Debugging Bluefish: Difference between revisions

From Bluefish Wiki
Jump to navigation Jump to search
Line 13: Line 13:
<tt>$ ./configure CFLAGS="-g -O0" && make</tt>
<tt>$ ./configure CFLAGS="-g -O0" && make</tt>


The stable version of bluefish, namely 1.0.X at the time of writing, currently strips the debugging symbols during the installation step ('''make install'''). In this case only re-compile the sources and run the resulting binary '''src/bluefish''' in the GNU Debugger.
For more information about compiling from source, see [[Installing Bluefish]].
 
The stable version of bluefish, namely 2.2.X at the time of writing, currently strips the debugging symbols during the installation step ('''make install'''). In this case only re-compile the sources and run the resulting binary '''src/bluefish''' in the GNU Debugger.


=== Install debugging symbols on Debian/Ubuntu systems ===
=== Install debugging symbols on Debian/Ubuntu systems ===

Revision as of 20:14, 1 October 2014


In general: It is always a good idea to tell us your version of GTK/Glib installed on your system.

Debugging symbols

To create a meaningful backtrace you'll need a binary with the debugging symbols attached. Otherwise your backtrace will contain a lot of question marks and won't be useful.

Compile with debugging symbols from source

Get the source. To compile it with debugging symbols, CFLAGS must contain -g. You should also use the -O0 optimization flag there.
$ ./configure CFLAGS="-g -O0" && make

For more information about compiling from source, see Installing Bluefish.

The stable version of bluefish, namely 2.2.X at the time of writing, currently strips the debugging symbols during the installation step (make install). In this case only re-compile the sources and run the resulting binary src/bluefish in the GNU Debugger.

Install debugging symbols on Debian/Ubuntu systems

To receive debugging symbols for the 1.0 stable series of bluefish in Debian/Ubuntu the sources must be recompiled without stripping the resulting binary. This is done by following these steps <ref>More to find in the Debian Wiki</ref>:

DEB_BUILD_OPTIONS="nostrip noopt" fakeroot apt-get -b source bluefish

For the current development series 1.3 the Debian and Ubuntu packages come with a package shipping the debugging symbols: bluefish-unstable-dbg. Just install it the usual way. You might need some more packages of this type: libc6-dbg, libglib2.0-0-dbg, libgtk2.0-0-dbg, libpcre3-dbg, libxml2-dbg. This requires some space on your harddrive, but will help us to track down your problem and help you.

Run Bluefish in the debugger

Create a meaningful backtrace

To run Bluefish in the GNU Debugger, use:

gdb bluefish

or for the 1.0 series (see above):

gdb src/bluefish

Then ((gdb) represents the gdb shell prompt!):

(gdb) set logging on
Copying output to gdb.txt.
(gdb) r

This will start bluefish. Now reproduce the crash and then create the backtrace:

Program received signal SIGSEGV, Segmentation fault.
...
(gdb) bt full
...
(gdb) quit

Now you'll find a file gdb.txt in the directory. Open a report in our BTS and attach this file to the report. This is what a Backtrace Should Look Like.

What other information you should provide to the developers

  • the platform you are using
  • the gtk version you are using
  • the compiler version you are using
  • any non-default ./configure options
  • the pcre version you are using if you think that is related
  • the libaspell version you are using if you think that is related
  • the gnome-vfs version you are using if you think that is related (only 1.0 series)

Debugging a Gtk-Critical error

If you set the environment variable G_DEBUG to fatal_warnings, e.g.

export G_DEBUG=fatal_warnings

with bash, it should assert when there is an error. Then launch bluefish with gdb as told you above and you can get a backtrace.

Notes and references

References: <references/>