\input texinfo @c -*-texinfo-*-
-@c Copyright (C) 1988-2013 Free Software Foundation, Inc.
+@c Copyright (C) 1988-2014 Free Software Foundation, Inc.
@c
@c %**start of header
@c makeinfo ignores cmds prev to setfilename, so its arg cannot make use
@dircategory Software development
@direntry
* Gdb: (gdb). The GNU debugger.
+* gdbserver: (gdb) Server. The GNU debugging server.
@end direntry
@copying
@c man begin COPYRIGHT
-Copyright @copyright{} 1988-2013 Free Software Foundation, Inc.
+Copyright @copyright{} 1988-2014 Free Software Foundation, Inc.
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.3 or
@end ifset
Version @value{GDBVN}.
-Copyright (C) 1988-2013 Free Software Foundation, Inc.
+Copyright (C) 1988-2014 Free Software Foundation, Inc.
This edition of the GDB manual is dedicated to the memory of Fred
Fish. Fred was a long-standing contributor to GDB and to Free
(such as wildcard expansion or variable substitution) in describing
the arguments.
In Unix systems, you can control which shell is used with the
-@code{SHELL} environment variable.
-@xref{Arguments, ,Your Program's Arguments}.
+@code{SHELL} environment variable. If you do not define @code{SHELL},
+@value{GDBN} uses the default shell (@file{/bin/sh}). You can disable
+use of any shell with the @code{set startup-with-shell} command (see
+below for details).
@item The @emph{environment.}
Your program normally inherits its environment from @value{GDBN}, but you can
elaboration phase. Under these circumstances, insert breakpoints in your
elaboration code before running your program.
+@anchor{set exec-wrapper}
@kindex set exec-wrapper
@item set exec-wrapper @var{wrapper}
@itemx show exec-wrapper
This command is available when debugging locally on most targets, excluding
@sc{djgpp}, Cygwin, MS Windows, and QNX Neutrino.
+@kindex set startup-with-shell
+@item set startup-with-shell
+@itemx set startup-with-shell on
+@itemx set startup-with-shell off
+@itemx show set startup-with-shell
+On Unix systems, by default, if a shell is available on your target,
+@value{GDBN}) uses it to start your program. Arguments of the
+@code{run} command are passed to the shell, which does variable
+substitution, expands wildcard characters and performs redirection of
+I/O. In some circumstances, it may be useful to disable such use of a
+shell, for example, when debugging the shell itself or diagnosing
+startup failures such as:
+
+@smallexample
+(@value{GDBP}) run
+Starting program: ./a.out
+During startup program terminated with signal SIGSEGV, Segmentation fault.
+@end smallexample
+
+@noindent
+which indicates the shell or the wrapper specified with
+@samp{exec-wrapper} crashed, not your program. Most often, this is
+caused by something odd in your shell's non-interactive mode
+initialization file---such as @file{.cshrc} for C-shell,
+$@file{.zshenv} for the Z shell, or the file specified in the
+@samp{BASH_ENV} environment variable for BASH.
+
@kindex set disable-randomization
@item set disable-randomization
@itemx set disable-randomization on
@kindex set environment
@item set environment @var{varname} @r{[}=@var{value}@r{]}
Set environment variable @var{varname} to @var{value}. The value
-changes for your program only, not for @value{GDBN} itself. @var{value} may
-be any string; the values of environment variables are just strings, and
-any interpretation is supplied by your program itself. The @var{value}
+changes for your program (and the shell @value{GDBN} uses to launch
+it), not for @value{GDBN} itself. @var{value} may be any string; the
+values of environment variables are just strings, and any
+interpretation is supplied by your program itself. The @var{value}
parameter is optional; if it is eliminated, the variable is set to a
null value.
@c "any string" here does not include leading, trailing
@samp{foo}. (The spaces around @samp{=} are used for clarity here; they
are not actually required.)
+Note that on Unix systems, @value{GDBN} runs your program via a shell,
+which also inherits the environment set with @code{set environment}.
+If necessary, you can avoid that by using the @samp{env} program as a
+wrapper instead of using @code{set environment}. @xref{set
+exec-wrapper}, for an example doing just that.
+
@kindex unset environment
@item unset environment @var{varname}
Remove variable @var{varname} from the environment to be passed to your
@end table
@emph{Warning:} On Unix systems, @value{GDBN} runs your program using
-the shell indicated
-by your @code{SHELL} environment variable if it exists (or
-@code{/bin/sh} if not). If your @code{SHELL} variable names a shell
-that runs an initialization file---such as @file{.cshrc} for C-shell, or
-@file{.bashrc} for BASH---any variables you set in that file affect
-your program. You may wish to move setting of environment variables to
-files that are only run when you sign on, such as @file{.login} or
-@file{.profile}.
+the shell indicated by your @code{SHELL} environment variable if it
+exists (or @code{/bin/sh} if not). If your @code{SHELL} variable
+names a shell that runs an initialization file when started
+non-interactively---such as @file{.cshrc} for C-shell, $@file{.zshenv}
+for the Z shell, or the file specified in the @samp{BASH_ENV}
+environment variable for BASH---any variables you set in that file
+affect your program. You may wish to move setting of environment
+variables to files that are only run when you sign on, such as
+@file{.login} or @file{.profile}.
@node Working Directory
@section Your Program's Working Directory
@item throw @r{[}@var{regexp}@r{]}
@itemx rethrow @r{[}@var{regexp}@r{]}
@itemx catch @r{[}@var{regexp}@r{]}
+@kindex catch throw
+@kindex catch rethrow
+@kindex catch catch
@cindex stop on C@t{++} exceptions
The throwing, re-throwing, or catching of a C@t{++} exception.
@end itemize
@item exception
+@kindex catch exception
@cindex Ada exception catching
@cindex catch Ada exceptions
An Ada exception being raised. If an exception name is specified
Pck.Constraint_Error}.
@item exception unhandled
+@kindex catch exception unhandled
An exception that was raised but is not handled by the program.
@item assert
+@kindex catch assert
A failed Ada assertion.
@item exec
+@kindex catch exec
@cindex break on fork/exec
A call to @code{exec}. This is currently only available for HP-UX
and @sc{gnu}/Linux.
@item syscall
@itemx syscall @r{[}@var{name} @r{|} @var{number}@r{]} @dots{}
+@kindex catch syscall
@cindex break on a system call.
A call to or return from a system call, a.k.a.@: @dfn{syscall}. A
syscall is a mechanism for application programs to request a service
Again, in this case @value{GDBN} would not be able to display syscall's names.
@item fork
+@kindex catch fork
A call to @code{fork}. This is currently only available for HP-UX
and @sc{gnu}/Linux.
@item vfork
+@kindex catch vfork
A call to @code{vfork}. This is currently only available for HP-UX
and @sc{gnu}/Linux.
@item load @r{[}regexp@r{]}
@itemx unload @r{[}regexp@r{]}
+@kindex catch load
+@kindex catch unload
The loading or unloading of a shared library. If @var{regexp} is
given, then the catchpoint will stop only if the regular expression
matches one of the affected libraries.
@item signal @r{[}@var{signal}@dots{} @r{|} @samp{all}@r{]}
+@kindex catch signal
The delivery of a signal.
With no arguments, this catchpoint will catch any signal that is not
@end table
@item tcatch @var{event}
+@kindex tcatch
Set a catchpoint that is enabled only for one stop. The catchpoint is
automatically deleted after the first time the event is caught.
@end table
+Thread-specific breakpoints are automatically deleted when
+@value{GDBN} detects the corresponding thread is no longer in the
+thread list. For example:
+
+@smallexample
+(@value{GDBP}) c
+Thread-specific breakpoint 3 deleted - thread 28 no longer in the thread list.
+@end smallexample
+
+There are several ways for a thread to disappear, such as a regular
+thread exit, but also when you detach from the process with the
+@code{detach} command (@pxref{Attach, ,Debugging an Already-running
+Process}), or if @value{GDBN} loses the remote connection
+(@pxref{Remote Debugging}), etc. Note that with some targets,
+@value{GDBN} is only able to detect a thread has exited when the user
+explictly asks for the thread list with the @code{info threads}
+command.
+
@node Interrupted System Calls
@subsection Interrupted System Calls
execution.
@item btrace
-Hardware-supported instruction recording. This method does not allow
-replaying and reverse execution.
+Hardware-supported instruction recording. This method does not record
+data. Further, the data is collected in a ring buffer so old data will
+be overwritten when the buffer is full. It allows limited replay and
+reverse execution.
This recording method may not be available on all processors.
@end table
@item record instruction-history @var{begin} @var{end}
Disassembles instructions beginning with instruction number
@var{begin} until instruction number @var{end}. The instruction
-number @var{end} is not included.
+number @var{end} is included.
@end table
This command may not be available for all recording methods.
function giving the name of that function, the source lines
for this instruction sequence (if the @code{/l} modifier is
specified), and the instructions numbers that form the sequence (if
-the @code{/i} modifier is specified).
+the @code{/i} modifier is specified). The function names are indented
+to reflect the call stack depth if the @code{/c} modifier is
+specified. The @code{/l}, @code{/i}, and @code{/c} modifiers can be
+given together.
@smallexample
(@value{GDBP}) @b{list 1, 10}
8 foo ();
9 ...
10 @}
-(@value{GDBP}) @b{record function-call-history /l}
-1 foo.c:6-8 bar
-2 foo.c:2-3 foo
-3 foo.c:9-10 bar
+(@value{GDBP}) @b{record function-call-history /ilc}
+1 bar inst 1,4 at foo.c:6,8
+2 foo inst 5,10 at foo.c:2,3
+3 bar inst 11,13 at foo.c:9,10
@end smallexample
By default, ten lines are printed. This can be changed using the
@item record function-call-history @var{begin} @var{end}
Prints functions beginning with function number @var{begin} until
-function number @var{end}. The function number @var{end} is not
-included.
+function number @var{end}. The function number @var{end} is included.
@end table
This command may not be available for all recording methods.
* Core File Generation:: Cause a program dump its core
* Character Sets:: Debugging programs that use a different
character set than GDB does
-* Caching Remote Data:: Data caching for remote targets
+* Caching Target Data:: Data caching for targets
* Searching Memory:: Searching memory for a sequence of bytes
@end menu
@end smallexample
@cindex C@t{++} scope resolution
-These uses of @samp{::} are very rarely in conflict with the very similar
-use of the same notation in C@t{++}. @value{GDBN} also supports use of the C@t{++}
-scope resolution operator in @value{GDBN} expressions.
-@c FIXME: Um, so what happens in one of those rare cases where it's in
-@c conflict?? --mew
+These uses of @samp{::} are very rarely in conflict with the very
+similar use of the same notation in C@t{++}. When they are in
+conflict, the C@t{++} meaning takes precedence; however, this can be
+overridden by quoting the file or function name with single quotes.
+
+For example, suppose the program is stopped in a method of a class
+that has a field named @code{includefile}, and there is also an
+include file named @file{includefile} that defines a variable,
+@code{some_global}.
+
+@smallexample
+(@value{GDBP}) p includefile
+$1 = 23
+(@value{GDBP}) p includefile::some_global
+A syntax error in expression, near `'.
+(@value{GDBP}) p 'includefile'::some_global
+$2 = 27
+@end smallexample
@cindex wrong values
@cindex variable values, wrong
@item $_exitcode
@vindex $_exitcode@r{, convenience variable}
-The variable @code{$_exitcode} is automatically set to the exit code when
-the program being debugged terminates.
+When the program being debugged terminates normally, @value{GDBN}
+automatically sets this variable to the exit code of the program, and
+resets @code{$_exitsignal} to @code{void}.
+
+@item $_exitsignal
+@vindex $_exitsignal@r{, convenience variable}
+When the program being debugged dies due to an uncaught signal,
+@value{GDBN} automatically sets this variable to that signal's number,
+and resets @code{$_exitcode} to @code{void}.
+
+To distinguish between whether the program being debugged has exited
+(i.e., @code{$_exitcode} is not @code{void}) or signalled (i.e.,
+@code{$_exitsignal} is not @code{void}), the convenience function
+@code{$_isvoid} can be used (@pxref{Convenience Funs,, Convenience
+Functions}). For example, considering the following source code:
+
+@smallexample
+#include <signal.h>
+
+int
+main (int argc, char *argv[])
+@{
+ raise (SIGALRM);
+ return 0;
+@}
+@end smallexample
+
+A valid way of telling whether the program being debugged has exited
+or signalled would be:
+
+@smallexample
+(@value{GDBP}) define has_exited_or_signalled
+Type commands for definition of ``has_exited_or_signalled''.
+End with a line saying just ``end''.
+>if $_isvoid ($_exitsignal)
+ >echo The program has exited\n
+ >else
+ >echo The program has signalled\n
+ >end
+>end
+(@value{GDBP}) run
+Starting program:
+
+Program terminated with signal SIGALRM, Alarm clock.
+The program no longer exists.
+(@value{GDBP}) has_exited_or_signalled
+The program has signalled
+@end smallexample
+
+As can be seen, @value{GDBN} correctly informs that the program being
+debugged has signalled, since it calls @code{raise} and raises a
+@code{SIGALRM} signal. If the program being debugged had not called
+@code{raise}, then @value{GDBN} would report a normal exit:
+
+@smallexample
+(@value{GDBP}) has_exited_or_signalled
+The program has exited
+@end smallexample
@item $_exception
The variable @code{$_exception} is set to the exception object being
however, a convenience function is implemented internally to
@value{GDBN}.
+These functions do not require @value{GDBN} to be configured with
+@code{Python} support, which means that they are always available.
+
+@table @code
+
+@item $_isvoid (@var{expr})
+@findex $_isvoid@r{, convenience function}
+Return one if the expression @var{expr} is @code{void}. Otherwise it
+returns zero.
+
+A @code{void} expression is an expression where the type of the result
+is @code{void}. For example, you can examine a convenience variable
+(see @ref{Convenience Vars,, Convenience Variables}) to check whether
+it is @code{void}:
+
+@smallexample
+(@value{GDBP}) print $_exitcode
+$1 = void
+(@value{GDBP}) print $_isvoid ($_exitcode)
+$2 = 1
+(@value{GDBP}) run
+Starting program: ./a.out
+[Inferior 1 (process 29572) exited normally]
+(@value{GDBP}) print $_exitcode
+$3 = 0
+(@value{GDBP}) print $_isvoid ($_exitcode)
+$4 = 0
+@end smallexample
+
+In the example above, we used @code{$_isvoid} to check whether
+@code{$_exitcode} is @code{void} before and after the execution of the
+program being debugged. Before the execution there is no exit code to
+be examined, therefore @code{$_exitcode} is @code{void}. After the
+execution the program being debugged returned zero, therefore
+@code{$_exitcode} is zero, which means that it is not @code{void}
+anymore.
+
+The @code{void} expression can also be a call of a function from the
+program being debugged. For example, given the following function:
+
+@smallexample
+void
+foo (void)
+@{
+@}
+@end smallexample
+
+The result of calling it inside @value{GDBN} is @code{void}:
+
+@smallexample
+(@value{GDBP}) print foo ()
+$1 = void
+(@value{GDBP}) print $_isvoid (foo ())
+$2 = 1
+(@value{GDBP}) set $v = foo ()
+(@value{GDBP}) print $v
+$3 = void
+(@value{GDBP}) print $_isvoid ($v)
+$4 = 1
+@end smallexample
+
+@end table
+
These functions require @value{GDBN} to be configured with
@code{Python} support.
true contents of hardware registers, you must select the innermost
frame (with @samp{frame 0}).
-However, @value{GDBN} must deduce where registers are saved, from the machine
-code generated by your compiler. If some registers are not saved, or if
-@value{GDBN} is unable to locate the saved registers, the selected stack
-frame makes no difference.
+@cindex caller-saved registers
+@cindex call-clobbered registers
+@cindex volatile registers
+@cindex <not saved> values
+Usually ABIs reserve some registers as not needed to be saved by the
+callee (a.k.a.: ``caller-saved'', ``call-clobbered'' or ``volatile''
+registers). It may therefore not be possible for @value{GDBN} to know
+the value a register had before the call (in other words, in the outer
+frame), if the register value has since been changed by the callee.
+@value{GDBN} tries to deduce where the inner frame saved
+(``callee-saved'') registers, from the debug info, unwind info, or the
+machine code generated by your compiler. If some register is not
+saved, and @value{GDBN} knows the register is ``caller-saved'' (via
+its own knowledge of the ABI, or because the debug/unwind info
+explicitly says the register's value is undefined), @value{GDBN}
+displays @w{@samp{<not saved>}} as the register's value. With targets
+that @value{GDBN} has no knowledge of the register saving convention,
+if a register was not saved by the callee, then its value and location
+in the outer frame are assumed to be the same of the inner frame.
+This is usually harmless, because if the register is call-clobbered,
+the caller either does not care what is in the register after the
+call, or has code to restore the value that it does care about. Note,
+however, that if you change such a register in the outer frame, you
+may also be affecting the inner frame. Also, the more ``outer'' the
+frame is you're looking at, the more likely a call-clobbered
+register's value is to be wrong, in the sense that it doesn't actually
+represent the value the register had just before the call.
@node Floating Point Hardware
@section Floating Point Hardware
The @sc{ibm1047} character set uses the number 78 to encode the @samp{+}
character.
-@node Caching Remote Data
-@section Caching Data of Remote Targets
-@cindex caching data of remote targets
-
-@value{GDBN} caches data exchanged between the debugger and a
-remote target (@pxref{Remote Debugging}). Such caching generally improves
-performance, because it reduces the overhead of the remote protocol by
-bundling memory reads and writes into large chunks. Unfortunately, simply
-caching everything would lead to incorrect results, since @value{GDBN}
-does not necessarily know anything about volatile values, memory-mapped I/O
-addresses, etc. Furthermore, in non-stop mode (@pxref{Non-Stop Mode})
-memory can be changed @emph{while} a gdb command is executing.
+@node Caching Target Data
+@section Caching Data of Targets
+@cindex caching data of targets
+
+@value{GDBN} caches data exchanged between the debugger and a target.
+Each cache is associated with the address space of the inferior.
+@xref{Inferiors and Programs}, about inferior and address space.
+Such caching generally improves performance in remote debugging
+(@pxref{Remote Debugging}), because it reduces the overhead of the
+remote protocol by bundling memory reads and writes into large chunks.
+Unfortunately, simply caching everything would lead to incorrect results,
+since @value{GDBN} does not necessarily know anything about volatile
+values, memory-mapped I/O addresses, etc. Furthermore, in non-stop mode
+(@pxref{Non-Stop Mode}) memory can be changed @emph{while} a gdb command
+is executing.
Therefore, by default, @value{GDBN} only caches data
known to be on the stack@footnote{In non-stop mode, it is moderately
rare for a running thread to modify the stack of a stopped thread
in a way that would interfere with a backtrace, and caching of
-stack reads provides a significant speed up of remote backtraces.}.
+stack reads provides a significant speed up of remote backtraces.} or
+in the code segment.
Other regions of memory can be explicitly marked as
-cacheable; see @pxref{Memory Region Attributes}.
+cacheable; @pxref{Memory Region Attributes}.
@table @code
@kindex set remotecache
@kindex set stack-cache
@item set stack-cache on
@itemx set stack-cache off
-Enable or disable caching of stack accesses. When @code{ON}, use
-caching. By default, this option is @code{ON}.
+Enable or disable caching of stack accesses. When @code{on}, use
+caching. By default, this option is @code{on}.
@kindex show stack-cache
@item show stack-cache
Show the current state of data caching for memory accesses.
+@kindex set code-cache
+@item set code-cache on
+@itemx set code-cache off
+Enable or disable caching of code segment accesses. When @code{on},
+use caching. By default, this option is @code{on}. This improves
+performance of disassembly in remote debugging.
+
+@kindex show code-cache
+@item show code-cache
+Show the current state of target memory cache for code segment
+accesses.
+
@kindex info dcache
@item info dcache @r{[}line@r{]}
-Print the information about the data cache performance. The
-information displayed includes the dcache width and depth, and for
-each cache line, its number, address, and how many times it was
-referenced. This command is useful for debugging the data cache
-operation.
+Print the information about the performance of data cache of the
+current inferior's address space. The information displayed
+includes the dcache width and depth, and for each cache line, its
+number, address, and how many times it was referenced. This
+command is useful for debugging the data cache operation.
If a line number is specified, the contents of that line will be
printed in hex.
@item show dcache size
@kindex show dcache size
-Show maximum number of dcache entries. See also @ref{Caching Remote Data, info dcache}.
+Show maximum number of dcache entries. @xref{Caching Target Data, info dcache}.
@item show dcache line-size
@kindex show dcache line-size
-Show default size of dcache lines. See also @ref{Caching Remote Data, info dcache}.
+Show default size of dcache lines.
@end table
@table @code
@item show language
+@anchor{show language}
@kindex show language
Display the current working language. This is the
language you can use with commands such as @code{print} to
There are two encodings in use, depending on the architecture: BID (Binary
Integer Decimal) for x86 and x86-64, and DPD (Densely Packed Decimal) for
-PowerPC. @value{GDBN} will use the appropriate encoding for the configured
-target.
+PowerPC and S/390. @value{GDBN} will use the appropriate encoding for the
+configured target.
Because of a limitation in @file{libdecnumber}, the library used by @value{GDBN}
to manipulate decimal floating point numbers, it is not possible to convert
* Omissions from Ada:: Restrictions on the Ada expression syntax.
* Additions to Ada:: Extensions of the Ada expression syntax.
* Stopping Before Main Program:: Debugging the program during elaboration.
+* Ada Exceptions:: Ada Exceptions
* Ada Tasks:: Listing and setting breakpoints in tasks.
* Ada Tasks and Core Files:: Tasking Support when Debugging Core Files
* Ravenscar Profile:: Tasking Support when using the Ravenscar
elaboration, simply use the following two commands:
@code{tbreak adainit} and @code{run}.
+@node Ada Exceptions
+@subsubsection Ada Exceptions
+
+A command is provided to list all Ada exceptions:
+
+@table @code
+@kindex info exceptions
+@item info exceptions
+@itemx info exceptions @var{regexp}
+The @code{info exceptions} command allows you to list all Ada exceptions
+defined within the program being debugged, as well as their addresses.
+With a regular expression, @var{regexp}, as argument, only those exceptions
+whose names match @var{regexp} are listed.
+@end table
+
+Below is a small example, showing how the command can be used, first
+without argument, and next with a regular expression passed as an
+argument.
+
+@smallexample
+(@value{GDBP}) info exceptions
+All defined Ada exceptions:
+constraint_error: 0x613da0
+program_error: 0x613d20
+storage_error: 0x613ce0
+tasking_error: 0x613ca0
+const.aint_global_e: 0x613b00
+(@value{GDBP}) info exceptions const.aint
+All Ada exceptions matching regular expression "const.aint":
+constraint_error: 0x613da0
+const.aint_global_e: 0x613b00
+@end smallexample
+
+It is also possible to ask @value{GDBN} to stop your program's execution
+when an exception is raised. For more details, see @ref{Set Catchpoints}.
+
@node Ada Tasks
@subsubsection Extensions for Ada Tasks
@cindex Ada, tasking
@end table
+@cindex GNAT descriptive types
+@cindex GNAT encoding
+Internally, the debugger also relies on the compiler following a number
+of conventions known as the @samp{GNAT Encoding}, all documented in
+@file{gcc/ada/exp_dbug.ads} in the GCC sources. This encoding describes
+how the debugging information should be generated for certain types.
+In particular, this convention makes use of @dfn{descriptive types},
+which are artificial types generated purely to help the debugger.
+
+These encodings were defined at a time when the debugging information
+format used was not powerful enough to describe some of the more complex
+types available in Ada. Since DWARF allows us to express nearly all
+Ada features, the long-term goal is to slowly replace these descriptive
+types by their pure DWARF equivalent. To facilitate that transition,
+a new maintenance option is available to force the debugger to ignore
+those descriptive types. It allows the user to quickly evaluate how
+well @value{GDBN} works without them.
+
+@table @code
+
+@kindex maint ada set ignore-descriptive-types
+@item maintenance ada set ignore-descriptive-types [on|off]
+Control whether the debugger should ignore descriptive types.
+The default is not to ignore descriptives types (@code{off}).
+
+@kindex maint ada show ignore-descriptive-types
+@item maintenance ada show ignore-descriptive-types
+Show if descriptive types are ignored by @value{GDBN}.
+
+@end table
+
@node Unsupported Languages
@section Unsupported Languages
The symbol table of the file @var{filename} is added to the symbol table
originally read with the @code{symbol-file} command. You can use the
@code{add-symbol-file} command any number of times; the new symbol data
-thus read keeps adding to the old. To discard all old symbol data
-instead, use the @code{symbol-file} command without any arguments.
+thus read is kept in addition to the old.
+
+Changes can be reverted using the command @code{remove-symbol-file}.
@cindex relocatable object files, reading symbols from
@cindex object files, relocatable, reading symbols from
@code{add-symbol-file} does not repeat if you press @key{RET} after using it.
+@kindex remove-symbol-file
+@item remove-symbol-file @var{filename}
+@item remove-symbol-file -a @var{address}
+Remove a symbol file added via the @code{add-symbol-file} command. The
+file to remove can be identified by its @var{filename} or by an @var{address}
+that lies within the boundaries of this symbol file in memory. Example:
+
+@smallexample
+(gdb) add-symbol-file /home/user/gdb/mylib.so 0x7ffff7ff9480
+add symbol table from file "/home/user/gdb/mylib.so" at
+ .text_addr = 0x7ffff7ff9480
+(y or n) y
+Reading symbols from /home/user/gdb/mylib.so...done.
+(gdb) remove-symbol-file -a 0x7ffff7ff9480
+Remove symbol table from file "/home/user/gdb/mylib.so"? (y or n) y
+(gdb)
+@end smallexample
+
+
+@code{remove-symbol-file} does not repeat if you press @key{RET} after using it.
+
@kindex add-symbol-file-from-memory
@cindex @code{syscall DSO}
@cindex load symbols from memory
@smallexample
# Extract the dynamic symbols from the main binary, there is no need
-# to also have these in the normal symbol table
+# to also have these in the normal symbol table.
nm -D @var{binary} --format=posix --defined-only \
| awk '@{ print $1 @}' | sort > dynsyms
-# Extract all the text (i.e. function) symbols from the debuginfo .
+# Extract all the text (i.e. function) symbols from the debuginfo.
+# (Note that we actually also accept "D" symbols, for the benefit
+# of platforms like PowerPC64 that use function descriptors.)
nm @var{binary} --format=posix --defined-only \
- | awk '@{ if ($2 == "T" || $2 == "t") print $1 @}' \
+ | awk '@{ if ($2 == "T" || $2 == "t" || $2 == "D") print $1 @}' \
| sort > funcsyms
# Keep all the function symbols not already in the dynamic symbol
# table.
comm -13 dynsyms funcsyms > keep_symbols
+# Separate full debug info into debug binary.
+objcopy --only-keep-debug @var{binary} debug
+
# Copy the full debuginfo, keeping only a minimal set of symbols and
# removing some unnecessary sections.
objcopy -S --remove-section .gdb_index --remove-section .comment \
- --keep-symbols=keep_symbols @var{binary} mini_debuginfo
+ --keep-symbols=keep_symbols debug mini_debuginfo
+
+# Drop the full debug info from the original binary.
+strip --strip-all -R .comment @var{binary}
# Inject the compressed data into the .gnu_debugdata section of the
# original binary.
@end smallexample
If you're using a serial line, you may want to give @value{GDBN} the
-@w{@samp{--baud}} option, or use the @code{set remotebaud} command
-(@pxref{Remote Configuration, set remotebaud}) before the
+@samp{--baud} option, or use the @code{set serial baud} command
+(@pxref{Remote Configuration, set serial baud}) before the
@code{target} command.
@item target remote @code{@var{host}:@var{port}}
multiple instances of @code{gdbserver} running on the same host, since each
instance closes its port after the first connection.
+@anchor{Other Command-Line Arguments for gdbserver}
@subsubsection Other Command-Line Arguments for @code{gdbserver}
@cindex @option{--debug}, @code{gdbserver} option
remote protocol debug output. These options are intended for
@code{gdbserver} development and for bug reports to the developers.
+@cindex @option{--debug-format}, @code{gdbserver} option
+The @option{--debug-format=option1[,option2,...]} option tells
+@code{gdbserver} to include additional information in each output.
+Possible options are:
+
+@table @code
+@item none
+Turn off all extra information in debugging output.
+@item all
+Turn on all extra information in debugging output.
+@item timestamps
+Include a timestamp in each line of debugging output.
+@end table
+
+Options are processed in order. Thus, for example, if @option{none}
+appears last then no additional information is added to debugging output.
+
@cindex @option{--wrapper}, @code{gdbserver} option
The @option{--wrapper} option specifies a wrapper to launch programs
for debugging. The option should be followed by the name of the
Disable or enable specific debugging messages associated with the remote
protocol (@pxref{Remote Protocol}).
+@item monitor set debug-format option1@r{[},option2,...@r{]}
+Specify additional text to add to debugging messages.
+Possible options are:
+
+@table @code
+@item none
+Turn off all extra information in debugging output.
+@item all
+Turn on all extra information in debugging output.
+@item timestamps
+Include a timestamp in each line of debugging output.
+@end table
+
+Options are processed in order. Thus, for example, if @option{none}
+appears last then no additional information is added to debugging output.
+
@item monitor set libthread-db-search-path [PATH]
@cindex gdbserver, search path for @code{libthread_db}
When this command is issued, @var{path} is a colon-separated list of
@item show remoteaddresssize
Show the current value of remote address size in bits.
-@item set remotebaud @var{n}
+@item set serial baud @var{n}
@cindex baud rate for remote targets
Set the baud rate for the remote serial I/O to @var{n} baud. The
value is used to set the speed of the serial port used for debugging
remote targets.
-@item show remotebaud
+@item show serial baud
Show the current speed of the remote connection.
@item set remotebreak
from functions.
@end table
+@subsubsection Intel(R) @dfn{Memory Protection Extensions} (MPX).
+@cindex Intel(R) Memory Protection Extensions (MPX).
+
+Memory Protection Extension (MPX) adds the bound registers @samp{BND0}
+@footnote{The register named with capital letters represent the architecture
+registers.} through @samp{BND3}. Bound registers store a pair of 64-bit values
+which are the lower bound and upper bound. Bounds are effective addresses or
+memory locations. The upper bounds are architecturally represented in 1's
+complement form. A bound having lower bound = 0, and upper bound = 0
+(1's complement of all bits set) will allow access to the entire address space.
+
+@samp{BND0} through @samp{BND3} are represented in @value{GDBN} as @samp{bnd0raw}
+through @samp{bnd3raw}. Pseudo registers @samp{bnd0} through @samp{bnd3}
+display the upper bound performing the complement of one operation on the
+upper bound value, i.e.@ when upper bound in @samp{bnd0raw} is 0 in the
+@value{GDBN} @samp{bnd0} it will be @code{0xfff@dots{}}. In this sense it
+can also be noted that the upper bounds are inclusive.
+
+As an example, assume that the register BND0 holds bounds for a pointer having
+access allowed for the range between 0x32 and 0x71. The values present on
+bnd0raw and bnd registers are presented as follows:
+
+@smallexample
+ bnd0raw = @{0x32, 0xffffffff8e@}
+ bnd0 = @{lbound = 0x32, ubound = 0x71@} : size 64
+@end smallexample
+
+This way the raw value can be accessed via bnd0raw@dots{}bnd3raw. Any
+change on bnd0@dots{}bnd3 or bnd0raw@dots{}bnd3raw is reflect on its
+counterpart. When the bnd0@dots{}bnd3 registers are displayed via
+Python, the display includes the memory size, in bits, accessible to
+the pointer.
+
@node Alpha
@subsection Alpha
results or introduce security risks (e.g., if the file comes from untrusted
sources).
+@menu
+* Init File in the Current Directory:: @samp{set/show/info auto-load local-gdbinit}
+* libthread_db.so.1 file:: @samp{set/show/info auto-load libthread-db}
+
+* Auto-loading safe path:: @samp{set/show/info auto-load safe-path}
+* Auto-loading verbose mode:: @samp{set/show debug auto-load}
+@end menu
+
+There are various kinds of files @value{GDBN} can automatically load.
+In addition to these files, @value{GDBN} supports auto-loading code written
+in various extension languages. @xref{Auto-loading extensions}.
+
Note that loading of these associated files (including the local @file{.gdbinit}
file) requires accordingly configured @code{auto-load safe-path}
(@pxref{Auto-loading safe path}).
@end smallexample
@end table
-These are various kinds of files @value{GDBN} can automatically load:
-
-@itemize @bullet
-@item
-@xref{objfile-gdb.py file}, controlled by @ref{set auto-load python-scripts}.
-@item
-@xref{objfile-gdb.gdb file}, controlled by @ref{set auto-load gdb-scripts}.
-@item
-@xref{dotdebug_gdb_scripts section},
-controlled by @ref{set auto-load python-scripts}.
-@item
-@xref{Init File in the Current Directory},
-controlled by @ref{set auto-load local-gdbinit}.
-@item
-@xref{libthread_db.so.1 file}, controlled by @ref{set auto-load libthread-db}.
-@end itemize
-
These are @value{GDBN} control commands for the auto-loading:
@multitable @columnfractions .5 .5
@tab Show setting of @value{GDBN} Python scripts.
@item @xref{info auto-load python-scripts}.
@tab Show state of @value{GDBN} Python scripts.
+@item @xref{set auto-load guile-scripts}.
+@tab Control for @value{GDBN} Guile scripts.
+@item @xref{show auto-load guile-scripts}.
+@tab Show setting of @value{GDBN} Guile scripts.
+@item @xref{info auto-load guile-scripts}.
+@tab Show state of @value{GDBN} Guile scripts.
@item @xref{set auto-load scripts-directory}.
@tab Control for @value{GDBN} auto-loaded scripts location.
@item @xref{show auto-load scripts-directory}.
@tab Add directory trusted for automatic loading.
@end multitable
-@menu
-* Init File in the Current Directory:: @samp{set/show/info auto-load local-gdbinit}
-* libthread_db.so.1 file:: @samp{set/show/info auto-load libthread-db}
-* objfile-gdb.gdb file:: @samp{set/show/info auto-load gdb-script}
-* Auto-loading safe path:: @samp{set/show/info auto-load safe-path}
-* Auto-loading verbose mode:: @samp{set/show debug auto-load}
-@xref{Python Auto-loading}.
-@end menu
-
@node Init File in the Current Directory
@subsection Automatically loading init file in the current directory
@cindex auto-loading init file in the current directory
for each such library print list of inferior @var{pid}s using it.
@end table
-@node objfile-gdb.gdb file
-@subsection The @file{@var{objfile}-gdb.gdb} file
-@cindex auto-loading @file{@var{objfile}-gdb.gdb}
-
-@value{GDBN} tries to load an @file{@var{objfile}-gdb.gdb} file containing
-canned sequences of commands (@pxref{Sequences}), as long as @samp{set
-auto-load gdb-scripts} is set to @samp{on}.
-
-Note that loading of this script file also requires accordingly configured
-@code{auto-load safe-path} (@pxref{Auto-loading safe path}).
-
-For more background refer to the similar Python scripts auto-loading
-description (@pxref{objfile-gdb.py file}).
-
-@table @code
-@anchor{set auto-load gdb-scripts}
-@kindex set auto-load gdb-scripts
-@item set auto-load gdb-scripts [on|off]
-Enable or disable the auto-loading of canned sequences of commands scripts.
-
-@anchor{show auto-load gdb-scripts}
-@kindex show auto-load gdb-scripts
-@item show auto-load gdb-scripts
-Show whether auto-loading of canned sequences of commands scripts is enabled or
-disabled.
-
-@anchor{info auto-load gdb-scripts}
-@kindex info auto-load gdb-scripts
-@cindex print list of auto-loaded canned sequences of commands scripts
-@item info auto-load gdb-scripts [@var{regexp}]
-Print the list of all canned sequences of commands scripts that @value{GDBN}
-auto-loaded.
-@end table
-
-If @var{regexp} is supplied only canned sequences of commands scripts with
-matching names are printed.
-
@node Auto-loading safe path
@subsection Security restriction for auto-loading
@cindex auto-loading safe-path
@item set debug dwarf2-read
@cindex DWARF2 Reading
Turns on or off display of debugging messages related to reading
-DWARF debug info. The default is off.
+DWARF debug info. The default is 0 (off).
+A value of 1 provides basic information.
+A value greater than 1 provides more verbose information.
@item show debug dwarf2-read
Show the current state of DWARF2 reader debugging.
@item set debug displaced
@item show debug solib-frv
Display the current state of FR-V shared-library code debugging
messages.
+@item set debug symfile
+@cindex symbol file functions
+Turns on or off display of debugging messages related to symbol file functions.
+The default is off. @xref{Files}.
+@item show debug symfile
+Show the current state of symbol file debugging messages.
@item set debug symtab-create
@cindex symbol table creation
Turns on or off display of debugging messages related to symbol table creation.
-The default is off.
+The default is 0 (off).
+A value of 1 provides basic information.
+A value greater than 1 provides more verbose information.
@item show debug symtab-create
Show the current state of symbol table creation debugging.
@item set debug target
@chapter Extending @value{GDBN}
@cindex extending GDB
-@value{GDBN} provides three mechanisms for extension. The first is based
-on composition of @value{GDBN} commands, the second is based on the
-Python scripting language, and the third is for defining new aliases of
-existing commands.
+@value{GDBN} provides several mechanisms for extension.
+@value{GDBN} also provides the ability to automatically load
+extensions when it reads a file for debugging. This allows the
+user to automatically customize @value{GDBN} for the program
+being debugged.
-To facilitate the use of the first two extensions, @value{GDBN} is capable
+@menu
+* Sequences:: Canned Sequences of @value{GDBN} Commands
+* Python:: Extending @value{GDBN} using Python
+* Guile:: Extending @value{GDBN} using Guile
+* Auto-loading extensions:: Automatically loading extensions
+* Multiple Extension Languages:: Working with multiple extension languages
+* Aliases:: Creating new spellings of existing commands
+@end menu
+
+To facilitate the use of extension languages, @value{GDBN} is capable
of evaluating the contents of a file. When doing so, @value{GDBN}
-can recognize which scripting language is being used by looking at
+can recognize which extension language is being used by looking at
the filename extension. Files with an unrecognized filename extension
are always treated as a @value{GDBN} Command Files.
@xref{Command Files,, Command files}.
@end table
-@menu
-* Sequences:: Canned Sequences of Commands
-* Python:: Scripting @value{GDBN} using Python
-* Aliases:: Creating new spellings of existing commands
-@end menu
-
@node Sequences
@section Canned Sequences of Commands
* Hooks:: Hooks for user-defined commands
* Command Files:: How to write scripts of commands to be stored in a file
* Output:: Commands for controlled output
+* Auto-loading sequences:: Controlling auto-loaded command files
@end menu
@node Define
@end table
+@node Auto-loading sequences
+@subsection Controlling auto-loading native @value{GDBN} scripts
+@cindex native script auto-loading
+
+When a new object file is read (for example, due to the @code{file}
+command, or because the inferior has loaded a shared library),
+@value{GDBN} will look for the command file @file{@var{objfile}-gdb.gdb}.
+@xref{Auto-loading extensions}.
+
+Auto-loading can be enabled or disabled,
+and the list of auto-loaded scripts can be printed.
+
+@table @code
+@anchor{set auto-load gdb-scripts}
+@kindex set auto-load gdb-scripts
+@item set auto-load gdb-scripts [on|off]
+Enable or disable the auto-loading of canned sequences of commands scripts.
+
+@anchor{show auto-load gdb-scripts}
+@kindex show auto-load gdb-scripts
+@item show auto-load gdb-scripts
+Show whether auto-loading of canned sequences of commands scripts is enabled or
+disabled.
+
+@anchor{info auto-load gdb-scripts}
+@kindex info auto-load gdb-scripts
+@cindex print list of auto-loaded canned sequences of commands scripts
+@item info auto-load gdb-scripts [@var{regexp}]
+Print the list of all canned sequences of commands scripts that @value{GDBN}
+auto-loaded.
+@end table
+
+If @var{regexp} is supplied only canned sequences of commands scripts with
+matching names are printed.
+
@node Python
-@section Scripting @value{GDBN} using Python
+@section Extending @value{GDBN} using Python
@cindex python scripting
@cindex scripting with python
-You can script @value{GDBN} using the @uref{http://www.python.org/,
+You can extend @value{GDBN} using the @uref{http://www.python.org/,
Python programming language}. This feature is available only if
@value{GDBN} was configured using @option{--with-python}.
* Blocks In Python:: Accessing blocks from Python.
* Symbols In Python:: Python representation of symbols.
* Symbol Tables In Python:: Python representation of symbol tables.
+* Line Tables In Python:: Python representation of line tables.
* Breakpoints In Python:: Manipulating breakpoints using Python.
* Finish Breakpoints in Python:: Setting Breakpoints on function return
using Python.
bar = some_val['foo']
@end smallexample
-Again, @code{bar} will also be a @code{gdb.Value} object.
+@cindex getting structure elements using gdb.Field objects as subscripts
+Again, @code{bar} will also be a @code{gdb.Value} object. Structure
+elements can also be accessed by using @code{gdb.Field} objects as
+subscripts (@pxref{Types In Python}, for more information on
+@code{gdb.Field} objects). For example, if @code{foo_field} is a
+@code{gdb.Field} object corresponding to element @code{foo} of the above
+structure, then @code{bar} can also be accessed as follows:
+
+@smallexample
+bar = some_val[foo_field]
+@end smallexample
A @code{gdb.Value} that represents a function can be executed via
inferior function call. Any arguments provided to the call must match
@code{TYPE_CODE_} constants defined below.
@end defvar
+@defvar Type.name
+The name of this type. If this type has no name, then @code{None}
+is returned.
+@end defvar
+
@defvar Type.sizeof
The size of this type, in target @code{char} units. Usually, a
target's @code{char} type will be an 8-bit byte. However, on some
Each field is a @code{gdb.Field} object, with some pre-defined attributes:
@table @code
@item bitpos
-This attribute is not available for @code{static} fields (as in
-C@t{++} or Java). For non-@code{static} fields, the value is the bit
-position of the field. For @code{enum} fields, the value is the
-enumeration member's integer representation.
+This attribute is not available for @code{enum} or @code{static}
+(as in C@t{++} or Java) fields. The value is the position, counting
+in bits, from the start of the containing type.
+
+@item enumval
+This attribute is only available for @code{enum} fields, and its value
+is the enumeration member's integer representation.
@item name
The name of the field, or @code{None} for anonymous fields.
@item type
The type of the field. This is usually an instance of @code{Type},
but it can be @code{None} in some situations.
+
+@item parent_type
+The type which contains this field. This is an instance of
+@code{gdb.Type}.
@end table
@end defun
@item gdb.COMPLETE_SYMBOL
This constant means that completion should be done using symbol names
as the source.
+
+@findex COMPLETE_EXPRESSION
+@findex gdb.COMPLETE_EXPRESSION
+@item gdb.COMPLETE_EXPRESSION
+This constant means that completion should be done on expressions.
+Often this means completing on symbol names, but some language
+parsers also have support for completing on field names.
@end table
The following code snippet shows how a trivial CLI command can be
No particular reason (older frames should be available).
@item gdb.FRAME_UNWIND_NULL_ID
-The previous frame's analyzer returns an invalid result.
+The previous frame's analyzer returns an invalid result. This is no
+longer used by @value{GDBN}, and is kept only for backward
+compatibility.
@item gdb.FRAME_UNWIND_OUTERMOST
This frame is the outermost.
@xref{Blocks In Python}.
@end defun
+@defun Symtab.linetable ()
+Return the line table associated with the symbol table.
+@xref{Line Tables In Python}.
+@end defun
+
+@node Line Tables In Python
+@subsubsection Manipulating line tables using Python
+
+@cindex line tables in python
+@tindex gdb.LineTable
+
+Python code can request and inspect line table information from a
+symbol table that is loaded in @value{GDBN}. A line table is a
+mapping of source lines to their executable locations in memory. To
+acquire the line table information for a particular symbol table, use
+the @code{linetable} function (@pxref{Symbol Tables In Python}).
+
+A @code{gdb.LineTable} is iterable. The iterator returns
+@code{LineTableEntry} objects that correspond to the source line and
+address for each line table entry. @code{LineTableEntry} objects have
+the following attributes:
+
+@defvar LineTableEntry.line
+The source line number for this line table entry. This number
+corresponds to the actual line of source. This attribute is not
+writable.
+@end defvar
+
+@defvar LineTableEntry.pc
+The address that is associated with the line table entry where the
+executable code for that source line resides in memory. This
+attribute is not writable.
+@end defvar
+
+As there can be multiple addresses for a single source line, you may
+receive multiple @code{LineTableEntry} objects with matching
+@code{line} attributes, but with different @code{pc} attributes. The
+iterator is sorted in ascending @code{pc} order. Here is a small
+example illustrating iterating over a line table.
+
+@smallexample
+symtab = gdb.selected_frame().find_sal().symtab
+linetable = symtab.linetable()
+for line in linetable:
+ print "Line: "+str(line.line)+" Address: "+hex(line.pc)
+@end smallexample
+
+This will have the following output:
+
+@smallexample
+Line: 33 Address: 0x4005c8L
+Line: 37 Address: 0x4005caL
+Line: 39 Address: 0x4005d2L
+Line: 40 Address: 0x4005f8L
+Line: 42 Address: 0x4005ffL
+Line: 44 Address: 0x400608L
+Line: 42 Address: 0x40060cL
+Line: 45 Address: 0x400615L
+@end smallexample
+
+In addition to being able to iterate over a @code{LineTable}, it also
+has the following direct access methods:
+
+@defun LineTable.line (line)
+Return a Python @code{Tuple} of @code{LineTableEntry} objects for any
+entries in the line table for the given @var{line}. @var{line} refers
+to the source code line. If there are no entries for that source code
+@var{line}, the Python @code{None} is returned.
+@end defun
+
+@defun LineTable.has_line (line)
+Return a Python @code{Boolean} indicating whether there is an entry in
+the line table for this source line. Return @code{True} if an entry
+is found, or @code{False} if not.
+@end defun
+
+@defun LineTable.source_lines ()
+Return a Python @code{List} of the source line numbers in the symbol
+table. Only lines with executable code locations are returned. The
+contents of the @code{List} will just be the source line entries
+represented as Python @code{Long} values.
+@end defun
+
@node Breakpoints In Python
@subsubsection Manipulating breakpoints using Python
Python code can manipulate breakpoints via the @code{gdb.Breakpoint}
class.
-@defun Breakpoint.__init__ (spec @r{[}, type @r{[}, wp_class @r{[},internal@r{]]]})
-Create a new breakpoint. @var{spec} is a string naming the
-location of the breakpoint, or an expression that defines a
-watchpoint. The contents can be any location recognized by the
-@code{break} command, or in the case of a watchpoint, by the @code{watch}
-command. The optional @var{type} denotes the breakpoint to create
-from the types defined later in this chapter. This argument can be
-either: @code{gdb.BP_BREAKPOINT} or @code{gdb.BP_WATCHPOINT}. @var{type}
-defaults to @code{gdb.BP_BREAKPOINT}. The optional @var{internal} argument
-allows the breakpoint to become invisible to the user. The breakpoint
-will neither be reported when created, nor will it be listed in the
-output from @code{info breakpoints} (but will be listed with the
-@code{maint info breakpoints} command). The optional @var{wp_class}
-argument defines the class of watchpoint to create, if @var{type} is
-@code{gdb.BP_WATCHPOINT}. If a watchpoint class is not provided, it is
-assumed to be a @code{gdb.WP_WRITE} class.
+@defun Breakpoint.__init__ (spec @r{[}, type @r{[}, wp_class @r{[},internal @r{[},temporary@r{]]]]})
+Create a new breakpoint. @var{spec} is a string naming the location
+of the breakpoint, or an expression that defines a watchpoint. The
+contents can be any location recognized by the @code{break} command,
+or in the case of a watchpoint, by the @code{watch} command. The
+optional @var{type} denotes the breakpoint to create from the types
+defined later in this chapter. This argument can be either:
+@code{gdb.BP_BREAKPOINT} or @code{gdb.BP_WATCHPOINT}. @var{type}
+defaults to @code{gdb.BP_BREAKPOINT}. The optional @var{internal}
+argument allows the breakpoint to become invisible to the user. The
+breakpoint will neither be reported when created, nor will it be
+listed in the output from @code{info breakpoints} (but will be listed
+with the @code{maint info breakpoints} command). The optional
+@var{temporary} argument makes the breakpoint a temporary breakpoint.
+Temporary breakpoints are deleted after they have been hit. Any
+further access to the Python breakpoint after it has been hit will
+result in a runtime error (as that breakpoint has now been
+automatically deleted). The optional @var{wp_class} argument defines
+the class of watchpoint to create, if @var{type} is
+@code{gdb.BP_WATCHPOINT}. If a watchpoint class is not provided, it
+is assumed to be a @code{gdb.WP_WRITE} class.
@end defun
@defun Breakpoint.stop (self)
The @code{gdb.Breakpoint} class can be sub-classed and, in
particular, you may choose to implement the @code{stop} method.
-If this method is defined as a sub-class of @code{gdb.Breakpoint},
+If this method is defined in a sub-class of @code{gdb.Breakpoint},
it will be called when the inferior reaches any location of a
breakpoint which instantiates that sub-class. If the method returns
@code{True}, the inferior will be stopped at the location of the
attribute is not writable.
@end defvar
+@defvar Breakpoint.temporary
+This attribute indicates whether the breakpoint was created as a
+temporary breakpoint. Temporary breakpoints are automatically deleted
+after that breakpoint has been hit. Access to this attribute, and all
+other attributes and functions other than the @code{is_valid}
+function, will result in an error after the breakpoint has been hit
+(as it has been automatically deleted). This attribute is not
+writable.
+@end defvar
+
The available types are represented by constants defined in the @code{gdb}
module:
When a new object file is read (for example, due to the @code{file}
command, or because the inferior has loaded a shared library),
@value{GDBN} will look for Python support scripts in several ways:
-@file{@var{objfile}-gdb.py} (@pxref{objfile-gdb.py file})
-and @code{.debug_gdb_scripts} section
-(@pxref{dotdebug_gdb_scripts section}).
+@file{@var{objfile}-gdb.py} and @code{.debug_gdb_scripts} section.
+@xref{Auto-loading extensions}.
The auto-loading feature is useful for supplying application-specific
debugging commands and scripts.
function (@pxref{Objfiles In Python}). This can be useful for
registering objfile-specific pretty-printers and frame-filters.
-@menu
-* objfile-gdb.py file:: The @file{@var{objfile}-gdb.py} file
-* dotdebug_gdb_scripts section:: The @code{.debug_gdb_scripts} section
-* Which flavor to choose?::
-@end menu
-
-@node objfile-gdb.py file
-@subsubsection The @file{@var{objfile}-gdb.py} file
-@cindex @file{@var{objfile}-gdb.py}
-
-When a new object file is read, @value{GDBN} looks for
-a file named @file{@var{objfile}-gdb.py} (we call it @var{script-name} below),
-where @var{objfile} is the object file's real name, formed by ensuring
-that the file name is absolute, following all symlinks, and resolving
-@code{.} and @code{..} components. If this file exists and is
-readable, @value{GDBN} will evaluate it as a Python script.
-
-If this file does not exist, then @value{GDBN} will look for
-@var{script-name} file in all of the directories as specified below.
-
-Note that loading of this script file also requires accordingly configured
-@code{auto-load safe-path} (@pxref{Auto-loading safe path}).
-
-For object files using @file{.exe} suffix @value{GDBN} tries to load first the
-scripts normally according to its @file{.exe} filename. But if no scripts are
-found @value{GDBN} also tries script filenames matching the object file without
-its @file{.exe} suffix. This @file{.exe} stripping is case insensitive and it
-is attempted on any platform. This makes the script filenames compatible
-between Unix and MS-Windows hosts.
-
-@table @code
-@anchor{set auto-load scripts-directory}
-@kindex set auto-load scripts-directory
-@item set auto-load scripts-directory @r{[}@var{directories}@r{]}
-Control @value{GDBN} auto-loaded scripts location. Multiple directory entries
-may be delimited by the host platform path separator in use
-(@samp{:} on Unix, @samp{;} on MS-Windows and MS-DOS).
-
-Each entry here needs to be covered also by the security setting
-@code{set auto-load safe-path} (@pxref{set auto-load safe-path}).
-
-@anchor{with-auto-load-dir}
-This variable defaults to @file{$debugdir:$datadir/auto-load}. The default
-@code{set auto-load safe-path} value can be also overriden by @value{GDBN}
-configuration option @option{--with-auto-load-dir}.
-
-Any reference to @file{$debugdir} will get replaced by
-@var{debug-file-directory} value (@pxref{Separate Debug Files}) and any
-reference to @file{$datadir} will get replaced by @var{data-directory} which is
-determined at @value{GDBN} startup (@pxref{Data Files}). @file{$debugdir} and
-@file{$datadir} must be placed as a directory component --- either alone or
-delimited by @file{/} or @file{\} directory separators, depending on the host
-platform.
-
-The list of directories uses path separator (@samp{:} on GNU and Unix
-systems, @samp{;} on MS-Windows and MS-DOS) to separate directories, similarly
-to the @env{PATH} environment variable.
-
-@anchor{show auto-load scripts-directory}
-@kindex show auto-load scripts-directory
-@item show auto-load scripts-directory
-Show @value{GDBN} auto-loaded scripts location.
-@end table
-
-@value{GDBN} does not track which files it has already auto-loaded this way.
-@value{GDBN} will load the associated script every time the corresponding
-@var{objfile} is opened.
-So your @file{-gdb.py} file should be careful to avoid errors if it
-is evaluated more than once.
-
-@node dotdebug_gdb_scripts section
-@subsubsection The @code{.debug_gdb_scripts} section
-@cindex @code{.debug_gdb_scripts} section
-
-For systems using file formats like ELF and COFF,
-when @value{GDBN} loads a new object file
-it will look for a special section named @samp{.debug_gdb_scripts}.
-If this section exists, its contents is a list of names of scripts to load.
-
-@value{GDBN} will look for each specified script file first in the
-current directory and then along the source search path
-(@pxref{Source Path, ,Specifying Source Directories}),
-except that @file{$cdir} is not searched, since the compilation
-directory is not relevant to scripts.
-
-Entries can be placed in section @code{.debug_gdb_scripts} with,
-for example, this GCC macro:
-
-@example
-/* Note: The "MS" section flags are to remove duplicates. */
-#define DEFINE_GDB_SCRIPT(script_name) \
- asm("\
-.pushsection \".debug_gdb_scripts\", \"MS\",@@progbits,1\n\
-.byte 1\n\
-.asciz \"" script_name "\"\n\
-.popsection \n\
-");
-@end example
-
-@noindent
-Then one can reference the macro in a header or source file like this:
-
-@example
-DEFINE_GDB_SCRIPT ("my-app-scripts.py")
-@end example
-
-The script name may include directories if desired.
-
-Note that loading of this script file also requires accordingly configured
-@code{auto-load safe-path} (@pxref{Auto-loading safe path}).
-
-If the macro is put in a header, any application or library
-using this header will get a reference to the specified script.
-
-@node Which flavor to choose?
-@subsubsection Which flavor to choose?
-
-Given the multiple ways of auto-loading Python scripts, it might not always
-be clear which one to choose. This section provides some guidance.
-
-Benefits of the @file{-gdb.py} way:
-
-@itemize @bullet
-@item
-Can be used with file formats that don't support multiple sections.
-
-@item
-Ease of finding scripts for public libraries.
-
-Scripts specified in the @code{.debug_gdb_scripts} section are searched for
-in the source search path.
-For publicly installed libraries, e.g., @file{libstdc++}, there typically
-isn't a source directory in which to find the script.
-
-@item
-Doesn't require source code additions.
-@end itemize
-
-Benefits of the @code{.debug_gdb_scripts} way:
-
-@itemize @bullet
-@item
-Works with static linking.
-
-Scripts for libraries done the @file{-gdb.py} way require an objfile to
-trigger their loading. When an application is statically linked the only
-objfile available is the executable, and it is cumbersome to attach all the
-scripts from all the input libraries to the executable's @file{-gdb.py} script.
-
-@item
-Works with classes that are entirely inlined.
-
-Some classes can be entirely inlined, and thus there may not be an associated
-shared library to attach a @file{-gdb.py} script to.
-
-@item
-Scripts needn't be copied out of the source tree.
-
-In some circumstances, apps can be built out of large collections of internal
-libraries, and the build infrastructure necessary to install the
-@file{-gdb.py} scripts in a place where @value{GDBN} can find them is
-cumbersome. It may be easier to specify the scripts in the
-@code{.debug_gdb_scripts} section as relative paths, and add a path to the
-top of the source tree to the source search path.
-@end itemize
-
@node Python modules
@subsection Python modules
@cindex python modules
@end smallexample
@end table
+@c Guile docs live in a separate file.
+@include guile.texi
+
+@node Auto-loading extensions
+@section Auto-loading extensions
+@cindex auto-loading extensions
+
+@value{GDBN} provides two mechanisms for automatically loading extensions
+when a new object file is read (for example, due to the @code{file}
+command, or because the inferior has loaded a shared library):
+@file{@var{objfile}-gdb.@var{ext}} and the @code{.debug_gdb_scripts}
+section of modern file formats like ELF.
+
+@menu
+* objfile-gdb.ext file: objfile-gdbdotext file. The @file{@var{objfile}-gdb.@var{ext}} file
+* .debug_gdb_scripts section: dotdebug_gdb_scripts section. The @code{.debug_gdb_scripts} section
+* Which flavor to choose?::
+@end menu
+
+The auto-loading feature is useful for supplying application-specific
+debugging commands and features.
+
+Auto-loading can be enabled or disabled,
+and the list of auto-loaded scripts can be printed.
+See the @samp{auto-loading} section of each extension language
+for more information.
+For @value{GDBN} command files see @ref{Auto-loading sequences}.
+For Python files see @ref{Python Auto-loading}.
+
+Note that loading of this script file also requires accordingly configured
+@code{auto-load safe-path} (@pxref{Auto-loading safe path}).
+
+@node objfile-gdbdotext file
+@subsection The @file{@var{objfile}-gdb.@var{ext}} file
+@cindex @file{@var{objfile}-gdb.gdb}
+@cindex @file{@var{objfile}-gdb.py}
+@cindex @file{@var{objfile}-gdb.scm}
+
+When a new object file is read, @value{GDBN} looks for a file named
+@file{@var{objfile}-gdb.@var{ext}} (we call it @var{script-name} below),
+where @var{objfile} is the object file's name and
+where @var{ext} is the file extension for the extension language:
+
+@table @code
+@item @file{@var{objfile}-gdb.gdb}
+GDB's own command language
+@item @file{@var{objfile}-gdb.py}
+Python
+@item @file{@var{objfile}-gdb.scm}
+Guile
+@end table
+
+@var{script-name} is formed by ensuring that the file name of @var{objfile}
+is absolute, following all symlinks, and resolving @code{.} and @code{..}
+components, and appending the @file{-gdb.@var{ext}} suffix.
+If this file exists and is readable, @value{GDBN} will evaluate it as a
+script in the specified extension language.
+
+If this file does not exist, then @value{GDBN} will look for
+@var{script-name} file in all of the directories as specified below.
+
+Note that loading of these files requires an accordingly configured
+@code{auto-load safe-path} (@pxref{Auto-loading safe path}).
+
+For object files using @file{.exe} suffix @value{GDBN} tries to load first the
+scripts normally according to its @file{.exe} filename. But if no scripts are
+found @value{GDBN} also tries script filenames matching the object file without
+its @file{.exe} suffix. This @file{.exe} stripping is case insensitive and it
+is attempted on any platform. This makes the script filenames compatible
+between Unix and MS-Windows hosts.
+
+@table @code
+@anchor{set auto-load scripts-directory}
+@kindex set auto-load scripts-directory
+@item set auto-load scripts-directory @r{[}@var{directories}@r{]}
+Control @value{GDBN} auto-loaded scripts location. Multiple directory entries
+may be delimited by the host platform path separator in use
+(@samp{:} on Unix, @samp{;} on MS-Windows and MS-DOS).
+
+Each entry here needs to be covered also by the security setting
+@code{set auto-load safe-path} (@pxref{set auto-load safe-path}).
+
+@anchor{with-auto-load-dir}
+This variable defaults to @file{$debugdir:$datadir/auto-load}. The default
+@code{set auto-load safe-path} value can be also overriden by @value{GDBN}
+configuration option @option{--with-auto-load-dir}.
+
+Any reference to @file{$debugdir} will get replaced by
+@var{debug-file-directory} value (@pxref{Separate Debug Files}) and any
+reference to @file{$datadir} will get replaced by @var{data-directory} which is
+determined at @value{GDBN} startup (@pxref{Data Files}). @file{$debugdir} and
+@file{$datadir} must be placed as a directory component --- either alone or
+delimited by @file{/} or @file{\} directory separators, depending on the host
+platform.
+
+The list of directories uses path separator (@samp{:} on GNU and Unix
+systems, @samp{;} on MS-Windows and MS-DOS) to separate directories, similarly
+to the @env{PATH} environment variable.
+
+@anchor{show auto-load scripts-directory}
+@kindex show auto-load scripts-directory
+@item show auto-load scripts-directory
+Show @value{GDBN} auto-loaded scripts location.
+@end table
+
+@value{GDBN} does not track which files it has already auto-loaded this way.
+@value{GDBN} will load the associated script every time the corresponding
+@var{objfile} is opened.
+So your @file{-gdb.@var{ext}} file should be careful to avoid errors if it
+is evaluated more than once.
+
+@node dotdebug_gdb_scripts section
+@subsection The @code{.debug_gdb_scripts} section
+@cindex @code{.debug_gdb_scripts} section
+
+For systems using file formats like ELF and COFF,
+when @value{GDBN} loads a new object file
+it will look for a special section named @code{.debug_gdb_scripts}.
+If this section exists, its contents is a list of NUL-terminated names
+of scripts to load. Each entry begins with a non-NULL prefix byte that
+specifies the kind of entry, typically the extension language.
+
+@value{GDBN} will look for each specified script file first in the
+current directory and then along the source search path
+(@pxref{Source Path, ,Specifying Source Directories}),
+except that @file{$cdir} is not searched, since the compilation
+directory is not relevant to scripts.
+
+Entries can be placed in section @code{.debug_gdb_scripts} with,
+for example, this GCC macro for Python scripts.
+
+@example
+/* Note: The "MS" section flags are to remove duplicates. */
+#define DEFINE_GDB_PY_SCRIPT(script_name) \
+ asm("\
+.pushsection \".debug_gdb_scripts\", \"MS\",@@progbits,1\n\
+.byte 1 /* Python */\n\
+.asciz \"" script_name "\"\n\
+.popsection \n\
+");
+@end example
+
+@noindent
+For Guile scripts, replace @code{.byte 1} with @code{.byte 3}.
+Then one can reference the macro in a header or source file like this:
+
+@example
+DEFINE_GDB_PY_SCRIPT ("my-app-scripts.py")
+@end example
+
+The script name may include directories if desired.
+
+Note that loading of this script file also requires accordingly configured
+@code{auto-load safe-path} (@pxref{Auto-loading safe path}).
+
+If the macro invocation is put in a header, any application or library
+using this header will get a reference to the specified script,
+and with the use of @code{"MS"} attributes on the section, the linker
+will remove duplicates.
+
+@node Which flavor to choose?
+@subsection Which flavor to choose?
+
+Given the multiple ways of auto-loading extensions, it might not always
+be clear which one to choose. This section provides some guidance.
+
+@noindent
+Benefits of the @file{-gdb.@var{ext}} way:
+
+@itemize @bullet
+@item
+Can be used with file formats that don't support multiple sections.
+
+@item
+Ease of finding scripts for public libraries.
+
+Scripts specified in the @code{.debug_gdb_scripts} section are searched for
+in the source search path.
+For publicly installed libraries, e.g., @file{libstdc++}, there typically
+isn't a source directory in which to find the script.
+
+@item
+Doesn't require source code additions.
+@end itemize
+
+@noindent
+Benefits of the @code{.debug_gdb_scripts} way:
+
+@itemize @bullet
+@item
+Works with static linking.
+
+Scripts for libraries done the @file{-gdb.@var{ext}} way require an objfile to
+trigger their loading. When an application is statically linked the only
+objfile available is the executable, and it is cumbersome to attach all the
+scripts from all the input libraries to the executable's
+@file{-gdb.@var{ext}} script.
+
+@item
+Works with classes that are entirely inlined.
+
+Some classes can be entirely inlined, and thus there may not be an associated
+shared library to attach a @file{-gdb.@var{ext}} script to.
+
+@item
+Scripts needn't be copied out of the source tree.
+
+In some circumstances, apps can be built out of large collections of internal
+libraries, and the build infrastructure necessary to install the
+@file{-gdb.@var{ext}} scripts in a place where @value{GDBN} can find them is
+cumbersome. It may be easier to specify the scripts in the
+@code{.debug_gdb_scripts} section as relative paths, and add a path to the
+top of the source tree to the source search path.
+@end itemize
+
+@node Multiple Extension Languages
+@section Multiple Extension Languages
+
+The Guile and Python extension languages do not share any state,
+and generally do not interfere with each other.
+There are some things to be aware of, however.
+
+@subsection Python comes first
+
+Python was @value{GDBN}'s first extension language, and to avoid breaking
+existing behaviour Python comes first. This is generally solved by the
+``first one wins'' principle. @value{GDBN} maintains a list of enabled
+extension languages, and when it makes a call to an extension language,
+(say to pretty-print a value), it tries each in turn until an extension
+language indicates it has performed the request (e.g., has returned the
+pretty-printed form of a value).
+This extends to errors while performing such requests: If an error happens
+while, for example, trying to pretty-print an object then the error is
+reported and any following extension languages are not tried.
+
@node Aliases
@section Creating new spellings of existing commands
@cindex aliases for commands
@end ignore
* GDB/MI Target Manipulation::
* GDB/MI File Transfer Commands::
+* GDB/MI Ada Exceptions Commands::
+* GDB/MI Support Commands::
* GDB/MI Miscellaneous Commands::
@end menu
@node Context management
@subsection Context management
+@subsubsection Threads and Frames
+
In most cases when @value{GDBN} accesses the target, this access is
done in context of a specific thread and frame (@pxref{Frames}).
Often, even when accessing global data, the target requires that a thread
right, so it is suggested to just always pass the @samp{--thread} and
@samp{--frame} options.
+@subsubsection Language
+
+The execution of several commands depends on which language is selected.
+By default, the current language (@pxref{show language}) is used.
+But for commands known to be language-sensitive, it is recommended
+to use the @samp{--language} option. This option takes one argument,
+which is the name of the language to use while executing the command.
+For instance:
+
+@smallexample
+-data-evaluate-expression --language c "sizeof (void*)"
+^done,value="4"
+(gdb)
+@end smallexample
+
+The valid language names are the same names accepted by the
+@samp{set language} command (@pxref{Manually}), excluding @samp{auto},
+@samp{local} or @samp{unknown}.
+
@node Asynchronous and non-stop modes
@subsection Asynchronous command execution and non-stop mode
@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}}
+@code{[ @var{token} ] "*" @var{async-output nl}}
@item @var{status-async-output} @expansion{}
-@code{[ @var{token} ] "+" @var{async-output}}
+@code{[ @var{token} ] "+" @var{async-output nl}}
@item @var{notify-async-output} @expansion{}
-@code{[ @var{token} ] "=" @var{async-output}}
+@code{[ @var{token} ] "=" @var{async-output nl}}
@item @var{async-output} @expansion{}
-@code{@var{async-class} ( "," @var{result} )* @var{nl}}
+@code{@var{async-class} ( "," @var{result} )*}
@item @var{result-class} @expansion{}
@code{"done" | "running" | "connected" | "error" | "exit"}
@code{@var{console-stream-output} | @var{target-stream-output} | @var{log-stream-output}}
@item @var{console-stream-output} @expansion{}
-@code{"~" @var{c-string}}
+@code{"~" @var{c-string nl}}
@item @var{target-stream-output} @expansion{}
-@code{"@@" @var{c-string}}
+@code{"@@" @var{c-string nl}}
@item @var{log-stream-output} @expansion{}
-@code{"&" @var{c-string}}
+@code{"&" @var{c-string nl}}
@item @var{nl} @expansion{}
@code{CR | CR-LF}
@findex ^connected
@value{GDBN} has connected to a remote target.
-@item "^error" "," @var{c-string}
+@item "^error" "," "msg=" @var{c-string} [ "," "code=" @var{c-string} ]
@findex ^error
-The operation failed. The @code{@var{c-string}} contains the corresponding
-error message.
+The operation failed. The @code{msg=@var{c-string}} variable contains
+the corresponding error message.
+
+If present, the @code{code=@var{c-string}} variable provides an error
+code on which consumers can rely on to detect the corresponding
+error condition. At present, only one error code is defined:
+
+@table @samp
+@item "undefined-command"
+Indicates that the command causing the error does not exist.
+@end table
@item "^exit"
@findex ^exit
This section documents @sc{gdb/mi} commands for manipulating
catchpoints.
+@menu
+* Shared Library GDB/MI Catchpoint Commands::
+* Ada Exception GDB/MI Catchpoint Commands::
+@end menu
+
+@node Shared Library GDB/MI Catchpoint Commands
+@subsection Shared Library @sc{gdb/mi} Catchpoints
+
@subheading The @code{-catch-load} Command
@findex -catch-load
(gdb)
@end smallexample
+@node Ada Exception GDB/MI Catchpoint Commands
+@subsection Ada Exception @sc{gdb/mi} Catchpoints
+
+The following @sc{gdb/mi} commands can be used to create catchpoints
+that stop the execution when Ada exceptions are being raised.
+
+@subheading The @code{-catch-assert} Command
+@findex -catch-assert
+
+@subsubheading Synopsis
+
+@smallexample
+ -catch-assert [ -c @var{condition}] [ -d ] [ -t ]
+@end smallexample
+
+Add a catchpoint for failed Ada assertions.
+
+The possible optional parameters for this command are:
+
+@table @samp
+@item -c @var{condition}
+Make the catchpoint conditional on @var{condition}.
+@item -d
+Create a disabled catchpoint.
+@item -t
+Create a temporary catchpoint.
+@end table
+
+@subsubheading @value{GDBN} Command
+
+The corresponding @value{GDBN} command is @samp{catch assert}.
+
+@subsubheading Example
+
+@smallexample
+-catch-assert
+^done,bkptno="5",bkpt=@{number="5",type="breakpoint",disp="keep",
+enabled="y",addr="0x0000000000404888",what="failed Ada assertions",
+thread-groups=["i1"],times="0",
+original-location="__gnat_debug_raise_assert_failure"@}
+(gdb)
+@end smallexample
+
+@subheading The @code{-catch-exception} Command
+@findex -catch-exception
+
+@subsubheading Synopsis
+
+@smallexample
+ -catch-exception [ -c @var{condition}] [ -d ] [ -e @var{exception-name} ]
+ [ -t ] [ -u ]
+@end smallexample
+
+Add a catchpoint stopping when Ada exceptions are raised.
+By default, the command stops the program when any Ada exception
+gets raised. But it is also possible, by using some of the
+optional parameters described below, to create more selective
+catchpoints.
+
+The possible optional parameters for this command are:
+
+@table @samp
+@item -c @var{condition}
+Make the catchpoint conditional on @var{condition}.
+@item -d
+Create a disabled catchpoint.
+@item -e @var{exception-name}
+Only stop when @var{exception-name} is raised. This option cannot
+be used combined with @samp{-u}.
+@item -t
+Create a temporary catchpoint.
+@item -u
+Stop only when an unhandled exception gets raised. This option
+cannot be used combined with @samp{-e}.
+@end table
+
+@subsubheading @value{GDBN} Command
+
+The corresponding @value{GDBN} commands are @samp{catch exception}
+and @samp{catch exception unhandled}.
+
+@subsubheading Example
+
+@smallexample
+-catch-exception -e Program_Error
+^done,bkptno="4",bkpt=@{number="4",type="breakpoint",disp="keep",
+enabled="y",addr="0x0000000000404874",
+what="`Program_Error' Ada exception", thread-groups=["i1"],
+times="0",original-location="__gnat_debug_raise_exception"@}
+(gdb)
+@end smallexample
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Program Context
@subsubheading Synopsis
@smallexample
- -exec-run [--all | --thread-group N]
+ -exec-run [ --all | --thread-group N ] [ --start ]
@end smallexample
Starts execution of the inferior from the beginning. The inferior
exits. In the latter case the output will include an exit code, if
the program has exited exceptionally.
-When no option is specified, the current inferior is started. If the
+When neither the @samp{--all} nor the @samp{--thread-group} option
+is specified, the current inferior is started. If the
@samp{--thread-group} option is specified, it should refer to a thread
group of type @samp{process}, and that thread group will be started.
If the @samp{--all} option is specified, then all inferiors will be started.
+Using the @samp{--start} option instructs the debugger to stop
+the execution at the start of the inferior's main subprogram,
+following the same behavior as the @code{start} command
+(@pxref{Starting}).
+
@subsubheading @value{GDBN} Command
The corresponding @value{GDBN} command is @samp{run}.
@subsubheading Synopsis
@smallexample
- -stack-list-arguments [ --no-frame-filters ] @var{print-values}
+ -stack-list-arguments [ --no-frame-filters ] [ --skip-unavailable ] @var{print-values}
[ @var{low-frame} @var{high-frame} ]
@end smallexample
structures and unions. If the option @code{--no-frame-filters} is
supplied, then Python frame filters will not be executed.
+If the @code{--skip-unavailable} option is specified, arguments that
+are not available are not listed. Partially available arguments
+are still displayed, however.
Use of this command to obtain arguments in a single frame is
deprecated in favor of the @samp{-stack-list-variables} command.
@subsubheading Synopsis
@smallexample
- -stack-list-locals [ --no-frame-filters ] @var{print-values}
+ -stack-list-locals [ --no-frame-filters ] [ --skip-unavailable ] @var{print-values}
@end smallexample
Display the local variable names for the selected frame. If
more detail. If the option @code{--no-frame-filters} is supplied, then
Python frame filters will not be executed.
+If the @code{--skip-unavailable} option is specified, local variables
+that are not available are not listed. Partially available local
+variables are still displayed, however.
+
This command is deprecated in favor of the
@samp{-stack-list-variables} command.
@subsubheading Synopsis
@smallexample
- -stack-list-variables [ --no-frame-filters ] @var{print-values}
+ -stack-list-variables [ --no-frame-filters ] [ --skip-unavailable ] @var{print-values}
@end smallexample
Display the names of local variables and function arguments for the selected frame. If
structures and unions. If the option @code{--no-frame-filters} is
supplied, then Python frame filters will not be executed.
+If the @code{--skip-unavailable} option is specified, local variables
+and arguments that are not available are not listed. Partially
+available arguments and local variables are still displayed, however.
+
@subsubheading Example
@smallexample
@item frozen
If the variable object is frozen, this variable will be present with a value of 1.
+
+@item displayhint
+A dynamic varobj can supply a display hint to the front end. The
+value comes directly from the Python pretty-printer object's
+@code{display_hint} method. @xref{Pretty Printing API}.
+
+@item dynamic
+This attribute will be present and have the value @samp{1} if the
+varobj is a dynamic varobj. If the varobj is not a dynamic varobj,
+then this attribute will not be present.
+
@end table
The result may have its own attributes:
@end smallexample
@noindent
-Here, the values of @code{lang} can be @code{@{"C" | "C++" | "Java"@}}.
+Here, the value of @code{lang} is the language name, which can be
+found in @ref{Supported Languages}.
Note that the output of the @code{-var-list-children} command also
includes those expressions, so the @code{-var-info-expression} command
a varobj is created, and so ordinarily is not needed.
This feature is only available if Python support is enabled. The MI
-command @code{-list-features} (@pxref{GDB/MI Miscellaneous Commands})
+command @code{-list-features} (@pxref{GDB/MI Support Commands})
can be used to check this.
@subsubheading Example
@end smallexample
+@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@node GDB/MI Ada Exceptions Commands
+@section Ada Exceptions @sc{gdb/mi} Commands
+
+@subheading The @code{-info-ada-exceptions} Command
+@findex -info-ada-exceptions
+
+@subsubheading Synopsis
+
+@smallexample
+ -info-ada-exceptions [ @var{regexp}]
+@end smallexample
+
+List all Ada exceptions defined within the program being debugged.
+With a regular expression @var{regexp}, only those exceptions whose
+names match @var{regexp} are listed.
+
+@subsubheading @value{GDBN} Command
+
+The corresponding @value{GDBN} command is @samp{info exceptions}.
+
+@subsubheading Result
+
+The result is a table of Ada exceptions. The following columns are
+defined for each exception:
+
+@table @samp
+@item name
+The name of the exception.
+
+@item address
+The address of the exception.
+
+@end table
+
+@subsubheading Example
+
+@smallexample
+-info-ada-exceptions aint
+^done,ada-exceptions=@{nr_rows="2",nr_cols="2",
+hdr=[@{width="1",alignment="-1",col_name="name",colhdr="Name"@},
+@{width="1",alignment="-1",col_name="address",colhdr="Address"@}],
+body=[@{name="constraint_error",address="0x0000000000613da0"@},
+@{name="const.aint_global_e",address="0x0000000000613b00"@}]@}
+@end smallexample
+
+@subheading Catching Ada Exceptions
+
+The commands describing how to ask @value{GDBN} to stop when a program
+raises an exception are described at @ref{Ada Exception GDB/MI
+Catchpoint Commands}.
+
+
+@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@node GDB/MI Support Commands
+@section @sc{gdb/mi} Support Commands
+
+Since new commands and features get regularly added to @sc{gdb/mi},
+some commands are available to help front-ends query the debugger
+about support for these capabilities. Similarly, it is also possible
+to query @value{GDBN} about target support of certain features.
+
+@subheading The @code{-info-gdb-mi-command} Command
+@cindex @code{-info-gdb-mi-command}
+@findex -info-gdb-mi-command
+
+@subsubheading Synopsis
+
+@smallexample
+ -info-gdb-mi-command @var{cmd_name}
+@end smallexample
+
+Query support for the @sc{gdb/mi} command named @var{cmd_name}.
+
+Note that the dash (@code{-}) starting all @sc{gdb/mi} commands
+is technically not part of the command name (@pxref{GDB/MI Input
+Syntax}), and thus should be omitted in @var{cmd_name}. However,
+for ease of use, this command also accepts the form with the leading
+dash.
+
+@subsubheading @value{GDBN} Command
+
+There is no corresponding @value{GDBN} command.
+
+@subsubheading Result
+
+The result is a tuple. There is currently only one field:
+
+@table @samp
+@item exists
+This field is equal to @code{"true"} if the @sc{gdb/mi} command exists,
+@code{"false"} otherwise.
+
+@end table
+
+@subsubheading Example
+
+Here is an example where the @sc{gdb/mi} command does not exist:
+
+@smallexample
+-info-gdb-mi-command unsupported-command
+^done,command=@{exists="false"@}
+@end smallexample
+
+@noindent
+And here is an example where the @sc{gdb/mi} command is known
+to the debugger:
+
+@smallexample
+-info-gdb-mi-command symbol-list-lines
+^done,command=@{exists="true"@}
+@end smallexample
+
+@subheading The @code{-list-features} Command
+@findex -list-features
+@cindex supported @sc{gdb/mi} features, list
+
+Returns a list of particular features of the MI protocol that
+this version of gdb implements. A feature can be a command,
+or a new field in an output of some command, or even an
+important bugfix. While a frontend can sometimes detect presence
+of a feature at runtime, it is easier to perform detection at debugger
+startup.
+
+The command returns a list of strings, with each string naming an
+available feature. Each returned string is just a name, it does not
+have any internal structure. The list of possible feature names
+is given below.
+
+Example output:
+
+@smallexample
+(gdb) -list-features
+^done,result=["feature1","feature2"]
+@end smallexample
+
+The current list of features is:
+
+@ftable @samp
+@item frozen-varobjs
+Indicates support for the @code{-var-set-frozen} command, as well
+as possible presense of the @code{frozen} field in the output
+of @code{-varobj-create}.
+@item pending-breakpoints
+Indicates support for the @option{-f} option to the @code{-break-insert}
+command.
+@item python
+Indicates Python scripting support, Python-based
+pretty-printing commands, and possible presence of the
+@samp{display_hint} field in the output of @code{-var-list-children}
+@item thread-info
+Indicates support for the @code{-thread-info} command.
+@item data-read-memory-bytes
+Indicates support for the @code{-data-read-memory-bytes} and the
+@code{-data-write-memory-bytes} commands.
+@item breakpoint-notifications
+Indicates that changes to breakpoints and breakpoints created via the
+CLI will be announced via async records.
+@item ada-task-info
+Indicates support for the @code{-ada-task-info} command.
+@item language-option
+Indicates that all @sc{gdb/mi} commands accept the @option{--language}
+option (@pxref{Context management}).
+@item info-gdb-mi-command
+Indicates support for the @code{-info-gdb-mi-command} command.
+@item undefined-command-error-code
+Indicates support for the "undefined-command" error code in error result
+records, produced when trying to execute an undefined @sc{gdb/mi} command
+(@pxref{GDB/MI Result Records}).
+@item exec-run-start-option
+Indicates that the @code{-exec-run} command supports the @option{--start}
+option (@pxref{GDB/MI Program Execution}).
+@end ftable
+
+@subheading The @code{-list-target-features} Command
+@findex -list-target-features
+
+Returns a list of particular features that are supported by the
+target. Those features affect the permitted MI commands, but
+unlike the features reported by the @code{-list-features} command, the
+features depend on which target GDB is using at the moment. Whenever
+a target can change, due to commands such as @code{-target-select},
+@code{-target-attach} or @code{-exec-run}, the list of target features
+may change, and the frontend should obtain it again.
+Example output:
+
+@smallexample
+(gdb) -list-target-features
+^done,result=["async"]
+@end smallexample
+
+The current list of features is:
+
+@table @samp
+@item async
+Indicates that the target is capable of asynchronous command
+execution, which means that @value{GDBN} will accept further commands
+while the target is running.
+
+@item reverse
+Indicates that the target is capable of reverse execution.
+@xref{Reverse Execution}, for more information.
+
+@end table
+
@c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@node GDB/MI Miscellaneous Commands
@section Miscellaneous @sc{gdb/mi} Commands
(gdb)
@end smallexample
-@subheading The @code{-list-features} Command
-@findex -list-features
-
-Returns a list of particular features of the MI protocol that
-this version of gdb implements. A feature can be a command,
-or a new field in an output of some command, or even an
-important bugfix. While a frontend can sometimes detect presence
-of a feature at runtime, it is easier to perform detection at debugger
-startup.
-
-The command returns a list of strings, with each string naming an
-available feature. Each returned string is just a name, it does not
-have any internal structure. The list of possible feature names
-is given below.
-
-Example output:
-
-@smallexample
-(gdb) -list-features
-^done,result=["feature1","feature2"]
-@end smallexample
-
-The current list of features is:
-
-@table @samp
-@item frozen-varobjs
-Indicates support for the @code{-var-set-frozen} command, as well
-as possible presense of the @code{frozen} field in the output
-of @code{-varobj-create}.
-@item pending-breakpoints
-Indicates support for the @option{-f} option to the @code{-break-insert}
-command.
-@item python
-Indicates Python scripting support, Python-based
-pretty-printing commands, and possible presence of the
-@samp{display_hint} field in the output of @code{-var-list-children}
-@item thread-info
-Indicates support for the @code{-thread-info} command.
-@item data-read-memory-bytes
-Indicates support for the @code{-data-read-memory-bytes} and the
-@code{-data-write-memory-bytes} commands.
-@item breakpoint-notifications
-Indicates that changes to breakpoints and breakpoints created via the
-CLI will be announced via async records.
-@item ada-task-info
-Indicates support for the @code{-ada-task-info} command.
-@end table
-
-@subheading The @code{-list-target-features} Command
-@findex -list-target-features
-
-Returns a list of particular features that are supported by the
-target. Those features affect the permitted MI commands, but
-unlike the features reported by the @code{-list-features} command, the
-features depend on which target GDB is using at the moment. Whenever
-a target can change, due to commands such as @code{-target-select},
-@code{-target-attach} or @code{-exec-run}, the list of target features
-may change, and the frontend should obtain it again.
-Example output:
-
-@smallexample
-(gdb) -list-features
-^done,result=["async"]
-@end smallexample
-
-The current list of features is:
-
-@table @samp
-@item async
-Indicates that the target is capable of asynchronous command
-execution, which means that @value{GDBN} will accept further commands
-while the target is running.
-
-@item reverse
-Indicates that the target is capable of reverse execution.
-@xref{Reverse Execution}, for more information.
-
-@end table
-
@subheading The @code{-list-thread-groups} Command
@findex -list-thread-groups
to user; the command @code{maint print register-groups} includes the
groups that each register is a member of; and the command @code{maint
print remote-registers} includes the remote target's register numbers
-and offsets in the `G' packets. @xref{Registers,, Registers, gdbint,
-@value{GDBN} Internals}.
+and offsets in the `G' packets.
These commands take an optional parameter, a file name to which to
write the information.
@item maint set show-debug-regs
@itemx maint show show-debug-regs
Control whether to show variables that mirror the hardware debug
-registers. Use @code{ON} to enable, @code{OFF} to disable. If
+registers. Use @code{on} to enable, @code{off} to disable. If
enabled, the debug registers values are shown when @value{GDBN} inserts or
removes a hardware breakpoint or watchpoint, and when the inferior
triggers a hardware-assisted breakpoint or watchpoint.
@item new
Returns all available branch trace if the branch trace changed since
the last read request.
+
+@item delta
+Returns the new branch trace since the last read request. Adds a new
+block to the end of the trace that begins at zero and ends at the source
+location of the first branch in the trace buffer. This extra block is
+used to stitch traces together.
+
+If the trace buffer overflowed, returns an error indicating the overflow.
@end table
This packet is not probed by default; the remote stub must request it
* M68K Features::
* Nios II Features::
* PowerPC Features::
+* S/390 and System z Features::
* TIC6x Features::
@end menu
@samp{ymm0h} through @samp{ymm15h} for amd64
@end itemize
+The @samp{org.gnu.gdb.i386.mpx} is an optional feature representing Intel(R)
+Memory Protection Extension (MPX). It should describe the following registers:
+
+@itemize @minus
+@item
+@samp{bnd0raw} through @samp{bnd3raw} for i386 and amd64.
+@item
+@samp{bndcfgu} and @samp{bndstatus} for i386 and amd64.
+@end itemize
+
The @samp{org.gnu.gdb.i386.linux} feature is optional. It should
describe a single register, @samp{orig_eax}.
these to present registers @samp{ev0} through @samp{ev31} to the
user.
+@node S/390 and System z Features
+@subsection S/390 and System z Features
+@cindex target descriptions, S/390 features
+@cindex target descriptions, System z features
+
+The @samp{org.gnu.gdb.s390.core} feature is required for S/390 and
+System z targets. It should contain the PSW and the 16 general
+registers. In particular, System z targets should provide the 64-bit
+registers @samp{pswm}, @samp{pswa}, and @samp{r0} through @samp{r15}.
+S/390 targets should provide the 32-bit versions of these registers.
+A System z target that runs in 31-bit addressing mode should provide
+32-bit versions of @samp{pswm} and @samp{pswa}, as well as the general
+register's upper halves @samp{r0h} through @samp{r15h}, and their
+lower halves @samp{r0l} through @samp{r15l}.
+
+The @samp{org.gnu.gdb.s390.fpr} feature is required. It should
+contain the 64-bit registers @samp{f0} through @samp{f15}, and
+@samp{fpc}.
+
+The @samp{org.gnu.gdb.s390.acr} feature is required. It should
+contain the 32-bit registers @samp{acr0} through @samp{acr15}.
+
+The @samp{org.gnu.gdb.s390.linux} feature is optional. It should
+contain the register @samp{orig_r2}, which is 64-bit wide on System z
+targets and 32-bit otherwise. In addition, the feature may contain
+the @samp{last_break} register, whose width depends on the addressing
+mode, as well as the @samp{system_call} register, which is always
+32-bit wide.
+
+The @samp{org.gnu.gdb.s390.tdb} feature is optional. It should
+contain the 64-bit registers @samp{tdb0}, @samp{tac}, @samp{tct},
+@samp{atia}, and @samp{tr0} through @samp{tr15}.
+
@node TIC6x Features
@subsection TMS320C6x Features
@cindex target descriptions, TIC6x features
This option is intended for @code{gdbserver} development and for bug reports to
the developers.
+@item --debug-format=option1@r{[},option2,...@r{]}
+Instruct @code{gdbserver} to include extra information in each line
+of debugging output.
+@xref{Other Command-Line Arguments for gdbserver}.
+
@item --wrapper
Specify a wrapper to launch programs
for debugging. The option should be followed by the name of the
projects / deliverable / binutils-gdb.git / blobdiff