19

I am looking for a possibility to generate a call graph for Go projects. Something similar to Doxygen's diagram functionality for C++ classes (with the option CALL_GRAPH=YES).

So far I found

http://saml.rilspace.org/profiling-and-creating-call-graphs-for-go-programs-with-go-tool-pprof
or
http://blog.golang.org/profiling-go-programs

This samples the call stack of your program 100 times per second while the program is running and creates a graph useful for profiling. If your program spends most of its time in functions not relevant to you, I found this solution not very usefull.

Then there is this:

https://godoc.org/golang.org/x/tools/go/callgraph/static

which from its description sounds like what I would need, but there seem to be no docs and I don't understand how to use it.

I also found

https://github.com/davecheney/graphpkg/blob/master/README.md
and
https://github.com/paetzke/go-dep-graph/blob/master/README.org

but they create only dependency graphs.

12

Take a look here: http://dave.cheney.net/2014/10/22/simple-profiling-package-moved-updated

func main() {
    defer profile.Start(profile.CPUProfile, profile.ProfilePath(".")).Stop()
    // Rest of program
}

Build and run your program as per normal. You'll see the profiling hook mentioned:

2015/07/12 09:02:02 profile: cpu profiling enabled, cpu.pprof

Run your program (bench it, run through it, etc) to generate the profile during runtime. Once you've hit what you want, quit and then generate the call-graph:

go tool pprof --pdf $YOURPROGBINARY cpu.pprof > cgraph.pdf

You can also run go tool pprof $YOURPROGBINARY cpu.pprof to get an interactive prompt where you can call top10 or web to generate an svg. Type help at the pprof prompt to get a list of commands.

e.g. - here's the CPU profile for a buffer pool implementation I wrote:

~/Desktop go tool pprof poolio cpu.pprof
Entering interactive mode (type "help" for commands)
(pprof) top5
24770ms of 35160ms total (70.45%)
Dropped 217 nodes (cum <= 175.80ms)
Showing top 5 nodes out of 74 (cum >= 650ms)
      flat  flat%   sum%        cum   cum%
   12520ms 35.61% 35.61%    12520ms 35.61%  runtime.mach_semaphore_wait
    9300ms 26.45% 62.06%     9360ms 26.62%  syscall.Syscall
    1380ms  3.92% 65.98%     2120ms  6.03%  encoding/json.(*encodeState).string
    1030ms  2.93% 68.91%     1030ms  2.93%  runtime.kevent
     540ms  1.54% 70.45%      650ms  1.85%  runtime.mallocgc

And here's a quick way to generate a PNG from the prompt:

(pprof) png > graph.png
Generating report in graph.png

Which outputs this:

callgraph-example-poolio

| improve this answer | |
  • This is the method described in the first link I mentioned; I forgot to link to the original site. For me this does not give satisfactory results; I see lots of function calls which are not of interest to me, but I do not see the function calls which I am interested in at all. After some profiling runs I see some of the interesting functions, but never all. Isn't there a static tool, which simply goes through the code and creates graphs? – alex Jul 12 '15 at 8:16
  • One of my problems is that I am also interested in functions which are executed only once (during setup). Is there a way to increase the sampling rate of the tool, s.t. the probability increases that short running functions are also sampled? – alex Jul 12 '15 at 9:07
  • The sampling rate is hardcoded in runtime/pprof.go:587 via runtime.SetCPUProfileRate(hz) with hz=100, i.e. 100 samples per second. If one calls runtime.SetCPUProfileRate(desiredSamplingRate) before calling profile.Start(), one can override this. Trying to set the sampling rate after calling profile.Start() will not work ("runtime: cannot set cpu profile rate until previous profile has finished."). – alex Jul 12 '15 at 9:51
  • Still it does not solve my problem, since my program spends most of its time in http calls or waiting and the reason why I want the call graph is not for profiling but for understanding the logic of the code (not my own). I want to know how the separate components work together, i.e. which function calls which other function / the flow of the program. – alex Jul 12 '15 at 9:52
11

You were close with …/x/tools/go/callgraph/static. I'm pretty sure go install golang.org/x/tools/cmd/callgraph is what you want. Once installed run it without arguments to see it's full help/usage.

(In general, the things under …/x/tools/ are somewhat reusable packages with command line front-ends living under …/x/tools/cmd, you can install them all with go install golang.org/x/tools/cmd/..., the literal /... matches all sub-packages).

E.g. running just callgraph produces usage output that starts with:

callgraph: display the the call graph of a Go program.

Usage:

callgraph [-algo=static|cha|rta|pta] [-test] [-format=...] <args>...

Flags:

-algo Specifies the call-graph construction algorithm, one of:

        static      static calls only (unsound)
        cha         Class Hierarchy Analysis
        rta         Rapid Type Analysis
        pta         inclusion-based Points-To Analysis

       The algorithms are ordered by increasing precision in their
       treatment of dynamic calls (and thus also computational cost).
       RTA and PTA require a whole program (main or test), and
       include only functions reachable from main.

-test Include the package's tests in the analysis.

-format Specifies the format in which each call graph edge is displayed. One of:

        digraph     output suitable for input to
                    golang.org/x/tools/cmd/digraph.
        graphviz    output in AT&T GraphViz (.dot) format.

It can produce arbitrary formatted output (using Go's template syntax) or graphviz or digraph output. The last is a tool you can install with go install golang.org/x/tools/cmd/digraph (and once again, full/help usage is seen by running it without arguments) and can answer queries about arbitrary directed graphs (including call graphs obviously).

| improve this answer | |
  • Thanks! I experimented with callgraph using the different algo-flags and tried to produce a pdf using graphviz/dot or query the output of callgraph using digraph. Unfortunately, the output of callgraph contains mostly go libs and producing a pdf from the output of callgraph does not give anything usable. The query capabilities of digraph may turn out helpfull. The best solution for me would be, if I could filter out the go lib function calls - especially the deeply nested ones, for which my code is not even responsible. Maybe I can just do some postprocessing with callgraph's result. – alex Jul 12 '15 at 17:20
  • There is another major obstacle which prevents me from using callgraph - it refuses to work, when I import ZeroMQ bindings (github.com/pebbe/zmq3). The first output is "cgo pkg-config not supported" and than lots of "undeclared name" errors from the zmq package, although they are declared in the package. – alex Jul 12 '15 at 17:31
1

I used golang callgraph recently, and I build a web tool with python + callgraph called CallingViewer here: https://github.com/fiefdx/CallingViewer , it maybe rough, but it work, the screenshot at below: screenshot of CallingViewer

| improve this answer | |
  • Looks interesting, will try it out later – alex Sep 7 '16 at 14:18

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