binutils-gdb/gdb/mi/gdbmi.texinfo
2000-05-07 10:57:54 +00:00

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@c \input texinfo @c -*-texinfo-*-
@c @c %**start of header
@c @setfilename gdbmi.info
@c @settitle GDB/MI Machine Interface
@c @setchapternewpage off
@c @c %**end of header
@c @ifinfo
@c This file documents GDB/MI, a Machine Interface to GDB.
@c Copyright (C) 2000, Free Software Foundation, Inc.
@c Contributed by Cygnus Solutions.
@c Permission is granted to make and distribute verbatim copies of this
@c manual provided the copyright notice and this permission notice are
@c preserved on all copies.
@c @ignore
@c Permission is granted to process this file through TeX and print the
@c results, provided the printed document carries copying permission notice
@c identical to this one except for the removal of this paragraph (this
@c paragraph not being relevant to the printed manual).
@c @end ignore
@c Permission is granted to copy and distribute modified versions of this
@c manual under the conditions for verbatim copying, provided also that the
@c entire resulting derived work is distributed under the terms of a
@c permission notice identical to this one.
@c Permission is granted to copy and distribute translations of this manual
@c into another language, under the above conditions for modified versions.
@c @end ifinfo
@c @c This title page illustrates only one of the
@c @c two methods of forming a title page.
@c @titlepage
@c @title GDB/MI
@c @subtitle Version 0.2
@c @subtitle Feb 2000
@c @author Andrew Cagney, Fernando Nasser and Elena Zannoni
@c @c The following two commands
@c @c start the copyright page.
@c @page
@c @vskip 0pt plus 1filll
@c Permission is granted to make and distribute verbatim copies of this
@c manual provided the copyright notice and this permission notice are
@c preserved on all copies.
@c Copyright @copyright{} 2000, Free Software Foundation, Inc.
@c @end titlepage
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% CHAPTER %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI
@chapter The @sc{gdb/mi} Interface
@unnumberedsec Function and Purpose
@cindex @sc{gdb/mi}, its purpose
@sc{gdb/mi} is a line based machine oriented text interface to GDB. It is
specifically intended to support the development of systems which use
the debugger as just one small component of a larger system.
This chapter is a specification of the @sc{gdb/mi} interface. It is written
in the form of a reference manual.
Note that @sc{gdb/mi} is still under construction, so some of the
features described below are incomplete and subject to change.
@unnumberedsec Notation and Terminology
@cindex notational conventions, for @sc{gdb/mi}
This chapter uses the following notation:
@itemize @bullet
@item
@code{|} separates two alternatives.
@item
@code{[ @var{something} ]} indicates that @var{something} is optional:
it may or may not be given.
@item
@code{( @var{group} )*} means that @var{group} inside the parentheses
may repeat zero or more times.
@item
@code{( @var{group} )+} means that @var{group} inside the parentheses
may repeat one or more times.
@item
@code{"@var{string}"} means a literal @var{string}.
@end itemize
@ignore
@heading Dependencies
@end ignore
@heading Acknowledgments
In alphabetic order: Andrew Cagney, Fernando Nasser, Stan Shebs and
Elena Zannoni.
@menu
* GDB/MI Command Syntax::
* GDB/MI Compatibility with CLI::
* GDB/MI Output Records::
* GDB/MI Command Description Format::
* GDB/MI Breakpoint Table Commands::
* GDB/MI Data Manipulation::
* GDB/MI Program Control::
* GDB/MI Miscellaneous Commands::
* GDB/MI Stack Manipulation::
* GDB/MI Symbol Query::
* GDB/MI Target Manipulation::
* GDB/MI Thread Commands::
* GDB/MI Tracepoint Commands::
* GDB/MI Variable Objects::
* GDB/MI Draft Changes to Output Syntax::
@end menu
@c When these are implemented, they should be moved to be between Misc and
@c Stack Manipulation in the above menu. They are now outside the menu
@c because makeinfo 3.12 barfs if it sees @ignore or @comments in the
@c middle of a menu.
@ignore
* GDB/MI Kod Commands::
* GDB/MI Memory Overlay Commands::
* GDB/MI Signal Handling Commands::
@end ignore
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Command Syntax
@section @sc{gdb/mi} Command Syntax
@menu
* GDB/MI Input Syntax::
* GDB/MI Output Syntax::
* GDB/MI Simple Examples::
@end menu
@node GDB/MI Input Syntax
@subsection @sc{gdb/mi} Input Syntax
@cindex input syntax for @sc{gdb/mi}
@cindex @sc{gdb/mi}, input syntax
@table @code
@item @var{command} @expansion{}
@code{@var{cli-command} | @var{mi-command}}
@item @var{cli-command} @expansion{}
@code{[ @var{token} ] @var{cli-command} @var{nl}}, where
@var{cli-command} is any existing GDB CLI command.
@item @var{mi-command} @expansion{}
@code{[ @var{token} ] "-" @var{operation} ( " " @var{option} )*
@code{[} " --" @code{]} ( " " @var{parameter} )* @var{nl}}
@item @var{token} @expansion{}
@code{"any sequence of digits"}
@item @var{option} @expansion{}
@code{"-" @var{parameter} [ " " @var{parameter} ]}
@item @var{parameter} @expansion{}
@code{@var{non-blank-sequence} | @var{c-string}}
@item @var{operation} @expansion{}
@emph{any of the operations described in this document}
@item @var{non-blank-sequence} @expansion{}
@emph{anything, provided it doesn't contain special characters such as
"-", @var{nl}, """ and of course " "}
@item @var{c-string} @expansion{}
@code{""" @var{seven-bit-iso-c-string-content} """}
@item @var{nl} @expansion{}
@code{CR | CR-LF}
@end table
Notes:
@itemize @bullet
@item
The CLI commands are still handled by the @sc{mi} interpreter; their
output is described below.
@item
The @code{@var{token}}, when present, is passed back when the command
finishes.
@item
Some @sc{mi} commands accept optional arguments as part of the parameter
list. Each option is identified by a leading @samp{-} (dash) and may be
followed by an optional argument parameter. Options occur first in the
parameter list and can be delimited from normal parameters using
@samp{--} (this is useful when some parameters begin with a dash).
@end itemize
Pragmatics:
@itemize @bullet
@item
We want easy access to the existing CLI syntax (for debugging).
@item
We want it to be easy to spot a @sc{mi} operation.
@end itemize
@node GDB/MI Output Syntax
@subsection @sc{gdb/mi} Output Syntax
@cindex output syntax of @sc{gdb/mi}
@cindex @sc{gdb/mi}, output syntax
The output from @sc{gdb/mi} consists of zero or more out-of-band records
followed, optionally, by a single result record. This result record
is for the most recent command. The sequence of output records is
terminated by @samp{(gdb)}.
If an input command was prefixed with a @code{@var{token}} then the
corresponding output for that command will also be prefixed by that same
@var{token}.
@table @code
@item @var{output} @expansion{}
@code{( @var{out-of-band-record} )* [ @var{result-record} ] "(gdb)" @var{nl}}
@item @var{result-record} @expansion{}
@code{ [ @var{token} ] "^" @var{result-class} ( "," @var{result} )* @var{nl}}
@item @var{out-of-band-record} @expansion{}
@code{@var{async-record} | @var{stream-record}}
@item @var{async-record} @expansion{}
@code{@var{exec-async-output} | @var{status-async-output} | @var{notify-async-output}}
@item @var{exec-async-output} @expansion{}
@code{[ @var{token} ] "*" @var{async-output}}
@item @var{status-async-output} @expansion{}
@code{[ @var{token} ] "+" @var{async-output}}
@item @var{notify-async-output} @expansion{}
@code{[ @var{token} ] "=" @var{async-output}}
@item @var{async-output} @expansion{}
@code{@var{async-class} ( "," @var{result} )* @var{nl}}
@item @var{result-class} @expansion{}
@code{"done" | "running" | "connected" | "error" | "exit"}
@item @var{async-class} @expansion{}
@code{"stopped" | @var{others}} (where @var{others} will be added
depending on the needs---this is still in development).
@item @var{result} @expansion{}
@code{[ @var{string} "=" ] @var{value}}
@item @var{value} @expansion{}
@code{@var{const} | "@{" @var{result} ( "," @var{result} )* "@}"}
@item @var{const} @expansion{}
@code{@var{c-string}}
@item @var{stream-record} @expansion{}
@code{@var{console-stream-output} | @var{target-stream-output} | @var{log-stream-output}}
@item @var{console-stream-output} @expansion{}
@code{"~" @var{c-string}}
@item @var{target-stream-output} @expansion{}
@code{"@@" @var{c-string}}
@item @var{log-stream-output} @expansion{}
@code{"&" @var{c-string}}
@item @var{nl} @expansion{}
@code{CR | CR-LF}
@item @var{token} @expansion{}
@emph{any sequence of digits}.
@end table
In addition, the following are still being developed:
@table @code
@item @var{query}
This action is currently undefined.
@end table
Notes:
@itemize @bullet
@item
All output sequences end in a single line containing a period.
@item
The @code{@var{token}} is from the corresponding request. If an execution
command is interrupted by the @samp{-exec-interrupt} command, the
@var{token} associated with the `*stopped' message is the one of the
original execution command, not the one of the interrupt-command.
@item
@cindex status output in @sc{gdb/mi}
@var{status-async-output} contains on-going status information about the
progress of a slow operation. It can be discarded. All status output is
prefixed by @samp{+}.
@item
@cindex async output in @sc{gdb/mi}
@var{exec-async-output} contains asynchronous state change on the target
(stopped, started, disappeared). All async output is prefixed by
@samp{*}.
@item
@cindex notify output in @sc{gdb/mi}
@var{notify-async-output} contains supplementary information that the
client should handle (e.g., a new breakpoint information). All notify
output is prefixed by @samp{=}.
@item
@cindex console output in @sc{gdb/mi}
@var{console-stream-output} is output that should be displayed as is in the
console. It is the textual response to a CLI command. All the console
output is prefixed by @samp{~}.
@item
@cindex target output in @sc{gdb/mi}
@var{target-stream-output} is the output produced by the target program.
All the target output is prefixed by @samp{@@}.
@item
@cindex log output in @sc{gdb/mi}
@var{log-stream-output} is output text coming from GDB's internals, for
instance messages that should be displayed as part of an error log. All
the log output is prefixed by @samp{&}.
@end itemize
@xref{GDB/MI Stream Records, , @sc{gdb/mi} Stream Records}, for more
details about the various output records.
@xref{GDB/MI Draft Changes to Output Syntax, , @sc{gdb/mi} Draft Changes
to Output Syntax}, for proposed revisions to the current output syntax.
@node GDB/MI Simple Examples
@subsection Simple Examples of @sc{gdb/mi} Interaction
@cindex @sc{gdb/mi}, simple examples
This subsection presents several simple examples of interaction using
the @sc{gdb/mi} interface. In these examples, @samp{->} means that the
following line is passed to @sc{gdb/mi} as input, while @samp{<-} means
the output received from @sc{gdb/mi}.
@subsubheading Target Stop
Here's an example of stopping the inferior process:
@example
-> -stop
<- (gdb)
@end example
@noindent
and later:
@example
<- *stop,reason="stop",address="0x123",source="a.c:123"
<- (gdb)
@end example
@subsubheading Simple CLI Command
Here's an example of a simple CLI command being passed through
@sc{gdb/mi} and on to the CLI.
@example
-> print 1+2
<- ~3\n
<- (gdb)
@end example
@subsubheading Command With Side Effects
@example
-> -symbol-file xyz.exe
<- *breakpoint,nr="3",address="0x123",source="a.c:123"
<- (gdb)
@end example
@subsubheading A Bad Command
Here's what happens if you pass a non-existent command:
@example
-> -rubbish
<- error,"Rubbish not found"
<- (gdb)
@end example
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Compatibility with CLI
@section @sc{gdb/mi} Compatibility with CLI
@cindex compatibility, @sc{gdb/mi} and CLI
@cindex @sc{gdb/mi}, compatibility with CLI
To help users familiar with GDB's existing CLI interface, @sc{gdb/mi}
accepts existing CLI commands. As specified by the syntax, such
commands can be directly entered into the @sc{gdb/mi} interface and GDB will
respond.
This mechanism is provided as an aid to developers of @sc{gdb/mi}
clients and not as a reliable interface into the CLI. Since the command
is being interpreteted in an environment that assumes @sc{gdb/mi}
behaviour, the exact output of such commands is likely to end up being
an un-supported hybrid of @sc{gdb/mi} and CLI output.
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Output Records
@section @sc{gdb/mi} Output Records
@menu
* GDB/MI Result Records::
* GDB/MI Stream Records::
* GDB/MI Out-of-band Records::
@end menu
@node GDB/MI Result Records
@subsection @sc{gdb/mi} Result Records
@cindex result records in @sc{gdb/mi}
@cindex @sc{gdb/mi}, result records
In addition to a number of out-of-band notifications, the response to a
@sc{gdb/mi} command includes one of the following result indications:
@table @code
@findex ^done
@item "^done" [ "," @var{results} ]
The synchronous operation was successful, @code{@var{results}} is the return
value.
@item "^running"
@findex ^running
@c Is this one correct? Should it be an out-of-band notification?
The asynchronous operation was successfully started. The target is
running.
@item "^error" "," @var{c-string}
@cindex ^error
The operation failed. The @code{@var{c-string}} contains the corresponding
error message.
@end table
@node GDB/MI Stream Records
@subsection @sc{gdb/mi} Stream Records
@cindex @sc{gdb/mi}, stream records
@cindex stream records in @sc{gdb/mi}
GDB internally maintains a number of output streams: the console, the
target, and the log. The output intended for each of these streams is
funneled through the @sc{gdb/mi} interface using @dfn{stream records}.
Each stream record begins with a unique @dfn{prefix character} which
identifies its stream (@pxref{GDB/MI Output Syntax, , @sc{gdb/mi} Output
Syntax}). In addition to the prefix, each stream record contains a
@code{@var{string-output}}. This is either raw text (with an implicit new
line) or a quoted C string (which does not contain an implicit newline).
@table @code
@item "~" @var{string-output}
The console output stream contains text that should be displayed in the
CLI console window. It contains the textual responses to CLI commands.
@item "@@" @var{string-output}
The target output stream contains any textual output from the running
target.
@item "&" @var{string-output}
The LOG stream contains debugging messages being produced by GDB's
internals.
@end table
@node GDB/MI Out-of-band Records
@subsection @sc{gdb/mi} Out-of-band Records
@cindex out-of-band records in @sc{gdb/mi}
@cindex @sc{gdb/mi}, out-of-band records
@dfn{Out-of-band} records are used to notify the @sc{gdb/mi} client of
additional changes that have occurred. Those changes can either be a
consequence of @sc{gdb/mi} (e.g., a breakpoint modified) or a result of
target activity (e.g., target stopped).
The following is a preliminary list of possible out-of-band records.
@table @code
@item "*" "stop"
@end table
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Command Description Format
@section @sc{gdb/mi} Command Description Format
The remaining sections describe blocks of commands. Each block of
commands is laid out in a fashion similar to this chapter.
Note the the line breaks shown in the examples are here only for
readability. They don't appear in the real output.
Also note that the commands with a non-available example (N.A.@:) are
not yet implemented.
@subheading Motivation
The motivation for this collection of commands
@subheading Introduction
A brief introduction to this collection of commands as a whole.
@subheading Commands
For each command in the block, the following is described:
@subsubheading Synopsis
@example
-command @var{args}...
@end example
@subsubheading GDB Command
The corresponding GDB CLI command.
@subsubheading Result
@subsubheading Out-of-band
@subsubheading Notes
@subsubheading Example
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Breakpoint Table Commands
@section @sc{gdb/mi} Breakpoint table commands
@cindex breakpoint commands for @sc{gdb/mi}
@cindex @sc{gdb/mi}, breakpoint commands
This section documents @sc{gdb/mi} commands for manipulating
breakpoints.
@subheading The @code{-break-after} Command
@findex -break-after
@subsubheading Synopsis
@example
-break-after @var{number} @var{count}
@end example
The breakpoint number @var{number} is not in effect until it has been
hit @var{count} times. To see how this is reflected in the output of
the @samp{-break-list} command, see the description of the
@samp{-break-list} command below.
@subsubheading GDB Command
The corresponding GDB command is @samp{ignore}.
@subsubheading Example
@smallexample
(gdb)
-break-insert main
^done,bkpt=@{number="1",addr="0x000100d0",file="hello.c",line="5"@}
(gdb)
-break-after 1 3
~
^done
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x000100d0",func="main",file="hello.c",line="5",times="0",
ignore="3"@}@}
(gdb)
@end smallexample
@ignore
@subheading The @code{-break-catch} Command
@findex -break-catch
@subheading The @code{-break-commands} Command
@findex -break-commands
@end ignore
@subheading -break-condition
@findex -break-condition
@subsubheading Synopsis
@example
-break-condition @var{number} @var{expr}
@end example
Breakpoint @var{number} will stop the program only if the condition in
@var{expr} is true. The condition becomes part of the
@samp{-break-list} output (see the description of the @samp{-break-list}
command below).
@subsubheading GDB Command
The corresponding GDB command is @samp{condition}.
@subsubheading Example
@smallexample
(gdb)
-break-condition 1 1
^done
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x000100d0",func="main",file="hello.c",line="5",cond="1",
times="0",ignore="3"@}@}
(gdb)
@end smallexample
@subheading The @code{-break-delete} Command
@findex -break-delete
@subsubheading Synopsis
@example
-break-delete ( @var{breakpoint} )+
@end example
Delete the breakpoint(s) whose number(s) are specified in the argument
list. This is obviously reflected in the breakpoint list.
@subsubheading GDB command
The corresponding GDB command is @samp{delete}.
@subsubheading Example
@example
(gdb)
-break-delete 1
^done
(gdb)
-break-list
^done,BreakpointTable=@{@}
(gdb)
@end example
@subheading The @code{-break-disable} Command
@findex -break-disable
@subsubheading Synopsis
@example
-break-disable ( @var{breakpoint} )+
@end example
Disable the named @var{breakpoint}(s). The field @samp{enabled} in the
break list is now set to @samp{n} for the named @var{breakpoint}(s).
@subsubheading GDB Command
The corresponding GDB command is @samp{disable}.
@subsubheading Example
@smallexample
(gdb)
-break-disable 2
^done
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="2",type="breakpoint",disp="keep",enabled="n",
addr="0x000100d0",func="main",file="hello.c",line="5",times="0"@}@}
(gdb)
@end smallexample
@subheading The @code{-break-enable} Command
@findex -break-enable
@subsubheading Synopsis
@example
-break-enable ( @var{breakpoint} )+
@end example
Enable (previously disabled) @var{breakpoint}(s).
@subsubheading GDB Command
The corresponding GDB command is @samp{enable}.
@subsubheading Example
@smallexample
(gdb)
-break-enable 2
^done
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="2",type="breakpoint",disp="keep",enabled="y",
addr="0x000100d0",func="main",file="hello.c",line="5",times="0"@}@}
(gdb)
@end smallexample
@subheading The @code{-break-info} Command
@findex -break-info
@subsubheading Synopsis
@example
-break-info @var{breakpoint}
@end example
@c REDUNDANT???
Get information about a single breakpoint.
@subsubheading GDB command
The corresponding GDB command is @samp{info break @var{breakpoint}}.
@subsubheading Example
N.A.
@subheading The @code{-break-insert} Command
@findex -break-insert
@subsubheading Synopsis
@example
-break-insert [ -t ] [ -h ] [ -r ]
[ -c @var{condition} ] [ -i @var{ignore-count} ]
[ -p @var{thread} ] [ @var{line} | @var{addr} ]
@end example
@noindent
If specified, @var{line}, can be one of:
@itemize @bullet
@item function
@c @item +offset
@c @item -offset
@c @item linenum
@item filename:linenum
@item filename:function
@item *address
@end itemize
The possible optional parameters of this command are:
@table @samp
@item -t
Insert a tempoary breakpoint.
@item -h
Insert a hardware breakpoint.
@item -c @var{condition}
Make the breakpoint conditional on @var{condition}.
@item -i @var{ignore-count}
Initialize the @var{ignore-count}.
@item -r
Insert a regular breakpoint in all the functions whose names match the
given regular expression. Other flags are not applicable to regular
expresson.
@end table
@subsubheading Result
The result is in the form:
@example
^done,bkptno="@var{number}",func="@var{funcname}",
file="@var{filename}",line="@var{lineno}"
@end example
@noindent
where @var{number} is the GDB number for this breakpoint, @var{funcname}
is the name of the function where the breakpoint was inserted,
@var{filename} is the name of the source file which contains this
function, and @var{lineno} is the source line number within that file.
Note: this format is open to change.
@c An out-of-band breakpoint instead of part of the result?
@subsubheading GDB Command
The corresponding GDB commands are @samp{break}, @samp{tbreak},
@samp{hbreak}, @samp{thbreak}, and @samp{rbreak}.
@subsubheading Example
@smallexample
(gdb)
-break-insert main
^done,bkpt=@{number="1",addr="0x0001072c",file="recursive2.c",line="4"@}
(gdb)
-break-insert -t foo
^done,bkpt=@{number="2",addr="0x00010774",file="recursive2.c",line="11"@}
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x0001072c", func="main",file="recursive2.c",line="4",times="0"@},
bkpt=@{number="2",type="breakpoint",disp="del",enabled="y",
addr="0x00010774",func="foo",file="recursive2.c",line="11",times="0"@}@}
(gdb)
-break-insert -r foo.*
~int foo(int, int);
^done,bkpt=@{number="3",addr="0x00010774",file="recursive2.c",line="11"@}
(gdb)
@end smallexample
@subheading The @code{-break-list} Command
@findex -break-list
@subsubheading Synopsis
@example
-break-list
@end example
Displays the list of inserted breakpoints, showing the following fields:
@table @samp
@item Number
number of the breakpoint
@item Type
type of the breakpoint: @samp{breakpoint} or @samp{watchpoint}
@item Disposition
should the breakpoint be deleted or disabled when it is hit: @samp{keep}
or @samp{nokeep}
@item Enabled
is the breakpoint enabled or no: @samp{y} or @samp{n}
@item Address
memory location at which the breakpoint is set
@item What
logical location of the breakpoint, expressed by function name, file
name, line number
@item times
number of times the breakpoint has been hit
@end table
If there are no breakpoints or watchpoints, the BreakpointTable field is
an empty list.
@subsubheading GDB Command
The corresponding GDB command is @samp{info break}.
@subsubheading Example
@smallexample
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x000100d0",func="main",file="hello.c",line="5",times="0"@},
bkpt=@{number="2",type="breakpoint",disp="keep",enabled="y",
addr="0x00010114",func="foo",file="hello.c",line="13",times="0"@}@}
(gdb)
@end smallexample
Here's an example of the result when there are no breakpoints:
@smallexample
(gdb)
-break-list
^done,BreakpointTable=@{@}
(gdb)
@end smallexample
@subheading The @code{-break-watch} Command
@findex -break-watch
@subsubheading Synopsis
@example
-break-watch [ -a | -r ]
@end example
Create a watchpoint. With the @samp{-a} option it will create an
@dfn{access} watchpoint, i.e. a watchpoint that triggers either on a
read from or on a write to the memory location. With the @samp{-r}
option, the watchpoint created is a @dfn{read} watchpoint, i.e. it will
trigger only when the memory location is accessed for reading. Without
either of the options, the watchpoint created is a regular watchpoint,
i.e. it will trigger when the memory location is accessed for writing.
@xref{Set Watchpoints, , Setting watchpoints}.
Note that @samp{-break-list} will report a single list of watchpoints and
breakpoints inserted.
@subsubheading GDB Command
The corresponding GDB commands are @samp{watch}, @samp{awatch}, and
@samp{rwatch}.
@subsubheading Example
Setting a watchpoint on a variable in the @code{main} function:
@smallexample
(gdb)
-break-watch x
^done,wpt=@{number="2",exp="x"@}
(gdb)
-exec-continue
^running
^done,reason="watchpoint-trigger",wpt=@{number="2",exp="x"@},
value=@{old="-268439212",new="55"@},
frame=@{func="main",args=@{@},file="recursive2.c",line="5"@}
(gdb)
@end smallexample
Setting a watchpoint on a variable local to a function. GDB will stop
the program execution twice: first for the variable changing value, then
for the watchpoint going out of scope.
@smallexample
(gdb)
-break-watch C
^done,wpt=@{number="5",exp="C"@}
(gdb)
-exec-continue
^running
^done,reason="watchpoint-trigger",
wpt=@{number="5",exp="C"@},value=@{old="-276895068",new="3"@},
frame=@{func="callee4",args=@{@},
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="13"@}
(gdb)
-exec-continue
^running
^done,reason="watchpoint-scope",wpnum="5",
frame=@{func="callee3",args=@{@{name="strarg",
value="0x11940 \"A string argument.\""@}@},
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="18"@}
(gdb)
@end smallexample
Listing breakpoints and watchpoints, at different points in the program
execution. Note that once the watchpoint goes out of scope, it is
deleted.
@smallexample
(gdb)
-break-watch C
^done,wpt=@{number="2",exp="C"@}
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x00010734",func="callee4",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8",times="1"@},
bkpt=@{number="2",type="watchpoint",disp="keep",
enabled="y",addr="",what="C",times="0"@}@}
(gdb)
-exec-continue
^running
^done,reason="watchpoint-trigger",wpt=@{number="2",exp="C"@},
value=@{old="-276895068",new="3"@},
frame=@{func="callee4",args=@{@},
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="13"@}
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x00010734",func="callee4",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8",times="1"@},
bkpt=@{number="2",type="watchpoint",disp="keep",
enabled="y",addr="",what="C",times="-5"@}@}
(gdb)
-exec-continue
^running
^done,reason="watchpoint-scope",wpnum="2",
frame=@{func="callee3",args=@{@{name="strarg",
value="0x11940 \"A string argument.\""@}@},
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="18"@}
(gdb)
-break-list
^done,BreakpointTable=@{hdr=@{"Num","Type","Disp","Enb","Address","What"@},
bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y",
addr="0x00010734",func="callee4",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8",times="1"@}@}
(gdb)
@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Data Manipulation
@section @sc{gdb/mi} Data Manipulation
@cindex data manipulation, in @sc{gdb/mi}
@cindex @sc{gdb/mi}, data manipulation
This section describes the @sc{gdb/mi} commands that manipulate data:
examine memory and registers, evaluate expressions, etc.
@c REMOVED FROM THE INTERFACE.
@c @subheading -data-assign
@c Change the value of a program variable. Plenty of side effects.
@c @subsubheading GDB command
@c set variable
@c @subsubheading Example
@c N.A.
@subheading The @code{-data-disassemble} Command
@findex -data-disassemble
@subsubheading Synopsis
@example
-data-disassemble
[ -s @var{start-addr} -e @var{end-addr} ]
| [ -f @var{filename} -l @var{linenum} [ -n @var{lines} ] ]
-- @var{mode}
@end example
@noindent
Where:
@table @samp
@item @var{start-addr}
is the beginning address (or @code{$pc})
@item @var{end-addr}
is the end address
@item @var{filename}
is the name of the file to disassemble
@item @var{linenum}
is the line number to disassemble around
@item @var{lines}
is the the number of disassembly lines to be produced. If it is -1,
the whole function will be disassembled, in case no @var{end-addr} is
specified. If @var{end-addr} is specified as a non-zero value, and
@var{lines} is lower than the number of disassembly lines between
@var{start-addr} and @var{end-addr}, only @var{lines} lines are
displayed; if @var{lines} is higher than the number of lines between
@var{start-addr} and @var{end-addr}, only the lines up to @var{end-addr}
are displayed.
@item @var{mode}
is either 0 (meaning only disassembly) or 1 (meaning mixed source and
disassembly)
@end table
@subsubheading Result
The output for each instruction is composed of two fields:
@itemize @bullet
@item Address
@item Func-name
@item Offset
@item Instruction
@end itemize
Note that whatever included in the instruction field, is not manipulated
directely by flathead, i.e. it is not possible to adjust its format.
@subsubheading GDB Command
There's no direct mapping from this command to the CLI.
@subsubheading Example
Disassemble from the current value of @code{$pc} to @code{$pc + 20}:
@smallexample
(gdb)
-data-disassemble -s $pc -e "$pc + 20" -- 0
^done,
asm_insns=@{
@{address="0x000107c0",func-name="main",offset="4",
inst="mov 2, %o0"@},
@{address="0x000107c4",func-name="main",offset="8",
inst="sethi %hi(0x11800), %o2"@},
@{address="0x000107c8",func-name="main",offset="12",
inst="or %o2, 0x140, %o1\t! 0x11940 <_lib_version+8>"@},
@{address="0x000107cc",func-name="main",offset="16",
inst="sethi %hi(0x11800), %o2"@},
@{address="0x000107d0",func-name="main",offset="20",
inst="or %o2, 0x168, %o4\t! 0x11968 <_lib_version+48>"@}@}
(gdb)
@end smallexample
Disassemble the whole @code{main} function. Line 32 is part of
@code{main}.
@smallexample
-data-disassemble -f basics.c -l 32 -- 0
^done,asm_insns=@{
@{address="0x000107bc",func-name="main",offset="0",
inst="save %sp, -112, %sp"@},
@{address="0x000107c0",func-name="main",offset="4",
inst="mov 2, %o0"@},
@{address="0x000107c4",func-name="main",offset="8",
inst="sethi %hi(0x11800), %o2"@},
[...]
@{address="0x0001081c",func-name="main",offset="96",inst="ret "@},
@{address="0x00010820",func-name="main",offset="100",inst="restore "@}@}
(gdb)
@end smallexample
Disassemble 3 instructions from the start of @code{main}:
@smallexample
(gdb)
-data-disassemble -f basics.c -l 32 -n 3 -- 0
^done,asm_insns=@{
@{address="0x000107bc",func-name="main",offset="0",
inst="save %sp, -112, %sp"@},
@{address="0x000107c0",func-name="main",offset="4",
inst="mov 2, %o0"@},
@{address="0x000107c4",func-name="main",offset="8",
inst="sethi %hi(0x11800), %o2"@}@}
(gdb)
@end smallexample
Disassemble 3 instructions from the start of @code{main} in mixed mode:
@smallexample
(gdb)
-data-disassemble -f basics.c -l 32 -n 3 -- 1
^done,asm_insns=@{
src_and_asm_line=@{line="31",
file="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb/ \
testsuite/gdb.mi/basics.c",line_asm_insn=@{
@{address="0x000107bc",func-name="main",offset="0",
inst="save %sp, -112, %sp"@}@}@},
src_and_asm_line=@{line="32",
file="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb/ \
testsuite/gdb.mi/basics.c",line_asm_insn=@{
@{address="0x000107c0",func-name="main",offset="4",
inst="mov 2, %o0"@},
@{address="0x000107c4",func-name="main",offset="8",
inst="sethi %hi(0x11800), %o2"@}@}@}@}
(gdb)
@end smallexample
@subheading The @code{-data-evaluate-expression} Command
@findex -data-evaluate-expression
@subsubheading Synopsis
@example
-data-evaluate-expression @var{expr}
@end example
Evaluate @var{expr} as an expression. The expression could contain an
inferior function call. The function call will execute synchronously.
If the expression contains spaces, it must be enclosed in double quotes.
@subsubheading GDB Command
The corresponding GDB commands are @samp{print}, @samp{output}, and
@samp{call}. In @code{gdbtk} only, there's a corresponding
@samp{gdb_eval} command.
@subsubheading Example
In the following example, the numbers that precede the commands are the
@dfn{tokens} described in @ref{GDB/MI Command Syntax, , @sc{gdb/mi}
Command Syntax}. Notice how @sc{gdb/mi} returns the same tokens in its
output.
@smallexample
211-data-evaluate-expression A
211^done,value="1"
(gdb)
311-data-evaluate-expression &A
311^done,value="0xefffeb7c"
(gdb)
411-data-evaluate-expression A+3
411^done,value="4"
(gdb)
511-data-evaluate-expression "A + 3"
511^done,value="4"
(gdb)
@end smallexample
@subheading The @code{-data-list-changed-registers} Command
@findex -data-list-changed-registers
@subsubheading Synopsis
@example
-data-list-changed-registers
@end example
Display a list of the registers that have changed.
@subsubheading GDB Command
GDB doesn't have a direct analog for this command; @code{gdbtk} has the
corresponding command @samp{gdb_changed_register_list}.
@subsubheading Example
On a PPC MBX board:
@smallexample
(gdb)
-exec-continue
^running
(gdb)
*stopped,reason="breakpoint-hit",bkptno="1",frame=@{func="main",
args=@{@},file="try.c",line="5"@}
(gdb)
-data-list-changed-registers
^done,changed-registers=@{"0","1","2","4","5","6","7","8","9",
"10","11","13","14","15","16","17","18","19","20","21","22","23",
"24","25","26","27","28","30","31","64","65","66","67","69"@}
(gdb)
@end smallexample
@subheading The @code{-data-list-register-names} Command
@findex -data-list-register-names
@subsubheading Synopsis
@example
-data-list-register-names [ ( @var{regno} )+ ]
@end example
Show a list of register names for the current target. If no arguments
are given, it shows a list of the names of all the registers. If
integer numbers are given as arguments, it will print a list of the
names of the registers corresponding to the arguments.
@subsubheading GDB Command
GDB does not have a command which corresponds to
@samp{-data-list-register-names}. In @code{gdbtk} there is a
corresponding command @samp{gdb_regnames}.
@subsubheading Example
For the PPC MBX board:
@smallexample
(gdb)
-data-list-register-names
^done,register-names=@{"r0","r1","r2","r3","r4","r5","r6","r7",
"r8","r9","r10","r11","r12","r13","r14","r15","r16","r17","r18",
"r19","r20","r21","r22","r23","r24","r25","r26","r27","r28","r29",
"r30","r31","f0","f1","f2","f3","f4","f5","f6","f7","f8","f9",
"f10","f11","f12","f13","f14","f15","f16","f17","f18","f19","f20",
"f21","f22","f23","f24","f25","f26","f27","f28","f29","f30","f31",
"pc","ps","cr","lr","ctr","xer"@}
(gdb)
-data-list-register-names 1 2 3
^done,register-names=@{"r1","r2","r3"@}
(gdb)
@end smallexample
@subheading The @code{-data-list-register-values} Command
@findex -data-list-register-values
@subsubheading Synopsis
@example
-data-list-register-values @var{fmt} [ ( @var{regno} )*]
@end example
Display the registers' contents. @var{fmt} is the format according to
which the registers' contents are to be returned, followed by an optional
list of numbers specifying the registers to display. A missing list of
numbers indicates that the contents of all the registers must be returned.
Allowed formats for @var{fmt} are:
@table @code
@item x
Hexadecimal
@item o
Octal
@item t
Binary
@item d
Decimal
@item r
Raw
@item N
Natural
@end table
@subsubheading GDB Command
The corresponding GDB commands are @samp{info reg}, @samp{info all-reg},
and (in @code{gdbtk}) @samp{gdb_fetch_registers}.
@subsubheading Example
For a PPC MBX board (note: line breaks are for readability only, they
don't appear in the actual output):
@smallexample
(gdb)
-data-list-register-values r 64 65
^done,register-values=@{@{number="64",value="0xfe00a300"@},
@{number="65",value="0x00029002"@}@}
(gdb)
-data-list-register-values x
^done,register-values=@{@{number="0",value="0xfe0043c8"@},
@{number="1",value="0x3fff88"@},@{number="2",value="0xfffffffe"@},
@{number="3",value="0x0"@},@{number="4",value="0xa"@},
@{number="5",value="0x3fff68"@},@{number="6",value="0x3fff58"@},
@{number="7",value="0xfe011e98"@},@{number="8",value="0x2"@},
@{number="9",value="0xfa202820"@},@{number="10",value="0xfa202808"@},
@{number="11",value="0x1"@},@{number="12",value="0x0"@},
@{number="13",value="0x4544"@},@{number="14",value="0xffdfffff"@},
@{number="15",value="0xffffffff"@},@{number="16",value="0xfffffeff"@},
@{number="17",value="0xefffffed"@},@{number="18",value="0xfffffffe"@},
@{number="19",value="0xffffffff"@},@{number="20",value="0xffffffff"@},
@{number="21",value="0xffffffff"@},@{number="22",value="0xfffffff7"@},
@{number="23",value="0xffffffff"@},@{number="24",value="0xffffffff"@},
@{number="25",value="0xffffffff"@},@{number="26",value="0xfffffffb"@},
@{number="27",value="0xffffffff"@},@{number="28",value="0xf7bfffff"@},
@{number="29",value="0x0"@},@{number="30",value="0xfe010000"@},
@{number="31",value="0x0"@},@{number="32",value="0x0"@},
@{number="33",value="0x0"@},@{number="34",value="0x0"@},
@{number="35",value="0x0"@},@{number="36",value="0x0"@},
@{number="37",value="0x0"@},@{number="38",value="0x0"@},
@{number="39",value="0x0"@},@{number="40",value="0x0"@},
@{number="41",value="0x0"@},@{number="42",value="0x0"@},
@{number="43",value="0x0"@},@{number="44",value="0x0"@},
@{number="45",value="0x0"@},@{number="46",value="0x0"@},
@{number="47",value="0x0"@},@{number="48",value="0x0"@},
@{number="49",value="0x0"@},@{number="50",value="0x0"@},
@{number="51",value="0x0"@},@{number="52",value="0x0"@},
@{number="53",value="0x0"@},@{number="54",value="0x0"@},
@{number="55",value="0x0"@},@{number="56",value="0x0"@},
@{number="57",value="0x0"@},@{number="58",value="0x0"@},
@{number="59",value="0x0"@},@{number="60",value="0x0"@},
@{number="61",value="0x0"@},@{number="62",value="0x0"@},
@{number="63",value="0x0"@},@{number="64",value="0xfe00a300"@},
@{number="65",value="0x29002"@},@{number="66",value="0x202f04b5"@},
@{number="67",value="0xfe0043b0"@},@{number="68",value="0xfe00b3e4"@},
@{number="69",value="0x20002b03"@}@}
(gdb)
@end smallexample
@subheading The @code{-data-read-memory} Command
@findex -data-read-memory
@subsubheading Synopsis
@example
-data-read-memory [ -o @var{byte-offset} ]
@var{address} @var{word-format} @var{word-size}
@var{nr-rows} @var{nr-cols} [ @var{aschar} ]
@end example
@noindent
where:
@table @samp
@item @var{address}
An expression specifying the address of the first memory word to be
read. Complex expressions containing embedded white space should be
quoted using the C convention.
@item @var{word-format}
The format to be used to print the memory words. The notation is the
same as for GDB's @code{print} command (@pxref{Output Formats, , Output
formats}).
@item @var{word-size}
The size of each memory word in bytes.
@item @var{nr-rows}
The number of rows in the output table.
@item @var{nr-cols}
The number of columns in the output table.
@item @var{aschar}
If present, indicates that each row should include an @sc{ascii} dump. The
value of @var{aschar} is used as a padding character when a byte is not a
member of the printable @sc{ascii} character set (printable @sc{ascii}
characters are those whose code is between 32 and 126, inclusively).
@item @var{byte-offset}
An offset to add to the @var{address} before fetching memory.
@end table
This command displays memory contents as a table of @var{nr-rows} by
@var{nr-cols} words, each word being @var{word-size} bytes. In total,
@code{@var{nr-rows} * @var{nr-cols} * @var{word-size}} bytes are read
(returned as @samp{total-bytes}). Should less then the requested number
of bytes be returned by the target, the missing words are identified
using @samp{N/A}. The number of bytes read from the target is returned
in @samp{nr-bytes} and the starting address used to read memory in
@samp{addr}.
The address of the next/previous page or row is available in
@samp{next-row} and @samp{prev-row}, @samp{next-page} and
@samp{prev-page}.
@subsubheading GDB Command
The corresponding GDB command is @samp{x}. @code{gdbtk} has
@samp{gdb_get_mem} memory read.
@subsubheading Example
Read six bytes of memory starting at @code{bytes+6} but then offset by
@code{-6} bytes. Format as three rows of two columns. One byte per
word. Display each word in hex.
@smallexample
(gdb)
9-data-read-memory -o -6 -- bytes+6 x 1 3 2
9^done,addr="0x00001390",nr-bytes="6",total-bytes="6",
next-row="0x00001396",prev-row="0x0000138e",next-page="0x00001396",
prev-page="0x0000138a",memory=@{
@{addr="0x00001390",data=@{"0x00","0x01"@}@},
@{addr="0x00001392",data=@{"0x02","0x03"@}@},
@{addr="0x00001394",data=@{"0x04","0x05"@}@}@}
(gdb)
@end smallexample
Read two bytes of memory starting at address @code{shorts + 64} and
display as a single word formatted in decimal.
@smallexample
(gdb)
5-data-read-memory shorts+64 d 2 1 1
5^done,addr="0x00001510",nr-bytes="2",total-bytes="2",
next-row="0x00001512",prev-row="0x0000150e",
next-page="0x00001512",prev-page="0x0000150e",memory=@{
@{addr="0x00001510",data=@{"128"@}@}@}
(gdb)
@end smallexample
Read thirty two bytes of memory starting at @code{bytes+16} and format
as eight rows of four columns. Include a string encoding with @code{x}
used as the non-printable character.
@smallexample
(gdb)
4-data-read-memory bytes+16 x 1 8 4 x
4^done,addr="0x000013a0",nr-bytes="32",total-bytes="32",
next-row="0x000013c0",prev-row="0x0000139c",
next-page="0x000013c0",prev-page="0x00001380",memory=@{
@{addr="0x000013a0",data=@{"0x10","0x11","0x12","0x13"@},ascii="xxxx"@},
@{addr="0x000013a4",data=@{"0x14","0x15","0x16","0x17"@},ascii="xxxx"@},
@{addr="0x000013a8",data=@{"0x18","0x19","0x1a","0x1b"@},ascii="xxxx"@},
@{addr="0x000013ac",data=@{"0x1c","0x1d","0x1e","0x1f"@},ascii="xxxx"@},
@{addr="0x000013b0",data=@{"0x20","0x21","0x22","0x23"@},ascii=" !\"#"@},
@{addr="0x000013b4",data=@{"0x24","0x25","0x26","0x27"@},ascii="$%&'"@},
@{addr="0x000013b8",data=@{"0x28","0x29","0x2a","0x2b"@},ascii="()*+"@},
@{addr="0x000013bc",data=@{"0x2c","0x2d","0x2e","0x2f"@},ascii=",-./"@}@}
(gdb)
@end smallexample
@subheading The @code{-display-delete} Command
@findex -display-delete
@subsubheading Synopsis
@example
-display-delete @var{number}
@end example
Delete the display @var{number}.
@subsubheading GDB Command
The corresponding GDB command is @samp{delete display}.
@subsubheading Example
N.A.
@subheading The @code{-display-disable} Command
@findex -display-disable
@subsubheading Synopsis
@example
-display-disable @var{number}
@end example
Disable display @var{number}.
@subsubheading GDB Command
The corresponding GDB command is @samp{disable display}.
@subsubheading Example
N.A.
@subheading The @code{-display-enable} Command
@findex -display-enable
@subsubheading Synopsis
@example
-display-enable @var{number}
@end example
Enable display @var{number}.
@subsubheading GDB Command
The corresponding GDB command is @samp{enable display}.
@subsubheading Example
N.A.
@subheading The @code{-display-insert} Command
@findex -display-insert
@subsubheading Synopsis
@example
-display-insert @var{expression}
@end example
Display @var{expression} every time the program stops.
@subsubheading GDB Command
The corresponding GDB command is @samp{display}.
@subsubheading Example
N.A.
@subheading The @code{-display-list} Command
@findex -display-list
@subsubheading Synopsis
@example
-display-list
@end example
List the displays. Do not show the current values.
@subsubheading GDB Command
The corresponding GDB command is @samp{info display}.
@subsubheading Example
N.A.
@subheading The @code{-environment-cd} Command
@findex -environment-cd
@subsubheading Synopsis
@example
-environment-cd @var{pathdir}
@end example
Set GDB's working directory.
@subsubheading GDB Command
The corresponding GDB command is @samp{cd}.
@subsubheading Example
@smallexample
(gdb)
-environment-cd /kwikemart/marge/ezannoni/flathead-dev/devo/gdb
^done
(gdb)
@end smallexample
@subheading The @code{-environment-directory} Command
@findex -environment-directory
@subsubheading Synopsis
@example
-environment-directory @var{pathdir}
@end example
Add directory @var{pathdir} to beginning of search path for source files.
@subsubheading GDB Command
The corresponding GDB command is @samp{dir}.
@subsubheading Example
@smallexample
(gdb)
-environment-directory /kwikemart/marge/ezannoni/flathead-dev/devo/gdb
^done
(gdb)
@end smallexample
@subheading The @code{-environment-path} Command
@findex -environment-path
@subsubheading Synopsis
@example
-environment-path ( @var{pathdir} )+
@end example
Add directories to beginning of search path for object files.
@subsubheading GDB Command
The corresponding GDB command is @samp{path}.
@subsubheading Example
@smallexample
(gdb)
-environment-path /kwikemart/marge/ezannoni/flathead-dev/ppc-eabi/gdb
^done
(gdb)
@end smallexample
@subheading The @code{-environment-pwd} Command
@findex -environment-pwd
@subsubheading Synopsis
@example
-environment-pwd
@end example
Show the current working directory.
@subsubheading GDB command
The corresponding GDB command is @samp{pwd}.
@subsubheading Example
@smallexample
(gdb)
-environment-pwd
~Working directory /kwikemart/marge/ezannoni/flathead-dev/devo/gdb.
^done
(gdb)
@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Program Control
@section @sc{gdb/mi} Program control
@subsubheading Program termination
As a result of execution, the inferior program can run to completion, if
it doesn't encouter any breakpoints. In this case the ouput will
include an exit code, if the program has exited exceptionally.
@subsubheading Examples:
@noindent
Program exited normally:
@smallexample
(gdb)
-exec-run
^running
(gdb)
x = 55
*stopped,reason="exited-normally"
(gdb)
@end smallexample
@noindent
Program exited exceptionally:
@smallexample
(gdb)
-exec-run
^running
(gdb)
x = 55
*stopped,reason="exited",exit-code="01"
(gdb)
@end smallexample
Another way the program can terminate is if it receives a signal such as
@code{SIGINT}. In this case, @sc{gdb/mi} displays this:
@smallexample
(gdb)
*stopped,reason="exited-signalled",signal-name="SIGINT",
signal-meaning="Interrupt"
@end smallexample
@subheading The @code{-exec-abort} Command
@findex -exec-abort
@subsubheading Synopsis
@example
-exec-abort
@end example
Kill the inferior running program.
@subsubheading GDB Command
The corresponding GDB command is @samp{kill}.
@subsubheading Example
N.A.
@subheading The @code{-exec-arguments} Command
@findex -exec-arguments
@subsubheading Synopsis
@example
-exec-arguments @var{args}
@end example
Set the inferior program arguments, to be used in the next
@samp{-exec-run}.
@subsubheading GDB Command
The corresponding GDB command is @samp{set args}.
@subsubheading Example
@c FIXME!
Don't have one around.
@subheading The @code{-exec-continue} Command
@findex -exec-continue
@subsubheading Synopsis
@example
-exec-continue
@end example
Asynchronous command. Resumes the execution of the inferior program
until a breakpoint is encountered, or until the inferior exits.
@subsubheading GDB Command
The corresponding GDB corresponding is @samp{continue}.
@subsubheading Example
@smallexample
-exec-continue
^running
(gdb)
@@Hello world
*stopped,reason="breakpoint-hit",bkptno="2",frame=@{func="foo",args=@{@},
file="hello.c",line="13"@}
(gdb)
@end smallexample
@subheading The @code{-exec-finish} Command
@findex -exec-finish
@subsubheading Synopsis
@example
-exec-finish
@end example
Asynchronous command. Resumes the execution of the inferior program
until the current function is exited. Displays the results returned by
the function.
@subsubheading GDB Command
The corresponding GDB command is @samp{finish}.
@subsubheading Example
Function returning @code{void}.
@smallexample
-exec-finish
^running
(gdb)
@@hello from foo
*stopped,reason="function-finished",frame=@{func="main",args=@{@},
file="hello.c",line="7"@}
(gdb)
@end smallexample
Function returning other than @code{void}. The name of the internal GDB
variable storing the result is printed, together with the value itself.
@smallexample
-exec-finish
^running
(gdb)
*stopped,reason="function-finished",frame=@{addr="0x000107b0",func="foo",
args=@{@{name="a",value="1"@},@{name="b",value="9"@}@},
file="recursive2.c",line="14"@},
gdb-result-var="$1",return-value="0"
(gdb)
@end smallexample
@subheading The @code{-exec-interrupt} Command
@findex -exec-interrupt
@subsubheading Synopsis
@example
-exec-interrupt
@end example
Asynchronous command. Interrupts the background execution of the target.
Note how the token associated with the stop message is the one for the
execution command that has been interrupted. The token for the interrupt
itself only appears in the '^done' output. If the user is trying to
interrupt a non-running program, an error message will be printed.
@subsubheading GDB Command
The corresponding GDB command is @samp{interrupt}.
@subsubheading Example
@smallexample
(gdb)
111-exec-continue
111^running
(gdb)
222-exec-interrupt
222^done
(gdb)
111*stopped,signal-name="SIGINT",signal-meaning="Interrupt",
frame=@{addr="0x00010140",func="foo",args=@{@},file="try.c",line="13"@}
(gdb)
(gdb)
-exec-interrupt
^error,msg="mi_cmd_exec_interrupt: Inferior not executing."
(gdb)
@end smallexample
@subheading The @code{-exec-next} Command
@findex -exec-next
@subsubheading Synopsis
@example
-exec-next
@end example
Asynchronous command. Resumes execution of the inferior program, stopping
when the beginning of the next source line is reached.
@subsubheading GDB Command
The corresponding GDB command is @samp{next}.
@subsubheading Example
@smallexample
-exec-next
^running
(gdb)
*stopped,reason="end-stepping-range",line="8",file="hello.c"
(gdb)
@end smallexample
@subheading The @code{-exec-next-instruction} Command
@findex -exec-next-instruction
@subsubheading Synopsis
@example
-exec-next-instruction
@end example
Asynchronous command. Executes one machine instruction. If the
instruction is a function call continues until the function returns. If
the program stops at an instruction in the middle of a source line, the
address will be printed as well.
@subsubheading GDB Command
The corresponding GDB command is @samp{nexti}.
@subsubheading Example
@smallexample
(gdb)
-exec-next-instruction
^running
(gdb)
*stopped,reason="end-stepping-range",
addr="0x000100d4",line="5",file="hello.c"
(gdb)
@end smallexample
@subheading The @code{-exec-return} Command
@findex -exec-return
@subsubheading Synopsis
@example
-exec-return
@end example
Makes current function return immediately. Doesn't execute the inferior.
Displays the new current frame.
@subsubheading GDB Command
The corresponding GDB command is @samp{return}.
@subsubheading Example
@smallexample
(gdb)
200-break-insert callee4
200^done,bkpt=@{number="1",addr="0x00010734",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8"@}
(gdb)
000-exec-run
000^running
(gdb)
000*stopped,reason="breakpoint-hit",bkptno="1",
frame=@{func="callee4",args=@{@},
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8"@}
(gdb)
205-break-delete
205^done
(gdb)
111-exec-return
111^done,frame=@{level="0 ",func="callee3",
args=@{@{name="strarg",
value="0x11940 \"A string argument.\""@}@},
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="18"@}
(gdb)
@end smallexample
@subheading The @code{-exec-run} Command
@findex -exec-run
@subsubheading Synopsis
@example
-exec-run
@end example
Asynchronous command. Starts execution of the inferior from the
beginning. The inferior executes until either a breakpoint is
encountered or the program exits.
@subsubheading GDB Command
The corresponding GDB command is @samp{run}.
@subsubheading Example
@smallexample
(gdb)
-break-insert main
^done,bkpt=@{number="1",addr="0x0001072c",file="recursive2.c",line="4"@}
(gdb)
-exec-run
^running
(gdb)
*stopped,reason="breakpoint-hit",bkptno="1",
frame=@{func="main",args=@{@},file="recursive2.c",line="4"@}
(gdb)
@end smallexample
@subheading The @code{-exec-show-arguments} Command
@findex -exec-show-arguments
@subsubheading Synopsis
@example
-exec-show-arguments
@end example
Print the arguments of the program.
@subsubheading GDB Command
The corresponding GDB command is @samp{show args}.
@subsubheading Example
N.A.
@c @subheading -exec-signal
@subheading The @code{-exec-step} Command
@findex -exec-step
@subsubheading Synopsis
@example
-exec-step
@end example
Asynchronous command. Resumes execution of the inferior program, stopping
when the beginning of the next source line is reached, if the next
source line is not a function call. If it is, stop at the first
instruction of the called function.
@subsubheading GDB Command
The corresponding GDB command is @samp{step}.
@subsubheading Example
Stepping into a function:
@smallexample
-exec-step
^running
(gdb)
*stopped,reason="end-stepping-range",
frame=@{func="foo",args=@{@{name="a",value="10"@},
@{name="b",value="0"@}@},file="recursive2.c",line="11"@}
(gdb)
@end smallexample
Regular stepping:
@smallexample
-exec-step
^running
(gdb)
*stopped,reason="end-stepping-range",line="14",file="recursive2.c"
(gdb)
@end smallexample
@subheading The @code{-exec-step-instruction} Command
@findex -exec-step-instruction
@subsubheading Synopsis
@example
-exec-step-instruction
@end example
Asynchronous command. Resumes the inferior which executes one machine
instruction. The output, once GDB has stopped, will vary depending on
whether we have stopped in the middle of a source line or not. In the
former case, the address at which the program stopped will be printed as
well.
@subsubheading GDB Command
The corresponding GDB command is @samp{stepi}.
@subsubheading Example
@smallexample
(gdb)
-exec-step-instruction
^running
(gdb)
*stopped,reason="end-stepping-range",
frame=@{func="foo",args=@{@},file="try.c",line="10"@}
(gdb)
-exec-step-instruction
^running
(gdb)
*stopped,reason="end-stepping-range",
frame=@{addr="0x000100f4",func="foo",args=@{@},file="try.c",line="10"@}
(gdb)
@end smallexample
@subheading The @code{-exec-until} Command
@findex -exec-until
@subsubheading Synopsis
@example
-exec-until [ @var{location} ]
@end example
Asynchronous command. Executes the inferior until the @var{location}
specified in the argument is reached. If there is no argument, the inferior
executes until a source line greater than the current one is reached.
The reason for stopping in this case will be ``location-reached''.
@subsubheading GDB Command
The corresponding GDB command is @samp{until}.
@subsubheading Example
@smallexample
(gdb)
-exec-until recursive2.c:6
^running
(gdb)
x = 55
*stopped,reason="location-reached",frame=@{func="main",args=@{@},
file="recursive2.c",line="6"@}
(gdb)
@end smallexample
@ignore
@subheading -file-clear
Is this going away????
@end ignore
@subheading The @code{-file-exec-and-symbols} Command
@findex -file-exec-and-symbols
@subsubheading Synopsis
@example
-file-exec-and-symbols @var{file}
@end example
Specify the executable file to be debugged. This file is the one from
which the symbol table is also read. If no file is specified, the
command clears the executable and symbol information. If breakpoints
are set when using this command with no arguments, gdb will produce
error messages. Otherwise, no output is produced, except a completion
notification.
@subsubheading GDB Command
The corresponding GDB command is @samp{file}.
@subsubheading Example
@smallexample
(gdb)
-file-exec-and-symbols /kwikemart/marge/ezannoni/TRUNK/mbx/hello.mbx
^done
(gdb)
@end smallexample
@subheading The @code{-file-exec-file} Command
@findex -file-exec-file
@subsubheading Synopsis
@example
-file-exec-file @var{file}
@end example
Specify the executable file to be debugged. Unlike
@samp{-file-exec-and-symbols}, the symbol table is @emph{not} read
from this file. If used without argument, GDB clears the information
about the executable file. No output is produced, except a completion
notification.
@subsubheading GDB Command
The corresponding GDB command is @samp{exec-file}.
@subsubheading Example
@smallexample
(gdb)
-file-exec-file /kwikemart/marge/ezannoni/TRUNK/mbx/hello.mbx
^done
(gdb)
@end smallexample
@subheading The @code{-file-list-exec-sections} Command
@findex -file-list-exec-sections
@subsubheading Synopsis
@example
-file-list-exec-sections
@end example
List the sections of the current executable file.
@subsubheading GDB Command
The GDB command @samp{info file} shows, among the rest, the same
information as this command. @code{gdbtk} has a corresponding command
@samp{gdb_load_info}.
@subsubheading Example
N.A.
@subheading The @code{-file-list-exec-source-files} Command
@findex -file-list-exec-source-files
@subsubheading Synopsis
@example
-file-list-exec-source-files
@end example
List the source files for the current executable.
@subsubheading GDB Command
There's no GDB command which directly corresponds to this one.
@code{gdbtk} has an analogous command @samp{gdb_listfiles}.
@subsubheading Example
N.A.
@subheading The @code{-file-list-shared-libraries} Command
@findex -file-list-shared-libraries
@subsubheading Synopsis
@example
-file-list-shared-libraries
@end example
List the shared libraries in the program.
@subsubheading GDB Command
The corresponding GDB command is @samp{info shared}.
@subsubheading Example
N.A.
@subheading The @code{-file-list-symbol-files} Command
@findex -file-list-symbol-files
@subsubheading Synopsis
@example
-file-list-symbol-files
@end example
List symbol files.
@subsubheading GDB Command
The corresponding GDB command is @samp{info file} (part of it).
@subsubheading Example
N.A.
@subheading The @code{-file-symbol-file} Command
@findex -file-symbol-file
@subsubheading Synopsis
@example
-file-symbol-file @var{file}
@end example
Read symbol table info from the specified @var{file} argument. When
used without arguments, clears GDB's symbol table info. No output is
produced, except for a completion notification.
@subsubheading GDB Command
The corresponding GDB command is @samp{symbol-file}.
@subsubheading Example
@smallexample
(gdb)
-file-symbol-file /kwikemart/marge/ezannoni/TRUNK/mbx/hello.mbx
^done
(gdb)
@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Miscellaneous Commands
@section Miscellaneous GDB commands in @sc{gdb/mi}
@c @subheading -gdb-complete
@subheading The @code{-gdb-exit} Command
@findex -gdb-exit
@subsubheading Synopsis
@example
-gdb-exit
@end example
Exit GDB immediately.
@subsubheading GDB Command
Approximately corresponds to @samp{quit}.
@subsubheading Example
@smallexample
(gdb)
-gdb-exit
@end smallexample
@subheading The @code{-gdb-set} Command
@findex -gdb-set
@subsubheading Synopsis
@example
-gdb-set
@end example
Set an internal GDB variable.
@c IS THIS A DOLLAR VARIABLE? OR SOMETHING LIKE ANNOTATE ?????
@subsubheading GDB Command
The corresponding GDB command is @samp{set}.
@subsubheading Example
@smallexample
(gdb)
-gdb-set $foo=3
^done
(gdb)
@end smallexample
@subheading The @code{-gdb-show} Command
@findex -gdb-show
@subsubheading Synopsis
@example
-gdb-show
@end example
Show the current value of a GDB variable.
@subsubheading GDB command
The corresponding GDB command is @samp{show}.
@subsubheading Example
@smallexample
(gdb)
-gdb-show annotate
^done,value="0"
(gdb)
@end smallexample
@c @subheading -gdb-source
@subheading The @code{-gdb-version} Command
@findex -gdb-version
@subsubheading Synopsis
@example
-gdb-version
@end example
Show version information for GDB. Used mostly in testing.
@subsubheading GDB Command
There's no equivalent GDB command. GDB by default shows this
information when you start an interactive session.
@subsubheading Example
@c This example modifies the actual output from GDB to avoid overfull
@c box in TeX.
@smallexample
(gdb)
-gdb-version
~GNU gdb 5.2.1
~Copyright 2000 Free Software Foundation, Inc.
~GDB is free software, covered by the GNU General Public License, and
~you are welcome to change it and/or distribute copies of it under
~ certain conditions.
~Type "show copying" to see the conditions.
~There is absolutely no warranty for GDB. Type "show warranty" for
~ details.
~This GDB was configured as
"--host=sparc-sun-solaris2.5.1 --target=ppc-eabi".
^done
(gdb)
@end smallexample
@ignore
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Kod Commands
@section @sc{gdb/mi} Kod Commands
The Kod commands are not implemented.
@c @subheading -kod-info
@c @subheading -kod-list
@c @subheading -kod-list-object-types
@c @subheading -kod-show
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Memory Overlay Commands
@section @sc{gdb/mi} Memory Overlay Commands
The memory overlay commands are not implemented.
@c @subheading -overlay-auto
@c @subheading -overlay-list-mapping-state
@c @subheading -overlay-list-overlays
@c @subheading -overlay-map
@c @subheading -overlay-off
@c @subheading -overlay-on
@c @subheading -overlay-unmap
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Signal Handling Commands
@section @sc{gdb/mi} Signal Handling Commands
Signal handling commands are not implemented.
@c @subheading -signal-handle
@c @subheading -signal-list-handle-actions
@c @subheading -signal-list-signal-types
@end ignore
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Stack Manipulation
@section Stack manipulation commands in @sc{gdb/mi}
@subheading The @code{-stack-info-frame} Command
@findex -stack-info-frame
@subsubheading Synopsis
@example
-stack-info-frame
@end example
Get info on the current frame.
@subsubheading GDB Command
The corresponding GDB command is @samp{info frame} or @samp{frame}
(without arguments).
@subsubheading Example
N.A.
@subheading The @code{-stack-info-depth} Command
@findex -stack-info-depth
@subsubheading Synopsis
@example
-stack-info-depth [ @var{max-depth} ]
@end example
Return the depth of the stack. If the integer argument @var{max-depth}
is specified, do not count beyond @var{max-depth} frames.
@subsubheading GDB Command
There's no equivalent GDB command.
@subsubheading Example
For a stack with frame levels 0 through 11:
@smallexample
(gdb)
-stack-info-depth
^done,depth="12"
(gdb)
-stack-info-depth 4
^done,depth="4"
(gdb)
-stack-info-depth 12
^done,depth="12"
(gdb)
-stack-info-depth 11
^done,depth="11"
(gdb)
-stack-info-depth 13
^done,depth="12"
(gdb)
@end smallexample
@subheading The @code{-stack-list-arguments} Command
@findex -stack-list-arguments
@subsubheading Synopsis
@example
-stack-list-arguments @var{show-values}
[ @var{low-frame} @var{high-frame} ]
@end example
Display a list of the arguments for the frames between @var{low-frame}
and @var{high-frame} (inclusive). If @var{low-frame} and
@var{high-frame} are not provided, list the arguments for the whole call
stack.
The @var{show-values} argument must have a value of 0 or 1. A value of
0 means that only the names of the arguments are listed, a value of 1
means that both names and values of the arguments are printed.
@subsubheading GDB Command
GDB does not have an equivalent command. @code{gdbtk} has a
@samp{gdb_get_args} command which partially overlaps with the
functionality of @samp{-stack-list-arguments}.
@subsubheading Example
@smallexample
(gdb)
-stack-list-frames
^done,
stack=@{
frame=@{level="0 ",addr="0x00010734",func="callee4",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8"@},
frame=@{level="1 ",addr="0x0001076c",func="callee3",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="17"@},
frame=@{level="2 ",addr="0x0001078c",func="callee2",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="22"@},
frame=@{level="3 ",addr="0x000107b4",func="callee1",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="27"@},
frame=@{level="4 ",addr="0x000107e0",func="main",
file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="32"@}@}
(gdb)
-stack-list-arguments 0
^done,
stack-args=@{
frame=@{level="0",args=@{@}@},
frame=@{level="1",args=@{name="strarg"@}@},
frame=@{level="2",args=@{name="intarg",name="strarg"@}@},
frame=@{level="3",args=@{name="intarg",name="strarg",name="fltarg"@}@},
frame=@{level="4",args=@{@}@}@}
(gdb)
-stack-list-arguments 1
^done,
stack-args=@{
frame=@{level="0",args=@{@}@},
frame=@{level="1",
args=@{@{name="strarg",value="0x11940 \"A string argument.\""@}@}@},
frame=@{level="2",args=@{
@{name="intarg",value="2"@},
@{name="strarg",value="0x11940 \"A string argument.\""@}@}@},
@{frame=@{level="3",args=@{
@{name="intarg",value="2"@},
@{name="strarg",value="0x11940 \"A string argument.\""@},
@{name="fltarg",value="3.5"@}@}@},
frame=@{level="4",args=@{@}@}@}
(gdb)
-stack-list-arguments 0 2 2
^done,stack-args=@{frame=@{level="2",args=@{name="intarg",name="strarg"@}@}@}
(gdb)
-stack-list-arguments 1 2 2
^done,stack-args=@{frame=@{level="2",
args=@{@{name="intarg",value="2"@},
@{name="strarg",value="0x11940 \"A string argument.\""@}@}@}@}
(gdb)
@end smallexample
@c @subheading -stack-list-exception-handlers
@subheading The @code{-stack-list-frames} Command
@findex -stack-list-frames
@subsubheading Synopsis
@example
-stack-list-frames [ @var{low-frame} @var{high-frame} ]
@end example
List the frames currently on the stack. For each frame it displays the
following info:
@table @samp
@item @var{level}
The frame number, 0 being the topmost frame, i.e. the innermost function.
@item @var{addr}
The @code{$pc} value for that frame.
@item @var{func}
Function name.
@item @var{file}
File name of the source file where the function lives.
@item @var{line}
Line number corresponding to the @code{$pc}.
@end table
If invoked without arguments, this command prints a backtrace for the
whole stack. If given two integer arguments, it shows the frames whose
levels are between the two arguments (inclusive). If the two arguments
are equal, it shows the single frame at the corresponding level.
@subsubheading GDB Command
The corresponding GDB commands are @samp{backtrace} and @samp{where}.
@subsubheading Example
Full stack backtrace:
@smallexample
(gdb)
-stack-list-frames
^done,stack=
@{frame=@{level="0 ",addr="0x0001076c",func="foo",
file="recursive2.c",line="11"@},
frame=@{level="1 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="2 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="3 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="4 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="5 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="6 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="7 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="8 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="9 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="10",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="11",addr="0x00010738",func="main",
file="recursive2.c",line="4"@}@}
(gdb)
@end smallexample
Show frames between low_frame and high_frame:
@smallexample
(gdb)
-stack-list-frames 3 5
^done,stack=
@{frame=@{level="3 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="4 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@},
frame=@{level="5 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@}@}
(gdb)
@end smallexample
Show a single frame:
@smallexample
(gdb)
-stack-list-frames 3 3
^done,stack=
@{frame=@{level="3 ",addr="0x000107a4",func="foo",
file="recursive2.c",line="14"@}@}
(gdb)
@end smallexample
@subheading The @code{-stack-list-locals} Command
@findex -stack-list-locals
@subsubheading Synopsis
@example
-stack-list-locals @var{print-values}
@end example
Display the local variable names for the current frame. With an
argument of 0 prints only the names of the variables, with argument of 1
prints also their values.
@subsubheading GDB Command
@samp{info locals} in GDB, @samp{gdb_get_locals} in @code{gdbtk}.
@subsubheading Example
@smallexample
(gdb)
-stack-list-locals 0
^done,locals=@{name="A",name="B",name="C"@}
(gdb)
-stack-list-locals 1
^done,locals=@{@{name="A",value="1"@},@{name="B",value="2"@},
@{name="C",value="3"@}@}
(gdb)
@end smallexample
@subheading The @code{-stack-select-frame} Command
@findex -stack-select-frame
@subsubheading Synopsis
@example
-stack-select-frame @var{framenum}
@end example
Change the current frame. Select a different frame @var{framenum} on
the stack.
@subsubheading GDB Command
The corresponding GDB commands are @samp{frame}, @samp{up}, @samp{down},
@samp{select-frame}, @samp{up-silent}, and @samp{down-silent}.
@subsubheading Example
@smallexample
(gdb)
-stack-select-frame 2
^done
(gdb)
@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Symbol Query
@section @sc{gdb/mi} Symbol Query Commands
@subheading The @code{-symbol-info-address} Command
@findex -symbol-info-address
@subsubheading Synopsis
@example
-symbol-info-address @var{symbol}
@end example
Describe where @var{symbol} is stored.
@subsubheading GDB Command
The corresponding GDB command is @samp{info address}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-info-file} Command
@findex -symbol-info-file
@subsubheading Synopsis
@example
-symbol-info-file
@end example
Show the file for the symbol.
@subsubheading GDB Command
There's no equivalent GDB command. @code{gdbtk} has
@samp{gdb_filnd_file}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-info-function} Command
@findex -symbol-info-function
@subsubheading Synopsis
@example
-symbol-info-function
@end example
Show which function the symbol lives in.
@subsubheading GDB Command
@samp{gdb_get_function} in @code{gdbtk}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-info-line} Command
@findex -symbol-info-line
@subsubheading Synopsis
@example
-symbol-info-line
@end example
Show the core addresses of the code for a source line.
@subsubheading GDB Command
The corresponding GDB comamnd is @samp{info line}. @code{gdbtk} has the
@samp{gdb_get_line} @samp{gdb_get_file} commands.
@subsubheading Example
N.A.
@subheading The @code{-symbol-info-symbol} Command
@findex -symbol-info-symbol
@subsubheading Synopsis
@example
-symbol-info-symbol @var{addr}
@end example
Describe what symbol is at location @var{addr}.
@subsubheading GDB Command
The corresponding GDB command is @samp{info symbol}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-list-functions} Command
@findex -symbol-list-functions
@subsubheading Synopsis
@example
-symbol-list-functions
@end example
List the functions in the executable.
@subsubheading GDB Command
@samp{info functions} in GDB, @samp{gdb_listfunc} @samp{gdb_search} in
@code{gdbtk}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-list-types} Command
@findex -symbol-list-types
@subsubheading Synopsis
@example
-symbol-list-types
@end example
List all the type names.
@subsubheading GDB Command
The corresponding commands are @samp{info types} in GDB,
@samp{gdb_search} in @code{gdbtk}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-list-variables} Command
@findex -symbol-list-variables
@subsubheading Synopsis
@example
-symbol-list-variables
@end example
List all the global and static variable names.
@subsubheading GDB Command
@samp{info variables} in GDB, @samp{gdb_search} in @code{gdbtk}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-locate} Command
@findex -symbol-locate
@subsubheading Synopsis
@example
-symbol-locate
@end example
@subsubheading GDB Command
@samp{gdb_loc} in @code{gdbtk}.
@subsubheading Example
N.A.
@subheading The @code{-symbol-type} Command
@findex -symbol-type
@subsubheading Synopsis
@example
-symbol-type @var{variable}
@end example
Show type of @var{variable}.
@subsubheading GDB Command
The corresponding GDB command is @samp{ptype}, @code{gdbtk} has
@samp{gdb_obj_variable}.
@subsubheading Example
N.A.
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Target Manipulation
@section @sc{gdb/mi} Target Manipulation Commands
@subheading The @code{-target-attach} Command
@findex -target-attach
@subsubheading Synopsis
@example
-target-attach @var{pid} | @var{file}
@end example
Attach to a process @var{pid} or a file @var{file} outside of GDB.
@subsubheading GDB command
The corresponding GDB command is @samp{attach}.
@subsubheading Example
N.A.
@subheading The @code{-target-compare-sections} Command
@findex -target-compare-sections
@subsubheading Synopsis
@example
-target-compare-sections [ @var{section} ]
@end example
Compare data of section @var{section} on target to the exec file.
Without the argument, all sections are compared.
@subsubheading GDB Command
The GDB equivalent is @samp{compare-sections}.
@subsubheading Example
N.A.
@subheading The @code{-target-detach} Command
@findex -target-detach
@subsubheading Synopsis
@example
-target-detach
@end example
Disconnect from the remote target. There's no output.
@subsubheading GDB command
The corresponding GDB command is @samp{detach}.
@subsubheading Example
@smallexample
(gdb)
-target-detach
^done
(gdb)
@end smallexample
@subheading The @code{-target-download} Command
@findex -target-download
@subsubheading Synopsis
@example
-target-download
@end example
Loads the executable onto the remote target.
It prints out an update message every half second, which includes the fields:
@table @samp
@item section
The name of the section.
@item section-sent
The size of what has been sent so far for that section.
@item section-size
The size of the section.
@item total-sent
The total size of what was sent so far (the current and the previous sections).
@item total-size
The size of the overall executable to download.
@end table
@noindent
Each message is sent as status record (@pxref{GDB/MI Output Syntax, ,
@sc{gdb/mi} Output Syntax}).
In addition, it prints the name and size of the sections, as they are
downloaded. These messages include the following fields:
@table @samp
@item section
The name of the section.
@item section-size
The size of the section.
@item total-size
The size of the overall executable to download.
@end table
@noindent
At the end, a summary is printed.
@subsubheading GDB Command
The corresponding GDB command is @samp{load}.
@subsubheading Example
Note: each status message appears on a single line. Here the messages
have been broken down so that they can fit onto a page.
@smallexample
(gdb)
-target-download
+download,@{section=".text",section-size="6668",total-size="9880"@}
+download,@{section=".text",section-sent="512",section-size="6668",
total-sent="512",total-size="9880"@}
+download,@{section=".text",section-sent="1024",section-size="6668",
total-sent="1024",total-size="9880"@}
+download,@{section=".text",section-sent="1536",section-size="6668",
total-sent="1536",total-size="9880"@}
+download,@{section=".text",section-sent="2048",section-size="6668",
total-sent="2048",total-size="9880"@}
+download,@{section=".text",section-sent="2560",section-size="6668",
total-sent="2560",total-size="9880"@}
+download,@{section=".text",section-sent="3072",section-size="6668",
total-sent="3072",total-size="9880"@}
+download,@{section=".text",section-sent="3584",section-size="6668",
total-sent="3584",total-size="9880"@}
+download,@{section=".text",section-sent="4096",section-size="6668",
total-sent="4096",total-size="9880"@}
+download,@{section=".text",section-sent="4608",section-size="6668",
total-sent="4608",total-size="9880"@}
+download,@{section=".text",section-sent="5120",section-size="6668",
total-sent="5120",total-size="9880"@}
+download,@{section=".text",section-sent="5632",section-size="6668",
total-sent="5632",total-size="9880"@}
+download,@{section=".text",section-sent="6144",section-size="6668",
total-sent="6144",total-size="9880"@}
+download,@{section=".text",section-sent="6656",section-size="6668",
total-sent="6656",total-size="9880"@}
+download,@{section=".init",section-size="28",total-size="9880"@}
+download,@{section=".fini",section-size="28",total-size="9880"@}
+download,@{section=".data",section-size="3156",total-size="9880"@}
+download,@{section=".data",section-sent="512",section-size="3156",
total-sent="7236",total-size="9880"@}
+download,@{section=".data",section-sent="1024",section-size="3156",
total-sent="7748",total-size="9880"@}
+download,@{section=".data",section-sent="1536",section-size="3156",
total-sent="8260",total-size="9880"@}
+download,@{section=".data",section-sent="2048",section-size="3156",
total-sent="8772",total-size="9880"@}
+download,@{section=".data",section-sent="2560",section-size="3156",
total-sent="9284",total-size="9880"@}
+download,@{section=".data",section-sent="3072",section-size="3156",
total-sent="9796",total-size="9880"@}
^done,address="0x10004",load-size="9880",transfer-rate="6586",
write-rate="429"
(gdb)
@end smallexample
@subheading The @code{-target-exec-status} Command
@findex -target-exec-status
@subsubheading Synopsis
@example
-target-exec-status
@end example
Provide information on the state of the target (whether it is running or
not, for instance).
@subsubheading GDB Command
There's no equivalent GDB command.
@subsubheading Example
N.A.
@subheading The @code{-target-list-available-targets} Command
@findex -target-list-available-targets
@subsubheading Synopsis
@example
-target-list-available-targets
@end example
List the possible targets to connect to.
@subsubheading GDB Command
The corresponding GDB command is @samp{help target}.
@subsubheading Example
N.A.
@subheading The @code{-target-list-current-targets} Command
@findex -target-list-current-targets
@subsubheading Synopsis
@example
-target-list-current-targets
@end example
Describe the current target.
@subsubheading GDB Command
The corresponding information is printed by @samp{info file} (among
other things).
@subsubheading Example
N.A.
@subheading The @code{-target-list-parameters} Command
@findex -target-list-parameters
@subsubheading Synopsis
@example
-target-list-parameters
@end example
@c ????
@subsubheading GDB Command
No equivalent.
@subsubheading Example
N.A.
@subheading The @code{-target-select} Command
@findex -target-select
@subsubheading Synopsis
@example
-target-select @var{type} @var{parameters ...}
@end example
Connect GDB to the remote target. This command takes two args:
@table @samp
@item @var{type}
The type of target, for instance @samp{async}, @samp{remote}, etc.
@item @var{parameters}
Device names, host names and the like. @xref{Target Commands, ,
Commands for managing targets}, for more details.
@end table
The output is a connection notification, followed by the address at
which the target program is, in the following form:
@smallexample
^connected,addr="@var{address}",func="@var{function name}",
args=@{@var{arg list}@}
@end smallexample
@subsubheading GDB Command
The corresponding GDB command is @samp{target}.
@subsubheading Example
@smallexample
(gdb)
-target-select async /dev/ttya
^connected,addr="0xfe00a300",func="??",args=@{@}
(gdb)
@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Thread Commands
@section @sc{gdb/mi} Thread Commands
@subheading The @code{-thread-info} Command
@findex -thread-info
@subsubheading Synopsis
@example
-thread-info
@end example
@subsubheading GDB command
No equivalent.
@subsubheading Example
N.A.
@subheading The @code{-thread-list-all-threads} Command
@findex -thread-list-all-threads
@subsubheading Synopsis
@example
-thread-list-all-threads
@end example
@subsubheading GDB Command
The equivalent GDB command is @samp{info threads}.
@subsubheading Example
N.A.
@subheading The @code{-thread-list-ids} Command
@findex -thread-list-ids
@subsubheading Synopsis
@example
-thread-list-ids
@end example
Produces a list of the currently known gdb thread ids. At the end of the
list it also prints the total number of such threads.
@subsubheading GDB Command
Part of @samp{info threads} supplies the same information.
@subsubheading Example
No threads present, besides the main process.
@smallexample
(gdb)
-thread-list-ids
^done,thread-ids=@{@},number-of-threads="0"
(gdb)
@end smallexample
Several threads.
@smallexample
(gdb)
-thread-list-ids
^done,thread-ids=@{thread-id="3",thread-id="2",thread-id="1"@},
number-of-threads="3"
(gdb)
@end smallexample
@subheading The @code{-thread-select} Command
@findex -thread-select
@subsubheading Synopsis
@example
-thread-select @var{threadnum}
@end example
Make @var{threadnum} the current thread. It prints the number of the new
current thread, and the topmost frame for that thread.
@subsubheading GDB Command
The corresponding GDB command is @samp{thread}.
@subsubheading Example
@smallexample
(gdb)
-exec-next
^running
(gdb)
*stopped,reason="end-stepping-range",thread-id="2",line="187",
file="../../../devo/gdb/testsuite/gdb.threads/linux-dp.c"
(gdb)
-thread-list-ids
^done,
thread-ids=@{thread-id="3",thread-id="2",thread-id="1"@},
number-of-threads="3"
(gdb)
-thread-select 3
^done,new-thread-id="3",
frame=@{level="0 ",func="vprintf",
args=@{@{name="format",value="0x8048e9c \"%*s%c %d %c\\n\""@},
@{name="arg",value="0x2"@}@},file="vprintf.c",line="31"@}
(gdb)
@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Tracepoint Commands
@section @sc{gdb/mi} Tracepoint Commands
The tracepoint commands are not yet implemented.
@c @subheading -trace-actions
@c @subheading -trace-delete
@c @subheading -trace-disable
@c @subheading -trace-dump
@c @subheading -trace-enable
@c @subheading -trace-exists
@c @subheading -trace-find
@c @subheading -trace-frame-number
@c @subheading -trace-info
@c @subheading -trace-insert
@c @subheading -trace-list
@c @subheading -trace-pass-count
@c @subheading -trace-save
@c @subheading -trace-start
@c @subheading -trace-stop
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Variable Objects
@section @sc{gdb/mi} Variable Objects
@subheading Motivation for Variable Objects in @sc{gdb/mi}
For the implementation of a variable debugger window (locals, watched
expressions, etc.), we are proposing the adaptation of the existing code
used by @code{Insight}.
The two main reasons for that are:
@enumerate 1
@item
It has been proven in practice (it is already on its second generation).
@item
It will shorten development time (needless to say how important it is
now).
@end enumerate
The original interface was designed to be used by Tcl code, so it was
slightly changed so it could be used through flathead. This document
describes the flathead operations that will be available and gives some
hints about their use.
@emph{Note}: In addition to the set of operations described here, we
expect the @sc{gui} implementation of a variable window to require, at
least, the following operations:
@itemize @bullet
@item -gdb-show output-radix
@item -stack-list-arguments
@item -stack-list-locals
@item -stack-select-frame
@end itemize
@subheading Introduction to Variable Objects in @sc{gdb/mi}
@cindex variable objects in @sc{gdb/mi}
The basic idea behind variable objects is the creation of a named object
to represent a variable, an expression, a memory location or even a CPU
register. For each object created, a set of operations is available for
examining or changing its properties.
Furthermore, complex data types, such as C structures, are represented
in a tree format. For instance, the @code{struct} type variable is the
root and the children will represent the struct members. If a child
is itself of a complex type, it will also have children of its own.
Appropriate language differences are handled for C, C@t{++} and Java.
When returning the actual values of the objects, this facility allows
for the individual selection of the display format used in the result
creation. It can be chosen among: binary, decimal, hexadecimal, octal
and natural. Natural refers to a default format automatically
chosen based on the variable type (like decimal for an @code{int}, hex
for pointers, etc.).
The following is the complete set of flathead operations defined to
access this functionality:
@multitable @columnfractions .3 .6
@item @strong{Operation}
@tab @strong{Description}
@item -var-create
@tab create a variable object
@item -var-delete
@tab delete the variable object and its children
@item -var-set-format
@tab set the display format of this variable
@item -var-show-format
@tab show the display format of this variable
@item -var-info-num-children
@tab tells how many children this object has
@item -var-list-children
@tab return a list of the object's children
@item -var-info-type
@tab show the type of this variable object
@item -var-info-expression
@tab print what this variable object represents
@item -var-show-attributes
@tab is this variable editable? does it exist here?
@item -var-evaluate-expression
@tab get the value of this variable
@item -var-assign
@tab set the value of this variable
@item -var-update
@tab update the variable and its children
@end multitable
In the next subsection we describe each operation in detail and suggest
how it can be used.
@subheading Description And Use of Operations on Variable Objects
@subheading The @code{-var-create} Command
@findex -var-create
@subsubheading Synopsis
@example
-var-create @{@var{name} | "-"@}
@{@var{frame-addr} | "*"@} @var{expression}
@end example
This operation creates a variable object, which allows the monitoring of
a variable, the result of an expression, a memory cell or a CPU
register.
The @var{name} parameter is the string by which the object can be
referenced. It must be unique. If @samp{-} is specified, the varobj
system will generate a string "varNNNNNN'' automatically. It will be
unique provided that one does not specify @var{name} on that format.
The command fails if a duplicate name is found.
The frame under which the expression should be evaluated can be
specified by @var{frame-addr}. A @samp{*} indicates that the current
frame should be used.
@var{expression} is any expression valid on the current language set (must not
begin with a @samp{*}), or one of the following:
@itemize @bullet
@item
@samp{*@var{addr}}, where @var{addr} is the address of a memory cell
@item
@samp{*@var{addr}-@var{addr}} -- a memory address range (TBD)
@item
@samp{$@var{regname}} -- a CPU register name
@end itemize
@subsubheading Result
This operation returns the name, number of children and the type of the
object created. Type is returned as a string as the ones generated by
the GDB CLI:
@example
name="@var{name}",numchild="N",type="@var{type}"
@end example
@subheading The @code{-var-delete} Command
@findex -var-delete
@subsubheading Synopsis
@example
-var-delete @var{name}
@end example
Deletes a previously created variable object and all of its children.
Returns an error if the object @var{name} is not found.
@subheading The @code{-var-set-format} Command
@findex -var-set-format
@subsubheading Synopsis
@example
-var-set-format @var{name} @var{format-spec}
@end example
Sets the output format for the value of the object @var{name} to be
@var{format-spec}.
The syntax for the @var{format-spec} is as follows:
@example
@var{format-spec} @expansion{}
@{binary | decimal | hexadecimal | octal | natural@}
@end example
@subheading The @code{-var-show-format} Command
@findex -var-show-format
@subsubheading Synopsis
@example
-var-show-format @var{name}
@end example
Returns the format used to display the value of the object @var{name}.
@example
format @expansion{}
@var{format-spec}
@end example
@subheading The @code{-var-info-num-children} Command
@findex -var-info-num-children
@subsubheading Synopsis
@example
-var-info-num-children @var{name}
@end example
Returns the number of children of a variable object @var{name}:
@example
numchild=@var{n}
@end example
@subheading The @code{-var-list-children} Command
@findex -var-list-children
@subsubheading Synopsis
@example
-var-list-children @var{name}
@end example
Returns a list of the children of the specified variable object:
@example
numchild=@var{n},children=@{@{name=@var{name},
numchild=@var{n},type=@var{type}@},(repeats N times)@}
@end example
@subheading The @code{-var-info-type} Command
@findex -var-info-type
@subsubheading Synopsis
@example
-var-info-type @var{name}
@end example
Returns the type of the specified variable @var{name}. The type is
returned as a string in the same format as it is output by the GDB CLI:
@example
type=@var{typename}
@end example
@subheading The @code{-var-info-expression} Command
@findex -var-info-expression
@subsubheading Synopsis
@example
-var-info-expression @var{name}
@end example
Returns what is represented by the variable object @var{name}:
@example
lang=@var{lang-spec},exp=@var{expression}
@end example
@noindent
where @var{lang-spec} is @code{@{"C" | "C++" | "Java"@}}.
@subheading The @code{-var-show-attributes} Command
@findex -var-show-attributes
@subsubheading Synopsis
@example
-var-show-attributes @var{name}
@end example
List attributes of the specified variable object @var{name}:
@example
status=@var{attr} [ ( ,@var{attr} )* ]
@end example
@noindent
where @var{attr} is @code{@{ @{ editable | noneditable @} | TBD @}}.
@subheading The @code{-var-evaluate-expression} Command
@findex -var-evaluate-expression
@subsubheading Synopsis
@example
-var-evaluate-expression @var{name}
@end example
Evaluates the expression that is represented by the specified variable
object and returns its value as a string in the current format specified
for the object:
@example
value=@var{value}
@end example
@subheading The @code{-var-assign} Command
@findex -var-assign
@subsubheading Synopsis
@example
-var-assign @var{name} @var{expression}
@end example
Assigns the value of @var{expression} to the variable object specified
by @var{name}. The object must be ``editable''.
@subheading The @code{-var-update} Command
@findex -var-update
@subsubheading Synopsis
@example
-var-update @{@var{name} | "*"@}
@end example
Update the value of the variable object @var{name} by evaluating its
expression after fetching all the new values from memory or registers.
A @samp{*} causes all existing variable objects to be updated.
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Draft Changes to Output Syntax
@section @sc{gdb/mi} Draft Changes to Output Syntax
@cindex draft changes to output syntax of @sc{gdb/mi}
@cindex @sc{gdb/mi}, draft changes to output syntax
One problem identified in the existing @sc{gdb/mi} output syntax was the
difficulty in differentiating between a tuple such as:
@example
@{number="1",type="breakpoint",disp="keep",enabled="y"@}
@end example
where each value has a unique label, and a list such as:
@example
@{"1","2","4"@}
@{bp="1",bp="2",bp="4"@}
@end example
where values are un-labeled or the label is duplicated.
What follows is a draft revision to the output specification that
addresses this problem.
The output from @sc{gdb/mi} consists of zero or more out-of-band records
optionally followed by a single result record, the result record being
for the most recent command input. The sequence is terminated by
``(gdb)''.
Asynchronous @sc{gdb/mi} output is similar.
Each output record directly associated with an input command is prefixed
by the input commands @code{@var{token}}.
@table @code
@item @var{output} @expansion{}
@{ @var{out-of-band-record} @} @code{[} @var{result-record} @code{]} "(gdb)" @var{nl}
@item @var{result-record} @expansion{}
@code{[} @var{token} @code{]} "^" @var{result-class} @{ "," @var{result} @} @var{nl}
@item @var{out-of-band-record} @expansion{}
@var{async-record} @code{|} @var{stream-record}
@item @var{async-record} @expansion{}
@var{exec-async-output} @code{|} @var{status-async-output} @code{|} @var{notify-async-output}
@item @var{exec-async-output} @expansion{}
@code{[} @var{token} @code{]} "*" @var{async-output}
@item @var{status-async-output} @expansion{}
@code{[} @var{token} @code{]} "+" @var{async-output}
@item @var{notify-async-output} @expansion{}
@code{[} @var{token} @code{]} "=" @var{async-output}
@item @var{async-output} @expansion{}
@var{async-class} @{ "," @var{result} @} @var{nl}
@item @var{result-class} @expansion{}
"done" @code{|} "running" @code{|} "connected" @code{|} "error" @code{|} "exit"
@item @var{async-class} @expansion{}
"stopped" @code{|} @emph{others depending on need as still in development}
@item @var{result} @expansion{}
@var{string} "=" @var{value}
@item @var{value} @expansion{}
@var{c-string} @code{|} @var{tupple} @code{|} @var{list}
@item @var{tupple} @expansion{}
"@{@}" @code{|} "@{" @var{result} @{ "," @var{result} @} "@}"
@item @var{list} @expansion{}
"@code{[]}" @code{|} "@code{[}" @var{value} @{ "," @var{value} @} "@code{]}"
@item @var{string} @expansion{}
@emph{[-A-Za-z\.0-9_]*}
@item @var{c-string} @expansion{}
@emph{See the input specification}
@item @var{stream-record} @expansion{}
@var{console-stream-output} @code{|} @var{target-stream-output} @code{|} @var{log-stream-output}
@item @var{console-stream-output} @expansion{}
"~" @var{c-string}
@item @var{target-stream-output} @expansion{}
"@@" @var{c-string}
@item @var{log-stream-output} @expansion{}
"&" @var{c-string}
@item @var{nl} @expansion{}
CR @code{|} CR-LF
@item @var{token} @expansion{}
"any sequence of digits"
@end table
In addition, the following are still being developed.
@table @code
@item @var{query}
This action is currently undefined.
@end table
Notes:
@itemize @bullet
@item
All output sequences end in a single line containing a period.
@item
The @code{@var{token}} is from the corresponding request. If an execution
command is interrupted by the -exec-interrupt command, the token
associated with the `*stopped' message is the one of the original
execution command, not the one of the interrupt-command.
@item
@var{status-async-output} contains on-going status information about the progress
of a slow operation. It can be discarded. All status output is prefixed by
the prefix `+'.
@item
@var{exec-async-output} contains asynchronous state change on the target
(stopped, started, disappeared). All async output is prefixed by
the prefix `*'.
@item
@var{notify-async-output} contains supplementary information that the client should
handle (new breakpoint information). All notify output is prefixed by
the prefix `='.
@item
@var{console-stream-output} is output that should be displayed as is, in the
console. It is the textual response to a CLI command. All the console
output is prefixed by the prefix ``~''.
@item
@var{target-stream-output} is the output produced by the target program.
All the target output is prefixed by the prefix ``@@''.
@item
@var{log-stream-output} is output text coming from GDB's internals, for
instance messages that should be displayed as part of an error log. All
the log output is prefixed by the prefix ``&''.
@end itemize
@c Local variables:
@c change-log-default-name: "ChangeLog-mi"
@c End: