linux perf: how to interpret and find hotspots

Question

I tried out linux' perf utility today and am having trouble in interpreting its results. I'm used to valgrind's callgrind which is of course a totally different approach to the sampling based method of perf.

What I did:

perf record -g -p $(pidof someapp)
perf report -g -n

Now I see something like this:

+     16.92%  kdevelop  libsqlite3.so.0.8.6               [.] 0x3fe57                                                                                                              ↑
+     10.61%  kdevelop  libQtGui.so.4.7.3                 [.] 0x81e344                                                                                                             ▮
+      7.09%  kdevelop  libc-2.14.so                      [.] 0x85804                                                                                                              ▒
+      4.96%  kdevelop  libQtGui.so.4.7.3                 [.] 0x265b69                                                                                                             ▒
+      3.50%  kdevelop  libQtCore.so.4.7.3                [.] 0x18608d                                                                                                             ▒
+      2.68%  kdevelop  libc-2.14.so                      [.] memcpy                                                                                                               ▒
+      1.15%  kdevelop  [kernel.kallsyms]                 [k] copy_user_generic_string                                                                                             ▒
+      0.90%  kdevelop  libQtGui.so.4.7.3                 [.] QTransform::translate(double, double)                                                                                ▒
+      0.88%  kdevelop  libc-2.14.so                      [.] __libc_malloc                                                                                                        ▒
+      0.85%  kdevelop  libc-2.14.so                      [.] memcpy 
...

Ok, these functions might be slow, but how do I find out where they are getting called from? As all these hotspots lie in external libraries I see no way to optimize my code.

Basically I am looking for some kind of callgraph annotated with accumulated cost, where my funtions have a higher inclusive sampling cost than the library functions I call.

Is this possible with perf? If so - how?

Note: I found out that "E" unwraps the callgraph and gives somewhat more information. But the callgraph is often not deep enough and/or terminates randomly without giving information about how much info was spent where. Example:

-     10.26%  kate  libkatepartinterfaces.so.4.6.0  [.] Kate::TextLoader::readLine(int&...
     Kate::TextLoader::readLine(int&, int&)                                            
     Kate::TextBuffer::load(QString const&, bool&, bool&)                              
     KateBuffer::openFile(QString const&)                                              
     KateDocument::openFile()                                                          
     0x7fe37a81121c

Could it be an issue that I'm running on 64 bit? See also: http://lists.fedoraproject.org/pipermail/devel/2010-November/144952.html (I'm not using fedora but seems to apply to all 64bit systems).

Answer 1

Unless your program has very few functions and hardly ever calls a system function or I/O, profilers that sample the program counter won't tell you much, as you're discovering.

What actually works is something that samples the call stack (thereby finding out where the calls are coming from), on wall-clock time (thereby including I/O time), and report by line or by instruction (thereby pinpointing the function calls that you should investigate, not just the functions they live in).

Furthermore, the statistic you should look for is percent of time on stack, not number of calls, not average inclusive function time. Especially not "self time". If a call instruction (or a non-call instruction) is on the stack 38% of the time, then if you could get rid of it, how much would you save? 38%! Pretty simple, no?

An example of such a profiler is Zoom.

There are more issues to be understood on this subject.

Added: @caf got me hunting for the perf info, and since you included the command-line argument -g it does collect stack samples. Then you can get a call-tree report. Then if you make sure you're sampling on wall-clock time (so you get wait time as well as cpu time) then you've got almost what you need.