Manual Reference Pages - APACHE::TESTSMOKE (3)
Apache::TestSmoke - Special Tests Sequence Failure Finder
# get the usage and the default values
% t/SMOKE -help
# repeat all tests 5 times and save the report into
# the file myreport
% t/SMOKE -times=5 -report=myreport
# run all tests default number of iterations, and repeat tests
# default number of times
# same as above but work only the specified tests
% t/SMOKE foo/bar foo/tar
# run once a sequence of tests in a non-random mode
# e.g. when trying to reduce a known long sequence that fails
% t/SMOKE -order=rotate -times=1 foo/bar foo/tar
# show me each currently running test
# its not the same as running the tests in the verbose mode
% t/SMOKE -verbose
# run t/TEST, but show any problems after *each* tests is run
# useful for bug reports (it actually runs t/TEST -start, then
# t/TEST -run for each test separately and finally t/TEST -stop
% t/SMOKE -bug_mode
# now read the created report file
When we try to test a stateless machine (i.e. all tests are
independent), running all tests once ensures that all tested things
properly work. However when a state machine is tested (i.e. where a
run of one test may influence another test) its not enough to run all
the tests once to know that the tested features actually work. Its
quite possible that if the same tests are run in a different order
and/or repeated a few times, some tests may fail. This usually
happens when some tests dont restore the system under test to its
pristine state at the end of the run, which may influence other tests
which rely on the fact that they start on pristine state, when in fact
its not true anymore. In fact its possible that a single test may
fail when run twice or three times in a sequence.
To reduce the possibility of such dependency errors, its helpful to
run random testing repeated many times with many different srand
seeds. Of course if no failures get spotted that doesnt mean that
there are no tests inter-dependencies, which may cause a failure in
production. But random testing definitely helps to spot many problems
and can give better test coverage.
Resolving Sequence Problems
When this kind of testing is used and a failure is detected there are
This utility attempts to solve both problems, and at the end of each
iteration print a minimal sequence of tests causing to a failure. This
doesnt always succeed, but works in many cases.
First is to be able to reproduce the problem so if we think we fixed
it, we could verify the fix. This one is easy, just remember the
sequence of tests run till the failed test and rerun the same sequence
once again after the problem has been fixed.
Second is to be able to understand the cause of the problem. If during
the random test the failure has happened after running 400 tests, how
can we possibly know which previously running tests has caused to the
failure of the test 401. Chances are that most of the tests were clean
and dont have inter-dependency problem. Therefore itd be very
helpful if we could reduce the long sequence to a minimum. Preferably
1 or 2 tests. Thats when we can try to understand the cause of the
Runs the tests randomly until the first failure is detected. Or
non-randomly if the option -order is set to repeat or rotate.
Then it tries to reduce that sequence of tests to a minimum, and this
sequence still causes to the same failure.
(XXX: todo): then it reruns the minimal sequence in the verbose mode
and saves the output.
It reports all the successful reductions as it goes to STDOUT and
report file of the format: smoke-report-<date>.txt.
In addition the systems build parameters are logged into the report
file, so the detected problems could be reproduced.
Goto 1 and run again using a new random seed, which potentially should
detect different failures.
Currently for each reduction path, the following reduction algorithms
Binary search: first try the upper half then the lower.
Random window: randomize the left item, then the right item and return
the items between these two points.
t/SMOKE.PL is driving this module, if you dont have it, create it:
use warnings FATAL => all;
use lib "$FindBin::Bin/../Apache-Test/lib";
use lib "$FindBin::Bin/../lib";
use Apache::TestSmoke ();
usually Makefile.PL converts it into t/SMOKE while adjusting the
perl path, but you create t/SMOKE in first place as well.
|perl v5.20.3 ||APACHE::TESTSMOKE (3) ||2015-06-18 |
Visit the GSP FreeBSD Man Page Interface.
Output converted with manServer 1.07.