Debugging GNU Emacs
-Copyright (c) 1985, 2000, 2001 Free Software Foundation, Inc.
+Copyright (c) 1985, 2000, 2001, 2005 Free Software Foundation, Inc.
Permission is granted to anyone to make or distribute verbatim copies
of this document as received, in any medium, provided that the
should read the Windows-specific section near the end of this
document.]
-It is a good idea to run Emacs under GDB (or some other suitable
+** When you debug Emacs with GDB, you should start it in the directory
+where the executable was made. That directory has a .gdbinit file
+that defines various "user-defined" commands for debugging Emacs.
+
+** When you are trying to analyze failed assertions, it will be
+essential to compile Emacs either completely without optimizations or
+at least (when using GCC) with the -fno-crossjumping option. Failure
+to do so may make the compiler recycle the same abort call for all
+assertions in a given function, rendering the stack backtrace useless
+for identifying the specific failed assertion.
+
+** It is a good idea to run Emacs under GDB (or some other suitable
debugger) *all the time*. Then, when Emacs crashes, you will be able
to debug the live process, not just a core dump. (This is especially
important on systems which don't support core files, and instead print
just the registers and some stack addresses.)
-If Emacs hangs, or seems to be stuck in some infinite loop, typing
+** If Emacs hangs, or seems to be stuck in some infinite loop, typing
"kill -TSTP PID", where PID is the Emacs process ID, will cause GDB to
kick in, provided that you run under GDB.
All Lisp errors go through there.
It is useful, when debugging, to have a guaranteed way to return to
-the debugger at any time. When using X, this is easy: type C-c at the
+the debugger at any time. When using X, this is easy: type C-z at the
window where Emacs is running under GDB, and it will stop Emacs just
as it would stop any ordinary program. When Emacs is running in a
terminal, things are not so easy.
(C-g in Emacs) to be passed to Emacs and not give control back to GDB.
On modern POSIX systems, you can override that with this command:
- handle int stop nopass
+ handle SIGINT stop nopass
After this `handle' command, SIGINT will return control to GDB. If
you want the C-g to cause a QUIT within Emacs as well, omit the
Put a breakpoint early in `main', or suspend the Emacs,
to get an opportunity to do the set command.
+When Emacs is running in a terminal, it is useful to use a separate terminal
+for the debug session. This can be done by starting Emacs as usual, then
+attaching to it from gdb with the `attach' command which is explained in the
+node "Attach" of the GDB manual.
+
** Examining Lisp object values.
When you have a live process to debug, and it has not encountered a
in the ordinary way, with the `p' command. Then type `pr' with no
arguments. This calls a subroutine which uses the Lisp printer.
-Note: It is not a good idea to try `pr' if you know that Emacs is in
-deep trouble: its stack smashed (e.g., if it encountered SIGSEGV due
-to stack overflow), or crucial data structures, such as `obarray',
+You can also use `pp value' to print the emacs value directly.
+
+Note: It is not a good idea to try `pr' or `pp' if you know that Emacs
+is in deep trouble: its stack smashed (e.g., if it encountered SIGSEGV
+due to stack overflow), or crucial data structures, such as `obarray',
corrupted, etc. In such cases, the Emacs subroutine called by `pr'
might make more damage, like overwrite some data that is important for
debugging the original problem.
Even with a live process, these x... commands are useful for
examining the fields in a buffer, window, process, frame or marker.
Here's an example using concepts explained in the node "Value History"
-of the GDB manual to print the variable frame from this line in
-xmenu.c:
-
- buf.frame_or_window = frame;
-
-First, use these commands:
+of the GDB manual to print values associated with the variable
+called frame. First, use these commands:
cd src
gdb emacs
- b xmenu.c:1296
- r -q
+ b set_frame_buffer_list
+ r -q
-Then type C-x 5 2 to create a new frame, and it hits the breakpoint:
+Then Emacs hits the breakpoint:
(gdb) p frame
- $1 = 1077872640
+ $1 = 139854428
(gdb) xtype
Lisp_Vectorlike
PVEC_FRAME
(gdb) xframe
- $2 = (struct frame *) 0x3f0800
+ $2 = (struct frame *) 0x8560258
(gdb) p *$
$3 = {
- size = 536871989,
- next = 0x366240,
- name = 809661752,
+ size = 1073742931,
+ next = 0x85dfe58,
+ name = 140615219,
[...]
}
(gdb) p $3->name
- $4 = 809661752
+ $4 = 140615219
Now we can use `pr' to print the name of the frame:
XVECTOR (recent_keys)->contents[recent_keys_index] = c;
So we define a GDB command `xvector-elts', so the last 10 keystrokes
-are printed by
+are printed by
xvector-elts recent_keys recent_keys_index 10
xvector
set $foo = $
while $i < $arg2
- p $foo->contents[$arg1-($i++)]
+ p $foo->contents[$arg1-($i++)]
pr
end
document xvector-elts
By printing the remaining elements of args, you can see the argument
values. Here's how to print the first argument:
-
+
p args[1]
pr
and, assuming that "xtype" says that args[0] is a symbol:
- xsymbol
+ xsymbol
** Debugging what happens while preloading and dumping Emacs
the backtrace when Emacs stops inside that function will show what
code causes the X protocol errors.
+Some bugs related to the X protocol disappear when Emacs runs in a
+synchronous mode. To track down those bugs, we suggest the following
+procedure:
+
+ - Run Emacs under a debugger and put a breakpoint inside the
+ primitive function which, when called from Lisp, triggers the X
+ protocol errors. For example, if the errors happen when you
+ delete a frame, put a breakpoint inside `Fdelete_frame'.
+
+ - When the breakpoint breaks, step through the code, looking for
+ calls to X functions (the ones whose names begin with "X" or
+ "Xt" or "Xm").
+
+ - Insert calls to `XSync' before and after each call to the X
+ functions, like this:
+
+ XSync (f->output_data.x->display_info->display, 0);
+
+ where `f' is the pointer to the `struct frame' of the selected
+ frame, normally available via XFRAME (selected_frame). (Most
+ functions which call X already have some variable that holds the
+ pointer to the frame, perhaps called `f' or `sf', so you shouldn't
+ need to compute it.)
+
+ If your debugger can call functions in the program being debugged,
+ you should be able to issue the calls to `XSync' without recompiling
+ Emacs. For example, with GDB, just type:
+
+ call XSync (f->output_data.x->display_info->display, 0)
+
+ before and immediately after the suspect X calls. If your
+ debugger does not support this, you will need to add these pairs
+ of calls in the source and rebuild Emacs.
+
+ Either way, systematically step through the code and issue these
+ calls until you find the first X function called by Emacs after
+ which a call to `XSync' winds up in the function
+ `x_error_quitter'. The first X function call for which this
+ happens is the one that generated the X protocol error.
+
+ - You should now look around this offending X call and try to figure
+ out what is wrong with it.
+
+** If Emacs causes errors or memory leaks in your X server
+
+You can trace the traffic between Emacs and your X server with a tool
+like xmon, available at ftp://ftp.x.org/contrib/devel_tools/.
+
+Xmon can be used to see exactly what Emacs sends when X protocol errors
+happen. If Emacs causes the X server memory usage to increase you can
+use xmon to see what items Emacs creates in the server (windows,
+graphical contexts, pixmaps) and what items Emacs delete. If there
+are consistently more creations than deletions, the type of item
+and the activity you do when the items get created can give a hint where
+to start debugging.
+
** If the symptom of the bug is that Emacs fails to respond
Don't assume Emacs is `hung'--it may instead be in an infinite loop.
Emacs compiled with GLYPH_DEBUG defined; type "C-h f dump- TAB" and
"C-h f trace- TAB" to see the full list.
+When you debug display problems running emacs under X, you can use
+the `ff' command to flush all pending display updates to the screen.
+
** Debugging LessTif
helpful to set the `DEBUGSOURCES' and `DEBUG_FILE' environment
variables, so that one can see what LessTif was doing at this point.
For instance
-
+
export DEBUGSOURCES="RowColumn.c:MenuShell.c:MenuUtil.c"
export DEBUG_FILE=/usr/tmp/LESSTIF_TRACE
emacs &
bitfield definitions (which will cause each such field to use a full
int).
+** How to recover buffer contents from an Emacs core dump file
+
+The file etc/emacs-buffer.gdb defines a set of GDB commands for
+recovering the contents of Emacs buffers from a core dump file. You
+might also find those commands useful for displaying the list of
+buffers in human-readable format from within the debugger.
+
** Some suggestions for debugging on MS Windows:
(written by Marc Fleischeuers, Geoff Voelker and Andrew Innes)
look at the disassembly to determine which registers are being used,
and look at those registers directly, to see the actual current values
of these variables.
+
+;;; arch-tag: fbf32980-e35d-481f-8e4c-a2eca2586e6b