWorks, see the manufacturer's
-manual.
-@c VxWorks, see the @cite{VxWorks Programmer's Guide}.
+In previous versions the only choices were double precision or no
+floating point, so @samp{set mipsfpu on} will select double precision
+and @samp{set mipsfpu off} will select no floating point.
-Once you have included @file{rdb.a} in your VxWorks system image and set
-your Unix execution search path to find @value{GDBN}, you are ready to
-run @value{GDBN}. From your Unix host, run @code{@value{GDBP}} (or
-@code{vxgdb}, depending on your installation).
+As usual, you can inquire about the @code{mipsfpu} variable with
+@samp{show mipsfpu}.
-@value{GDBN} comes up showing the prompt:
+@item set remotedebug @var{n}
+@itemx show remotedebug
+@kindex set remotedebug@r{, MIPS protocol}
+@kindex show remotedebug@r{, MIPS protocol}
+@cindex @code{remotedebug}, MIPS protocol
+@cindex MIPS @code{remotedebug} protocol
+@c FIXME! For this to be useful, you must know something about the MIPS
+@c FIXME...protocol. Where is it described?
+You can see some debugging information about communications with the board
+by setting the @code{remotedebug} variable. If you set it to @code{1} using
+@samp{set remotedebug 1}, every packet is displayed. If you set it
+to @code{2}, every character is displayed. You can check the current value
+at any time with the command @samp{show remotedebug}.
-@example
-(vxgdb)
-@end example
+@item set timeout @var{seconds}
+@itemx set retransmit-timeout @var{seconds}
+@itemx show timeout
+@itemx show retransmit-timeout
+@cindex @code{timeout}, MIPS protocol
+@cindex @code{retransmit-timeout}, MIPS protocol
+@kindex set timeout
+@kindex show timeout
+@kindex set retransmit-timeout
+@kindex show retransmit-timeout
+You can control the timeout used while waiting for a packet, in the MIPS
+remote protocol, with the @code{set timeout @var{seconds}} command. The
+default is 5 seconds. Similarly, you can control the timeout used while
+waiting for an acknowledgement of a packet with the @code{set
+retransmit-timeout @var{seconds}} command. The default is 3 seconds.
+You can inspect both values with @code{show timeout} and @code{show
+retransmit-timeout}. (These commands are @emph{only} available when
+@value{GDBN} is configured for @samp{--target=mips-idt-ecoff}.)
-@menu
-* VxWorks Connection:: Connecting to VxWorks
-* VxWorks Download:: VxWorks download
-* VxWorks Attach:: Running tasks
-@end menu
+The timeout set by @code{set timeout} does not apply when @value{GDBN}
+is waiting for your program to stop. In that case, @value{GDBN} waits
+forever because it has no way of knowing how long the program is going
+to run before stopping.
+@end table
-@node VxWorks Connection
-@subsubsection Connecting to VxWorks
+@node PowerPC
+@subsection PowerPC
-The @value{GDBN} command @code{target} lets you connect to a VxWorks target on the
-network. To connect to a target whose host name is ``@code{tt}'', type:
+@table @code
-@example
-(vxgdb) target vxworks tt
-@end example
+@kindex target dink32
+@item target dink32 @var{dev}
+DINK32 ROM monitor.
-@need 750
-@value{GDBN} displays messages like these:
+@kindex target ppcbug
+@item target ppcbug @var{dev}
+@kindex target ppcbug1
+@item target ppcbug1 @var{dev}
+PPCBUG ROM monitor for PowerPC.
-@smallexample
-Attaching remote machine across net...
-Connected to tt.
-@end smallexample
+@kindex target sds
+@item target sds @var{dev}
+SDS monitor, running on a PowerPC board (such as Motorola's ADS).
-@need 1000
-@value{GDBN} then attempts to read the symbol tables of any object modules
-loaded into the VxWorks target since it was last booted. @value{GDBN} locates
-these files by searching the directories listed in the command search
-path (@pxref{Environment, ,Your program's environment}); if it fails
-to find an object file, it displays a message such as:
+@end table
-@example
-prog.o: No such file or directory.
-@end example
+@node PA
+@subsection HP PA Embedded
-When this happens, add the appropriate directory to the search path with
-the @value{GDBN} command @code{path}, and execute the @code{target}
-command again.
+@table @code
-@node VxWorks Download
-@subsubsection VxWorks download
+@kindex target op50n
+@item target op50n @var{dev}
+OP50N monitor, running on an OKI HPPA board.
-@cindex download to VxWorks
-If you have connected to the VxWorks target and you want to debug an
-object that has not yet been loaded, you can use the @value{GDBN}
-@code{load} command to download a file from Unix to VxWorks
-incrementally. The object file given as an argument to the @code{load}
-command is actually opened twice: first by the VxWorks target in order
-to download the code, then by @value{GDBN} in order to read the symbol
-table. This can lead to problems if the current working directories on
-the two systems differ. If both systems have NFS mounted the same
-filesystems, you can avoid these problems by using absolute paths.
-Otherwise, it is simplest to set the working directory on both systems
-to the directory in which the object file resides, and then to reference
-the file by its name, without any path. For instance, a program
-@file{prog.o} may reside in @file{@var{vxpath}/vw/demo/rdb} in VxWorks
-and in @file{@var{hostpath}/vw/demo/rdb} on the host. To load this
-program, type this on VxWorks:
+@kindex target w89k
+@item target w89k @var{dev}
+W89K monitor, running on a Winbond HPPA board.
-@example
--> cd "@var{vxpath}/vw/demo/rdb"
-@end example
+@end table
-@noindent
-Then, in @value{GDBN}, type:
+@node SH
+@subsection Hitachi SH
-@example
-(vxgdb) cd @var{hostpath}/vw/demo/rdb
-(vxgdb) load prog.o
-@end example
+@table @code
-@value{GDBN} displays a response similar to this:
+@kindex target hms@r{, with Hitachi SH}
+@item target hms @var{dev}
+A Hitachi SH board attached via serial line to your host. Use special
+commands @code{device} and @code{speed} to control the serial line and
+the communications speed used.
-@smallexample
-Reading symbol data from wherever/vw/demo/rdb/prog.o... done.
-@end smallexample
+@kindex target e7000@r{, with Hitachi SH}
+@item target e7000 @var{dev}
+E7000 emulator for Hitachi SH.
-You can also use the @code{load} command to reload an object module
-after editing and recompiling the corresponding source file. Note that
-this makes @value{GDBN} delete all currently-defined breakpoints,
-auto-displays, and convenience variables, and to clear the value
-history. (This is necessary in order to preserve the integrity of
-debugger's data structures that reference the target system's symbol
-table.)
+@kindex target sh3@r{, with SH}
+@kindex target sh3e@r{, with SH}
+@item target sh3 @var{dev}
+@item target sh3e @var{dev}
+Hitachi SH-3 and SH-3E target systems.
-@node VxWorks Attach
-@subsubsection Running tasks
+@end table
-@cindex running VxWorks tasks
-You can also attach to an existing task using the @code{attach} command as
-follows:
+@node Sparclet
+@subsection Tsqware Sparclet
-@example
-(vxgdb) attach @var{task}
-@end example
+@cindex Sparclet
-@noindent
-where @var{task} is the VxWorks hexadecimal task ID. The task can be running
-or suspended when you attach to it. Running tasks are suspended at
-the time of attachment.
+@value{GDBN} enables developers to debug tasks running on
+Sparclet targets from a Unix host.
+@value{GDBN} uses code that runs on
+both the Unix host and on the Sparclet target. The program
+@code{@value{GDBP}} is installed and executed on the Unix host.
-@node Embedded Processors
-@section Embedded Processors
+@table @code
+@item remotetimeout @var{args}
+@kindex remotetimeout
+@value{GDBN} supports the option @code{remotetimeout}.
+This option is set by the user, and @var{args} represents the number of
+seconds @value{GDBN} waits for responses.
+@end table
-This section goes into details specific to particular embedded
-configurations.
+@cindex compiling, on Sparclet
+When compiling for debugging, include the options @samp{-g} to get debug
+information and @samp{-Ttext} to relocate the program to where you wish to
+load it on the target. You may also want to add the options @samp{-n} or
+@samp{-N} in order to reduce the size of the sections. Example:
-@menu
-* A29K Embedded:: AMD A29K Embedded
-* ARM:: ARM
-* H8/300:: Hitachi H8/300
-* H8/500:: Hitachi H8/500
-* i960:: Intel i960
-* M32R/D:: Mitsubishi M32R/D
-* M68K:: Motorola M68K
-* M88K:: Motorola M88K
-* MIPS Embedded:: MIPS Embedded
-* PA:: HP PA Embedded
-* PowerPC: PowerPC
-* SH:: Hitachi SH
-* Sparclet:: Tsqware Sparclet
-* Sparclite:: Fujitsu Sparclite
-* ST2000:: Tandem ST2000
-* Z8000:: Zilog Z8000
-@end menu
-
-@node A29K Embedded
-@subsection AMD A29K Embedded
+@example
+sparclet-aout-gcc prog.c -Ttext 0x12010000 -g -o prog -N
+@end example
-@menu
-* A29K UDI::
-* A29K EB29K::
-* Comms (EB29K):: Communications setup
-* gdb-EB29K:: EB29K cross-debugging
-* Remote Log:: Remote log
-@end menu
+You can use @code{objdump} to verify that the addresses are what you intended:
-@table @code
+@example
+sparclet-aout-objdump --headers --syms prog
+@end example
-@kindex target adapt
-@item target adapt @var{dev}
-Adapt monitor for A29K.
+@cindex running, on Sparclet
+Once you have set
+your Unix execution search path to find @value{GDBN}, you are ready to
+run @value{GDBN}. From your Unix host, run @code{@value{GDBP}}
+(or @code{sparclet-aout-gdb}, depending on your installation).
-@kindex target amd-eb
-@item target amd-eb @var{dev} @var{speed} @var{PROG}
-@cindex AMD EB29K
-Remote PC-resident AMD EB29K board, attached over serial lines.
-@var{dev} is the serial device, as for @code{target remote};
-@var{speed} allows you to specify the linespeed; and @var{PROG} is the
-name of the program to be debugged, as it appears to DOS on the PC.
-@xref{A29K EB29K, ,EBMON protocol for AMD29K}.
+@value{GDBN} comes up showing the prompt:
-@end table
+@example
+(gdbslet)
+@end example
-@node A29K UDI
-@subsubsection A29K UDI
+@menu
+* Sparclet File:: Setting the file to debug
+* Sparclet Connection:: Connecting to Sparclet
+* Sparclet Download:: Sparclet download
+* Sparclet Execution:: Running and debugging
+@end menu
-@cindex UDI
-@cindex AMD29K via UDI
+@node Sparclet File
+@subsubsection Setting file to debug
-@value{GDBN} supports AMD's UDI (``Universal Debugger Interface'')
-protocol for debugging the a29k processor family. To use this
-configuration with AMD targets running the MiniMON monitor, you need the
-program @code{MONTIP}, available from AMD at no charge. You can also
-use @value{GDBN} with the UDI-conformant a29k simulator program
-@code{ISSTIP}, also available from AMD.
+The @value{GDBN} command @code{file} lets you choose with program to debug.
-@table @code
-@item target udi @var{keyword}
-@kindex udi
-Select the UDI interface to a remote a29k board or simulator, where
-@var{keyword} is an entry in the AMD configuration file @file{udi_soc}.
-This file contains keyword entries which specify parameters used to
-connect to a29k targets. If the @file{udi_soc} file is not in your
-working directory, you must set the environment variable @samp{UDICONF}
-to its pathname.
-@end table
+@example
+(gdbslet) file prog
+@end example
-@node A29K EB29K
-@subsubsection EBMON protocol for AMD29K
+@need 1000
+@value{GDBN} then attempts to read the symbol table of @file{prog}.
+@value{GDBN} locates
+the file by searching the directories listed in the command search
+path.
+If the file was compiled with debug information (option "-g"), source
+files will be searched as well.
+@value{GDBN} locates
+the source files by searching the directories listed in the directory search
+path (@pxref{Environment, ,Your program's environment}).
+If it fails
+to find a file, it displays a message such as:
-@cindex EB29K board
-@cindex running 29K programs
+@example
+prog: No such file or directory.
+@end example
-AMD distributes a 29K development board meant to fit in a PC, together
-with a DOS-hosted monitor program called @code{EBMON}. As a shorthand
-term, this development system is called the ``EB29K''. To use
-@value{GDBN} from a Unix system to run programs on the EB29K board, you
-must first connect a serial cable between the PC (which hosts the EB29K
-board) and a serial port on the Unix system. In the following, we
-assume you've hooked the cable between the PC's @file{COM1} port and
-@file{/dev/ttya} on the Unix system.
+When this happens, add the appropriate directories to the search paths with
+the @value{GDBN} commands @code{path} and @code{dir}, and execute the
+@code{target} command again.
-@node Comms (EB29K)
-@subsubsection Communications setup
+@node Sparclet Connection
+@subsubsection Connecting to Sparclet
-The next step is to set up the PC's port, by doing something like this
-in DOS on the PC:
+The @value{GDBN} command @code{target} lets you connect to a Sparclet target.
+To connect to a target on serial port ``@code{ttya}'', type:
@example
-C:\> MODE com1:9600,n,8,1,none
+(gdbslet) target sparclet /dev/ttya
+Remote target sparclet connected to /dev/ttya
+main () at ../prog.c:3
@end example
-@noindent
-This example---run on an MS DOS 4.0 system---sets the PC port to 9600
-bps, no parity, eight data bits, one stop bit, and no ``retry'' action;
-you must match the communications parameters when establishing the Unix
-end of the connection as well.
-@c FIXME: Who knows what this "no retry action" crud from the DOS manual may
-@c mean? It's optional; leave it out? ---doc@cygnus.com, 25feb91
-@c
-@c It's optional, but it's unwise to omit it: who knows what is the
-@c default value set when the DOS machines boots? "No retry" means that
-@c the DOS serial device driver won't retry the operation if it fails;
-@c I understand that this is needed because the GDB serial protocol
-@c handles any errors and retransmissions itself. ---Eli Zaretskii, 3sep99
-
-To give control of the PC to the Unix side of the serial line, type
-the following at the DOS console:
+@need 750
+@value{GDBN} displays messages like these:
@example
-C:\> CTTY com1
+Connected to ttya.
@end example
-@noindent
-(Later, if you wish to return control to the DOS console, you can use
-the command @code{CTTY con}---but you must send it over the device that
-had control, in our example over the @file{COM1} serial line.)
+@node Sparclet Download
+@subsubsection Sparclet download
-From the Unix host, use a communications program such as @code{tip} or
-@code{cu} to communicate with the PC; for example,
+@cindex download to Sparclet
+Once connected to the Sparclet target,
+you can use the @value{GDBN}
+@code{load} command to download the file from the host to the target.
+The file name and load offset should be given as arguments to the @code{load}
+command.
+Since the file format is aout, the program must be loaded to the starting
+address. You can use @code{objdump} to find out what this value is. The load
+offset is an offset which is added to the VMA (virtual memory address)
+of each of the file's sections.
+For instance, if the program
+@file{prog} was linked to text address 0x1201000, with data at 0x12010160
+and bss at 0x12010170, in @value{GDBN}, type:
@example
-cu -s 9600 -l /dev/ttya
+(gdbslet) load prog 0x12010000
+Loading section .text, size 0xdb0 vma 0x12010000
@end example
-@noindent
-The @code{cu} options shown specify, respectively, the linespeed and the
-serial port to use. If you use @code{tip} instead, your command line
-may look something like the following:
+If the code is loaded at a different address then what the program was linked
+to, you may need to use the @code{section} and @code{add-symbol-file} commands
+to tell @value{GDBN} where to map the symbol table.
-@example
-tip -9600 /dev/ttya
-@end example
+@node Sparclet Execution
+@subsubsection Running and debugging
-@noindent
-Your system may require a different name where we show
-@file{/dev/ttya} as the argument to @code{tip}. The communications
-parameters, including which port to use, are associated with the
-@code{tip} argument in the ``remote'' descriptions file---normally the
-system table @file{/etc/remote}.
-@c FIXME: What if anything needs doing to match the "n,8,1,none" part of
-@c the DOS side's comms setup? cu can support -o (odd
-@c parity), -e (even parity)---apparently no settings for no parity or
-@c for character size. Taken from stty maybe...? John points out tip
-@c can set these as internal variables, eg ~s parity=none; man stty
-@c suggests that it *might* work to stty these options with stdin or
-@c stdout redirected... ---doc@cygnus.com, 25feb91
-@c
-@c There's nothing to be done for the "none" part of the DOS MODE
-@c command. The rest of the parameters should be matched by the
-@c baudrate, bits, and parity used by the Unix side. ---Eli Zaretskii, 3Sep99
-
-@kindex EBMON
-Using the @code{tip} or @code{cu} connection, change the DOS working
-directory to the directory containing a copy of your 29K program, then
-start the PC program @code{EBMON} (an EB29K control program supplied
-with your board by AMD). You should see an initial display from
-@code{EBMON} similar to the one that follows, ending with the
-@code{EBMON} prompt @samp{#}---
+@cindex running and debugging Sparclet programs
+You can now begin debugging the task using @value{GDBN}'s execution control
+commands, @code{b}, @code{step}, @code{run}, etc. See the @value{GDBN}
+manual for the list of commands.
@example
-C:\> G:
+(gdbslet) b main
+Breakpoint 1 at 0x12010000: file prog.c, line 3.
+(gdbslet) run
+Starting program: prog
+Breakpoint 1, main (argc=1, argv=0xeffff21c) at prog.c:3
+3 char *symarg = 0;
+(gdbslet) step
+4 char *execarg = "hello!";
+(gdbslet)
+@end example
-G:\> CD \usr\joe\work29k
+@node Sparclite
+@subsection Fujitsu Sparclite
-G:\USR\JOE\WORK29K> EBMON
-Am29000 PC Coprocessor Board Monitor, version 3.0-18
-Copyright 1990 Advanced Micro Devices, Inc.
-Written by Gibbons and Associates, Inc.
+@table @code
-Enter '?' or 'H' for help
+@kindex target sparclite
+@item target sparclite @var{dev}
+Fujitsu sparclite boards, used only for the purpose of loading.
+You must use an additional command to debug the program.
+For example: target remote @var{dev} using @value{GDBN} standard
+remote protocol.
-PC Coprocessor Type = EB29K
-I/O Base = 0x208
-Memory Base = 0xd0000
+@end table
-Data Memory Size = 2048KB
-Available I-RAM Range = 0x8000 to 0x1fffff
-Available D-RAM Range = 0x80002000 to 0x801fffff
+@node ST2000
+@subsection Tandem ST2000
-PageSize = 0x400
-Register Stack Size = 0x800
-Memory Stack Size = 0x1800
+@value{GDBN} may be used with a Tandem ST2000 phone switch, running Tandem's
+STDBUG protocol.
-CPU PRL = 0x3
-Am29027 Available = No
-Byte Write Available = Yes
+To connect your ST2000 to the host system, see the manufacturer's
+manual. Once the ST2000 is physically attached, you can run:
-# ~.
+@example
+target st2000 @var{dev} @var{speed}
@end example
-Then exit the @code{cu} or @code{tip} program (done in the example by
-typing @code{~.} at the @code{EBMON} prompt). @code{EBMON} keeps
-running, ready for @value{GDBN} to take over.
-
-For this example, we've assumed what is probably the most convenient
-way to make sure the same 29K program is on both the PC and the Unix
-system: a PC/NFS connection that establishes ``drive @file{G:}'' on the
-PC as a file system on the Unix host. If you do not have PC/NFS or
-something similar connecting the two systems, you must arrange some
-other way---perhaps floppy-disk transfer---of getting the 29K program
-from the Unix system to the PC; @value{GDBN} does @emph{not} download it over the
-serial line.
+@noindent
+to establish it as your debugging environment. @var{dev} is normally
+the name of a serial device, such as @file{/dev/ttya}, connected to the
+ST2000 via a serial line. You can instead specify @var{dev} as a TCP
+connection (for example, to a serial line attached via a terminal
+concentrator) using the syntax @code{@var{hostname}:@var{portnumber}}.
-@node gdb-EB29K
-@subsubsection EB29K cross-debugging
+The @code{load} and @code{attach} commands are @emph{not} defined for
+this target; you must load your program into the ST2000 as you normally
+would for standalone operation. @value{GDBN} reads debugging information
+(such as symbols) from a separate, debugging version of the program
+available on your host computer.
+@c FIXME!! This is terribly vague; what little content is here is
+@c basically hearsay.
-Finally, @code{cd} to the directory containing an image of your 29K
-program on the Unix system, and start @value{GDBN}---specifying as argument the
-name of your 29K program:
+@cindex ST2000 auxiliary commands
+These auxiliary @value{GDBN} commands are available to help you with the ST2000
+environment:
-@example
-cd /usr/joe/work29k
-@value{GDBP} myfoo
-@end example
+@table @code
+@item st2000 @var{command}
+@kindex st2000 @var{cmd}
+@cindex STDBUG commands (ST2000)
+@cindex commands to STDBUG (ST2000)
+Send a @var{command} to the STDBUG monitor. See the manufacturer's
+manual for available commands.
-@need 500
-Now you can use the @code{target} command:
+@item connect
+@cindex connect (to STDBUG)
+Connect the controlling terminal to the STDBUG command monitor. When
+you are done interacting with STDBUG, typing either of two character
+sequences gets you back to the @value{GDBN} command prompt:
+@kbd{@key{RET}~.} (Return, followed by tilde and period) or
+@kbd{@key{RET}~@key{C-d}} (Return, followed by tilde and control-D).
+@end table
-@example
-target amd-eb /dev/ttya 9600 MYFOO
-@c FIXME: test above 'target amd-eb' as spelled, with caps! caps are meant to
-@c emphasize that this is the name as seen by DOS (since I think DOS is
-@c single-minded about case of letters). ---doc@cygnus.com, 25feb91
-@end example
+@node Z8000
+@subsection Zilog Z8000
-@noindent
-In this example, we've assumed your program is in a file called
-@file{myfoo}. Note that the filename given as the last argument to
-@code{target amd-eb} should be the name of the program as it appears to DOS.
-In our example this is simply @code{MYFOO}, but in general it can include
-a DOS path, and depending on your transfer mechanism may not resemble
-the name on the Unix side.
-
-At this point, you can set any breakpoints you wish; when you are ready
-to see your program run on the 29K board, use the @value{GDBN} command
-@code{run}.
-
-To stop debugging the remote program, use the @value{GDBN} @code{detach}
-command.
+@cindex Z8000
+@cindex simulator, Z8000
+@cindex Zilog Z8000 simulator
-To return control of the PC to its console, use @code{tip} or @code{cu}
-once again, after your @value{GDBN} session has concluded, to attach to
-@code{EBMON}. You can then type the command @code{q} to shut down
-@code{EBMON}, returning control to the DOS command-line interpreter.
-Type @kbd{CTTY con} to return command input to the main DOS console,
-and type @kbd{~.} to leave @code{tip} or @code{cu}.
-
-@node Remote Log
-@subsubsection Remote log
-@cindex @file{eb.log}, a log file for EB29K
-@cindex log file for EB29K
-
-The @code{target amd-eb} command creates a file @file{eb.log} in the
-current working directory, to help debug problems with the connection.
-@file{eb.log} records all the output from @code{EBMON}, including echoes
-of the commands sent to it. Running @samp{tail -f} on this file in
-another window often helps to understand trouble with @code{EBMON}, or
-unexpected events on the PC side of the connection.
+When configured for debugging Zilog Z8000 targets, @value{GDBN} includes
+a Z8000 simulator.
-@node ARM
-@subsection ARM
+For the Z8000 family, @samp{target sim} simulates either the Z8002 (the
+unsegmented variant of the Z8000 architecture) or the Z8001 (the
+segmented variant). The simulator recognizes which architecture is
+appropriate by inspecting the object code.
@table @code
-
-@kindex target rdi
-@item target rdi @var{dev}
-ARM Angel monitor, via RDI library interface to ADP protocol. You may
-use this target to communicate with both boards running the Angel
-monitor, or with the EmbeddedICE JTAG debug device.
-
-@kindex target rdp
-@item target rdp @var{dev}
-ARM Demon monitor.
-
+@item target sim @var{args}
+@kindex sim
+@kindex target sim@r{, with Z8000}
+Debug programs on a simulated CPU. If the simulator supports setup
+options, specify them via @var{args}.
@end table
-@node H8/300
-@subsection Hitachi H8/300
+@noindent
+After specifying this target, you can debug programs for the simulated
+CPU in the same style as programs for your host computer; use the
+@code{file} command to load a new program image, the @code{run} command
+to run your program, and so on.
+
+As well as making available all the usual machine registers
+(@pxref{Registers, ,Registers}), the Z8000 simulator provides three
+additional items of information as specially named registers:
@table @code
-@kindex target hms@r{, with H8/300}
-@item target hms @var{dev}
-A Hitachi SH, H8/300, or H8/500 board, attached via serial line to your host.
-Use special commands @code{device} and @code{speed} to control the serial
-line and the communications speed used.
+@item cycles
+Counts clock-ticks in the simulator.
-@kindex target e7000@r{, with H8/300}
-@item target e7000 @var{dev}
-E7000 emulator for Hitachi H8 and SH.
+@item insts
+Counts instructions run in the simulator.
-@kindex target sh3@r{, with H8/300}
-@kindex target sh3e@r{, with H8/300}
-@item target sh3 @var{dev}
-@itemx target sh3e @var{dev}
-Hitachi SH-3 and SH-3E target systems.
+@item time
+Execution time in 60ths of a second.
@end table
-@cindex download to H8/300 or H8/500
-@cindex H8/300 or H8/500 download
-@cindex download to Hitachi SH
-@cindex Hitachi SH download
-When you select remote debugging to a Hitachi SH, H8/300, or H8/500
-board, the @code{load} command downloads your program to the Hitachi
-board and also opens it as the current executable target for
-@value{GDBN} on your host (like the @code{file} command).
+You can refer to these values in @value{GDBN} expressions with the usual
+conventions; for example, @w{@samp{b fputc if $cycles>5000}} sets a
+conditional breakpoint that suspends only after at least 5000
+simulated clock ticks.
-@value{GDBN} needs to know these things to talk to your
-Hitachi SH, H8/300, or H8/500:
+@node Architectures
+@section Architectures
-@enumerate
-@item
-that you want to use @samp{target hms}, the remote debugging interface
-for Hitachi microprocessors, or @samp{target e7000}, the in-circuit
-emulator for the Hitachi SH and the Hitachi 300H. (@samp{target hms} is
-the default when @value{GDBN} is configured specifically for the Hitachi SH,
-H8/300, or H8/500.)
-
-@item
-what serial device connects your host to your Hitachi board (the first
-serial device available on your host is the default).
-
-@item
-what speed to use over the serial device.
-@end enumerate
+This section describes characteristics of architectures that affect
+all uses of @value{GDBN} with the architecture, both native and cross.
@menu
-* Hitachi Boards:: Connecting to Hitachi boards.
-* Hitachi ICE:: Using the E7000 In-Circuit Emulator.
-* Hitachi Special:: Special @value{GDBN} commands for Hitachi micros.
+* A29K::
+* Alpha::
+* MIPS::
@end menu
-@node Hitachi Boards
-@subsubsection Connecting to Hitachi boards
+@node A29K
+@subsection A29K
-@c only for Unix hosts
-@kindex device
-@cindex serial device, Hitachi micros
-Use the special @code{@value{GDBN}} command @samp{device @var{port}} if you
-need to explicitly set the serial device. The default @var{port} is the
-first available port on your host. This is only necessary on Unix
-hosts, where it is typically something like @file{/dev/ttya}.
+@table @code
-@kindex speed
-@cindex serial line speed, Hitachi micros
-@code{@value{GDBN}} has another special command to set the communications
-speed: @samp{speed @var{bps}}. This command also is only used from Unix
-hosts; on DOS hosts, set the line speed as usual from outside @value{GDBN} with
-the DOS @code{mode} command (for instance,
-@w{@kbd{mode com2:9600,n,8,1,p}} for a 9600@dmn{bps} connection).
+@kindex set rstack_high_address
+@cindex AMD 29K register stack
+@cindex register stack, AMD29K
+@item set rstack_high_address @var{address}
+On AMD 29000 family processors, registers are saved in a separate
+@dfn{register stack}. There is no way for @value{GDBN} to determine the
+extent of this stack. Normally, @value{GDBN} just assumes that the
+stack is ``large enough''. This may result in @value{GDBN} referencing
+memory locations that do not exist. If necessary, you can get around
+this problem by specifying the ending address of the register stack with
+the @code{set rstack_high_address} command. The argument should be an
+address, which you probably want to precede with @samp{0x} to specify in
+hexadecimal.
-The @samp{device} and @samp{speed} commands are available only when you
-use a Unix host to debug your Hitachi microprocessor programs. If you
-use a DOS host,
-@value{GDBN} depends on an auxiliary terminate-and-stay-resident program
-called @code{asynctsr} to communicate with the development board
-through a PC serial port. You must also use the DOS @code{mode} command
-to set up the serial port on the DOS side.
+@kindex show rstack_high_address
+@item show rstack_high_address
+Display the current limit of the register stack, on AMD 29000 family
+processors.
-The following sample session illustrates the steps needed to start a
-program under @value{GDBN} control on an H8/300. The example uses a
-sample H8/300 program called @file{t.x}. The procedure is the same for
-the Hitachi SH and the H8/500.
+@end table
-First hook up your development board. In this example, we use a
-board attached to serial port @code{COM2}; if you use a different serial
-port, substitute its name in the argument of the @code{mode} command.
-When you call @code{asynctsr}, the auxiliary comms program used by the
-debugger, you give it just the numeric part of the serial port's name;
-for example, @samp{asyncstr 2} below runs @code{asyncstr} on
-@code{COM2}.
+@node Alpha
+@subsection Alpha
-@example
-C:\H8300\TEST> asynctsr 2
-C:\H8300\TEST> mode com2:9600,n,8,1,p
+See the following section.
-Resident portion of MODE loaded
+@node MIPS
+@subsection MIPS
-COM2: 9600, n, 8, 1, p
+@cindex stack on Alpha
+@cindex stack on MIPS
+@cindex Alpha stack
+@cindex MIPS stack
+Alpha- and MIPS-based computers use an unusual stack frame, which
+sometimes requires @value{GDBN} to search backward in the object code to
+find the beginning of a function.
-@end example
+@cindex response time, MIPS debugging
+To improve response time (especially for embedded applications, where
+@value{GDBN} may be restricted to a slow serial line for this search)
+you may want to limit the size of this search, using one of these
+commands:
-@quotation
-@emph{Warning:} We have noticed a bug in PC-NFS that conflicts with
-@code{asynctsr}. If you also run PC-NFS on your DOS host, you may need to
-disable it, or even boot without it, to use @code{asynctsr} to control
-your development board.
-@end quotation
+@table @code
+@cindex @code{heuristic-fence-post} (Alpha, MIPS)
+@item set heuristic-fence-post @var{limit}
+Restrict @value{GDBN} to examining at most @var{limit} bytes in its
+search for the beginning of a function. A value of @var{0} (the
+default) means there is no limit. However, except for @var{0}, the
+larger the limit the more bytes @code{heuristic-fence-post} must search
+and therefore the longer it takes to run.
-@kindex target hms@r{, and serial protocol}
-Now that serial communications are set up, and the development board is
-connected, you can start up @value{GDBN}. Call @code{@value{GDBP}} with
-the name of your program as the argument. @code{@value{GDBN}} prompts
-you, as usual, with the prompt @samp{(@value{GDBP})}. Use two special
-commands to begin your debugging session: @samp{target hms} to specify
-cross-debugging to the Hitachi board, and the @code{load} command to
-download your program to the board. @code{load} displays the names of
-the program's sections, and a @samp{*} for each 2K of data downloaded.
-(If you want to refresh @value{GDBN} data on symbols or on the
-executable file without downloading, use the @value{GDBN} commands
-@code{file} or @code{symbol-file}. These commands, and @code{load}
-itself, are described in @ref{Files,,Commands to specify files}.)
+@item show heuristic-fence-post
+Display the current limit.
+@end table
-@smallexample
-(eg-C:\H8300\TEST) @value{GDBP} t.x
-@value{GDBN} is free software and you are welcome to distribute copies
- of it under certain conditions; type "show copying" to see
- the conditions.
-There is absolutely no warranty for @value{GDBN}; type "show warranty"
-for details.
-@value{GDBN} @value{GDBVN}, Copyright 1992 Free Software Foundation, Inc...
-(@value{GDBP}) target hms
-Connected to remote H8/300 HMS system.
-(@value{GDBP}) load t.x
-.text : 0x8000 .. 0xabde ***********
-.data : 0xabde .. 0xad30 *
-.stack : 0xf000 .. 0xf014 *
-@end smallexample
+@noindent
+These commands are available @emph{only} when @value{GDBN} is configured
+for debugging programs on Alpha or MIPS processors.
-At this point, you're ready to run or debug your program. From here on,
-you can use all the usual @value{GDBN} commands. The @code{break} command
-sets breakpoints; the @code{run} command starts your program;
-@code{print} or @code{x} display data; the @code{continue} command
-resumes execution after stopping at a breakpoint. You can use the
-@code{help} command at any time to find out more about @value{GDBN} commands.
-Remember, however, that @emph{operating system} facilities aren't
-available on your development board; for example, if your program hangs,
-you can't send an interrupt---but you can press the @sc{reset} switch!
+@node Controlling GDB
+@chapter Controlling @value{GDBN}
-Use the @sc{reset} button on the development board
-@itemize @bullet
-@item
-to interrupt your program (don't use @kbd{ctl-C} on the DOS host---it has
-no way to pass an interrupt signal to the development board); and
+You can alter the way @value{GDBN} interacts with you by using the
+@code{set} command. For commands controlling how @value{GDBN} displays
+data, see @ref{Print Settings, ,Print settings}. Other settings are
+described here.
-@item
-to return to the @value{GDBN} command prompt after your program finishes
-normally. The communications protocol provides no other way for @value{GDBN}
-to detect program completion.
-@end itemize
+@menu
+* Prompt:: Prompt
+* Editing:: Command editing
+* History:: Command history
+* Screen Size:: Screen size
+* Numbers:: Numbers
+* Messages/Warnings:: Optional warnings and messages
+* Debugging Output:: Optional messages about internal happenings
+@end menu
-In either case, @value{GDBN} sees the effect of a @sc{reset} on the
-development board as a ``normal exit'' of your program.
+@node Prompt
+@section Prompt
-@node Hitachi ICE
-@subsubsection Using the E7000 in-circuit emulator
+@cindex prompt
-@kindex target e7000@r{, with Hitachi ICE}
-You can use the E7000 in-circuit emulator to develop code for either the
-Hitachi SH or the H8/300H. Use one of these forms of the @samp{target
-e7000} command to connect @value{GDBN} to your E7000:
+@value{GDBN} indicates its readiness to read a command by printing a string
+called the @dfn{prompt}. This string is normally @samp{(@value{GDBP})}. You
+can change the prompt string with the @code{set prompt} command. For
+instance, when debugging @value{GDBN} with @value{GDBN}, it is useful to change
+the prompt in one of the @value{GDBN} sessions so that you can always tell
+which one you are talking to.
+
+@emph{Note:} @code{set prompt} does not add a space for you after the
+prompt you set. This allows you to set a prompt which ends in a space
+or a prompt that does not.
@table @code
-@item target e7000 @var{port} @var{speed}
-Use this form if your E7000 is connected to a serial port. The
-@var{port} argument identifies what serial port to use (for example,
-@samp{com2}). The third argument is the line speed in bits per second
-(for example, @samp{9600}).
+@kindex set prompt
+@item set prompt @var{newprompt}
+Directs @value{GDBN} to use @var{newprompt} as its prompt string henceforth.
-@item target e7000 @var{hostname}
-If your E7000 is installed as a host on a TCP/IP network, you can just
-specify its hostname; @value{GDBN} uses @code{telnet} to connect.
+@kindex show prompt
+@item show prompt
+Prints a line of the form: @samp{Gdb's prompt is: @var{your-prompt}}
@end table
-@node Hitachi Special
-@subsubsection Special @value{GDBN} commands for Hitachi micros
+@node Editing
+@section Command editing
+@cindex readline
+@cindex command line editing
-Some @value{GDBN} commands are available only for the H8/300:
+@value{GDBN} reads its input commands via the @dfn{readline} interface. This
+@sc{gnu} library provides consistent behavior for programs which provide a
+command line interface to the user. Advantages are @sc{gnu} Emacs-style
+or @dfn{vi}-style inline editing of commands, @code{csh}-like history
+substitution, and a storage and recall of command history across
+debugging sessions.
+
+You may control the behavior of command line editing in @value{GDBN} with the
+command @code{set}.
@table @code
+@kindex set editing
+@cindex editing
+@item set editing
+@itemx set editing on
+Enable command line editing (enabled by default).
-@kindex set machine
-@kindex show machine
-@item set machine h8300
-@itemx set machine h8300h
-Condition @value{GDBN} for one of the two variants of the H8/300
-architecture with @samp{set machine}. You can use @samp{show machine}
-to check which variant is currently in effect.
+@item set editing off
+Disable command line editing.
+@kindex show editing
+@item show editing
+Show whether command line editing is enabled.
@end table
-@node H8/500
-@subsection H8/500
-
-@table @code
+@node History
+@section Command history
-@kindex set memory @var{mod}
-@cindex memory models, H8/500
-@item set memory @var{mod}
-@itemx show memory
-Specify which H8/500 memory model (@var{mod}) you are using with
-@samp{set memory}; check which memory model is in effect with @samp{show
-memory}. The accepted values for @var{mod} are @code{small},
-@code{big}, @code{medium}, and @code{compact}.
-
-@end table
-
-@node i960
-@subsection Intel i960
+@value{GDBN} can keep track of the commands you type during your
+debugging sessions, so that you can be certain of precisely what
+happened. Use these commands to manage the @value{GDBN} command
+history facility.
@table @code
+@cindex history substitution
+@cindex history file
+@kindex set history filename
+@kindex GDBHISTFILE
+@item set history filename @var{fname}
+Set the name of the @value{GDBN} command history file to @var{fname}.
+This is the file where @value{GDBN} reads an initial command history
+list, and where it writes the command history from this session when it
+exits. You can access this list through history expansion or through
+the history command editing characters listed below. This file defaults
+to the value of the environment variable @code{GDBHISTFILE}, or to
+@file{./.gdb_history} (@file{./_gdb_history} on MS-DOS) if this variable
+is not set.
-@kindex target mon960
-@item target mon960 @var{dev}
-MON960 monitor for Intel i960.
+@cindex history save
+@kindex set history save
+@item set history save
+@itemx set history save on
+Record command history in a file, whose name may be specified with the
+@code{set history filename} command. By default, this option is disabled.
-@kindex target nindy
-@item target nindy @var{devicename}
-An Intel 960 board controlled by a Nindy Monitor. @var{devicename} is
-the name of the serial device to use for the connection, e.g.
-@file{/dev/ttya}.
+@item set history save off
+Stop recording command history in a file.
+@cindex history size
+@kindex set history size
+@item set history size @var{size}
+Set the number of commands which @value{GDBN} keeps in its history list.
+This defaults to the value of the environment variable
+@code{HISTSIZE}, or to 256 if this variable is not set.
@end table
-@cindex Nindy
-@cindex i960
-@dfn{Nindy} is a ROM Monitor program for Intel 960 target systems. When
-@value{GDBN} is configured to control a remote Intel 960 using Nindy, you can
-tell @value{GDBN} how to connect to the 960 in several ways:
+@cindex history expansion
+History expansion assigns special meaning to the character @kbd{!}.
+@ifset have-readline-appendices
+@xref{Event Designators}.
+@end ifset
-@itemize @bullet
-@item
-Through command line options specifying serial port, version of the
-Nindy protocol, and communications speed;
+Since @kbd{!} is also the logical not operator in C, history expansion
+is off by default. If you decide to enable history expansion with the
+@code{set history expansion on} command, you may sometimes need to
+follow @kbd{!} (when it is used as logical not, in an expression) with
+a space or a tab to prevent it from being expanded. The readline
+history facilities do not attempt substitution on the strings
+@kbd{!=} and @kbd{!(}, even when history expansion is enabled.
-@item
-By responding to a prompt on startup;
+The commands to control history expansion are:
-@item
-By using the @code{target} command at any point during your @value{GDBN}
-session. @xref{Target Commands, ,Commands for managing targets}.
+@table @code
+@kindex set history expansion
+@item set history expansion on
+@itemx set history expansion
+Enable history expansion. History expansion is off by default.
-@end itemize
+@item set history expansion off
+Disable history expansion.
-@cindex download to Nindy-960
-With the Nindy interface to an Intel 960 board, @code{load}
-downloads @var{filename} to the 960 as well as adding its symbols in
-@value{GDBN}.
+The readline code comes with more complete documentation of
+editing and history expansion features. Users unfamiliar with @sc{gnu} Emacs
+or @code{vi} may wish to read it.
+@ifset have-readline-appendices
+@xref{Command Line Editing}.
+@end ifset
-@menu
-* Nindy Startup:: Startup with Nindy
-* Nindy Options:: Options for Nindy
-* Nindy Reset:: Nindy reset command
-@end menu
+@c @group
+@kindex show history
+@item show history
+@itemx show history filename
+@itemx show history save
+@itemx show history size
+@itemx show history expansion
+These commands display the state of the @value{GDBN} history parameters.
+@code{show history} by itself displays all four states.
+@c @end group
+@end table
-@node Nindy Startup
-@subsubsection Startup with Nindy
+@table @code
+@kindex shows
+@item show commands
+Display the last ten commands in the command history.
-If you simply start @code{@value{GDBP}} without using any command-line
-options, you are prompted for what serial port to use, @emph{before} you
-reach the ordinary @value{GDBN} prompt:
+@item show commands @var{n}
+Print ten commands centered on command number @var{n}.
-@example
-Attach /dev/ttyNN -- specify NN, or "quit" to quit:
-@end example
+@item show commands +
+Print ten commands just after the commands last printed.
+@end table
-@noindent
-Respond to the prompt with whatever suffix (after @samp{/dev/tty})
-identifies the serial port you want to use. You can, if you choose,
-simply start up with no Nindy connection by responding to the prompt
-with an empty line. If you do this and later wish to attach to Nindy,
-use @code{target} (@pxref{Target Commands, ,Commands for managing targets}).
+@node Screen Size
+@section Screen size
+@cindex size of screen
+@cindex pauses in output
-@node Nindy Options
-@subsubsection Options for Nindy
+Certain commands to @value{GDBN} may produce large amounts of
+information output to the screen. To help you read all of it,
+@value{GDBN} pauses and asks you for input at the end of each page of
+output. Type @key{RET} when you want to continue the output, or @kbd{q}
+to discard the remaining output. Also, the screen width setting
+determines when to wrap lines of output. Depending on what is being
+printed, @value{GDBN} tries to break the line at a readable place,
+rather than simply letting it overflow onto the following line.
-These are the startup options for beginning your @value{GDBN} session with a
-Nindy-960 board attached:
+Normally @value{GDBN} knows the size of the screen from the terminal
+driver software. For example, on Unix @value{GDBN} uses the termcap data base
+together with the value of the @code{TERM} environment variable and the
+@code{stty rows} and @code{stty cols} settings. If this is not correct,
+you can override it with the @code{set height} and @code{set
+width} commands:
@table @code
-@item -r @var{port}
-Specify the serial port name of a serial interface to be used to connect
-to the target system. This option is only available when @value{GDBN} is
-configured for the Intel 960 target architecture. You may specify
-@var{port} as any of: a full pathname (e.g. @samp{-r /dev/ttya}), a
-device name in @file{/dev} (e.g. @samp{-r ttya}), or simply the unique
-suffix for a specific @code{tty} (e.g. @samp{-r a}).
-
-@item -O
-(An uppercase letter ``O'', not a zero.) Specify that @value{GDBN} should use
-the ``old'' Nindy monitor protocol to connect to the target system.
-This option is only available when @value{GDBN} is configured for the Intel 960
-target architecture.
-
-@quotation
-@emph{Warning:} if you specify @samp{-O}, but are actually trying to
-connect to a target system that expects the newer protocol, the connection
-fails, appearing to be a speed mismatch. @value{GDBN} repeatedly
-attempts to reconnect at several different line speeds. You can abort
-this process with an interrupt.
-@end quotation
+@kindex set height
+@kindex set width
+@kindex show width
+@kindex show height
+@item set height @var{lpp}
+@itemx show height
+@itemx set width @var{cpl}
+@itemx show width
+These @code{set} commands specify a screen height of @var{lpp} lines and
+a screen width of @var{cpl} characters. The associated @code{show}
+commands display the current settings.
-@item -brk
-Specify that @value{GDBN} should first send a @code{BREAK} signal to the target
-system, in an attempt to reset it, before connecting to a Nindy target.
+If you specify a height of zero lines, @value{GDBN} does not pause during
+output no matter how long the output is. This is useful if output is to a
+file or to an editor buffer.
-@quotation
-@emph{Warning:} Many target systems do not have the hardware that this
-requires; it only works with a few boards.
-@end quotation
+Likewise, you can specify @samp{set width 0} to prevent @value{GDBN}
+from wrapping its output.
@end table
-The standard @samp{-b} option controls the line speed used on the serial
-port.
+@node Numbers
+@section Numbers
+@cindex number representation
+@cindex entering numbers
-@c @group
-@node Nindy Reset
-@subsubsection Nindy reset command
+You can always enter numbers in octal, decimal, or hexadecimal in
+@value{GDBN} by the usual conventions: octal numbers begin with
+@samp{0}, decimal numbers end with @samp{.}, and hexadecimal numbers
+begin with @samp{0x}. Numbers that begin with none of these are, by
+default, entered in base 10; likewise, the default display for
+numbers---when no particular format is specified---is base 10. You can
+change the default base for both input and output with the @code{set
+radix} command.
@table @code
-@item reset
-@kindex reset
-For a Nindy target, this command sends a ``break'' to the remote target
-system; this is only useful if the target has been equipped with a
-circuit to perform a hard reset (or some other interesting action) when
-a break is detected.
-@end table
-@c @end group
+@kindex set input-radix
+@item set input-radix @var{base}
+Set the default base for numeric input. Supported choices
+for @var{base} are decimal 8, 10, or 16. @var{base} must itself be
+specified either unambiguously or using the current default radix; for
+example, any of
-@node M32R/D
-@subsection Mitsubishi M32R/D
+@smallexample
+set radix 012
+set radix 10.
+set radix 0xa
+@end smallexample
-@table @code
+@noindent
+sets the base to decimal. On the other hand, @samp{set radix 10}
+leaves the radix unchanged no matter what it was.
-@kindex target m32r
-@item target m32r @var{dev}
-Mitsubishi M32R/D ROM monitor.
+@kindex set output-radix
+@item set output-radix @var{base}
+Set the default base for numeric display. Supported choices
+for @var{base} are decimal 8, 10, or 16. @var{base} must itself be
+specified either unambiguously or using the current default radix.
-@end table
+@kindex show input-radix
+@item show input-radix
+Display the current default base for numeric input.
-@node M68K
-@subsection M68k
-
-The Motorola m68k configuration includes ColdFire support, and
-target command for the following ROM monitors.
-
-@table @code
+@kindex show output-radix
+@item show output-radix
+Display the current default base for numeric display.
+@end table
-@kindex target abug
-@item target abug @var{dev}
-ABug ROM monitor for M68K.
+@node Messages/Warnings
+@section Optional warnings and messages
-@kindex target cpu32bug
-@item target cpu32bug @var{dev}
-CPU32BUG monitor, running on a CPU32 (M68K) board.
+By default, @value{GDBN} is silent about its inner workings. If you are
+running on a slow machine, you may want to use the @code{set verbose}
+command. This makes @value{GDBN} tell you when it does a lengthy
+internal operation, so you will not think it has crashed.
-@kindex target dbug
-@item target dbug @var{dev}
-dBUG ROM monitor for Motorola ColdFire.
+Currently, the messages controlled by @code{set verbose} are those
+which announce that the symbol table for a source file is being read;
+see @code{symbol-file} in @ref{Files, ,Commands to specify files}.
-@kindex target est
-@item target est @var{dev}
-EST-300 ICE monitor, running on a CPU32 (M68K) board.
+@table @code
+@kindex set verbose
+@item set verbose on
+Enables @value{GDBN} output of certain informational messages.
-@kindex target rom68k
-@item target rom68k @var{dev}
-ROM 68K monitor, running on an M68K IDP board.
+@item set verbose off
+Disables @value{GDBN} output of certain informational messages.
+@kindex show verbose
+@item show verbose
+Displays whether @code{set verbose} is on or off.
@end table
-If @value{GDBN} is configured with @code{m68*-ericsson-*}, it will
-instead have only a single special target command:
+By default, if @value{GDBN} encounters bugs in the symbol table of an
+object file, it is silent; but if you are debugging a compiler, you may
+find this information useful (@pxref{Symbol Errors, ,Errors reading
+symbol files}).
@table @code
-@kindex target es1800
-@item target es1800 @var{dev}
-ES-1800 emulator for M68K.
-
-@end table
+@kindex set complaints
+@item set complaints @var{limit}
+Permits @value{GDBN} to output @var{limit} complaints about each type of
+unusual symbols before becoming silent about the problem. Set
+@var{limit} to zero to suppress all complaints; set it to a large number
+to prevent complaints from being suppressed.
-[context?]
+@kindex show complaints
+@item show complaints
+Displays how many symbol complaints @value{GDBN} is permitted to produce.
-@table @code
+@end table
-@kindex target rombug
-@item target rombug @var{dev}
-ROMBUG ROM monitor for OS/9000.
+By default, @value{GDBN} is cautious, and asks what sometimes seems to be a
+lot of stupid questions to confirm certain commands. For example, if
+you try to run a program which is already running:
-@end table
+@example
+(@value{GDBP}) run
+The program being debugged has been started already.
+Start it from the beginning? (y or n)
+@end example
-@node M88K
-@subsection M88K
+If you are willing to unflinchingly face the consequences of your own
+commands, you can disable this ``feature'':
@table @code
-@kindex target bug
-@item target bug @var{dev}
-BUG monitor, running on a MVME187 (m88k) board.
-
-@end table
+@kindex set confirm
+@cindex flinching
+@cindex confirmation
+@cindex stupid questions
+@item set confirm off
+Disables confirmation requests.
-@node MIPS Embedded
-@subsection MIPS Embedded
+@item set confirm on
+Enables confirmation requests (the default).
-@cindex MIPS boards
-@value{GDBN} can use the MIPS remote debugging protocol to talk to a
-MIPS board attached to a serial line. This is available when
-you configure @value{GDBN} with @samp{--target=mips-idt-ecoff}.
+@kindex show confirm
+@item show confirm
+Displays state of confirmation requests.
-@need 1000
-Use these @value{GDBN} commands to specify the connection to your target board:
+@end table
+@node Debugging Output
+@section Optional messages about internal happenings
@table @code
-@item target mips @var{port}
-@kindex target mips @var{port}
-To run a program on the board, start up @code{@value{GDBP}} with the
-name of your program as the argument. To connect to the board, use the
-command @samp{target mips @var{port}}, where @var{port} is the name of
-the serial port connected to the board. If the program has not already
-been downloaded to the board, you may use the @code{load} command to
-download it. You can then use all the usual @value{GDBN} commands.
-
-For example, this sequence connects to the target board through a serial
-port, and loads and runs a program called @var{prog} through the
-debugger:
-
-@example
-host$ @value{GDBP} @var{prog}
-@value{GDBN} is free software and @dots{}
-(@value{GDBP}) target mips /dev/ttyb
-(@value{GDBP}) load @var{prog}
-(@value{GDBP}) run
-@end example
+@kindex set debug arch
+@item set debug arch
+Turns on or off display of gdbarch debugging info. The default is off
+@kindex show debug arch
+@item show debug arch
+Displays the current state of displaying gdbarch debugging info.
+@kindex set debug event
+@item set debug event
+Turns on or off display of @value{GDBN} event debugging info. The
+default is off.
+@kindex show debug event
+@item show debug event
+Displays the current state of displaying @value{GDBN} event debugging
+info.
+@kindex set debug expression
+@item set debug expression
+Turns on or off display of @value{GDBN} expression debugging info. The
+default is off.
+@kindex show debug expression
+@item show debug expression
+Displays the current state of displaying @value{GDBN} expression
+debugging info.
+@kindex set debug overload
+@item set debug overload
+Turns on or off display of @value{GDBN} C@t{++} overload debugging
+info. This includes info such as ranking of functions, etc. The default
+is off.
+@kindex show debug overload
+@item show debug overload
+Displays the current state of displaying @value{GDBN} C@t{++} overload
+debugging info.
+@kindex set debug remote
+@cindex packets, reporting on stdout
+@cindex serial connections, debugging
+@item set debug remote
+Turns on or off display of reports on all packets sent back and forth across
+the serial line to the remote machine. The info is printed on the
+@value{GDBN} standard output stream. The default is off.
+@kindex show debug remote
+@item show debug remote
+Displays the state of display of remote packets.
+@kindex set debug serial
+@item set debug serial
+Turns on or off display of @value{GDBN} serial debugging info. The
+default is off.
+@kindex show debug serial
+@item show debug serial
+Displays the current state of displaying @value{GDBN} serial debugging
+info.
+@kindex set debug target
+@item set debug target
+Turns on or off display of @value{GDBN} target debugging info. This info
+includes what is going on at the target level of GDB, as it happens. The
+default is off.
+@kindex show debug target
+@item show debug target
+Displays the current state of displaying @value{GDBN} target debugging
+info.
+@kindex set debug varobj
+@item set debug varobj
+Turns on or off display of @value{GDBN} variable object debugging
+info. The default is off.
+@kindex show debug varobj
+@item show debug varobj
+Displays the current state of displaying @value{GDBN} variable object
+debugging info.
+@end table
-@item target mips @var{hostname}:@var{portnumber}
-On some @value{GDBN} host configurations, you can specify a TCP
-connection (for instance, to a serial line managed by a terminal
-concentrator) instead of a serial port, using the syntax
-@samp{@var{hostname}:@var{portnumber}}.
+@node Sequences
+@chapter Canned Sequences of Commands
-@item target pmon @var{port}
-@kindex target pmon @var{port}
-PMON ROM monitor.
+Aside from breakpoint commands (@pxref{Break Commands, ,Breakpoint
+command lists}), @value{GDBN} provides two ways to store sequences of
+commands for execution as a unit: user-defined commands and command
+files.
-@item target ddb @var{port}
-@kindex target ddb @var{port}
-NEC's DDB variant of PMON for Vr4300.
+@menu
+* Define:: User-defined commands
+* Hooks:: User-defined command hooks
+* Command Files:: Command files
+* Output:: Commands for controlled output
+@end menu
-@item target lsi @var{port}
-@kindex target lsi @var{port}
-LSI variant of PMON.
+@node Define
+@section User-defined commands
-@kindex target r3900
-@item target r3900 @var{dev}
-Densan DVE-R3900 ROM monitor for Toshiba R3900 Mips.
+@cindex user-defined command
+A @dfn{user-defined command} is a sequence of @value{GDBN} commands to
+which you assign a new name as a command. This is done with the
+@code{define} command. User commands may accept up to 10 arguments
+separated by whitespace. Arguments are accessed within the user command
+via @var{$arg0@dots{}$arg9}. A trivial example:
-@kindex target array
-@item target array @var{dev}
-Array Tech LSI33K RAID controller board.
+@smallexample
+define adder
+ print $arg0 + $arg1 + $arg2
+@end smallexample
-@end table
+@noindent
+To execute the command use:
+@smallexample
+adder 1 2 3
+@end smallexample
@noindent
-@value{GDBN} also supports these special commands for MIPS targets:
-
-@table @code
-@item set processor @var{args}
-@itemx show processor
-@kindex set processor @var{args}
-@kindex show processor
-Use the @code{set processor} command to set the type of MIPS
-processor when you want to access processor-type-specific registers.
-For example, @code{set processor @var{r3041}} tells @value{GDBN}
-to use the CPU registers appropriate for the 3041 chip.
-Use the @code{show processor} command to see what MIPS processor @value{GDBN}
-is using. Use the @code{info reg} command to see what registers
-@value{GDBN} is using.
-
-@item set mipsfpu double
-@itemx set mipsfpu single
-@itemx set mipsfpu none
-@itemx show mipsfpu
-@kindex set mipsfpu
-@kindex show mipsfpu
-@cindex MIPS remote floating point
-@cindex floating point, MIPS remote
-If your target board does not support the MIPS floating point
-coprocessor, you should use the command @samp{set mipsfpu none} (if you
-need this, you may wish to put the command in your @value{GDBN} init
-file). This tells @value{GDBN} how to find the return value of
-functions which return floating point values. It also allows
-@value{GDBN} to avoid saving the floating point registers when calling
-functions on the board. If you are using a floating point coprocessor
-with only single precision floating point support, as on the @sc{r4650}
-processor, use the command @samp{set mipsfpu single}. The default
-double precision floating point coprocessor may be selected using
-@samp{set mipsfpu double}.
-
-In previous versions the only choices were double precision or no
-floating point, so @samp{set mipsfpu on} will select double precision
-and @samp{set mipsfpu off} will select no floating point.
-
-As usual, you can inquire about the @code{mipsfpu} variable with
-@samp{show mipsfpu}.
-
-@item set remotedebug @var{n}
-@itemx show remotedebug
-@kindex set remotedebug@r{, MIPS protocol}
-@kindex show remotedebug@r{, MIPS protocol}
-@cindex @code{remotedebug}, MIPS protocol
-@cindex MIPS @code{remotedebug} protocol
-@c FIXME! For this to be useful, you must know something about the MIPS
-@c FIXME...protocol. Where is it described?
-You can see some debugging information about communications with the board
-by setting the @code{remotedebug} variable. If you set it to @code{1} using
-@samp{set remotedebug 1}, every packet is displayed. If you set it
-to @code{2}, every character is displayed. You can check the current value
-at any time with the command @samp{show remotedebug}.
-
-@item set timeout @var{seconds}
-@itemx set retransmit-timeout @var{seconds}
-@itemx show timeout
-@itemx show retransmit-timeout
-@cindex @code{timeout}, MIPS protocol
-@cindex @code{retransmit-timeout}, MIPS protocol
-@kindex set timeout
-@kindex show timeout
-@kindex set retransmit-timeout
-@kindex show retransmit-timeout
-You can control the timeout used while waiting for a packet, in the MIPS
-remote protocol, with the @code{set timeout @var{seconds}} command. The
-default is 5 seconds. Similarly, you can control the timeout used while
-waiting for an acknowledgement of a packet with the @code{set
-retransmit-timeout @var{seconds}} command. The default is 3 seconds.
-You can inspect both values with @code{show timeout} and @code{show
-retransmit-timeout}. (These commands are @emph{only} available when
-@value{GDBN} is configured for @samp{--target=mips-idt-ecoff}.)
-
-The timeout set by @code{set timeout} does not apply when @value{GDBN}
-is waiting for your program to stop. In that case, @value{GDBN} waits
-forever because it has no way of knowing how long the program is going
-to run before stopping.
-@end table
-
-@node PowerPC
-@subsection PowerPC
+This defines the command @code{adder}, which prints the sum of
+its three arguments. Note the arguments are text substitutions, so they may
+reference variables, use complex expressions, or even perform inferior
+functions calls.
@table @code
-@kindex target dink32
-@item target dink32 @var{dev}
-DINK32 ROM monitor.
+@kindex define
+@item define @var{commandname}
+Define a command named @var{commandname}. If there is already a command
+by that name, you are asked to confirm that you want to redefine it.
-@kindex target ppcbug
-@item target ppcbug @var{dev}
-@kindex target ppcbug1
-@item target ppcbug1 @var{dev}
-PPCBUG ROM monitor for PowerPC.
+The definition of the command is made up of other @value{GDBN} command lines,
+which are given following the @code{define} command. The end of these
+commands is marked by a line containing @code{end}.
-@kindex target sds
-@item target sds @var{dev}
-SDS monitor, running on a PowerPC board (such as Motorola's ADS).
+@kindex if
+@kindex else
+@item if
+Takes a single argument, which is an expression to evaluate.
+It is followed by a series of commands that are executed
+only if the expression is true (nonzero).
+There can then optionally be a line @code{else}, followed
+by a series of commands that are only executed if the expression
+was false. The end of the list is marked by a line containing @code{end}.
-@end table
+@kindex while
+@item while
+The syntax is similar to @code{if}: the command takes a single argument,
+which is an expression to evaluate, and must be followed by the commands to
+execute, one per line, terminated by an @code{end}.
+The commands are executed repeatedly as long as the expression
+evaluates to true.
-@node PA
-@subsection HP PA Embedded
+@kindex document
+@item document @var{commandname}
+Document the user-defined command @var{commandname}, so that it can be
+accessed by @code{help}. The command @var{commandname} must already be
+defined. This command reads lines of documentation just as @code{define}
+reads the lines of the command definition, ending with @code{end}.
+After the @code{document} command is finished, @code{help} on command
+@var{commandname} displays the documentation you have written.
-@table @code
+You may use the @code{document} command again to change the
+documentation of a command. Redefining the command with @code{define}
+does not change the documentation.
-@kindex target op50n
-@item target op50n @var{dev}
-OP50N monitor, running on an OKI HPPA board.
+@kindex help user-defined
+@item help user-defined
+List all user-defined commands, with the first line of the documentation
+(if any) for each.
-@kindex target w89k
-@item target w89k @var{dev}
-W89K monitor, running on a Winbond HPPA board.
+@kindex show user
+@item show user
+@itemx show user @var{commandname}
+Display the @value{GDBN} commands used to define @var{commandname} (but
+not its documentation). If no @var{commandname} is given, display the
+definitions for all user-defined commands.
@end table
-@node SH
-@subsection Hitachi SH
+When user-defined commands are executed, the
+commands of the definition are not printed. An error in any command
+stops execution of the user-defined command.
-@table @code
+If used interactively, commands that would ask for confirmation proceed
+without asking when used inside a user-defined command. Many @value{GDBN}
+commands that normally print messages to say what they are doing omit the
+messages when used in a user-defined command.
-@kindex target hms@r{, with Hitachi SH}
-@item target hms @var{dev}
-A Hitachi SH board attached via serial line to your host. Use special
-commands @code{device} and @code{speed} to control the serial line and
-the communications speed used.
+@node Hooks
+@section User-defined command hooks
+@cindex command hooks
+@cindex hooks, for commands
+@cindex hooks, pre-command
-@kindex target e7000@r{, with Hitachi SH}
-@item target e7000 @var{dev}
-E7000 emulator for Hitachi SH.
+@kindex hook
+@kindex hook-
+You may define @dfn{hooks}, which are a special kind of user-defined
+command. Whenever you run the command @samp{foo}, if the user-defined
+command @samp{hook-foo} exists, it is executed (with no arguments)
+before that command.
-@kindex target sh3@r{, with SH}
-@kindex target sh3e@r{, with SH}
-@item target sh3 @var{dev}
-@item target sh3e @var{dev}
-Hitachi SH-3 and SH-3E target systems.
+@cindex hooks, post-command
+@kindex hookpost
+@kindex hookpost-
+A hook may also be defined which is run after the command you executed.
+Whenever you run the command @samp{foo}, if the user-defined command
+@samp{hookpost-foo} exists, it is executed (with no arguments) after
+that command. Post-execution hooks may exist simultaneously with
+pre-execution hooks, for the same command.
-@end table
+It is valid for a hook to call the command which it hooks. If this
+occurs, the hook is not re-executed, thereby avoiding infinte recursion.
-@node Sparclet
-@subsection Tsqware Sparclet
+@c It would be nice if hookpost could be passed a parameter indicating
+@c if the command it hooks executed properly or not. FIXME!
-@cindex Sparclet
+@kindex stop@r{, a pseudo-command}
+In addition, a pseudo-command, @samp{stop} exists. Defining
+(@samp{hook-stop}) makes the associated commands execute every time
+execution stops in your program: before breakpoint commands are run,
+displays are printed, or the stack frame is printed.
-@value{GDBN} enables developers to debug tasks running on
-Sparclet targets from a Unix host.
-@value{GDBN} uses code that runs on
-both the Unix host and on the Sparclet target. The program
-@code{@value{GDBP}} is installed and executed on the Unix host.
+For example, to ignore @code{SIGALRM} signals while
+single-stepping, but treat them normally during normal execution,
+you could define:
-@table @code
-@item remotetimeout @var{args}
-@kindex remotetimeout
-@value{GDBN} supports the option @code{remotetimeout}.
-This option is set by the user, and @var{args} represents the number of
-seconds @value{GDBN} waits for responses.
-@end table
+@example
+define hook-stop
+handle SIGALRM nopass
+end
-@cindex compiling, on Sparclet
-When compiling for debugging, include the options @samp{-g} to get debug
-information and @samp{-Ttext} to relocate the program to where you wish to
-load it on the target. You may also want to add the options @samp{-n} or
-@samp{-N} in order to reduce the size of the sections. Example:
+define hook-run
+handle SIGALRM pass
+end
-@example
-sparclet-aout-gcc prog.c -Ttext 0x12010000 -g -o prog -N
+define hook-continue
+handle SIGLARM pass
+end
@end example
-You can use @code{objdump} to verify that the addresses are what you intended:
+As a further example, to hook at the begining and end of the @code{echo}
+command, and to add extra text to the beginning and end of the message,
+you could define:
@example
-sparclet-aout-objdump --headers --syms prog
-@end example
+define hook-echo
+echo <<<---
+end
-@cindex running, on Sparclet
-Once you have set
-your Unix execution search path to find @value{GDBN}, you are ready to
-run @value{GDBN}. From your Unix host, run @code{@value{GDBP}}
-(or @code{sparclet-aout-gdb}, depending on your installation).
+define hookpost-echo
+echo --->>>\n
+end
-@value{GDBN} comes up showing the prompt:
+(@value{GDBP}) echo Hello World
+<<<---Hello World--->>>
+(@value{GDBP})
-@example
-(gdbslet)
@end example
-@menu
-* Sparclet File:: Setting the file to debug
-* Sparclet Connection:: Connecting to Sparclet
-* Sparclet Download:: Sparclet download
-* Sparclet Execution:: Running and debugging
-@end menu
+You can define a hook for any single-word command in @value{GDBN}, but
+not for command aliases; you should define a hook for the basic command
+name, e.g. @code{backtrace} rather than @code{bt}.
+@c FIXME! So how does Joe User discover whether a command is an alias
+@c or not?
+If an error occurs during the execution of your hook, execution of
+@value{GDBN} commands stops and @value{GDBN} issues a prompt
+(before the command that you actually typed had a chance to run).
-@node Sparclet File
-@subsubsection Setting file to debug
+If you try to define a hook which does not match any known command, you
+get a warning from the @code{define} command.
-The @value{GDBN} command @code{file} lets you choose with program to debug.
+@node Command Files
+@section Command files
-@example
-(gdbslet) file prog
-@end example
+@cindex command files
+A command file for @value{GDBN} is a file of lines that are @value{GDBN}
+commands. Comments (lines starting with @kbd{#}) may also be included.
+An empty line in a command file does nothing; it does not mean to repeat
+the last command, as it would from the terminal.
-@need 1000
-@value{GDBN} then attempts to read the symbol table of @file{prog}.
-@value{GDBN} locates
-the file by searching the directories listed in the command search
-path.
-If the file was compiled with debug information (option "-g"), source
-files will be searched as well.
-@value{GDBN} locates
-the source files by searching the directories listed in the directory search
-path (@pxref{Environment, ,Your program's environment}).
-If it fails
-to find a file, it displays a message such as:
+@cindex init file
+@cindex @file{.gdbinit}
+@cindex @file{gdb.ini}
+When you start @value{GDBN}, it automatically executes commands from its
+@dfn{init files}, normally called @file{.gdbinit}@footnote{The DJGPP
+port of @value{GDBN} uses the name @file{gdb.ini} instead, due to the
+limitations of file names imposed by DOS filesystems.}.
+During startup, @value{GDBN} does the following:
-@example
-prog: No such file or directory.
-@end example
+@enumerate
+@item
+Reads the init file (if any) in your home directory@footnote{On
+DOS/Windows systems, the home directory is the one pointed to by the
+@code{HOME} environment variable.}.
-When this happens, add the appropriate directories to the search paths with
-the @value{GDBN} commands @code{path} and @code{dir}, and execute the
-@code{target} command again.
+@item
+Processes command line options and operands.
-@node Sparclet Connection
-@subsubsection Connecting to Sparclet
+@item
+Reads the init file (if any) in the current working directory.
-The @value{GDBN} command @code{target} lets you connect to a Sparclet target.
-To connect to a target on serial port ``@code{ttya}'', type:
+@item
+Reads command files specified by the @samp{-x} option.
+@end enumerate
-@example
-(gdbslet) target sparclet /dev/ttya
-Remote target sparclet connected to /dev/ttya
-main () at ../prog.c:3
-@end example
+The init file in your home directory can set options (such as @samp{set
+complaints}) that affect subsequent processing of command line options
+and operands. Init files are not executed if you use the @samp{-nx}
+option (@pxref{Mode Options, ,Choosing modes}).
-@need 750
-@value{GDBN} displays messages like these:
+@cindex init file name
+On some configurations of @value{GDBN}, the init file is known by a
+different name (these are typically environments where a specialized
+form of @value{GDBN} may need to coexist with other forms, hence a
+different name for the specialized version's init file). These are the
+environments with special init file names:
-@example
-Connected to ttya.
-@end example
+@cindex @file{.vxgdbinit}
+@itemize @bullet
+@item
+VxWorks (Wind River Systems real-time OS): @file{.vxgdbinit}
-@node Sparclet Download
-@subsubsection Sparclet download
+@cindex @file{.os68gdbinit}
+@item
+OS68K (Enea Data Systems real-time OS): @file{.os68gdbinit}
-@cindex download to Sparclet
-Once connected to the Sparclet target,
-you can use the @value{GDBN}
-@code{load} command to download the file from the host to the target.
-The file name and load offset should be given as arguments to the @code{load}
-command.
-Since the file format is aout, the program must be loaded to the starting
-address. You can use @code{objdump} to find out what this value is. The load
-offset is an offset which is added to the VMA (virtual memory address)
-of each of the file's sections.
-For instance, if the program
-@file{prog} was linked to text address 0x1201000, with data at 0x12010160
-and bss at 0x12010170, in @value{GDBN}, type:
+@cindex @file{.esgdbinit}
+@item
+ES-1800 (Ericsson Telecom AB M68000 emulator): @file{.esgdbinit}
+@end itemize
-@example
-(gdbslet) load prog 0x12010000
-Loading section .text, size 0xdb0 vma 0x12010000
-@end example
+You can also request the execution of a command file with the
+@code{source} command:
-If the code is loaded at a different address then what the program was linked
-to, you may need to use the @code{section} and @code{add-symbol-file} commands
-to tell @value{GDBN} where to map the symbol table.
+@table @code
+@kindex source
+@item source @var{filename}
+Execute the command file @var{filename}.
+@end table
-@node Sparclet Execution
-@subsubsection Running and debugging
+The lines in a command file are executed sequentially. They are not
+printed as they are executed. An error in any command terminates execution
+of the command file.
-@cindex running and debugging Sparclet programs
-You can now begin debugging the task using @value{GDBN}'s execution control
-commands, @code{b}, @code{step}, @code{run}, etc. See the @value{GDBN}
-manual for the list of commands.
+Commands that would ask for confirmation if used interactively proceed
+without asking when used in a command file. Many @value{GDBN} commands that
+normally print messages to say what they are doing omit the messages
+when called from command files.
+
+@value{GDBN} also accepts command input from standard input. In this
+mode, normal output goes to standard output and error output goes to
+standard error. Errors in a command file supplied on standard input do
+not terminate execution of the command file --- execution continues with
+the next command.
@example
-(gdbslet) b main
-Breakpoint 1 at 0x12010000: file prog.c, line 3.
-(gdbslet) run
-Starting program: prog
-Breakpoint 1, main (argc=1, argv=0xeffff21c) at prog.c:3
-3 char *symarg = 0;
-(gdbslet) step
-4 char *execarg = "hello!";
-(gdbslet)
+gdb < cmds > log 2>&1
@end example
-@node Sparclite
-@subsection Fujitsu Sparclite
+(The syntax above will vary depending on the shell used.) This example
+will execute commands from the file @file{cmds}. All output and errors
+would be directed to @file{log}.
-@table @code
+@node Output
+@section Commands for controlled output
-@kindex target sparclite
-@item target sparclite @var{dev}
-Fujitsu sparclite boards, used only for the purpose of loading.
-You must use an additional command to debug the program.
-For example: target remote @var{dev} using @value{GDBN} standard
-remote protocol.
+During the execution of a command file or a user-defined command, normal
+@value{GDBN} output is suppressed; the only output that appears is what is
+explicitly printed by the commands in the definition. This section
+describes three commands useful for generating exactly the output you
+want.
-@end table
+@table @code
+@kindex echo
+@item echo @var{text}
+@c I do not consider backslash-space a standard C escape sequence
+@c because it is not in ANSI.
+Print @var{text}. Nonprinting characters can be included in
+@var{text} using C escape sequences, such as @samp{\n} to print a
+newline. @strong{No newline is printed unless you specify one.}
+In addition to the standard C escape sequences, a backslash followed
+by a space stands for a space. This is useful for displaying a
+string with spaces at the beginning or the end, since leading and
+trailing spaces are otherwise trimmed from all arguments.
+To print @samp{@w{ }and foo =@w{ }}, use the command
+@samp{echo \@w{ }and foo = \@w{ }}.
-@node ST2000
-@subsection Tandem ST2000
+A backslash at the end of @var{text} can be used, as in C, to continue
+the command onto subsequent lines. For example,
-@value{GDBN} may be used with a Tandem ST2000 phone switch, running Tandem's
-STDBUG protocol.
+@example
+echo This is some text\n\
+which is continued\n\
+onto several lines.\n
+@end example
-To connect your ST2000 to the host system, see the manufacturer's
-manual. Once the ST2000 is physically attached, you can run:
+produces the same output as
@example
-target st2000 @var{dev} @var{speed}
+echo This is some text\n
+echo which is continued\n
+echo onto several lines.\n
@end example
-@noindent
-to establish it as your debugging environment. @var{dev} is normally
-the name of a serial device, such as @file{/dev/ttya}, connected to the
-ST2000 via a serial line. You can instead specify @var{dev} as a TCP
-connection (for example, to a serial line attached via a terminal
-concentrator) using the syntax @code{@var{hostname}:@var{portnumber}}.
+@kindex output
+@item output @var{expression}
+Print the value of @var{expression} and nothing but that value: no
+newlines, no @samp{$@var{nn} = }. The value is not entered in the
+value history either. @xref{Expressions, ,Expressions}, for more information
+on expressions.
-The @code{load} and @code{attach} commands are @emph{not} defined for
-this target; you must load your program into the ST2000 as you normally
-would for standalone operation. @value{GDBN} reads debugging information
-(such as symbols) from a separate, debugging version of the program
-available on your host computer.
-@c FIXME!! This is terribly vague; what little content is here is
-@c basically hearsay.
+@item output/@var{fmt} @var{expression}
+Print the value of @var{expression} in format @var{fmt}. You can use
+the same formats as for @code{print}. @xref{Output Formats,,Output
+formats}, for more information.
-@cindex ST2000 auxiliary commands
-These auxiliary @value{GDBN} commands are available to help you with the ST2000
-environment:
+@kindex printf
+@item printf @var{string}, @var{expressions}@dots{}
+Print the values of the @var{expressions} under the control of
+@var{string}. The @var{expressions} are separated by commas and may be
+either numbers or pointers. Their values are printed as specified by
+@var{string}, exactly as if your program were to execute the C
+subroutine
+@c FIXME: the above implies that at least all ANSI C formats are
+@c supported, but it isn't true: %E and %G don't work (or so it seems).
+@c Either this is a bug, or the manual should document what formats are
+@c supported.
-@table @code
-@item st2000 @var{command}
-@kindex st2000 @var{cmd}
-@cindex STDBUG commands (ST2000)
-@cindex commands to STDBUG (ST2000)
-Send a @var{command} to the STDBUG monitor. See the manufacturer's
-manual for available commands.
+@example
+printf (@var{string}, @var{expressions}@dots{});
+@end example
-@item connect
-@cindex connect (to STDBUG)
-Connect the controlling terminal to the STDBUG command monitor. When
-you are done interacting with STDBUG, typing either of two character
-sequences gets you back to the @value{GDBN} command prompt:
-@kbd{@key{RET}~.} (Return, followed by tilde and period) or
-@kbd{@key{RET}~@key{C-d}} (Return, followed by tilde and control-D).
+For example, you can print two values in hex like this:
+
+@smallexample
+printf "foo, bar-foo = 0x%x, 0x%x\n", foo, bar-foo
+@end smallexample
+
+The only backslash-escape sequences that you can use in the format
+string are the simple ones that consist of backslash followed by a
+letter.
@end table
-@node Z8000
-@subsection Zilog Z8000
+@node TUI
+@chapter @value{GDBN} Text User Interface
+@cindex TUI
-@cindex Z8000
-@cindex simulator, Z8000
-@cindex Zilog Z8000 simulator
+@menu
+* TUI Overview:: TUI overview
+* TUI Keys:: TUI key bindings
+* TUI Commands:: TUI specific commands
+* TUI Configuration:: TUI configuration variables
+@end menu
-When configured for debugging Zilog Z8000 targets, @value{GDBN} includes
-a Z8000 simulator.
+The @value{GDBN} Text User Interface, TUI in short,
+is a terminal interface which uses the @code{curses} library
+to show the source file, the assembly output, the program registers
+and @value{GDBN} commands in separate text windows.
+The TUI is available only when @value{GDBN} is configured
+with the @code{--enable-tui} configure option (@pxref{Configure Options}).
-For the Z8000 family, @samp{target sim} simulates either the Z8002 (the
-unsegmented variant of the Z8000 architecture) or the Z8001 (the
-segmented variant). The simulator recognizes which architecture is
-appropriate by inspecting the object code.
+@node TUI Overview
+@section TUI overview
-@table @code
-@item target sim @var{args}
-@kindex sim
-@kindex target sim@r{, with Z8000}
-Debug programs on a simulated CPU. If the simulator supports setup
-options, specify them via @var{args}.
-@end table
+The TUI has two display modes that can be switched while
+@value{GDBN} runs:
-@noindent
-After specifying this target, you can debug programs for the simulated
-CPU in the same style as programs for your host computer; use the
-@code{file} command to load a new program image, the @code{run} command
-to run your program, and so on.
+@itemize @bullet
+@item
+A curses (or TUI) mode in which it displays several text
+windows on the terminal.
-As well as making available all the usual machine registers
-(@pxref{Registers, ,Registers}), the Z8000 simulator provides three
-additional items of information as specially named registers:
+@item
+A standard mode which corresponds to the @value{GDBN} configured without
+the TUI.
+@end itemize
-@table @code
+In the TUI mode, @value{GDBN} can display several text window
+on the terminal:
-@item cycles
-Counts clock-ticks in the simulator.
+@table @emph
+@item command
+This window is the @value{GDBN} command window with the @value{GDBN}
+prompt and the @value{GDBN} outputs. The @value{GDBN} input is still
+managed using readline but through the TUI. The @emph{command}
+window is always visible.
-@item insts
-Counts instructions run in the simulator.
+@item source
+The source window shows the source file of the program. The current
+line as well as active breakpoints are displayed in this window.
+The current program position is shown with the @samp{>} marker and
+active breakpoints are shown with @samp{*} markers.
-@item time
-Execution time in 60ths of a second.
+@item assembly
+The assembly window shows the disassembly output of the program.
-@end table
+@item register
+This window shows the processor registers. It detects when
+a register is changed and when this is the case, registers that have
+changed are highlighted.
-You can refer to these values in @value{GDBN} expressions with the usual
-conventions; for example, @w{@samp{b fputc if $cycles>5000}} sets a
-conditional breakpoint that suspends only after at least 5000
-simulated clock ticks.
+@end table
-@node Architectures
-@section Architectures
+The source, assembly and register windows are attached to the thread
+and the frame position. They are updated when the current thread
+changes, when the frame changes or when the program counter changes.
+These three windows are arranged by the TUI according to several
+layouts. The layout defines which of these three windows are visible.
+The following layouts are available:
-This section describes characteristics of architectures that affect
-all uses of @value{GDBN} with the architecture, both native and cross.
+@itemize @bullet
+@item
+source
-@menu
-* A29K::
-* Alpha::
-* MIPS::
-@end menu
+@item
+assembly
-@node A29K
-@subsection A29K
+@item
+source and assembly
-@table @code
+@item
+source and registers
-@kindex set rstack_high_address
-@cindex AMD 29K register stack
-@cindex register stack, AMD29K
-@item set rstack_high_address @var{address}
-On AMD 29000 family processors, registers are saved in a separate
-@dfn{register stack}. There is no way for @value{GDBN} to determine the
-extent of this stack. Normally, @value{GDBN} just assumes that the
-stack is ``large enough''. This may result in @value{GDBN} referencing
-memory locations that do not exist. If necessary, you can get around
-this problem by specifying the ending address of the register stack with
-the @code{set rstack_high_address} command. The argument should be an
-address, which you probably want to precede with @samp{0x} to specify in
-hexadecimal.
+@item
+assembly and registers
-@kindex show rstack_high_address
-@item show rstack_high_address
-Display the current limit of the register stack, on AMD 29000 family
-processors.
+@end itemize
-@end table
+@node TUI Keys
+@section TUI Key Bindings
+@cindex TUI key bindings
-@node Alpha
-@subsection Alpha
+The TUI installs several key bindings in the readline keymaps
+(@pxref{Command Line Editing}).
+They allow to leave or enter in the TUI mode or they operate
+directly on the TUI layout and windows. The following key bindings
+are installed for both TUI mode and the @value{GDBN} standard mode.
-See the following section.
+@table @kbd
+@kindex C-x C-a
+@item C-x C-a
+@kindex C-x a
+@itemx C-x a
+@kindex C-x A
+@itemx C-x A
+Enter or leave the TUI mode. When the TUI mode is left,
+the curses window management is left and @value{GDBN} operates using
+its standard mode writing on the terminal directly. When the TUI
+mode is entered, the control is given back to the curses windows.
+The screen is then refreshed.
-@node MIPS
-@subsection MIPS
+@kindex C-x 1
+@item C-x 1
+Use a TUI layout with only one window. The layout will
+either be @samp{source} or @samp{assembly}. When the TUI mode
+is not active, it will switch to the TUI mode.
-@cindex stack on Alpha
-@cindex stack on MIPS
-@cindex Alpha stack
-@cindex MIPS stack
-Alpha- and MIPS-based computers use an unusual stack frame, which
-sometimes requires @value{GDBN} to search backward in the object code to
-find the beginning of a function.
+Think of this key binding as the Emacs @kbd{C-x 1} binding.
-@cindex response time, MIPS debugging
-To improve response time (especially for embedded applications, where
-@value{GDBN} may be restricted to a slow serial line for this search)
-you may want to limit the size of this search, using one of these
-commands:
+@kindex C-x 2
+@item C-x 2
+Use a TUI layout with at least two windows. When the current
+layout shows already two windows, a next layout with two windows is used.
+When a new layout is chosen, one window will always be common to the
+previous layout and the new one.
-@table @code
-@cindex @code{heuristic-fence-post} (Alpha, MIPS)
-@item set heuristic-fence-post @var{limit}
-Restrict @value{GDBN} to examining at most @var{limit} bytes in its
-search for the beginning of a function. A value of @var{0} (the
-default) means there is no limit. However, except for @var{0}, the
-larger the limit the more bytes @code{heuristic-fence-post} must search
-and therefore the longer it takes to run.
+Think of it as the Emacs @kbd{C-x 2} binding.
-@item show heuristic-fence-post
-Display the current limit.
@end table
-@noindent
-These commands are available @emph{only} when @value{GDBN} is configured
-for debugging programs on Alpha or MIPS processors.
-
+The following key bindings are handled only by the TUI mode:
-@node Controlling GDB
-@chapter Controlling @value{GDBN}
+@table @key
+@kindex PgUp
+@item PgUp
+Scroll the active window one page up.
-You can alter the way @value{GDBN} interacts with you by using the
-@code{set} command. For commands controlling how @value{GDBN} displays
-data, see @ref{Print Settings, ,Print settings}. Other settings are
-described here.
+@kindex PgDn
+@item PgDn
+Scroll the active window one page down.
-@menu
-* Prompt:: Prompt
-* Editing:: Command editing
-* History:: Command history
-* Screen Size:: Screen size
-* Numbers:: Numbers
-* Messages/Warnings:: Optional warnings and messages
-* Debugging Output:: Optional messages about internal happenings
-@end menu
+@kindex Up
+@item Up
+Scroll the active window one line up.
-@node Prompt
-@section Prompt
+@kindex Down
+@item Down
+Scroll the active window one line down.
-@cindex prompt
+@kindex Left
+@item Left
+Scroll the active window one column left.
-@value{GDBN} indicates its readiness to read a command by printing a string
-called the @dfn{prompt}. This string is normally @samp{(@value{GDBP})}. You
-can change the prompt string with the @code{set prompt} command. For
-instance, when debugging @value{GDBN} with @value{GDBN}, it is useful to change
-the prompt in one of the @value{GDBN} sessions so that you can always tell
-which one you are talking to.
+@kindex Right
+@item Right
+Scroll the active window one column right.
-@emph{Note:} @code{set prompt} does not add a space for you after the
-prompt you set. This allows you to set a prompt which ends in a space
-or a prompt that does not.
-
-@table @code
-@kindex set prompt
-@item set prompt @var{newprompt}
-Directs @value{GDBN} to use @var{newprompt} as its prompt string henceforth.
+@kindex C-L
+@item C-L
+Refresh the screen.
-@kindex show prompt
-@item show prompt
-Prints a line of the form: @samp{Gdb's prompt is: @var{your-prompt}}
@end table
-@node Editing
-@section Command editing
-@cindex readline
-@cindex command line editing
+In the TUI mode, the arrow keys are used by the active window
+for scrolling. This means they are not available for readline. It is
+necessary to use other readline key bindings such as @key{C-p}, @key{C-n},
+@key{C-b} and @key{C-f}.
-@value{GDBN} reads its input commands via the @dfn{readline} interface. This
-@sc{gnu} library provides consistent behavior for programs which provide a
-command line interface to the user. Advantages are @sc{gnu} Emacs-style
-or @dfn{vi}-style inline editing of commands, @code{csh}-like history
-substitution, and a storage and recall of command history across
-debugging sessions.
+@node TUI Commands
+@section TUI specific commands
+@cindex TUI commands
-You may control the behavior of command line editing in @value{GDBN} with the
-command @code{set}.
+The TUI has specific commands to control the text windows.
+These commands are always available, that is they do not depend on
+the current terminal mode in which @value{GDBN} runs. When @value{GDBN}
+is in the standard mode, using these commands will automatically switch
+in the TUI mode.
@table @code
-@kindex set editing
-@cindex editing
-@item set editing
-@itemx set editing on
-Enable command line editing (enabled by default).
+@item layout next
+@kindex layout next
+Display the next layout.
-@item set editing off
-Disable command line editing.
+@item layout prev
+@kindex layout prev
+Display the previous layout.
-@kindex show editing
-@item show editing
-Show whether command line editing is enabled.
-@end table
+@item layout src
+@kindex layout src
+Display the source window only.
-@node History
-@section Command history
+@item layout asm
+@kindex layout asm
+Display the assembly window only.
-@value{GDBN} can keep track of the commands you type during your
-debugging sessions, so that you can be certain of precisely what
-happened. Use these commands to manage the @value{GDBN} command
-history facility.
+@item layout split
+@kindex layout split
+Display the source and assembly window.
-@table @code
-@cindex history substitution
-@cindex history file
-@kindex set history filename
-@kindex GDBHISTFILE
-@item set history filename @var{fname}
-Set the name of the @value{GDBN} command history file to @var{fname}.
-This is the file where @value{GDBN} reads an initial command history
-list, and where it writes the command history from this session when it
-exits. You can access this list through history expansion or through
-the history command editing characters listed below. This file defaults
-to the value of the environment variable @code{GDBHISTFILE}, or to
-@file{./.gdb_history} (@file{./_gdb_history} on MS-DOS) if this variable
-is not set.
+@item layout regs
+@kindex layout regs
+Display the register window together with the source or assembly window.
-@cindex history save
-@kindex set history save
-@item set history save
-@itemx set history save on
-Record command history in a file, whose name may be specified with the
-@code{set history filename} command. By default, this option is disabled.
+@item focus next | prev | src | asm | regs | split
+@kindex focus
+Set the focus to the named window.
+This command allows to change the active window so that scrolling keys
+can be affected to another window.
-@item set history save off
-Stop recording command history in a file.
+@item refresh
+@kindex refresh
+Refresh the screen. This is similar to using @key{C-L} key.
-@cindex history size
-@kindex set history size
-@item set history size @var{size}
-Set the number of commands which @value{GDBN} keeps in its history list.
-This defaults to the value of the environment variable
-@code{HISTSIZE}, or to 256 if this variable is not set.
-@end table
+@item update
+@kindex update
+Update the source window and the current execution point.
-@cindex history expansion
-History expansion assigns special meaning to the character @kbd{!}.
-@ifset have-readline-appendices
-@xref{Event Designators}.
-@end ifset
+@item winheight @var{name} +@var{count}
+@itemx winheight @var{name} -@var{count}
+@kindex winheight
+Change the height of the window @var{name} by @var{count}
+lines. Positive counts increase the height, while negative counts
+decrease it.
-Since @kbd{!} is also the logical not operator in C, history expansion
-is off by default. If you decide to enable history expansion with the
-@code{set history expansion on} command, you may sometimes need to
-follow @kbd{!} (when it is used as logical not, in an expression) with
-a space or a tab to prevent it from being expanded. The readline
-history facilities do not attempt substitution on the strings
-@kbd{!=} and @kbd{!(}, even when history expansion is enabled.
+@end table
-The commands to control history expansion are:
+@node TUI Configuration
+@section TUI configuration variables
+@cindex TUI configuration variables
+
+The TUI has several configuration variables that control the
+appearance of windows on the terminal.
@table @code
-@kindex set history expansion
-@item set history expansion on
-@itemx set history expansion
-Enable history expansion. History expansion is off by default.
+@item set tui border-kind @var{kind}
+@kindex set tui border-kind
+Select the border appearance for the source, assembly and register windows.
+The possible values are the following:
+@table @code
+@item space
+Use a space character to draw the border.
-@item set history expansion off
-Disable history expansion.
+@item ascii
+Use ascii characters + - and | to draw the border.
-The readline code comes with more complete documentation of
-editing and history expansion features. Users unfamiliar with @sc{gnu} Emacs
-or @code{vi} may wish to read it.
-@ifset have-readline-appendices
-@xref{Command Line Editing}.
-@end ifset
+@item acs
+Use the Alternate Character Set to draw the border. The border is
+drawn using character line graphics if the terminal supports them.
-@c @group
-@kindex show history
-@item show history
-@itemx show history filename
-@itemx show history save
-@itemx show history size
-@itemx show history expansion
-These commands display the state of the @value{GDBN} history parameters.
-@code{show history} by itself displays all four states.
-@c @end group
@end table
-@table @code
-@kindex shows
-@item show commands
-Display the last ten commands in the command history.
+@item set tui active-border-mode @var{mode}
+@kindex set tui active-border-mode
+Select the attributes to display the border of the active window.
+The possible values are @code{normal}, @code{standout}, @code{reverse},
+@code{half}, @code{half-standout}, @code{bold} and @code{bold-standout}.
-@item show commands @var{n}
-Print ten commands centered on command number @var{n}.
+@item set tui border-mode @var{mode}
+@kindex set tui border-mode
+Select the attributes to display the border of other windows.
+The @var{mode} can be one of the following:
+@table @code
+@item normal
+Use normal attributes to display the border.
-@item show commands +
-Print ten commands just after the commands last printed.
-@end table
+@item standout
+Use standout mode.
-@node Screen Size
-@section Screen size
-@cindex size of screen
-@cindex pauses in output
+@item reverse
+Use reverse video mode.
-Certain commands to @value{GDBN} may produce large amounts of
-information output to the screen. To help you read all of it,
-@value{GDBN} pauses and asks you for input at the end of each page of
-output. Type @key{RET} when you want to continue the output, or @kbd{q}
-to discard the remaining output. Also, the screen width setting
-determines when to wrap lines of output. Depending on what is being
-printed, @value{GDBN} tries to break the line at a readable place,
-rather than simply letting it overflow onto the following line.
+@item half
+Use half bright mode.
-Normally @value{GDBN} knows the size of the screen from the terminal
-driver software. For example, on Unix @value{GDBN} uses the termcap data base
-together with the value of the @code{TERM} environment variable and the
-@code{stty rows} and @code{stty cols} settings. If this is not correct,
-you can override it with the @code{set height} and @code{set
-width} commands:
+@item half-standout
+Use half bright and standout mode.
-@table @code
-@kindex set height
-@kindex set width
-@kindex show width
-@kindex show height
-@item set height @var{lpp}
-@itemx show height
-@itemx set width @var{cpl}
-@itemx show width
-These @code{set} commands specify a screen height of @var{lpp} lines and
-a screen width of @var{cpl} characters. The associated @code{show}
-commands display the current settings.
+@item bold
+Use extra bright or bold mode.
-If you specify a height of zero lines, @value{GDBN} does not pause during
-output no matter how long the output is. This is useful if output is to a
-file or to an editor buffer.
+@item bold-standout
+Use extra bright or bold and standout mode.
-Likewise, you can specify @samp{set width 0} to prevent @value{GDBN}
-from wrapping its output.
@end table
-@node Numbers
-@section Numbers
-@cindex number representation
-@cindex entering numbers
+@end table
-You can always enter numbers in octal, decimal, or hexadecimal in
-@value{GDBN} by the usual conventions: octal numbers begin with
-@samp{0}, decimal numbers end with @samp{.}, and hexadecimal numbers
-begin with @samp{0x}. Numbers that begin with none of these are, by
-default, entered in base 10; likewise, the default display for
-numbers---when no particular format is specified---is base 10. You can
-change the default base for both input and output with the @code{set
-radix} command.
+@node Emacs
+@chapter Using @value{GDBN} under @sc{gnu} Emacs
-@table @code
-@kindex set input-radix
-@item set input-radix @var{base}
-Set the default base for numeric input. Supported choices
-for @var{base} are decimal 8, 10, or 16. @var{base} must itself be
-specified either unambiguously or using the current default radix; for
-example, any of
+@cindex Emacs
+@cindex @sc{gnu} Emacs
+A special interface allows you to use @sc{gnu} Emacs to view (and
+edit) the source files for the program you are debugging with
+@value{GDBN}.
-@smallexample
-set radix 012
-set radix 10.
-set radix 0xa
-@end smallexample
+To use this interface, use the command @kbd{M-x gdb} in Emacs. Give the
+executable file you want to debug as an argument. This command starts
+@value{GDBN} as a subprocess of Emacs, with input and output through a newly
+created Emacs buffer.
+@c (Do not use the @code{-tui} option to run @value{GDBN} from Emacs.)
-@noindent
-sets the base to decimal. On the other hand, @samp{set radix 10}
-leaves the radix unchanged no matter what it was.
+Using @value{GDBN} under Emacs is just like using @value{GDBN} normally except for two
+things:
-@kindex set output-radix
-@item set output-radix @var{base}
-Set the default base for numeric display. Supported choices
-for @var{base} are decimal 8, 10, or 16. @var{base} must itself be
-specified either unambiguously or using the current default radix.
+@itemize @bullet
+@item
+All ``terminal'' input and output goes through the Emacs buffer.
+@end itemize
-@kindex show input-radix
-@item show input-radix
-Display the current default base for numeric input.
+This applies both to @value{GDBN} commands and their output, and to the input
+and output done by the program you are debugging.
-@kindex show output-radix
-@item show output-radix
-Display the current default base for numeric display.
-@end table
+This is useful because it means that you can copy the text of previous
+commands and input them again; you can even use parts of the output
+in this way.
-@node Messages/Warnings
-@section Optional warnings and messages
+All the facilities of Emacs' Shell mode are available for interacting
+with your program. In particular, you can send signals the usual
+way---for example, @kbd{C-c C-c} for an interrupt, @kbd{C-c C-z} for a
+stop.
-By default, @value{GDBN} is silent about its inner workings. If you are
-running on a slow machine, you may want to use the @code{set verbose}
-command. This makes @value{GDBN} tell you when it does a lengthy
-internal operation, so you will not think it has crashed.
+@itemize @bullet
+@item
+@value{GDBN} displays source code through Emacs.
+@end itemize
-Currently, the messages controlled by @code{set verbose} are those
-which announce that the symbol table for a source file is being read;
-see @code{symbol-file} in @ref{Files, ,Commands to specify files}.
+Each time @value{GDBN} displays a stack frame, Emacs automatically finds the
+source file for that frame and puts an arrow (@samp{=>}) at the
+left margin of the current line. Emacs uses a separate buffer for
+source display, and splits the screen to show both your @value{GDBN} session
+and the source.
-@table @code
-@kindex set verbose
-@item set verbose on
-Enables @value{GDBN} output of certain informational messages.
+Explicit @value{GDBN} @code{list} or search commands still produce output as
+usual, but you probably have no reason to use them from Emacs.
-@item set verbose off
-Disables @value{GDBN} output of certain informational messages.
+@quotation
+@emph{Warning:} If the directory where your program resides is not your
+current directory, it can be easy to confuse Emacs about the location of
+the source files, in which case the auxiliary display buffer does not
+appear to show your source. @value{GDBN} can find programs by searching your
+environment's @code{PATH} variable, so the @value{GDBN} input and output
+session proceeds normally; but Emacs does not get enough information
+back from @value{GDBN} to locate the source files in this situation. To
+avoid this problem, either start @value{GDBN} mode from the directory where
+your program resides, or specify an absolute file name when prompted for the
+@kbd{M-x gdb} argument.
-@kindex show verbose
-@item show verbose
-Displays whether @code{set verbose} is on or off.
-@end table
+A similar confusion can result if you use the @value{GDBN} @code{file} command to
+switch to debugging a program in some other location, from an existing
+@value{GDBN} buffer in Emacs.
+@end quotation
-By default, if @value{GDBN} encounters bugs in the symbol table of an
-object file, it is silent; but if you are debugging a compiler, you may
-find this information useful (@pxref{Symbol Errors, ,Errors reading
-symbol files}).
+By default, @kbd{M-x gdb} calls the program called @file{gdb}. If
+you need to call @value{GDBN} by a different name (for example, if you keep
+several configurations around, with different names) you can set the
+Emacs variable @code{gdb-command-name}; for example,
-@table @code
+@example
+(setq gdb-command-name "mygdb")
+@end example
-@kindex set complaints
-@item set complaints @var{limit}
-Permits @value{GDBN} to output @var{limit} complaints about each type of
-unusual symbols before becoming silent about the problem. Set
-@var{limit} to zero to suppress all complaints; set it to a large number
-to prevent complaints from being suppressed.
+@noindent
+(preceded by @kbd{M-:} or @kbd{ESC :}, or typed in the @code{*scratch*} buffer, or
+in your @file{.emacs} file) makes Emacs call the program named
+``@code{mygdb}'' instead.
-@kindex show complaints
-@item show complaints
-Displays how many symbol complaints @value{GDBN} is permitted to produce.
+In the @value{GDBN} I/O buffer, you can use these special Emacs commands in
+addition to the standard Shell mode commands:
-@end table
+@table @kbd
+@item C-h m
+Describe the features of Emacs' @value{GDBN} Mode.
-By default, @value{GDBN} is cautious, and asks what sometimes seems to be a
-lot of stupid questions to confirm certain commands. For example, if
-you try to run a program which is already running:
+@item M-s
+Execute to another source line, like the @value{GDBN} @code{step} command; also
+update the display window to show the current file and location.
-@example
-(@value{GDBP}) run
-The program being debugged has been started already.
-Start it from the beginning? (y or n)
-@end example
+@item M-n
+Execute to next source line in this function, skipping all function
+calls, like the @value{GDBN} @code{next} command. Then update the display window
+to show the current file and location.
-If you are willing to unflinchingly face the consequences of your own
-commands, you can disable this ``feature'':
+@item M-i
+Execute one instruction, like the @value{GDBN} @code{stepi} command; update
+display window accordingly.
-@table @code
+@item M-x gdb-nexti
+Execute to next instruction, using the @value{GDBN} @code{nexti} command; update
+display window accordingly.
-@kindex set confirm
-@cindex flinching
-@cindex confirmation
-@cindex stupid questions
-@item set confirm off
-Disables confirmation requests.
+@item C-c C-f
+Execute until exit from the selected stack frame, like the @value{GDBN}
+@code{finish} command.
-@item set confirm on
-Enables confirmation requests (the default).
+@item M-c
+Continue execution of your program, like the @value{GDBN} @code{continue}
+command.
-@kindex show confirm
-@item show confirm
-Displays state of confirmation requests.
+@emph{Warning:} In Emacs v19, this command is @kbd{C-c C-p}.
-@end table
+@item M-u
+Go up the number of frames indicated by the numeric argument
+(@pxref{Arguments, , Numeric Arguments, Emacs, The @sc{gnu} Emacs Manual}),
+like the @value{GDBN} @code{up} command.
-@node Debugging Output
-@section Optional messages about internal happenings
-@table @code
-@kindex set debug arch
-@item set debug arch
-Turns on or off display of gdbarch debugging info. The default is off
-@kindex show debug arch
-@item show debug arch
-Displays the current state of displaying gdbarch debugging info.
-@kindex set debug event
-@item set debug event
-Turns on or off display of @value{GDBN} event debugging info. The
-default is off.
-@kindex show debug event
-@item show debug event
-Displays the current state of displaying @value{GDBN} event debugging
-info.
-@kindex set debug expression
-@item set debug expression
-Turns on or off display of @value{GDBN} expression debugging info. The
-default is off.
-@kindex show debug expression
-@item show debug expression
-Displays the current state of displaying @value{GDBN} expression
-debugging info.
-@kindex set debug overload
-@item set debug overload
-Turns on or off display of @value{GDBN} C@t{++} overload debugging
-info. This includes info such as ranking of functions, etc. The default
-is off.
-@kindex show debug overload
-@item show debug overload
-Displays the current state of displaying @value{GDBN} C@t{++} overload
-debugging info.
-@kindex set debug remote
-@cindex packets, reporting on stdout
-@cindex serial connections, debugging
-@item set debug remote
-Turns on or off display of reports on all packets sent back and forth across
-the serial line to the remote machine. The info is printed on the
-@value{GDBN} standard output stream. The default is off.
-@kindex show debug remote
-@item show debug remote
-Displays the state of display of remote packets.
-@kindex set debug serial
-@item set debug serial
-Turns on or off display of @value{GDBN} serial debugging info. The
-default is off.
-@kindex show debug serial
-@item show debug serial
-Displays the current state of displaying @value{GDBN} serial debugging
-info.
-@kindex set debug target
-@item set debug target
-Turns on or off display of @value{GDBN} target debugging info. This info
-includes what is going on at the target level of GDB, as it happens. The
-default is off.
-@kindex show debug target
-@item show debug target
-Displays the current state of displaying @value{GDBN} target debugging
-info.
-@kindex set debug varobj
-@item set debug varobj
-Turns on or off display of @value{GDBN} variable object debugging
-info. The default is off.
-@kindex show debug varobj
-@item show debug varobj
-Displays the current state of displaying @value{GDBN} variable object
-debugging info.
-@end table
+@emph{Warning:} In Emacs v19, this command is @kbd{C-c C-u}.
-@node Sequences
-@chapter Canned Sequences of Commands
+@item M-d
+Go down the number of frames indicated by the numeric argument, like the
+@value{GDBN} @code{down} command.
-Aside from breakpoint commands (@pxref{Break Commands, ,Breakpoint
-command lists}), @value{GDBN} provides two ways to store sequences of
-commands for execution as a unit: user-defined commands and command
-files.
+@emph{Warning:} In Emacs v19, this command is @kbd{C-c C-d}.
-@menu
-* Define:: User-defined commands
-* Hooks:: User-defined command hooks
-* Command Files:: Command files
-* Output:: Commands for controlled output
-@end menu
-
-@node Define
-@section User-defined commands
-
-@cindex user-defined command
-A @dfn{user-defined command} is a sequence of @value{GDBN} commands to
-which you assign a new name as a command. This is done with the
-@code{define} command. User commands may accept up to 10 arguments
-separated by whitespace. Arguments are accessed within the user command
-via @var{$arg0@dots{}$arg9}. A trivial example:
-
-@smallexample
-define adder
- print $arg0 + $arg1 + $arg2
-@end smallexample
+@item C-x &
+Read the number where the cursor is positioned, and insert it at the end
+of the @value{GDBN} I/O buffer. For example, if you wish to disassemble code
+around an address that was displayed earlier, type @kbd{disassemble};
+then move the cursor to the address display, and pick up the
+argument for @code{disassemble} by typing @kbd{C-x &}.
-@noindent
-To execute the command use:
+You can customize this further by defining elements of the list
+@code{gdb-print-command}; once it is defined, you can format or
+otherwise process numbers picked up by @kbd{C-x &} before they are
+inserted. A numeric argument to @kbd{C-x &} indicates that you
+wish special formatting, and also acts as an index to pick an element of the
+list. If the list element is a string, the number to be inserted is
+formatted using the Emacs function @code{format}; otherwise the number
+is passed as an argument to the corresponding list element.
+@end table
-@smallexample
-adder 1 2 3
-@end smallexample
+In any source file, the Emacs command @kbd{C-x SPC} (@code{gdb-break})
+tells @value{GDBN} to set a breakpoint on the source line point is on.
-@noindent
-This defines the command @code{adder}, which prints the sum of
-its three arguments. Note the arguments are text substitutions, so they may
-reference variables, use complex expressions, or even perform inferior
-functions calls.
+If you accidentally delete the source-display buffer, an easy way to get
+it back is to type the command @code{f} in the @value{GDBN} buffer, to
+request a frame display; when you run under Emacs, this recreates
+the source buffer if necessary to show you the context of the current
+frame.
-@table @code
+The source files displayed in Emacs are in ordinary Emacs buffers
+which are visiting the source files in the usual way. You can edit
+the files with these buffers if you wish; but keep in mind that @value{GDBN}
+communicates with Emacs in terms of line numbers. If you add or
+delete lines from the text, the line numbers that @value{GDBN} knows cease
+to correspond properly with the code.
-@kindex define
-@item define @var{commandname}
-Define a command named @var{commandname}. If there is already a command
-by that name, you are asked to confirm that you want to redefine it.
+@c The following dropped because Epoch is nonstandard. Reactivate
+@c if/when v19 does something similar. ---doc@cygnus.com 19dec1990
+@ignore
+@kindex Emacs Epoch environment
+@kindex Epoch
+@kindex inspect
-The definition of the command is made up of other @value{GDBN} command lines,
-which are given following the @code{define} command. The end of these
-commands is marked by a line containing @code{end}.
+Version 18 of @sc{gnu} Emacs has a built-in window system
+called the @code{epoch}
+environment. Users of this environment can use a new command,
+@code{inspect} which performs identically to @code{print} except that
+each value is printed in its own window.
+@end ignore
-@kindex if
-@kindex else
-@item if
-Takes a single argument, which is an expression to evaluate.
-It is followed by a series of commands that are executed
-only if the expression is true (nonzero).
-There can then optionally be a line @code{else}, followed
-by a series of commands that are only executed if the expression
-was false. The end of the list is marked by a line containing @code{end}.
+@include annotate.texi
+@include gdbmi.texinfo
-@kindex while
-@item while
-The syntax is similar to @code{if}: the command takes a single argument,
-which is an expression to evaluate, and must be followed by the commands to
-execute, one per line, terminated by an @code{end}.
-The commands are executed repeatedly as long as the expression
-evaluates to true.
+@node GDB Bugs
+@chapter Reporting Bugs in @value{GDBN}
+@cindex bugs in @value{GDBN}
+@cindex reporting bugs in @value{GDBN}
-@kindex document
-@item document @var{commandname}
-Document the user-defined command @var{commandname}, so that it can be
-accessed by @code{help}. The command @var{commandname} must already be
-defined. This command reads lines of documentation just as @code{define}
-reads the lines of the command definition, ending with @code{end}.
-After the @code{document} command is finished, @code{help} on command
-@var{commandname} displays the documentation you have written.
+Your bug reports play an essential role in making @value{GDBN} reliable.
-You may use the @code{document} command again to change the
-documentation of a command. Redefining the command with @code{define}
-does not change the documentation.
+Reporting a bug may help you by bringing a solution to your problem, or it
+may not. But in any case the principal function of a bug report is to help
+the entire community by making the next version of @value{GDBN} work better. Bug
+reports are your contribution to the maintenance of @value{GDBN}.
-@kindex help user-defined
-@item help user-defined
-List all user-defined commands, with the first line of the documentation
-(if any) for each.
+In order for a bug report to serve its purpose, you must include the
+information that enables us to fix the bug.
-@kindex show user
-@item show user
-@itemx show user @var{commandname}
-Display the @value{GDBN} commands used to define @var{commandname} (but
-not its documentation). If no @var{commandname} is given, display the
-definitions for all user-defined commands.
+@menu
+* Bug Criteria:: Have you found a bug?
+* Bug Reporting:: How to report bugs
+@end menu
-@end table
+@node Bug Criteria
+@section Have you found a bug?
+@cindex bug criteria
-When user-defined commands are executed, the
-commands of the definition are not printed. An error in any command
-stops execution of the user-defined command.
+If you are not sure whether you have found a bug, here are some guidelines:
-If used interactively, commands that would ask for confirmation proceed
-without asking when used inside a user-defined command. Many @value{GDBN}
-commands that normally print messages to say what they are doing omit the
-messages when used in a user-defined command.
+@itemize @bullet
+@cindex fatal signal
+@cindex debugger crash
+@cindex crash of debugger
+@item
+If the debugger gets a fatal signal, for any input whatever, that is a
+@value{GDBN} bug. Reliable debuggers never crash.
-@node Hooks
-@section User-defined command hooks
-@cindex command hooks
-@cindex hooks, for commands
-@cindex hooks, pre-command
+@cindex error on valid input
+@item
+If @value{GDBN} produces an error message for valid input, that is a
+bug. (Note that if you're cross debugging, the problem may also be
+somewhere in the connection to the target.)
-@kindex hook
-@kindex hook-
-You may define @dfn{hooks}, which are a special kind of user-defined
-command. Whenever you run the command @samp{foo}, if the user-defined
-command @samp{hook-foo} exists, it is executed (with no arguments)
-before that command.
+@cindex invalid input
+@item
+If @value{GDBN} does not produce an error message for invalid input,
+that is a bug. However, you should note that your idea of
+``invalid input'' might be our idea of ``an extension'' or ``support
+for traditional practice''.
-@cindex hooks, post-command
-@kindex hookpost
-@kindex hookpost-
-A hook may also be defined which is run after the command you executed.
-Whenever you run the command @samp{foo}, if the user-defined command
-@samp{hookpost-foo} exists, it is executed (with no arguments) after
-that command. Post-execution hooks may exist simultaneously with
-pre-execution hooks, for the same command.
+@item
+If you are an experienced user of debugging tools, your suggestions
+for improvement of @value{GDBN} are welcome in any case.
+@end itemize
-It is valid for a hook to call the command which it hooks. If this
-occurs, the hook is not re-executed, thereby avoiding infinte recursion.
+@node Bug Reporting
+@section How to report bugs
+@cindex bug reports
+@cindex @value{GDBN} bugs, reporting
-@c It would be nice if hookpost could be passed a parameter indicating
-@c if the command it hooks executed properly or not. FIXME!
+A number of companies and individuals offer support for @sc{gnu} products.
+If you obtained @value{GDBN} from a support organization, we recommend you
+contact that organization first.
-@kindex stop@r{, a pseudo-command}
-In addition, a pseudo-command, @samp{stop} exists. Defining
-(@samp{hook-stop}) makes the associated commands execute every time
-execution stops in your program: before breakpoint commands are run,
-displays are printed, or the stack frame is printed.
+You can find contact information for many support companies and
+individuals in the file @file{etc/SERVICE} in the @sc{gnu} Emacs
+distribution.
+@c should add a web page ref...
-For example, to ignore @code{SIGALRM} signals while
-single-stepping, but treat them normally during normal execution,
-you could define:
+In any event, we also recommend that you send bug reports for
+@value{GDBN} to this addresses:
@example
-define hook-stop
-handle SIGALRM nopass
-end
-
-define hook-run
-handle SIGALRM pass
-end
-
-define hook-continue
-handle SIGLARM pass
-end
+bug-gdb@@gnu.org
@end example
-As a further example, to hook at the begining and end of the @code{echo}
-command, and to add extra text to the beginning and end of the message,
-you could define:
-
-@example
-define hook-echo
-echo <<<---
-end
+@strong{Do not send bug reports to @samp{info-gdb}, or to
+@samp{help-gdb}, or to any newsgroups.} Most users of @value{GDBN} do
+not want to receive bug reports. Those that do have arranged to receive
+@samp{bug-gdb}.
-define hookpost-echo
-echo --->>>\n
-end
+The mailing list @samp{bug-gdb} has a newsgroup @samp{gnu.gdb.bug} which
+serves as a repeater. The mailing list and the newsgroup carry exactly
+the same messages. Often people think of posting bug reports to the
+newsgroup instead of mailing them. This appears to work, but it has one
+problem which can be crucial: a newsgroup posting often lacks a mail
+path back to the sender. Thus, if we need to ask for more information,
+we may be unable to reach you. For this reason, it is better to send
+bug reports to the mailing list.
-(@value{GDBP}) echo Hello World
-<<<---Hello World--->>>
-(@value{GDBP})
+As a last resort, send bug reports on paper to:
+@example
+@sc{gnu} Debugger Bugs
+Free Software Foundation Inc.
+59 Temple Place - Suite 330
+Boston, MA 02111-1307
+USA
@end example
-You can define a hook for any single-word command in @value{GDBN}, but
-not for command aliases; you should define a hook for the basic command
-name, e.g. @code{backtrace} rather than @code{bt}.
-@c FIXME! So how does Joe User discover whether a command is an alias
-@c or not?
-If an error occurs during the execution of your hook, execution of
-@value{GDBN} commands stops and @value{GDBN} issues a prompt
-(before the command that you actually typed had a chance to run).
+The fundamental principle of reporting bugs usefully is this:
+@strong{report all the facts}. If you are not sure whether to state a
+fact or leave it out, state it!
-If you try to define a hook which does not match any known command, you
-get a warning from the @code{define} command.
+Often people omit facts because they think they know what causes the
+problem and assume that some details do not matter. Thus, you might
+assume that the name of the variable you use in an example does not matter.
+Well, probably it does not, but one cannot be sure. Perhaps the bug is a
+stray memory reference which happens to fetch from the location where that
+name is stored in memory; perhaps, if the name were different, the contents
+of that location would fool the debugger into doing the right thing despite
+the bug. Play it safe and give a specific, complete example. That is the
+easiest thing for you to do, and the most helpful.
-@node Command Files
-@section Command files
+Keep in mind that the purpose of a bug report is to enable us to fix the
+bug. It may be that the bug has been reported previously, but neither
+you nor we can know that unless your bug report is complete and
+self-contained.
-@cindex command files
-A command file for @value{GDBN} is a file of lines that are @value{GDBN}
-commands. Comments (lines starting with @kbd{#}) may also be included.
-An empty line in a command file does nothing; it does not mean to repeat
-the last command, as it would from the terminal.
+Sometimes people give a few sketchy facts and ask, ``Does this ring a
+bell?'' Those bug reports are useless, and we urge everyone to
+@emph{refuse to respond to them} except to chide the sender to report
+bugs properly.
-@cindex init file
-@cindex @file{.gdbinit}
-@cindex @file{gdb.ini}
-When you start @value{GDBN}, it automatically executes commands from its
-@dfn{init files}, normally called @file{.gdbinit}@footnote{The DJGPP
-port of @value{GDBN} uses the name @file{gdb.ini} instead, due to the
-limitations of file names imposed by DOS filesystems.}.
-During startup, @value{GDBN} does the following:
+To enable us to fix the bug, you should include all these things:
-@enumerate
+@itemize @bullet
@item
-Reads the init file (if any) in your home directory@footnote{On
-DOS/Windows systems, the home directory is the one pointed to by the
-@code{HOME} environment variable.}.
+The version of @value{GDBN}. @value{GDBN} announces it if you start
+with no arguments; you can also print it at any time using @code{show
+version}.
+
+Without this, we will not know whether there is any point in looking for
+the bug in the current version of @value{GDBN}.
@item
-Processes command line options and operands.
+The type of machine you are using, and the operating system name and
+version number.
@item
-Reads the init file (if any) in the current working directory.
+What compiler (and its version) was used to compile @value{GDBN}---e.g.
+``@value{GCC}--2.8.1''.
@item
-Reads command files specified by the @samp{-x} option.
-@end enumerate
+What compiler (and its version) was used to compile the program you are
+debugging---e.g. ``@value{GCC}--2.8.1'', or ``HP92453-01 A.10.32.03 HP
+C Compiler''. For GCC, you can say @code{gcc --version} to get this
+information; for other compilers, see the documentation for those
+compilers.
-The init file in your home directory can set options (such as @samp{set
-complaints}) that affect subsequent processing of command line options
-and operands. Init files are not executed if you use the @samp{-nx}
-option (@pxref{Mode Options, ,Choosing modes}).
+@item
+The command arguments you gave the compiler to compile your example and
+observe the bug. For example, did you use @samp{-O}? To guarantee
+you will not omit something important, list them all. A copy of the
+Makefile (or the output from make) is sufficient.
-@cindex init file name
-On some configurations of @value{GDBN}, the init file is known by a
-different name (these are typically environments where a specialized
-form of @value{GDBN} may need to coexist with other forms, hence a
-different name for the specialized version's init file). These are the
-environments with special init file names:
+If we were to try to guess the arguments, we would probably guess wrong
+and then we might not encounter the bug.
-@cindex @file{.vxgdbinit}
-@itemize @bullet
@item
-VxWorks (Wind River Systems real-time OS): @file{.vxgdbinit}
+A complete input script, and all necessary source files, that will
+reproduce the bug.
-@cindex @file{.os68gdbinit}
@item
-OS68K (Enea Data Systems real-time OS): @file{.os68gdbinit}
+A description of what behavior you observe that you believe is
+incorrect. For example, ``It gets a fatal signal.''
+
+Of course, if the bug is that @value{GDBN} gets a fatal signal, then we
+will certainly notice it. But if the bug is incorrect output, we might
+not notice unless it is glaringly wrong. You might as well not give us
+a chance to make a mistake.
+
+Even if the problem you experience is a fatal signal, you should still
+say so explicitly. Suppose something strange is going on, such as, your
+copy of @value{GDBN} is out of synch, or you have encountered a bug in
+the C library on your system. (This has happened!) Your copy might
+crash and ours would not. If you told us to expect a crash, then when
+ours fails to crash, we would know that the bug was not happening for
+us. If you had not told us to expect a crash, then we would not be able
+to draw any conclusion from our observations.
-@cindex @file{.esgdbinit}
@item
-ES-1800 (Ericsson Telecom AB M68000 emulator): @file{.esgdbinit}
+If you wish to suggest changes to the @value{GDBN} source, send us context
+diffs. If you even discuss something in the @value{GDBN} source, refer to
+it by context, not by line number.
+
+The line numbers in our development sources will not match those in your
+sources. Your line numbers would convey no useful information to us.
+
@end itemize
-You can also request the execution of a command file with the
-@code{source} command:
+Here are some things that are not necessary:
-@table @code
-@kindex source
-@item source @var{filename}
-Execute the command file @var{filename}.
-@end table
+@itemize @bullet
+@item
+A description of the envelope of the bug.
-The lines in a command file are executed sequentially. They are not
-printed as they are executed. An error in any command terminates execution
-of the command file.
+Often people who encounter a bug spend a lot of time investigating
+which changes to the input file will make the bug go away and which
+changes will not affect it.
-Commands that would ask for confirmation if used interactively proceed
-without asking when used in a command file. Many @value{GDBN} commands that
-normally print messages to say what they are doing omit the messages
-when called from command files.
+This is often time consuming and not very useful, because the way we
+will find the bug is by running a single example under the debugger
+with breakpoints, not by pure deduction from a series of examples.
+We recommend that you save your time for something else.
-@value{GDBN} also accepts command input from standard input. In this
-mode, normal output goes to standard output and error output goes to
-standard error. Errors in a command file supplied on standard input do
-not terminate execution of the command file --- execution continues with
-the next command.
+Of course, if you can find a simpler example to report @emph{instead}
+of the original one, that is a convenience for us. Errors in the
+output will be easier to spot, running under the debugger will take
+less time, and so on.
-@example
-gdb < cmds > log 2>&1
-@end example
+However, simplification is not vital; if you do not want to do this,
+report the bug anyway and send us the entire test case you used.
-(The syntax above will vary depending on the shell used.) This example
-will execute commands from the file @file{cmds}. All output and errors
-would be directed to @file{log}.
+@item
+A patch for the bug.
-@node Output
-@section Commands for controlled output
+A patch for the bug does help us if it is a good one. But do not omit
+the necessary information, such as the test case, on the assumption that
+a patch is all we need. We might see problems with your patch and decide
+to fix the problem another way, or we might not understand it at all.
-During the execution of a command file or a user-defined command, normal
-@value{GDBN} output is suppressed; the only output that appears is what is
-explicitly printed by the commands in the definition. This section
-describes three commands useful for generating exactly the output you
-want.
+Sometimes with a program as complicated as @value{GDBN} it is very hard to
+construct an example that will make the program follow a certain path
+through the code. If you do not send us the example, we will not be able
+to construct one, so we will not be able to verify that the bug is fixed.
-@table @code
-@kindex echo
-@item echo @var{text}
-@c I do not consider backslash-space a standard C escape sequence
-@c because it is not in ANSI.
-Print @var{text}. Nonprinting characters can be included in
-@var{text} using C escape sequences, such as @samp{\n} to print a
-newline. @strong{No newline is printed unless you specify one.}
-In addition to the standard C escape sequences, a backslash followed
-by a space stands for a space. This is useful for displaying a
-string with spaces at the beginning or the end, since leading and
-trailing spaces are otherwise trimmed from all arguments.
-To print @samp{@w{ }and foo =@w{ }}, use the command
-@samp{echo \@w{ }and foo = \@w{ }}.
+And if we cannot understand what bug you are trying to fix, or why your
+patch should be an improvement, we will not install it. A test case will
+help us to understand.
-A backslash at the end of @var{text} can be used, as in C, to continue
-the command onto subsequent lines. For example,
+@item
+A guess about what the bug is or what it depends on.
-@example
-echo This is some text\n\
-which is continued\n\
-onto several lines.\n
-@end example
+Such guesses are usually wrong. Even we cannot guess right about such
+things without first using the debugger to find the facts.
+@end itemize
-produces the same output as
+@c The readline documentation is distributed with the readline code
+@c and consists of the two following files:
+@c rluser.texinfo
+@c inc-hist.texinfo
+@c Use -I with makeinfo to point to the appropriate directory,
+@c environment var TEXINPUTS with TeX.
+@include rluser.texinfo
+@include inc-hist.texinfo
-@example
-echo This is some text\n
-echo which is continued\n
-echo onto several lines.\n
-@end example
-@kindex output
-@item output @var{expression}
-Print the value of @var{expression} and nothing but that value: no
-newlines, no @samp{$@var{nn} = }. The value is not entered in the
-value history either. @xref{Expressions, ,Expressions}, for more information
-on expressions.
+@node Formatting Documentation
+@appendix Formatting Documentation
-@item output/@var{fmt} @var{expression}
-Print the value of @var{expression} in format @var{fmt}. You can use
-the same formats as for @code{print}. @xref{Output Formats,,Output
-formats}, for more information.
+@cindex @value{GDBN} reference card
+@cindex reference card
+The @value{GDBN} 4 release includes an already-formatted reference card, ready
+for printing with PostScript or Ghostscript, in the @file{gdb}
+subdirectory of the main source directory@footnote{In
+@file{gdb-@value{GDBVN}/gdb/refcard.ps} of the version @value{GDBVN}
+release.}. If you can use PostScript or Ghostscript with your printer,
+you can print the reference card immediately with @file{refcard.ps}.
-@kindex printf
-@item printf @var{string}, @var{expressions}@dots{}
-Print the values of the @var{expressions} under the control of
-@var{string}. The @var{expressions} are separated by commas and may be
-either numbers or pointers. Their values are printed as specified by
-@var{string}, exactly as if your program were to execute the C
-subroutine
-@c FIXME: the above implies that at least all ANSI C formats are
-@c supported, but it isn't true: %E and %G don't work (or so it seems).
-@c Either this is a bug, or the manual should document what formats are
-@c supported.
+The release also includes the source for the reference card. You
+can format it, using @TeX{}, by typing:
@example
-printf (@var{string}, @var{expressions}@dots{});
+make refcard.dvi
@end example
-For example, you can print two values in hex like this:
+The @value{GDBN} reference card is designed to print in @dfn{landscape}
+mode on US ``letter'' size paper;
+that is, on a sheet 11 inches wide by 8.5 inches
+high. You will need to specify this form of printing as an option to
+your @sc{dvi} output program.
-@smallexample
-printf "foo, bar-foo = 0x%x, 0x%x\n", foo, bar-foo
-@end smallexample
+@cindex documentation
-The only backslash-escape sequences that you can use in the format
-string are the simple ones that consist of backslash followed by a
-letter.
-@end table
+All the documentation for @value{GDBN} comes as part of the machine-readable
+distribution. The documentation is written in Texinfo format, which is
+a documentation system that uses a single source file to produce both
+on-line information and a printed manual. You can use one of the Info
+formatting commands to create the on-line version of the documentation
+and @TeX{} (or @code{texi2roff}) to typeset the printed version.
-@node TUI
-@chapter @value{GDBN} Text User Interface
-@cindex TUI
+@value{GDBN} includes an already formatted copy of the on-line Info
+version of this manual in the @file{gdb} subdirectory. The main Info
+file is @file{gdb-@value{GDBVN}/gdb/gdb.info}, and it refers to
+subordinate files matching @samp{gdb.info*} in the same directory. If
+necessary, you can print out these files, or read them with any editor;
+but they are easier to read using the @code{info} subsystem in @sc{gnu}
+Emacs or the standalone @code{info} program, available as part of the
+@sc{gnu} Texinfo distribution.
-@menu
-* TUI Overview:: TUI overview
-* TUI Keys:: TUI key bindings
-* TUI Commands:: TUI specific commands
-* TUI Configuration:: TUI configuration variables
-@end menu
+If you want to format these Info files yourself, you need one of the
+Info formatting programs, such as @code{texinfo-format-buffer} or
+@code{makeinfo}.
-The @value{GDBN} Text User Interface, TUI in short,
-is a terminal interface which uses the @code{curses} library
-to show the source file, the assembly output, the program registers
-and @value{GDBN} commands in separate text windows.
-The TUI is available only when @value{GDBN} is configured
-with the @code{--enable-tui} configure option (@pxref{Configure Options}).
+If you have @code{makeinfo} installed, and are in the top level
+@value{GDBN} source directory (@file{gdb-@value{GDBVN}}, in the case of
+version @value{GDBVN}), you can make the Info file by typing:
-@node TUI Overview
-@section TUI overview
+@example
+cd gdb
+make gdb.info
+@end example
-The TUI has two display modes that can be switched while
-@value{GDBN} runs:
+If you want to typeset and print copies of this manual, you need @TeX{},
+a program to print its @sc{dvi} output files, and @file{texinfo.tex}, the
+Texinfo definitions file.
-@itemize @bullet
-@item
-A curses (or TUI) mode in which it displays several text
-windows on the terminal.
+@TeX{} is a typesetting program; it does not print files directly, but
+produces output files called @sc{dvi} files. To print a typeset
+document, you need a program to print @sc{dvi} files. If your system
+has @TeX{} installed, chances are it has such a program. The precise
+command to use depends on your system; @kbd{lpr -d} is common; another
+(for PostScript devices) is @kbd{dvips}. The @sc{dvi} print command may
+require a file name without any extension or a @samp{.dvi} extension.
-@item
-A standard mode which corresponds to the @value{GDBN} configured without
-the TUI.
-@end itemize
+@TeX{} also requires a macro definitions file called
+@file{texinfo.tex}. This file tells @TeX{} how to typeset a document
+written in Texinfo format. On its own, @TeX{} cannot either read or
+typeset a Texinfo file. @file{texinfo.tex} is distributed with GDB
+and is located in the @file{gdb-@var{version-number}/texinfo}
+directory.
-In the TUI mode, @value{GDBN} can display several text window
-on the terminal:
+If you have @TeX{} and a @sc{dvi} printer program installed, you can
+typeset and print this manual. First switch to the the @file{gdb}
+subdirectory of the main source directory (for example, to
+@file{gdb-@value{GDBVN}/gdb}) and type:
-@table @emph
-@item command
-This window is the @value{GDBN} command window with the @value{GDBN}
-prompt and the @value{GDBN} outputs. The @value{GDBN} input is still
-managed using readline but through the TUI. The @emph{command}
-window is always visible.
+@example
+make gdb.dvi
+@end example
-@item source
-The source window shows the source file of the program. The current
-line as well as active breakpoints are displayed in this window.
-The current program position is shown with the @samp{>} marker and
-active breakpoints are shown with @samp{*} markers.
+Then give @file{gdb.dvi} to your @sc{dvi} printing program.
-@item assembly
-The assembly window shows the disassembly output of the program.
+@node Installing GDB
+@appendix Installing @value{GDBN}
+@cindex configuring @value{GDBN}
+@cindex installation
-@item register
-This window shows the processor registers. It detects when
-a register is changed and when this is the case, registers that have
-changed are highlighted.
+@value{GDBN} comes with a @code{configure} script that automates the process
+of preparing @value{GDBN} for installation; you can then use @code{make} to
+build the @code{gdb} program.
+@iftex
+@c irrelevant in info file; it's as current as the code it lives with.
+@footnote{If you have a more recent version of @value{GDBN} than @value{GDBVN},
+look at the @file{README} file in the sources; we may have improved the
+installation procedures since publishing this manual.}
+@end iftex
-@end table
+The @value{GDBN} distribution includes all the source code you need for
+@value{GDBN} in a single directory, whose name is usually composed by
+appending the version number to @samp{gdb}.
-The source, assembly and register windows are attached to the thread
-and the frame position. They are updated when the current thread
-changes, when the frame changes or when the program counter changes.
-These three windows are arranged by the TUI according to several
-layouts. The layout defines which of these three windows are visible.
-The following layouts are available:
+For example, the @value{GDBN} version @value{GDBVN} distribution is in the
+@file{gdb-@value{GDBVN}} directory. That directory contains:
-@itemize @bullet
-@item
-source
+@table @code
+@item gdb-@value{GDBVN}/configure @r{(and supporting files)}
+script for configuring @value{GDBN} and all its supporting libraries
-@item
-assembly
+@item gdb-@value{GDBVN}/gdb
+the source specific to @value{GDBN} itself
-@item
-source and assembly
+@item gdb-@value{GDBVN}/bfd
+source for the Binary File Descriptor library
-@item
-source and registers
+@item gdb-@value{GDBVN}/include
+@sc{gnu} include files
-@item
-assembly and registers
+@item gdb-@value{GDBVN}/libiberty
+source for the @samp{-liberty} free software library
-@end itemize
+@item gdb-@value{GDBVN}/opcodes
+source for the library of opcode tables and disassemblers
-@node TUI Keys
-@section TUI Key Bindings
-@cindex TUI key bindings
+@item gdb-@value{GDBVN}/readline
+source for the @sc{gnu} command-line interface
-The TUI installs several key bindings in the readline keymaps
-(@pxref{Command Line Editing}).
-They allow to leave or enter in the TUI mode or they operate
-directly on the TUI layout and windows. The following key bindings
-are installed for both TUI mode and the @value{GDBN} standard mode.
+@item gdb-@value{GDBVN}/glob
+source for the @sc{gnu} filename pattern-matching subroutine
-@table @kbd
-@kindex C-x C-a
-@item C-x C-a
-@kindex C-x a
-@itemx C-x a
-@kindex C-x A
-@itemx C-x A
-Enter or leave the TUI mode. When the TUI mode is left,
-the curses window management is left and @value{GDBN} operates using
-its standard mode writing on the terminal directly. When the TUI
-mode is entered, the control is given back to the curses windows.
-The screen is then refreshed.
+@item gdb-@value{GDBVN}/mmalloc
+source for the @sc{gnu} memory-mapped malloc package
+@end table
-@kindex C-x 1
-@item C-x 1
-Use a TUI layout with only one window. The layout will
-either be @samp{source} or @samp{assembly}. When the TUI mode
-is not active, it will switch to the TUI mode.
+The simplest way to configure and build @value{GDBN} is to run @code{configure}
+from the @file{gdb-@var{version-number}} source directory, which in
+this example is the @file{gdb-@value{GDBVN}} directory.
-Think of this key binding as the Emacs @kbd{C-x 1} binding.
+First switch to the @file{gdb-@var{version-number}} source directory
+if you are not already in it; then run @code{configure}. Pass the
+identifier for the platform on which @value{GDBN} will run as an
+argument.
-@kindex C-x 2
-@item C-x 2
-Use a TUI layout with at least two windows. When the current
-layout shows already two windows, a next layout with two windows is used.
-When a new layout is chosen, one window will always be common to the
-previous layout and the new one.
+For example:
-Think of it as the Emacs @kbd{C-x 2} binding.
+@example
+cd gdb-@value{GDBVN}
+./configure @var{host}
+make
+@end example
-@end table
+@noindent
+where @var{host} is an identifier such as @samp{sun4} or
+@samp{decstation}, that identifies the platform where @value{GDBN} will run.
+(You can often leave off @var{host}; @code{configure} tries to guess the
+correct value by examining your system.)
-The following key bindings are handled only by the TUI mode:
+Running @samp{configure @var{host}} and then running @code{make} builds the
+@file{bfd}, @file{readline}, @file{mmalloc}, and @file{libiberty}
+libraries, then @code{gdb} itself. The configured source files, and the
+binaries, are left in the corresponding source directories.
-@table @key
-@kindex PgUp
-@item PgUp
-Scroll the active window one page up.
+@need 750
+@code{configure} is a Bourne-shell (@code{/bin/sh}) script; if your
+system does not recognize this automatically when you run a different
+shell, you may need to run @code{sh} on it explicitly:
-@kindex PgDn
-@item PgDn
-Scroll the active window one page down.
+@example
+sh configure @var{host}
+@end example
-@kindex Up
-@item Up
-Scroll the active window one line up.
+If you run @code{configure} from a directory that contains source
+directories for multiple libraries or programs, such as the
+@file{gdb-@value{GDBVN}} source directory for version @value{GDBVN}, @code{configure}
+creates configuration files for every directory level underneath (unless
+you tell it not to, with the @samp{--norecursion} option).
-@kindex Down
-@item Down
-Scroll the active window one line down.
+You can run the @code{configure} script from any of the
+subordinate directories in the @value{GDBN} distribution if you only want to
+configure that subdirectory, but be sure to specify a path to it.
-@kindex Left
-@item Left
-Scroll the active window one column left.
+For example, with version @value{GDBVN}, type the following to configure only
+the @code{bfd} subdirectory:
-@kindex Right
-@item Right
-Scroll the active window one column right.
+@example
+@group
+cd gdb-@value{GDBVN}/bfd
+../configure @var{host}
+@end group
+@end example
-@kindex C-L
-@item C-L
-Refresh the screen.
+You can install @code{@value{GDBP}} anywhere; it has no hardwired paths.
+However, you should make sure that the shell on your path (named by
+the @samp{SHELL} environment variable) is publicly readable. Remember
+that @value{GDBN} uses the shell to start your program---some systems refuse to
+let @value{GDBN} debug child processes whose programs are not readable.
-@end table
+@menu
+* Separate Objdir:: Compiling @value{GDBN} in another directory
+* Config Names:: Specifying names for hosts and targets
+* Configure Options:: Summary of options for configure
+@end menu
-In the TUI mode, the arrow keys are used by the active window
-for scrolling. This means they are not available for readline. It is
-necessary to use other readline key bindings such as @key{C-p}, @key{C-n},
-@key{C-b} and @key{C-f}.
+@node Separate Objdir
+@section Compiling @value{GDBN} in another directory
-@node TUI Commands
-@section TUI specific commands
-@cindex TUI commands
+If you want to run @value{GDBN} versions for several host or target machines,
+you need a different @code{gdb} compiled for each combination of
+host and target. @code{configure} is designed to make this easy by
+allowing you to generate each configuration in a separate subdirectory,
+rather than in the source directory. If your @code{make} program
+handles the @samp{VPATH} feature (@sc{gnu} @code{make} does), running
+@code{make} in each of these directories builds the @code{gdb}
+program specified there.
-The TUI has specific commands to control the text windows.
-These commands are always available, that is they do not depend on
-the current terminal mode in which @value{GDBN} runs. When @value{GDBN}
-is in the standard mode, using these commands will automatically switch
-in the TUI mode.
+To build @code{gdb} in a separate directory, run @code{configure}
+with the @samp{--srcdir} option to specify where to find the source.
+(You also need to specify a path to find @code{configure}
+itself from your working directory. If the path to @code{configure}
+would be the same as the argument to @samp{--srcdir}, you can leave out
+the @samp{--srcdir} option; it is assumed.)
-@table @code
-@item layout next
-@kindex layout next
-Display the next layout.
+For example, with version @value{GDBVN}, you can build @value{GDBN} in a
+separate directory for a Sun 4 like this:
-@item layout prev
-@kindex layout prev
-Display the previous layout.
+@example
+@group
+cd gdb-@value{GDBVN}
+mkdir ../gdb-sun4
+cd ../gdb-sun4
+../gdb-@value{GDBVN}/configure sun4
+make
+@end group
+@end example
-@item layout src
-@kindex layout src
-Display the source window only.
+When @code{configure} builds a configuration using a remote source
+directory, it creates a tree for the binaries with the same structure
+(and using the same names) as the tree under the source directory. In
+the example, you'd find the Sun 4 library @file{libiberty.a} in the
+directory @file{gdb-sun4/libiberty}, and @value{GDBN} itself in
+@file{gdb-sun4/gdb}.
-@item layout asm
-@kindex layout asm
-Display the assembly window only.
+One popular reason to build several @value{GDBN} configurations in separate
+directories is to configure @value{GDBN} for cross-compiling (where
+@value{GDBN} runs on one machine---the @dfn{host}---while debugging
+programs that run on another machine---the @dfn{target}).
+You specify a cross-debugging target by
+giving the @samp{--target=@var{target}} option to @code{configure}.
-@item layout split
-@kindex layout split
-Display the source and assembly window.
+When you run @code{make} to build a program or library, you must run
+it in a configured directory---whatever directory you were in when you
+called @code{configure} (or one of its subdirectories).
-@item layout regs
-@kindex layout regs
-Display the register window together with the source or assembly window.
+The @code{Makefile} that @code{configure} generates in each source
+directory also runs recursively. If you type @code{make} in a source
+directory such as @file{gdb-@value{GDBVN}} (or in a separate configured
+directory configured with @samp{--srcdir=@var{dirname}/gdb-@value{GDBVN}}), you
+will build all the required libraries, and then build GDB.
-@item focus next | prev | src | asm | regs | split
-@kindex focus
-Set the focus to the named window.
-This command allows to change the active window so that scrolling keys
-can be affected to another window.
+When you have multiple hosts or targets configured in separate
+directories, you can run @code{make} on them in parallel (for example,
+if they are NFS-mounted on each of the hosts); they will not interfere
+with each other.
-@item refresh
-@kindex refresh
-Refresh the screen. This is similar to using @key{C-L} key.
+@node Config Names
+@section Specifying names for hosts and targets
-@item update
-@kindex update
-Update the source window and the current execution point.
+The specifications used for hosts and targets in the @code{configure}
+script are based on a three-part naming scheme, but some short predefined
+aliases are also supported. The full naming scheme encodes three pieces
+of information in the following pattern:
-@item winheight @var{name} +@var{count}
-@itemx winheight @var{name} -@var{count}
-@kindex winheight
-Change the height of the window @var{name} by @var{count}
-lines. Positive counts increase the height, while negative counts
-decrease it.
+@example
+@var{architecture}-@var{vendor}-@var{os}
+@end example
-@end table
+For example, you can use the alias @code{sun4} as a @var{host} argument,
+or as the value for @var{target} in a @code{--target=@var{target}}
+option. The equivalent full name is @samp{sparc-sun-sunos4}.
-@node TUI Configuration
-@section TUI configuration variables
-@cindex TUI configuration variables
+The @code{configure} script accompanying @value{GDBN} does not provide
+any query facility to list all supported host and target names or
+aliases. @code{configure} calls the Bourne shell script
+@code{config.sub} to map abbreviations to full names; you can read the
+script, if you wish, or you can use it to test your guesses on
+abbreviations---for example:
-The TUI has several configuration variables that control the
-appearance of windows on the terminal.
+@smallexample
+% sh config.sub i386-linux
+i386-pc-linux-gnu
+% sh config.sub alpha-linux
+alpha-unknown-linux-gnu
+% sh config.sub hp9k700
+hppa1.1-hp-hpux
+% sh config.sub sun4
+sparc-sun-sunos4.1.1
+% sh config.sub sun3
+m68k-sun-sunos4.1.1
+% sh config.sub i986v
+Invalid configuration `i986v': machine `i986v' not recognized
+@end smallexample
-@table @code
-@item set tui border-kind @var{kind}
-@kindex set tui border-kind
-Select the border appearance for the source, assembly and register windows.
-The possible values are the following:
-@table @code
-@item space
-Use a space character to draw the border.
+@noindent
+@code{config.sub} is also distributed in the @value{GDBN} source
+directory (@file{gdb-@value{GDBVN}}, for version @value{GDBVN}).
-@item ascii
-Use ascii characters + - and | to draw the border.
+@node Configure Options
+@section @code{configure} options
-@item acs
-Use the Alternate Character Set to draw the border. The border is
-drawn using character line graphics if the terminal supports them.
+Here is a summary of the @code{configure} options and arguments that
+are most often useful for building @value{GDBN}. @code{configure} also has
+several other options not listed here. @inforef{What Configure
+Does,,configure.info}, for a full explanation of @code{configure}.
-@end table
+@example
+configure @r{[}--help@r{]}
+ @r{[}--prefix=@var{dir}@r{]}
+ @r{[}--exec-prefix=@var{dir}@r{]}
+ @r{[}--srcdir=@var{dirname}@r{]}
+ @r{[}--norecursion@r{]} @r{[}--rm@r{]}
+ @r{[}--target=@var{target}@r{]}
+ @var{host}
+@end example
-@item set tui active-border-mode @var{mode}
-@kindex set tui active-border-mode
-Select the attributes to display the border of the active window.
-The possible values are @code{normal}, @code{standout}, @code{reverse},
-@code{half}, @code{half-standout}, @code{bold} and @code{bold-standout}.
+@noindent
+You may introduce options with a single @samp{-} rather than
+@samp{--} if you prefer; but you may abbreviate option names if you use
+@samp{--}.
-@item set tui border-mode @var{mode}
-@kindex set tui border-mode
-Select the attributes to display the border of other windows.
-The @var{mode} can be one of the following:
@table @code
-@item normal
-Use normal attributes to display the border.
+@item --help
+Display a quick summary of how to invoke @code{configure}.
-@item standout
-Use standout mode.
+@item --prefix=@var{dir}
+Configure the source to install programs and files under directory
+@file{@var{dir}}.
-@item reverse
-Use reverse video mode.
+@item --exec-prefix=@var{dir}
+Configure the source to install programs under directory
+@file{@var{dir}}.
-@item half
-Use half bright mode.
+@c avoid splitting the warning from the explanation:
+@need 2000
+@item --srcdir=@var{dirname}
+@strong{Warning: using this option requires @sc{gnu} @code{make}, or another
+@code{make} that implements the @code{VPATH} feature.}@*
+Use this option to make configurations in directories separate from the
+@value{GDBN} source directories. Among other things, you can use this to
+build (or maintain) several configurations simultaneously, in separate
+directories. @code{configure} writes configuration specific files in
+the current directory, but arranges for them to use the source in the
+directory @var{dirname}. @code{configure} creates directories under
+the working directory in parallel to the source directories below
+@var{dirname}.
-@item half-standout
-Use half bright and standout mode.
+@item --norecursion
+Configure only the directory level where @code{configure} is executed; do not
+propagate configuration to subdirectories.
-@item bold
-Use extra bright or bold mode.
+@item --target=@var{target}
+Configure @value{GDBN} for cross-debugging programs running on the specified
+@var{target}. Without this option, @value{GDBN} is configured to debug
+programs that run on the same machine (@var{host}) as @value{GDBN} itself.
-@item bold-standout
-Use extra bright or bold and standout mode.
+There is no convenient way to generate a list of all available targets.
-@end table
+@item @var{host} @dots{}
+Configure @value{GDBN} to run on the specified @var{host}.
+There is no convenient way to generate a list of all available hosts.
@end table
-@node Emacs
-@chapter Using @value{GDBN} under @sc{gnu} Emacs
+There are many other options available as well, but they are generally
+needed for special purposes only.
-@cindex Emacs
-@cindex @sc{gnu} Emacs
-A special interface allows you to use @sc{gnu} Emacs to view (and
-edit) the source files for the program you are debugging with
-@value{GDBN}.
+@node Maintenance Commands
+@appendix Maintenance Commands
+@cindex maintenance commands
+@cindex internal commands
-To use this interface, use the command @kbd{M-x gdb} in Emacs. Give the
-executable file you want to debug as an argument. This command starts
-@value{GDBN} as a subprocess of Emacs, with input and output through a newly
-created Emacs buffer.
-@c (Do not use the @code{-tui} option to run @value{GDBN} from Emacs.)
+In addition to commands intended for @value{GDBN} users, @value{GDBN}
+includes a number of commands intended for @value{GDBN} developers.
+These commands are provided here for reference.
-Using @value{GDBN} under Emacs is just like using @value{GDBN} normally except for two
-things:
+@table @code
+@kindex maint info breakpoints
+@item @anchor{maint info breakpoints}maint info breakpoints
+Using the same format as @samp{info breakpoints}, display both the
+breakpoints you've set explicitly, and those @value{GDBN} is using for
+internal purposes. Internal breakpoints are shown with negative
+breakpoint numbers. The type column identifies what kind of breakpoint
+is shown:
-@itemize @bullet
-@item
-All ``terminal'' input and output goes through the Emacs buffer.
-@end itemize
+@table @code
+@item breakpoint
+Normal, explicitly set breakpoint.
-This applies both to @value{GDBN} commands and their output, and to the input
-and output done by the program you are debugging.
+@item watchpoint
+Normal, explicitly set watchpoint.
-This is useful because it means that you can copy the text of previous
-commands and input them again; you can even use parts of the output
-in this way.
+@item longjmp
+Internal breakpoint, used to handle correctly stepping through
+@code{longjmp} calls.
-All the facilities of Emacs' Shell mode are available for interacting
-with your program. In particular, you can send signals the usual
-way---for example, @kbd{C-c C-c} for an interrupt, @kbd{C-c C-z} for a
-stop.
+@item longjmp resume
+Internal breakpoint at the target of a @code{longjmp}.
-@itemize @bullet
-@item
-@value{GDBN} displays source code through Emacs.
-@end itemize
+@item until
+Temporary internal breakpoint used by the @value{GDBN} @code{until} command.
-Each time @value{GDBN} displays a stack frame, Emacs automatically finds the
-source file for that frame and puts an arrow (@samp{=>}) at the
-left margin of the current line. Emacs uses a separate buffer for
-source display, and splits the screen to show both your @value{GDBN} session
-and the source.
+@item finish
+Temporary internal breakpoint used by the @value{GDBN} @code{finish} command.
-Explicit @value{GDBN} @code{list} or search commands still produce output as
-usual, but you probably have no reason to use them from Emacs.
+@item shlib events
+Shared library events.
-@quotation
-@emph{Warning:} If the directory where your program resides is not your
-current directory, it can be easy to confuse Emacs about the location of
-the source files, in which case the auxiliary display buffer does not
-appear to show your source. @value{GDBN} can find programs by searching your
-environment's @code{PATH} variable, so the @value{GDBN} input and output
-session proceeds normally; but Emacs does not get enough information
-back from @value{GDBN} to locate the source files in this situation. To
-avoid this problem, either start @value{GDBN} mode from the directory where
-your program resides, or specify an absolute file name when prompted for the
-@kbd{M-x gdb} argument.
+@end table
-A similar confusion can result if you use the @value{GDBN} @code{file} command to
-switch to debugging a program in some other location, from an existing
-@value{GDBN} buffer in Emacs.
-@end quotation
+@end table
-By default, @kbd{M-x gdb} calls the program called @file{gdb}. If
-you need to call @value{GDBN} by a different name (for example, if you keep
-several configurations around, with different names) you can set the
-Emacs variable @code{gdb-command-name}; for example,
+
+@node Remove Protocol
+@appendix @value{GDBN} Remote Serial Protocol
+
+There may be occasions when you need to know something about the
+protocol---for example, if there is only one serial port to your target
+machine, you might want your program to do something special if it
+recognizes a packet meant for @value{GDBN}.
+
+In the examples below, @samp{<-} and @samp{->} are used to indicate
+transmitted and received data respectfully.
+
+@cindex protocol, @value{GDBN} remote serial
+@cindex serial protocol, @value{GDBN} remote
+@cindex remote serial protocol
+All @value{GDBN} commands and responses (other than acknowledgments) are
+sent as a @var{packet}. A @var{packet} is introduced with the character
+@samp{$}, the actual @var{packet-data}, and the terminating character
+@samp{#} followed by a two-digit @var{checksum}:
@example
-(setq gdb-command-name "mygdb")
+@code{$}@var{packet-data}@code{#}@var{checksum}
@end example
+@noindent
+@cindex checksum, for @value{GDBN} remote
@noindent
-(preceded by @kbd{M-:} or @kbd{ESC :}, or typed in the @code{*scratch*} buffer, or
-in your @file{.emacs} file) makes Emacs call the program named
-``@code{mygdb}'' instead.
+The two-digit @var{checksum} is computed as the modulo 256 sum of all
+characters between the leading @samp{$} and the trailing @samp{#} (an
+eight bit unsigned checksum).
-In the @value{GDBN} I/O buffer, you can use these special Emacs commands in
-addition to the standard Shell mode commands:
+Implementors should note that prior to @value{GDBN} 5.0 the protocol
+specification also included an optional two-digit @var{sequence-id}:
-@table @kbd
-@item C-h m
-Describe the features of Emacs' @value{GDBN} Mode.
+@example
+@code{$}@var{sequence-id}@code{:}@var{packet-data}@code{#}@var{checksum}
+@end example
-@item M-s
-Execute to another source line, like the @value{GDBN} @code{step} command; also
-update the display window to show the current file and location.
+@cindex sequence-id, for @value{GDBN} remote
+@noindent
+That @var{sequence-id} was appended to the acknowledgment. @value{GDBN}
+has never output @var{sequence-id}s. Stubs that handle packets added
+since @value{GDBN} 5.0 must not accept @var{sequence-id}.
-@item M-n
-Execute to next source line in this function, skipping all function
-calls, like the @value{GDBN} @code{next} command. Then update the display window
-to show the current file and location.
+@cindex acknowledgment, for @value{GDBN} remote
+When either the host or the target machine receives a packet, the first
+response expected is an acknowledgment: either @samp{+} (to indicate
+the package was received correctly) or @samp{-} (to request
+retransmission):
-@item M-i
-Execute one instruction, like the @value{GDBN} @code{stepi} command; update
-display window accordingly.
+@example
+<- @code{$}@var{packet-data}@code{#}@var{checksum}
+-> @code{+}
+@end example
+@noindent
-@item M-x gdb-nexti
-Execute to next instruction, using the @value{GDBN} @code{nexti} command; update
-display window accordingly.
+The host (@value{GDBN}) sends @var{command}s, and the target (the
+debugging stub incorporated in your program) sends a @var{response}. In
+the case of step and continue @var{command}s, the response is only sent
+when the operation has completed (the target has again stopped).
-@item C-c C-f
-Execute until exit from the selected stack frame, like the @value{GDBN}
-@code{finish} command.
+@var{packet-data} consists of a sequence of characters with the
+exception of @samp{#} and @samp{$} (see @samp{X} packet for additional
+exceptions).
-@item M-c
-Continue execution of your program, like the @value{GDBN} @code{continue}
-command.
+Fields within the packet should be separated using @samp{,} @samp{;} or
+@samp{:}. Except where otherwise noted all numbers are represented in
+HEX with leading zeros suppressed.
-@emph{Warning:} In Emacs v19, this command is @kbd{C-c C-p}.
+Implementors should note that prior to @value{GDBN} 5.0, the character
+@samp{:} could not appear as the third character in a packet (as it
+would potentially conflict with the @var{sequence-id}).
-@item M-u
-Go up the number of frames indicated by the numeric argument
-(@pxref{Arguments, , Numeric Arguments, Emacs, The @sc{gnu} Emacs Manual}),
-like the @value{GDBN} @code{up} command.
+Response @var{data} can be run-length encoded to save space. A @samp{*}
+means that the next character is an @sc{ascii} encoding giving a repeat count
+which stands for that many repetitions of the character preceding the
+@samp{*}. The encoding is @code{n+29}, yielding a printable character
+where @code{n >=3} (which is where rle starts to win). The printable
+characters @samp{$}, @samp{#}, @samp{+} and @samp{-} or with a numeric
+value greater than 126 should not be used.
-@emph{Warning:} In Emacs v19, this command is @kbd{C-c C-u}.
+Some remote systems have used a different run-length encoding mechanism
+loosely refered to as the cisco encoding. Following the @samp{*}
+character are two hex digits that indicate the size of the packet.
-@item M-d
-Go down the number of frames indicated by the numeric argument, like the
-@value{GDBN} @code{down} command.
+So:
+@example
+"@code{0* }"
+@end example
+@noindent
+means the same as "0000".
-@emph{Warning:} In Emacs v19, this command is @kbd{C-c C-d}.
+The error response returned for some packets includes a two character
+error number. That number is not well defined.
-@item C-x &
-Read the number where the cursor is positioned, and insert it at the end
-of the @value{GDBN} I/O buffer. For example, if you wish to disassemble code
-around an address that was displayed earlier, type @kbd{disassemble};
-then move the cursor to the address display, and pick up the
-argument for @code{disassemble} by typing @kbd{C-x &}.
+For any @var{command} not supported by the stub, an empty response
+(@samp{$#00}) should be returned. That way it is possible to extend the
+protocol. A newer @value{GDBN} can tell if a packet is supported based
+on that response.
-You can customize this further by defining elements of the list
-@code{gdb-print-command}; once it is defined, you can format or
-otherwise process numbers picked up by @kbd{C-x &} before they are
-inserted. A numeric argument to @kbd{C-x &} indicates that you
-wish special formatting, and also acts as an index to pick an element of the
-list. If the list element is a string, the number to be inserted is
-formatted using the Emacs function @code{format}; otherwise the number
-is passed as an argument to the corresponding list element.
-@end table
+A stub is required to support the @samp{g}, @samp{G}, @samp{m}, @samp{M},
+@samp{c}, and @samp{s} @var{command}s. All other @var{command}s are
+optional.
-In any source file, the Emacs command @kbd{C-x SPC} (@code{gdb-break})
-tells @value{GDBN} to set a breakpoint on the source line point is on.
+Below is a complete list of all currently defined @var{command}s and
+their corresponding response @var{data}:
+@page
+@multitable @columnfractions .30 .30 .40
+@item Packet
+@tab Request
+@tab Description
-If you accidentally delete the source-display buffer, an easy way to get
-it back is to type the command @code{f} in the @value{GDBN} buffer, to
-request a frame display; when you run under Emacs, this recreates
-the source buffer if necessary to show you the context of the current
-frame.
+@item extended mode
+@tab @code{!}
+@tab
+Enable extended mode. In extended mode, the remote server is made
+persistent. The @samp{R} packet is used to restart the program being
+debugged.
+@item
+@tab reply @samp{OK}
+@tab
+The remote target both supports and has enabled extended mode.
-The source files displayed in Emacs are in ordinary Emacs buffers
-which are visiting the source files in the usual way. You can edit
-the files with these buffers if you wish; but keep in mind that @value{GDBN}
-communicates with Emacs in terms of line numbers. If you add or
-delete lines from the text, the line numbers that @value{GDBN} knows cease
-to correspond properly with the code.
+@item last signal
+@tab @code{?}
+@tab
+Indicate the reason the target halted. The reply is the same as for step
+and continue.
+@item
+@tab reply
+@tab see below
-@c The following dropped because Epoch is nonstandard. Reactivate
-@c if/when v19 does something similar. ---doc@cygnus.com 19dec1990
-@ignore
-@kindex Emacs Epoch environment
-@kindex Epoch
-@kindex inspect
-Version 18 of @sc{gnu} Emacs has a built-in window system
-called the @code{epoch}
-environment. Users of this environment can use a new command,
-@code{inspect} which performs identically to @code{print} except that
-each value is printed in its own window.
-@end ignore
-
-@include annotate.texi
-@include gdbmi.texinfo
-
-@node GDB Bugs
-@chapter Reporting Bugs in @value{GDBN}
-@cindex bugs in @value{GDBN}
-@cindex reporting bugs in @value{GDBN}
-
-Your bug reports play an essential role in making @value{GDBN} reliable.
-
-Reporting a bug may help you by bringing a solution to your problem, or it
-may not. But in any case the principal function of a bug report is to help
-the entire community by making the next version of @value{GDBN} work better. Bug
-reports are your contribution to the maintenance of @value{GDBN}.
-
-In order for a bug report to serve its purpose, you must include the
-information that enables us to fix the bug.
-
-@menu
-* Bug Criteria:: Have you found a bug?
-* Bug Reporting:: How to report bugs
-@end menu
-
-@node Bug Criteria
-@section Have you found a bug?
-@cindex bug criteria
-
-If you are not sure whether you have found a bug, here are some guidelines:
-
-@itemize @bullet
-@cindex fatal signal
-@cindex debugger crash
-@cindex crash of debugger
-@item
-If the debugger gets a fatal signal, for any input whatever, that is a
-@value{GDBN} bug. Reliable debuggers never crash.
+@item reserved
+@tab @code{a}
+@tab Reserved for future use
-@cindex error on valid input
+@item set program arguments @strong{(reserved)}
+@tab @code{A}@var{arglen}@code{,}@var{argnum}@code{,}@var{arg}@code{,...}
+@tab
@item
-If @value{GDBN} produces an error message for valid input, that is a
-bug. (Note that if you're cross debugging, the problem may also be
-somewhere in the connection to the target.)
-
-@cindex invalid input
+@tab
+@tab
+Initialized @samp{argv[]} array passed into program. @var{arglen}
+specifies the number of bytes in the hex encoded byte stream @var{arg}.
+See @file{gdbserver} for more details.
@item
-If @value{GDBN} does not produce an error message for invalid input,
-that is a bug. However, you should note that your idea of
-``invalid input'' might be our idea of ``an extension'' or ``support
-for traditional practice''.
-
+@tab reply @code{OK}
@item
-If you are an experienced user of debugging tools, your suggestions
-for improvement of @value{GDBN} are welcome in any case.
-@end itemize
-
-@node Bug Reporting
-@section How to report bugs
-@cindex bug reports
-@cindex @value{GDBN} bugs, reporting
-
-A number of companies and individuals offer support for @sc{gnu} products.
-If you obtained @value{GDBN} from a support organization, we recommend you
-contact that organization first.
-
-You can find contact information for many support companies and
-individuals in the file @file{etc/SERVICE} in the @sc{gnu} Emacs
-distribution.
-@c should add a web page ref...
-
-In any event, we also recommend that you send bug reports for
-@value{GDBN} to this addresses:
-
-@example
-bug-gdb@@gnu.org
-@end example
-
-@strong{Do not send bug reports to @samp{info-gdb}, or to
-@samp{help-gdb}, or to any newsgroups.} Most users of @value{GDBN} do
-not want to receive bug reports. Those that do have arranged to receive
-@samp{bug-gdb}.
+@tab reply @code{E}@var{NN}
-The mailing list @samp{bug-gdb} has a newsgroup @samp{gnu.gdb.bug} which
-serves as a repeater. The mailing list and the newsgroup carry exactly
-the same messages. Often people think of posting bug reports to the
-newsgroup instead of mailing them. This appears to work, but it has one
-problem which can be crucial: a newsgroup posting often lacks a mail
-path back to the sender. Thus, if we need to ask for more information,
-we may be unable to reach you. For this reason, it is better to send
-bug reports to the mailing list.
+@item set baud @strong{(deprecated)}
+@tab @code{b}@var{baud}
+@tab
+Change the serial line speed to @var{baud}. JTC: @emph{When does the
+transport layer state change? When it's received, or after the ACK is
+transmitted. In either case, there are problems if the command or the
+acknowledgment packet is dropped.} Stan: @emph{If people really wanted
+to add something like this, and get it working for the first time, they
+ought to modify ser-unix.c to send some kind of out-of-band message to a
+specially-setup stub and have the switch happen "in between" packets, so
+that from remote protocol's point of view, nothing actually
+happened.}
-As a last resort, send bug reports on paper to:
+@item set breakpoint @strong{(deprecated)}
+@tab @code{B}@var{addr},@var{mode}
+@tab
+Set (@var{mode} is @samp{S}) or clear (@var{mode} is @samp{C}) a
+breakpoint at @var{addr}. @emph{This has been replaced by the @samp{Z} and
+@samp{z} packets.}
-@example
-@sc{gnu} Debugger Bugs
-Free Software Foundation Inc.
-59 Temple Place - Suite 330
-Boston, MA 02111-1307
-USA
-@end example
+@item continue
+@tab @code{c}@var{addr}
+@tab
+@var{addr} is address to resume. If @var{addr} is omitted, resume at
+current address.
+@item
+@tab reply
+@tab see below
-The fundamental principle of reporting bugs usefully is this:
-@strong{report all the facts}. If you are not sure whether to state a
-fact or leave it out, state it!
+@item continue with signal
+@tab @code{C}@var{sig}@code{;}@var{addr}
+@tab
+Continue with signal @var{sig} (hex signal number). If
+@code{;}@var{addr} is omitted, resume at same address.
+@item
+@tab reply
+@tab see below
-Often people omit facts because they think they know what causes the
-problem and assume that some details do not matter. Thus, you might
-assume that the name of the variable you use in an example does not matter.
-Well, probably it does not, but one cannot be sure. Perhaps the bug is a
-stray memory reference which happens to fetch from the location where that
-name is stored in memory; perhaps, if the name were different, the contents
-of that location would fool the debugger into doing the right thing despite
-the bug. Play it safe and give a specific, complete example. That is the
-easiest thing for you to do, and the most helpful.
+@item toggle debug @strong{(deprecated)}
+@tab @code{d}
+@tab
+toggle debug flag.
-Keep in mind that the purpose of a bug report is to enable us to fix the
-bug. It may be that the bug has been reported previously, but neither
-you nor we can know that unless your bug report is complete and
-self-contained.
+@item detach
+@tab @code{D}
+@tab
+Detach @value{GDBN} from the remote system. Sent to the remote target before
+@value{GDBN} disconnects.
+@item
+@tab reply @emph{no response}
+@tab
+@value{GDBN} does not check for any response after sending this packet.
-Sometimes people give a few sketchy facts and ask, ``Does this ring a
-bell?'' Those bug reports are useless, and we urge everyone to
-@emph{refuse to respond to them} except to chide the sender to report
-bugs properly.
+@item reserved
+@tab @code{e}
+@tab Reserved for future use
-To enable us to fix the bug, you should include all these things:
+@item reserved
+@tab @code{E}
+@tab Reserved for future use
-@itemize @bullet
-@item
-The version of @value{GDBN}. @value{GDBN} announces it if you start
-with no arguments; you can also print it at any time using @code{show
-version}.
+@item reserved
+@tab @code{f}
+@tab Reserved for future use
-Without this, we will not know whether there is any point in looking for
-the bug in the current version of @value{GDBN}.
+@item reserved
+@tab @code{F}
+@tab Reserved for future use
+@item read registers
+@tab @code{g}
+@tab Read general registers.
@item
-The type of machine you are using, and the operating system name and
-version number.
-
+@tab reply @var{XX...}
+@tab
+Each byte of register data is described by two hex digits. The bytes
+with the register are transmitted in target byte order. The size of
+each register and their position within the @samp{g} @var{packet} are
+determined by the @value{GDBN} internal macros @var{REGISTER_RAW_SIZE} and
+@var{REGISTER_NAME} macros. The specification of several standard
+@code{g} packets is specified below.
@item
-What compiler (and its version) was used to compile @value{GDBN}---e.g.
-``@value{GCC}--2.8.1''.
+@tab @code{E}@var{NN}
+@tab for an error.
+@item write regs
+@tab @code{G}@var{XX...}
+@tab
+See @samp{g} for a description of the @var{XX...} data.
@item
-What compiler (and its version) was used to compile the program you are
-debugging---e.g. ``@value{GCC}--2.8.1'', or ``HP92453-01 A.10.32.03 HP
-C Compiler''. For GCC, you can say @code{gcc --version} to get this
-information; for other compilers, see the documentation for those
-compilers.
-
+@tab reply @code{OK}
+@tab for success
@item
-The command arguments you gave the compiler to compile your example and
-observe the bug. For example, did you use @samp{-O}? To guarantee
-you will not omit something important, list them all. A copy of the
-Makefile (or the output from make) is sufficient.
+@tab reply @code{E}@var{NN}
+@tab for an error
-If we were to try to guess the arguments, we would probably guess wrong
-and then we might not encounter the bug.
+@item reserved
+@tab @code{h}
+@tab Reserved for future use
+@item set thread
+@tab @code{H}@var{c}@var{t...}
+@tab
+Set thread for subsequent operations (@samp{m}, @samp{M}, @samp{g},
+@samp{G}, et.al.). @var{c} = @samp{c} for thread used in step and
+continue; @var{t...} can be -1 for all threads. @var{c} = @samp{g} for
+thread used in other operations. If zero, pick a thread, any thread.
@item
-A complete input script, and all necessary source files, that will
-reproduce the bug.
-
+@tab reply @code{OK}
+@tab for success
@item
-A description of what behavior you observe that you believe is
-incorrect. For example, ``It gets a fatal signal.''
+@tab reply @code{E}@var{NN}
+@tab for an error
-Of course, if the bug is that @value{GDBN} gets a fatal signal, then we
-will certainly notice it. But if the bug is incorrect output, we might
-not notice unless it is glaringly wrong. You might as well not give us
-a chance to make a mistake.
+@c FIXME: JTC:
+@c 'H': How restrictive (or permissive) is the thread model. If a
+@c thread is selected and stopped, are other threads allowed
+@c to continue to execute? As I mentioned above, I think the
+@c semantics of each command when a thread is selected must be
+@c described. For example:
+@c
+@c 'g': If the stub supports threads and a specific thread is
+@c selected, returns the register block from that thread;
+@c otherwise returns current registers.
+@c
+@c 'G' If the stub supports threads and a specific thread is
+@c selected, sets the registers of the register block of
+@c that thread; otherwise sets current registers.
-Even if the problem you experience is a fatal signal, you should still
-say so explicitly. Suppose something strange is going on, such as, your
-copy of @value{GDBN} is out of synch, or you have encountered a bug in
-the C library on your system. (This has happened!) Your copy might
-crash and ours would not. If you told us to expect a crash, then when
-ours fails to crash, we would know that the bug was not happening for
-us. If you had not told us to expect a crash, then we would not be able
-to draw any conclusion from our observations.
+@item cycle step @strong{(draft)}
+@tab @code{i}@var{addr}@code{,}@var{nnn}
+@tab
+Step the remote target by a single clock cycle. If @code{,}@var{nnn} is
+present, cycle step @var{nnn} cycles. If @var{addr} is present, cycle
+step starting at that address.
-@item
-If you wish to suggest changes to the @value{GDBN} source, send us context
-diffs. If you even discuss something in the @value{GDBN} source, refer to
-it by context, not by line number.
+@item signal then cycle step @strong{(reserved)}
+@tab @code{I}
+@tab
+See @samp{i} and @samp{S} for likely syntax and semantics.
-The line numbers in our development sources will not match those in your
-sources. Your line numbers would convey no useful information to us.
+@item reserved
+@tab @code{j}
+@tab Reserved for future use
-@end itemize
+@item reserved
+@tab @code{J}
+@tab Reserved for future use
-Here are some things that are not necessary:
+@item kill request
+@tab @code{k}
+@tab
+FIXME: @emph{There is no description of how operate when a specific
+thread context has been selected (ie. does 'k' kill only that thread?)}.
-@itemize @bullet
-@item
-A description of the envelope of the bug.
+@item reserved
+@tab @code{l}
+@tab Reserved for future use
-Often people who encounter a bug spend a lot of time investigating
-which changes to the input file will make the bug go away and which
-changes will not affect it.
+@item reserved
+@tab @code{L}
+@tab Reserved for future use
-This is often time consuming and not very useful, because the way we
-will find the bug is by running a single example under the debugger
-with breakpoints, not by pure deduction from a series of examples.
-We recommend that you save your time for something else.
+@item read memory
+@tab @code{m}@var{addr}@code{,}@var{length}
+@tab
+Read @var{length} bytes of memory starting at address @var{addr}.
+Neither @value{GDBN} nor the stub assume that sized memory transfers are assumed
+using word alligned accesses. FIXME: @emph{A word aligned memory
+transfer mechanism is needed.}
+@item
+@tab reply @var{XX...}
+@tab
+@var{XX...} is mem contents. Can be fewer bytes than requested if able
+to read only part of the data. Neither @value{GDBN} nor the stub assume that
+sized memory transfers are assumed using word alligned accesses. FIXME:
+@emph{A word aligned memory transfer mechanism is needed.}
+@item
+@tab reply @code{E}@var{NN}
+@tab @var{NN} is errno
-Of course, if you can find a simpler example to report @emph{instead}
-of the original one, that is a convenience for us. Errors in the
-output will be easier to spot, running under the debugger will take
-less time, and so on.
+@item write mem
+@tab @code{M}@var{addr},@var{length}@code{:}@var{XX...}
+@tab
+Write @var{length} bytes of memory starting at address @var{addr}.
+@var{XX...} is the data.
+@item
+@tab reply @code{OK}
+@tab for success
+@item
+@tab reply @code{E}@var{NN}
+@tab
+for an error (this includes the case where only part of the data was
+written).
-However, simplification is not vital; if you do not want to do this,
-report the bug anyway and send us the entire test case you used.
+@item reserved
+@tab @code{n}
+@tab Reserved for future use
-@item
-A patch for the bug.
+@item reserved
+@tab @code{N}
+@tab Reserved for future use
-A patch for the bug does help us if it is a good one. But do not omit
-the necessary information, such as the test case, on the assumption that
-a patch is all we need. We might see problems with your patch and decide
-to fix the problem another way, or we might not understand it at all.
+@item reserved
+@tab @code{o}
+@tab Reserved for future use
-Sometimes with a program as complicated as @value{GDBN} it is very hard to
-construct an example that will make the program follow a certain path
-through the code. If you do not send us the example, we will not be able
-to construct one, so we will not be able to verify that the bug is fixed.
+@item reserved
+@tab @code{O}
+@tab Reserved for future use
-And if we cannot understand what bug you are trying to fix, or why your
-patch should be an improvement, we will not install it. A test case will
-help us to understand.
+@item read reg @strong{(reserved)}
+@tab @code{p}@var{n...}
+@tab
+See write register.
+@item
+@tab return @var{r....}
+@tab The hex encoded value of the register in target byte order.
+@item write reg
+@tab @code{P}@var{n...}@code{=}@var{r...}
+@tab
+Write register @var{n...} with value @var{r...}, which contains two hex
+digits for each byte in the register (target byte order).
@item
-A guess about what the bug is or what it depends on.
+@tab reply @code{OK}
+@tab for success
+@item
+@tab reply @code{E}@var{NN}
+@tab for an error
-Such guesses are usually wrong. Even we cannot guess right about such
-things without first using the debugger to find the facts.
-@end itemize
+@item general query
+@tab @code{q}@var{query}
+@tab
+Request info about @var{query}. In general @value{GDBN} queries
+have a leading upper case letter. Custom vendor queries should use a
+company prefix (in lower case) ex: @samp{qfsf.var}. @var{query} may
+optionally be followed by a @samp{,} or @samp{;} separated list. Stubs
+must ensure that they match the full @var{query} name.
+@item
+@tab reply @code{XX...}
+@tab Hex encoded data from query. The reply can not be empty.
+@item
+@tab reply @code{E}@var{NN}
+@tab error reply
+@item
+@tab reply @samp{}
+@tab Indicating an unrecognized @var{query}.
-@c The readline documentation is distributed with the readline code
-@c and consists of the two following files:
-@c rluser.texinfo
-@c inc-hist.texinfo
-@c Use -I with makeinfo to point to the appropriate directory,
-@c environment var TEXINPUTS with TeX.
-@include rluser.texinfo
-@include inc-hist.texinfo
+@item general set
+@tab @code{Q}@var{var}@code{=}@var{val}
+@tab
+Set value of @var{var} to @var{val}. See @samp{q} for a discussing of
+naming conventions.
+@item reset @strong{(deprecated)}
+@tab @code{r}
+@tab
+Reset the entire system.
-@node Formatting Documentation
-@appendix Formatting Documentation
+@item remote restart
+@tab @code{R}@var{XX}
+@tab
+Restart the program being debugged. @var{XX}, while needed, is ignored.
+This packet is only available in extended mode.
+@item
+@tab
+no reply
+@tab
+The @samp{R} packet has no reply.
-@cindex @value{GDBN} reference card
-@cindex reference card
-The @value{GDBN} 4 release includes an already-formatted reference card, ready
-for printing with PostScript or Ghostscript, in the @file{gdb}
-subdirectory of the main source directory@footnote{In
-@file{gdb-@value{GDBVN}/gdb/refcard.ps} of the version @value{GDBVN}
-release.}. If you can use PostScript or Ghostscript with your printer,
-you can print the reference card immediately with @file{refcard.ps}.
+@item step
+@tab @code{s}@var{addr}
+@tab
+@var{addr} is address to resume. If @var{addr} is omitted, resume at
+same address.
+@item
+@tab reply
+@tab see below
-The release also includes the source for the reference card. You
-can format it, using @TeX{}, by typing:
+@item step with signal
+@tab @code{S}@var{sig}@code{;}@var{addr}
+@tab
+Like @samp{C} but step not continue.
+@item
+@tab reply
+@tab see below
-@example
-make refcard.dvi
-@end example
+@item search
+@tab @code{t}@var{addr}@code{:}@var{PP}@code{,}@var{MM}
+@tab
+Search backwards starting at address @var{addr} for a match with pattern
+@var{PP} and mask @var{MM}. @var{PP} and @var{MM} are 4
+bytes. @var{addr} must be at least 3 digits.
-The @value{GDBN} reference card is designed to print in @dfn{landscape}
-mode on US ``letter'' size paper;
-that is, on a sheet 11 inches wide by 8.5 inches
-high. You will need to specify this form of printing as an option to
-your @sc{dvi} output program.
+@item thread alive
+@tab @code{T}@var{XX}
+@tab Find out if the thread XX is alive.
+@item
+@tab reply @code{OK}
+@tab thread is still alive
+@item
+@tab reply @code{E}@var{NN}
+@tab thread is dead
-@cindex documentation
+@item reserved
+@tab @code{u}
+@tab Reserved for future use
-All the documentation for @value{GDBN} comes as part of the machine-readable
-distribution. The documentation is written in Texinfo format, which is
-a documentation system that uses a single source file to produce both
-on-line information and a printed manual. You can use one of the Info
-formatting commands to create the on-line version of the documentation
-and @TeX{} (or @code{texi2roff}) to typeset the printed version.
+@item reserved
+@tab @code{U}
+@tab Reserved for future use
-@value{GDBN} includes an already formatted copy of the on-line Info
-version of this manual in the @file{gdb} subdirectory. The main Info
-file is @file{gdb-@value{GDBVN}/gdb/gdb.info}, and it refers to
-subordinate files matching @samp{gdb.info*} in the same directory. If
-necessary, you can print out these files, or read them with any editor;
-but they are easier to read using the @code{info} subsystem in @sc{gnu}
-Emacs or the standalone @code{info} program, available as part of the
-@sc{gnu} Texinfo distribution.
-
-If you want to format these Info files yourself, you need one of the
-Info formatting programs, such as @code{texinfo-format-buffer} or
-@code{makeinfo}.
+@item reserved
+@tab @code{v}
+@tab Reserved for future use
-If you have @code{makeinfo} installed, and are in the top level
-@value{GDBN} source directory (@file{gdb-@value{GDBVN}}, in the case of
-version @value{GDBVN}), you can make the Info file by typing:
+@item reserved
+@tab @code{V}
+@tab Reserved for future use
-@example
-cd gdb
-make gdb.info
-@end example
+@item reserved
+@tab @code{w}
+@tab Reserved for future use
-If you want to typeset and print copies of this manual, you need @TeX{},
-a program to print its @sc{dvi} output files, and @file{texinfo.tex}, the
-Texinfo definitions file.
+@item reserved
+@tab @code{W}
+@tab Reserved for future use
-@TeX{} is a typesetting program; it does not print files directly, but
-produces output files called @sc{dvi} files. To print a typeset
-document, you need a program to print @sc{dvi} files. If your system
-has @TeX{} installed, chances are it has such a program. The precise
-command to use depends on your system; @kbd{lpr -d} is common; another
-(for PostScript devices) is @kbd{dvips}. The @sc{dvi} print command may
-require a file name without any extension or a @samp{.dvi} extension.
+@item reserved
+@tab @code{x}
+@tab Reserved for future use
-@TeX{} also requires a macro definitions file called
-@file{texinfo.tex}. This file tells @TeX{} how to typeset a document
-written in Texinfo format. On its own, @TeX{} cannot either read or
-typeset a Texinfo file. @file{texinfo.tex} is distributed with GDB
-and is located in the @file{gdb-@var{version-number}/texinfo}
-directory.
+@item write mem (binary)
+@tab @code{X}@var{addr}@code{,}@var{length}@var{:}@var{XX...}
+@tab
+@var{addr} is address, @var{length} is number of bytes, @var{XX...} is
+binary data. The characters @code{$}, @code{#}, and @code{0x7d} are
+escaped using @code{0x7d}.
+@item
+@tab reply @code{OK}
+@tab for success
+@item
+@tab reply @code{E}@var{NN}
+@tab for an error
-If you have @TeX{} and a @sc{dvi} printer program installed, you can
-typeset and print this manual. First switch to the the @file{gdb}
-subdirectory of the main source directory (for example, to
-@file{gdb-@value{GDBVN}/gdb}) and type:
+@item reserved
+@tab @code{y}
+@tab Reserved for future use
-@example
-make gdb.dvi
-@end example
+@item reserved
+@tab @code{Y}
+@tab Reserved for future use
-Then give @file{gdb.dvi} to your @sc{dvi} printing program.
+@item remove break or watchpoint @strong{(draft)}
+@tab @code{z}@var{t}@code{,}@var{addr}@code{,}@var{length}
+@tab
+See @samp{Z}.
-@node Installing GDB
-@appendix Installing @value{GDBN}
-@cindex configuring @value{GDBN}
-@cindex installation
+@item insert break or watchpoint @strong{(draft)}
+@tab @code{Z}@var{t}@code{,}@var{addr}@code{,}@var{length}
+@tab
+@var{t} is type: @samp{0} - software breakpoint, @samp{1} - hardware
+breakpoint, @samp{2} - write watchpoint, @samp{3} - read watchpoint,
+@samp{4} - access watchpoint; @var{addr} is address; @var{length} is in
+bytes. For a software breakpoint, @var{length} specifies the size of
+the instruction to be patched. For hardware breakpoints and watchpoints
+@var{length} specifies the memory region to be monitored. To avoid
+potential problems with duplicate packets, the operations should be
+implemented in an idempotent way.
+@item
+@tab reply @code{E}@var{NN}
+@tab for an error
+@item
+@tab reply @code{OK}
+@tab for success
+@item
+@tab @samp{}
+@tab If not supported.
-@value{GDBN} comes with a @code{configure} script that automates the process
-of preparing @value{GDBN} for installation; you can then use @code{make} to
-build the @code{gdb} program.
-@iftex
-@c irrelevant in info file; it's as current as the code it lives with.
-@footnote{If you have a more recent version of @value{GDBN} than @value{GDBVN},
-look at the @file{README} file in the sources; we may have improved the
-installation procedures since publishing this manual.}
-@end iftex
+@item reserved
+@tab <other>
+@tab Reserved for future use
-The @value{GDBN} distribution includes all the source code you need for
-@value{GDBN} in a single directory, whose name is usually composed by
-appending the version number to @samp{gdb}.
+@end multitable
-For example, the @value{GDBN} version @value{GDBVN} distribution is in the
-@file{gdb-@value{GDBVN}} directory. That directory contains:
+The @samp{C}, @samp{c}, @samp{S}, @samp{s} and @samp{?} packets can
+receive any of the below as a reply. In the case of the @samp{C},
+@samp{c}, @samp{S} and @samp{s} packets, that reply is only returned
+when the target halts. In the below the exact meaning of @samp{signal
+number} is poorly defined. In general one of the UNIX signal numbering
+conventions is used.
-@table @code
-@item gdb-@value{GDBVN}/configure @r{(and supporting files)}
-script for configuring @value{GDBN} and all its supporting libraries
+@multitable @columnfractions .4 .6
-@item gdb-@value{GDBVN}/gdb
-the source specific to @value{GDBN} itself
+@item @code{S}@var{AA}
+@tab @var{AA} is the signal number
-@item gdb-@value{GDBVN}/bfd
-source for the Binary File Descriptor library
+@item @code{T}@var{AA}@var{n...}@code{:}@var{r...}@code{;}@var{n...}@code{:}@var{r...}@code{;}@var{n...}@code{:}@var{r...}@code{;}
+@tab
+@var{AA} = two hex digit signal number; @var{n...} = register number
+(hex), @var{r...} = target byte ordered register contents, size defined
+by @code{REGISTER_RAW_SIZE}; @var{n...} = @samp{thread}, @var{r...} =
+thread process ID, this is a hex integer; @var{n...} = other string not
+starting with valid hex digit. @value{GDBN} should ignore this
+@var{n...}, @var{r...} pair and go on to the next. This way we can
+extend the protocol.
-@item gdb-@value{GDBVN}/include
-@sc{gnu} include files
+@item @code{W}@var{AA}
+@tab
+The process exited, and @var{AA} is the exit status. This is only
+applicable for certains sorts of targets.
-@item gdb-@value{GDBVN}/libiberty
-source for the @samp{-liberty} free software library
+@item @code{X}@var{AA}
+@tab
+The process terminated with signal @var{AA}.
-@item gdb-@value{GDBVN}/opcodes
-source for the library of opcode tables and disassemblers
+@item @code{N}@var{AA}@code{;}@var{t...}@code{;}@var{d...}@code{;}@var{b...} @strong{(obsolete)}
+@tab
+@var{AA} = signal number; @var{t...} = address of symbol "_start";
+@var{d...} = base of data section; @var{b...} = base of bss section.
+@emph{Note: only used by Cisco Systems targets. The difference between
+this reply and the "qOffsets" query is that the 'N' packet may arrive
+spontaneously whereas the 'qOffsets' is a query initiated by the host
+debugger.}
-@item gdb-@value{GDBVN}/readline
-source for the @sc{gnu} command-line interface
+@item @code{O}@var{XX...}
+@tab
+@var{XX...} is hex encoding of @sc{ascii} data. This can happen at any time
+while the program is running and the debugger should continue to wait
+for 'W', 'T', etc.
-@item gdb-@value{GDBVN}/glob
-source for the @sc{gnu} filename pattern-matching subroutine
+@end multitable
-@item gdb-@value{GDBVN}/mmalloc
-source for the @sc{gnu} memory-mapped malloc package
-@end table
+The following set and query packets have already been defined.
-The simplest way to configure and build @value{GDBN} is to run @code{configure}
-from the @file{gdb-@var{version-number}} source directory, which in
-this example is the @file{gdb-@value{GDBVN}} directory.
+@multitable @columnfractions .2 .2 .6
-First switch to the @file{gdb-@var{version-number}} source directory
-if you are not already in it; then run @code{configure}. Pass the
-identifier for the platform on which @value{GDBN} will run as an
-argument.
+@item current thread
+@tab @code{q}@code{C}
+@tab Return the current thread id.
+@item
+@tab reply @code{QC}@var{pid}
+@tab
+Where @var{pid} is a HEX encoded 16 bit process id.
+@item
+@tab reply *
+@tab Any other reply implies the old pid.
-For example:
+@item all thread ids
+@tab @code{q}@code{fThreadInfo}
+@item
+@tab @code{q}@code{sThreadInfo}
+@tab
+Obtain a list of active thread ids from the target (OS). Since there
+may be too many active threads to fit into one reply packet, this query
+works iteratively: it may require more than one query/reply sequence to
+obtain the entire list of threads. The first query of the sequence will
+be the @code{qf}@code{ThreadInfo} query; subsequent queries in the
+sequence will be the @code{qs}@code{ThreadInfo} query.
+@item
+@tab
+@tab NOTE: replaces the @code{qL} query (see below).
+@item
+@tab reply @code{m}@var{<id>}
+@tab A single thread id
+@item
+@tab reply @code{m}@var{<id>},@var{<id>...}
+@tab a comma-separated list of thread ids
+@item
+@tab reply @code{l}
+@tab (lower case 'el') denotes end of list.
+@item
+@tab
+@tab
+In response to each query, the target will reply with a list of one
+or more thread ids, in big-endian hex, separated by commas. GDB will
+respond to each reply with a request for more thread ids (using the
+@code{qs} form of the query), until the target responds with @code{l}
+(lower-case el, for @code{'last'}).
-@example
-cd gdb-@value{GDBVN}
-./configure @var{host}
-make
-@end example
+@item extra thread info
+@tab @code{q}@code{ThreadExtraInfo}@code{,}@var{id}
+@tab
+@item
+@tab
+@tab
+Where @var{<id>} is a thread-id in big-endian hex.
+Obtain a printable string description of a thread's attributes from
+the target OS. This string may contain anything that the target OS
+thinks is interesting for @value{GDBN} to tell the user about the thread.
+The string is displayed in @value{GDBN}'s @samp{info threads} display.
+Some examples of possible thread extra info strings are "Runnable", or
+"Blocked on Mutex".
+@item
+@tab reply @var{XX...}
+@tab
+Where @var{XX...} is a hex encoding of @sc{ascii} data, comprising the
+printable string containing the extra information about the thread's
+attributes.
-@noindent
-where @var{host} is an identifier such as @samp{sun4} or
-@samp{decstation}, that identifies the platform where @value{GDBN} will run.
-(You can often leave off @var{host}; @code{configure} tries to guess the
-correct value by examining your system.)
-
-Running @samp{configure @var{host}} and then running @code{make} builds the
-@file{bfd}, @file{readline}, @file{mmalloc}, and @file{libiberty}
-libraries, then @code{gdb} itself. The configured source files, and the
-binaries, are left in the corresponding source directories.
-
-@need 750
-@code{configure} is a Bourne-shell (@code{/bin/sh}) script; if your
-system does not recognize this automatically when you run a different
-shell, you may need to run @code{sh} on it explicitly:
-
-@example
-sh configure @var{host}
-@end example
-
-If you run @code{configure} from a directory that contains source
-directories for multiple libraries or programs, such as the
-@file{gdb-@value{GDBVN}} source directory for version @value{GDBVN}, @code{configure}
-creates configuration files for every directory level underneath (unless
-you tell it not to, with the @samp{--norecursion} option).
-
-You can run the @code{configure} script from any of the
-subordinate directories in the @value{GDBN} distribution if you only want to
-configure that subdirectory, but be sure to specify a path to it.
-
-For example, with version @value{GDBVN}, type the following to configure only
-the @code{bfd} subdirectory:
-
-@example
-@group
-cd gdb-@value{GDBVN}/bfd
-../configure @var{host}
-@end group
-@end example
+@item query @var{LIST} or @var{threadLIST} @strong{(deprecated)}
+@tab @code{q}@code{L}@var{startflag}@var{threadcount}@var{nextthread}
+@tab
+@item
+@tab
+@tab
+Obtain thread information from RTOS. Where: @var{startflag} (one hex
+digit) is one to indicate the first query and zero to indicate a
+subsequent query; @var{threadcount} (two hex digits) is the maximum
+number of threads the response packet can contain; and @var{nextthread}
+(eight hex digits), for subsequent queries (@var{startflag} is zero), is
+returned in the response as @var{argthread}.
+@item
+@tab
+@tab NOTE: this query is replaced by the @code{q}@code{fThreadInfo}
+query (see above).
+@item
+@tab reply @code{q}@code{M}@var{count}@var{done}@var{argthread}@var{thread...}
+@tab
+@item
+@tab
+@tab
+Where: @var{count} (two hex digits) is the number of threads being
+returned; @var{done} (one hex digit) is zero to indicate more threads
+and one indicates no further threads; @var{argthreadid} (eight hex
+digits) is @var{nextthread} from the request packet; @var{thread...} is
+a sequence of thread IDs from the target. @var{threadid} (eight hex
+digits). See @code{remote.c:parse_threadlist_response()}.
-You can install @code{@value{GDBP}} anywhere; it has no hardwired paths.
-However, you should make sure that the shell on your path (named by
-the @samp{SHELL} environment variable) is publicly readable. Remember
-that @value{GDBN} uses the shell to start your program---some systems refuse to
-let @value{GDBN} debug child processes whose programs are not readable.
+@item compute CRC of memory block
+@tab @code{q}@code{CRC:}@var{addr}@code{,}@var{length}
+@tab
+@item
+@tab reply @code{E}@var{NN}
+@tab An error (such as memory fault)
+@item
+@tab reply @code{C}@var{CRC32}
+@tab A 32 bit cyclic redundancy check of the specified memory region.
-@menu
-* Separate Objdir:: Compiling @value{GDBN} in another directory
-* Config Names:: Specifying names for hosts and targets
-* Configure Options:: Summary of options for configure
-@end menu
+@item query sect offs
+@tab @code{q}@code{Offsets}
+@tab
+Get section offsets that the target used when re-locating the downloaded
+image. @emph{Note: while a @code{Bss} offset is included in the
+response, @value{GDBN} ignores this and instead applies the @code{Data}
+offset to the @code{Bss} section.}
+@item
+@tab reply @code{Text=}@var{xxx}@code{;Data=}@var{yyy}@code{;Bss=}@var{zzz}
-@node Separate Objdir
-@section Compiling @value{GDBN} in another directory
+@item thread info request
+@tab @code{q}@code{P}@var{mode}@var{threadid}
+@tab
+@item
+@tab
+@tab
+Returns information on @var{threadid}. Where: @var{mode} is a hex
+encoded 32 bit mode; @var{threadid} is a hex encoded 64 bit thread ID.
+@item
+@tab reply *
+@tab
+See @code{remote.c:remote_unpack_thread_info_response()}.
-If you want to run @value{GDBN} versions for several host or target machines,
-you need a different @code{gdb} compiled for each combination of
-host and target. @code{configure} is designed to make this easy by
-allowing you to generate each configuration in a separate subdirectory,
-rather than in the source directory. If your @code{make} program
-handles the @samp{VPATH} feature (@sc{gnu} @code{make} does), running
-@code{make} in each of these directories builds the @code{gdb}
-program specified there.
+@item remote command
+@tab @code{q}@code{Rcmd,}@var{COMMAND}
+@tab
+@item
+@tab
+@tab
+@var{COMMAND} (hex encoded) is passed to the local interpreter for
+execution. Invalid commands should be reported using the output string.
+Before the final result packet, the target may also respond with a
+number of intermediate @code{O}@var{OUTPUT} console output
+packets. @emph{Implementors should note that providing access to a
+stubs's interpreter may have security implications}.
+@item
+@tab reply @code{OK}
+@tab
+A command response with no output.
+@item
+@tab reply @var{OUTPUT}
+@tab
+A command response with the hex encoded output string @var{OUTPUT}.
+@item
+@tab reply @code{E}@var{NN}
+@tab
+Indicate a badly formed request.
-To build @code{gdb} in a separate directory, run @code{configure}
-with the @samp{--srcdir} option to specify where to find the source.
-(You also need to specify a path to find @code{configure}
-itself from your working directory. If the path to @code{configure}
-would be the same as the argument to @samp{--srcdir}, you can leave out
-the @samp{--srcdir} option; it is assumed.)
+@item
+@tab reply @samp{}
+@tab
+When @samp{q}@samp{Rcmd} is not recognized.
-For example, with version @value{GDBVN}, you can build @value{GDBN} in a
-separate directory for a Sun 4 like this:
+@item symbol lookup
+@tab @code{qSymbol::}
+@tab
+Notify the target that @value{GDBN} is prepared to serve symbol lookup
+requests. Accept requests from the target for the values of symbols.
+@item
+@tab
+@tab
+@item
+@tab reply @code{OK}
+@tab
+The target does not need to look up any (more) symbols.
+@item
+@tab reply @code{qSymbol:}@var{sym_name}
+@tab
+@sp 2
+@noindent
+The target requests the value of symbol @var{sym_name} (hex encoded).
+@value{GDBN} may provide the value by using the
+@code{qSymbol:}@var{sym_value}:@var{sym_name}
+message, described below.
-@example
-@group
-cd gdb-@value{GDBVN}
-mkdir ../gdb-sun4
-cd ../gdb-sun4
-../gdb-@value{GDBVN}/configure sun4
-make
-@end group
-@end example
+@item symbol value
+@tab @code{qSymbol:}@var{sym_value}:@var{sym_name}
+@tab
+@sp 1
+@noindent
+Set the value of SYM_NAME to SYM_VALUE.
+@item
+@tab
+@tab
+@var{sym_name} (hex encoded) is the name of a symbol whose value
+the target has previously requested.
+@item
+@tab
+@tab
+@var{sym_value} (hex) is the value for symbol @var{sym_name}.
+If @value{GDBN} cannot supply a value for @var{sym_name}, then this
+field will be empty.
+@item
+@tab reply @code{OK}
+@tab
+The target does not need to look up any (more) symbols.
+@item
+@tab reply @code{qSymbol:}@var{sym_name}
+@tab
+@sp 2
+@noindent
+The target requests the value of a new symbol @var{sym_name} (hex encoded).
+@value{GDBN} will continue to supply the values of symbols (if available),
+until the target ceases to request them.
-When @code{configure} builds a configuration using a remote source
-directory, it creates a tree for the binaries with the same structure
-(and using the same names) as the tree under the source directory. In
-the example, you'd find the Sun 4 library @file{libiberty.a} in the
-directory @file{gdb-sun4/libiberty}, and @value{GDBN} itself in
-@file{gdb-sun4/gdb}.
+@end multitable
-One popular reason to build several @value{GDBN} configurations in separate
-directories is to configure @value{GDBN} for cross-compiling (where
-@value{GDBN} runs on one machine---the @dfn{host}---while debugging
-programs that run on another machine---the @dfn{target}).
-You specify a cross-debugging target by
-giving the @samp{--target=@var{target}} option to @code{configure}.
+The following @samp{g}/@samp{G} packets have previously been defined.
+In the below, some thirty-two bit registers are transferred as sixty-four
+bits. Those registers should be zero/sign extended (which?) to fill the
+space allocated. Register bytes are transfered in target byte order.
+The two nibbles within a register byte are transfered most-significant -
+least-significant.
-When you run @code{make} to build a program or library, you must run
-it in a configured directory---whatever directory you were in when you
-called @code{configure} (or one of its subdirectories).
+@multitable @columnfractions .5 .5
-The @code{Makefile} that @code{configure} generates in each source
-directory also runs recursively. If you type @code{make} in a source
-directory such as @file{gdb-@value{GDBVN}} (or in a separate configured
-directory configured with @samp{--srcdir=@var{dirname}/gdb-@value{GDBVN}}), you
-will build all the required libraries, and then build GDB.
+@item MIPS32
+@tab
+All registers are transfered as thirty-two bit quantities in the order:
+32 general-purpose; sr; lo; hi; bad; cause; pc; 32 floating-point
+registers; fsr; fir; fp.
-When you have multiple hosts or targets configured in separate
-directories, you can run @code{make} on them in parallel (for example,
-if they are NFS-mounted on each of the hosts); they will not interfere
-with each other.
+@item MIPS64
+@tab
+All registers are transfered as sixty-four bit quantities (including
+thirty-two bit registers such as @code{sr}). The ordering is the same
+as @code{MIPS32}.
-@node Config Names
-@section Specifying names for hosts and targets
+@end multitable
-The specifications used for hosts and targets in the @code{configure}
-script are based on a three-part naming scheme, but some short predefined
-aliases are also supported. The full naming scheme encodes three pieces
-of information in the following pattern:
+Example sequence of a target being re-started. Notice how the restart
+does not get any direct output:
@example
-@var{architecture}-@var{vendor}-@var{os}
+<- @code{R00}
+-> @code{+}
+@emph{target restarts}
+<- @code{?}
+-> @code{+}
+-> @code{T001:1234123412341234}
+<- @code{+}
@end example
-For example, you can use the alias @code{sun4} as a @var{host} argument,
-or as the value for @var{target} in a @code{--target=@var{target}}
-option. The equivalent full name is @samp{sparc-sun-sunos4}.
-
-The @code{configure} script accompanying @value{GDBN} does not provide
-any query facility to list all supported host and target names or
-aliases. @code{configure} calls the Bourne shell script
-@code{config.sub} to map abbreviations to full names; you can read the
-script, if you wish, or you can use it to test your guesses on
-abbreviations---for example:
-
-@smallexample
-% sh config.sub i386-linux
-i386-pc-linux-gnu
-% sh config.sub alpha-linux
-alpha-unknown-linux-gnu
-% sh config.sub hp9k700
-hppa1.1-hp-hpux
-% sh config.sub sun4
-sparc-sun-sunos4.1.1
-% sh config.sub sun3
-m68k-sun-sunos4.1.1
-% sh config.sub i986v
-Invalid configuration `i986v': machine `i986v' not recognized
-@end smallexample
-
-@noindent
-@code{config.sub} is also distributed in the @value{GDBN} source
-directory (@file{gdb-@value{GDBVN}}, for version @value{GDBVN}).
-
-@node Configure Options
-@section @code{configure} options
-
-Here is a summary of the @code{configure} options and arguments that
-are most often useful for building @value{GDBN}. @code{configure} also has
-several other options not listed here. @inforef{What Configure
-Does,,configure.info}, for a full explanation of @code{configure}.
+Example sequence of a target being stepped by a single instruction:
@example
-configure @r{[}--help@r{]}
- @r{[}--prefix=@var{dir}@r{]}
- @r{[}--exec-prefix=@var{dir}@r{]}
- @r{[}--srcdir=@var{dirname}@r{]}
- @r{[}--norecursion@r{]} @r{[}--rm@r{]}
- @r{[}--target=@var{target}@r{]}
- @var{host}
+<- @code{G1445...}
+-> @code{+}
+<- @code{s}
+-> @code{+}
+@emph{time passes}
+-> @code{T001:1234123412341234}
+<- @code{+}
+<- @code{g}
+-> @code{+}
+-> @code{1455...}
+<- @code{+}
@end example
-@noindent
-You may introduce options with a single @samp{-} rather than
-@samp{--} if you prefer; but you may abbreviate option names if you use
-@samp{--}.
-
-@table @code
-@item --help
-Display a quick summary of how to invoke @code{configure}.
-
-@item --prefix=@var{dir}
-Configure the source to install programs and files under directory
-@file{@var{dir}}.
-
-@item --exec-prefix=@var{dir}
-Configure the source to install programs under directory
-@file{@var{dir}}.
-@c avoid splitting the warning from the explanation:
-@need 2000
-@item --srcdir=@var{dirname}
-@strong{Warning: using this option requires @sc{gnu} @code{make}, or another
-@code{make} that implements the @code{VPATH} feature.}@*
-Use this option to make configurations in directories separate from the
-@value{GDBN} source directories. Among other things, you can use this to
-build (or maintain) several configurations simultaneously, in separate
-directories. @code{configure} writes configuration specific files in
-the current directory, but arranges for them to use the source in the
-directory @var{dirname}. @code{configure} creates directories under
-the working directory in parallel to the source directories below
-@var{dirname}.
-
-@item --norecursion
-Configure only the directory level where @code{configure} is executed; do not
-propagate configuration to subdirectories.
-
-@item --target=@var{target}
-Configure @value{GDBN} for cross-debugging programs running on the specified
-@var{target}. Without this option, @value{GDBN} is configured to debug
-programs that run on the same machine (@var{host}) as @value{GDBN} itself.
-
-There is no convenient way to generate a list of all available targets.
-
-@item @var{host} @dots{}
-Configure @value{GDBN} to run on the specified @var{host}.
-
-There is no convenient way to generate a list of all available hosts.
-@end table
-
-There are many other options available as well, but they are generally
-needed for special purposes only.
+@include fdl.texi
@node Index
@unnumbered Index
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