Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Edit: added important note that it is about debugging MPI application

System installed shared library doesn't have debugging symbols:

$ readelf -S /usr/lib64/libfftw3.so | grep debug

I have therefore compiled and instaled in my home directory my owne version, with debugging enabled (--with-debug CFLAGS=-g):

$ $ readelf -S ~/lib64/libfftw3.so | grep debug
  [26] .debug_aranges    PROGBITS         0000000000000000  001d3902
  [27] .debug_pubnames   PROGBITS         0000000000000000  001d8552
  [28] .debug_info       PROGBITS         0000000000000000  001ddebd
  [29] .debug_abbrev     PROGBITS         0000000000000000  003e221c
  [30] .debug_line       PROGBITS         0000000000000000  00414306
  [31] .debug_str        PROGBITS         0000000000000000  0044aa23
  [32] .debug_loc        PROGBITS         0000000000000000  004514de
  [33] .debug_ranges     PROGBITS         0000000000000000  0046bc82

I have set both LD_LIBRARY_PATH and LD_RUN_PATH to include ~/lib64 first, and ldd program confirms that local version of library should be used:

$ ldd a.out | grep fftw
        libfftw3.so.3 => /home/narebski/lib64/libfftw3.so.3 (0x00007f2ed9a98000)

The program in question is parallel numerical application using MPI (Message Passing Interface). Therefore to run this application one must use mpirun wrapper (e.g. mpirun -np 1 valgrind --tool=callgrind ./a.out). I use OpenMPI implementation.

Nevertheless, various profilers: callgrind tool in Valgrind, CPU profiling google-perfutils and perf doesn't find those debugging symbols, resulting in more or less useless output:

  • calgrind:

    $ callgrind_annotate --include=~/prog/src --inclusive=no  --tree=none
                Ir  file:function
    32,765,904,336  ???:0x000000000014e500 [/usr/lib64/libfftw3.so.3.2.4]
    31,342,886,912  /home/narebski/prog/src/nonlinearity.F90:__nonlinearity_MOD_calc_nonlinearity_kxky [/home/narebski/prog/bin/a.out]
    30,288,261,120  /home/narebski/gene11/src/axpy.F90:__axpy_MOD_axpy_ij [/home/narebski/prog/bin/a.out]
    23,429,390,736  ???:0x00000000000fc5e0 [/usr/lib64/libfftw3.so.3.2.4]
    17,851,018,186  ???:0x00000000000fdb80 [/usr/lib64/libmpi.so.1.0.1]
  • google-perftools:

    $ pprof --text a.out prog.prof
    Total: 8401 samples
         842  10.0%  10.0%      842  10.0% 00007f200522d5f0
         619   7.4%  17.4%     5025  59.8% calc_nonlinearity_kxky
         517   6.2%  23.5%      517   6.2% axpy_ij
         427   5.1%  28.6%     3156  37.6% nl_to_direct_xy
         307   3.7%  32.3%     1234  14.7% nl_to_fourier_xy_1d
  • perf events:

    $ perf report --sort comm,dso,symbol
    # Events: 80K cycles
    # Overhead  Command         Shared Object                                        Symbol
    # ........  .......  ....................  ............................................
        32.42%  a.out     libfftw3.so.3.2.4     [.]            fdc4c
        16.25%  a.out             7fddcd97bb22  [.]     7fddcd97bb22
         7.51%  a.out     libatlas.so.0.0.0     [.] ATL_dcopy_xp1yp1aXbX
         6.98%  a.out     a.out                 [.] __nonlinearity_MOD_calc_nonlinearity_kxky
         5.82%  a.out     a.out                 [.] __axpy_MOD_axpy_ij

Edit Added 11-07-2011:
I don't know if it is important, but:

$ file /usr/lib64/libfftw3.so.3.2.4
/usr/lib64/libfftw3.so.3.2.4: ELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, stripped


$ file ~/lib64/libfftw3.so.3.2.4
/home/narebski/lib64/libfftw3.so.3.2.4: ELF 64-bit LSB shared object, x86-64, version 1 (GNU/Linux), dynamically linked, not stripped
share|improve this question
If you use Zoom or this method of finding time drains you don't need your libs to have symbols, because any problem you can fix is one or a few lines in your code, not the external librarary, and those lines are pinpointed. –  Mike Dunlavey Jul 9 '11 at 13:21

3 Answers 3

If /usr/lib64/libfftw3.so.3.2.4 is listed in callgrind output, then your LD_LIBRARY_PATH=~/lib64 had no effect.

Try again with export LD_LIBRARY_PATH=$HOME/lib64. Also watch out for any shell scripts you invoke, which might reset your environment.

share|improve this answer
You are right. I am using mpirun from OpenMPI, and it does prepend /usr/lib:/usr/lib64: to 'LD_LIBRARY_PATH' (which I checked by running mpirun -np 1 printenv). I'd have to use --prefix or -x option to mpirun. –  Jakub Narębski Jul 12 '11 at 13:35

The way recent profiling tools typically handle this situation is to consult an external, matching non-stripped version of the library.

On debian-based Linux distros this is typically done by installing the -dbg suffixed version of a package; on Redhat-based they are named -debuginfo.

In the case of the tools you mentioned above; they will typically Just Work (tm) and find the debug symbols for a library if the debug info package has been installed in the standard location.

share|improve this answer
What if distribution in question is Gentoo (and I am not an administrator)? –  Jakub Narębski Jul 9 '11 at 15:49
@Jakub: Certainly in the case of perf report you can specify an alternative location to look for debuginfo files using the --symfs option. You'll have to check if your other tools support a similar option. –  Dave Rigby Jul 9 '11 at 17:49
I think I'd have to upgrade perf to have access to --symfs option; at least for 2.6.36 this option is not mentioned in documentation. –  Jakub Narębski Jul 9 '11 at 20:05

You and Employed Russian are almost certainly right; the mpirun script is messing things up here. Two options:

Most x86 MPI implementations, as a practical matter, treat just running the executable


the same as

mpirun -np 1 ./a.out.

They don't have to do this, but OpenMPI certainly does, as does MPICH2 and IntelMPI. So if you can do the debug serially, you should just be able to

valgrind --tool=callgrind ./a.out.

However, if you do want to run with mpirun, the issue is probably that your ~/.bashrc (or whatever) is being sourced, undoing your changes to LD_LIBRARY_PATH etc. Easiest is just to temporarily put your changed environment variables in your ~/.bashrc for the duration of the run.

share|improve this answer
No, it is not that. It is mpirun adding "prefix" to PATH and LD_LIBRARY_PATH, which you can check using mpirun -np 1 printenv. –  Jakub Narębski Jul 15 '11 at 8:57
If I understand it correctly valgrind --tool=callgrind ./a.out would profile also mpirun part, something I do not want; though I have not checked if it is much of hindrance. –  Jakub Narębski Jul 15 '11 at 9:30
prefix should only be the path to OpenMPI, which should be irrelevant (unless you put the fftw in the same place as the MPI libraries). and valgrind --tool=callgrind ./a.out won't magically call mpirun; it'll launch the a.out executable. –  Jonathan Dursi Jul 15 '11 at 11:58
OpenMPI uses '/usr' prefix, and mpirun prefixes '/usr/bin' to PATH, and '/usr/lib' and '/usr/lib64' (on x86_64) to LD_LIBRARY_PATH... which means that stripped system-installed library without debugging info was used by mpirun ... ./a.out and not user-installed one with debugging into. –  Jakub Narębski Jul 15 '11 at 20:22
So you do have everything installed in the same place. Not a great idea, but if you're just using whatever the package manager does for you, that'll happen; too bad. Anyway, again, the problem can be avoided by not running mpirun, as you don't need it for 1 task. If you don't believe me, try it. –  Jonathan Dursi Jul 15 '11 at 20:39

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.