Benchmark runner for OCCAM
To run OCCAM on a set of benchmarks and show metrics, type:
runbench.py --sets="portfolio.set"
If you want to run more than one benchmark set then add more .set
files in the option --sets
separated by comma:
runbench.py --sets="portfolio.set,spec2006.set"
If you want to pass extra options to slash
then type:
runbench.py --sets="portfolio.set" --slash-opts="--disable-inlining"
If you want to pass multiple options by separating them by comma:
runbench.py --sets="portfolio.set" --slash-opts="--disable-inlining,--enable-config-prime"
If you want to add a timeout or memory limit then type:
runbench.py --sets="portfolio.set" --cpu=60 --mem=4096
By default, runbench.py
runs OCCAM on the set of benchmarks selected
by option --sets
and displays the number of functions, number of
instructions, etc. before and after the specialization takes
place. The option --sets
is mandatory and expects a list of .set
files separated by comma.
The options --cpu
and --mem
set limits on CPU (in seconds) and
memory (in MB) for running OCCAM. The compilation of the programs is
unconstrained.
runbench.py
reads from the *.set
files to select which benchmarks
to run. Each *.set
file is in JSON format. For each benchmark,
there are at three fields: dirname
, a relative path wrt environment
OCCAM_HOME
variable, execname
, the name of the executable, and
enabled
whether the benchmark is enabled or not. That directory must
contain Makefile
and build.sh
. The makefile generates the bitcode
for the benchmark, and build.sh
runs OCCAM on it. The assumption is
that after running build.sh
two executables are generated: one with
suffix _orig
and the other with suffix _slashed
. The executables
are used by option --rop
so it is important to follow this
convention.
For instance, the output of runbench.py
might look like this:
Program Reduction: (B:before and A:after OCCAM)
Program B Fun A Fun % Fun Red B Ins A Ins % Ins Red B Mem Ins A Mem Ins % Mem Ins Red
tree 106 93 12 7409 8921 -20 1615 1186 26
readelf 384 281 26 83390 111227 -33 6117 7714 -26
bzip2 92 41 55 22047 19055 13 4761 4303 9
mcf 43 22 48 2592 2388 7 654 488 25
portfolio
: some real applicationsspec2006
: SPEC 2006 benchmarkscoreutils
: coreutils benchmarks
The option --rop
shows also the number of ROP, JOP, and SYS gadgets,
before and after specialization.
Gadget Reduction: (B:before and A:after OCCAM)
Program B ROP A ROP % ROP Red B SYS A SYS % SYS Red B JOP A JOP % JOP Red
tree 313 256 18 0 0 0 64 39 39
readelf 4007 3868 3 1 3 -200 2276 873 61
bzip2 479 971 -102 0 0 0 60 140 -133
mcf 168 115 31 0 0 0 0 0 0
Red
means reduction. If the percentage is negative then it means
that there was an increase.
This material is based upon work supported by the National Science Foundation under Grant ACI-1440800. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.