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[[!meta copyright="Copyright © 2010, 2011 Free Software Foundation, Inc."]]
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freenode, #hurd channel, 2011-03-05:
<nixness> what about testing though?
<nixness> like sort of "what's missing? lets write tests for it so that
when someone gets to implementing it, he knows what to do. Repeat"
project
<antrik> you mean creating an automated testing framework?
<antrik> this is actually a task I want to add for this year, if I get
around to it :-)
<nixness> yeah I'd very much want to apply for that one
<nixness> cuz I've never done Kernel hacking before, but I know that with
the right tasks like "test VM functionality", I would be able to write up
the automated tests and hopefully learn more about what breaks/makes the
kernel
<nixness> (and it would make implementing the feature much less hand-wavy
and more correct)
<nixness> antrik, I believe the framework(CUnit right?) exists, but we just
need to write the tests.
<antrik> do you have prior experience implementing automated tests?
<nixness> lots of tests!
<nixness> yes, in Java mostly, but I've played around with CUnit
<antrik> ah, great :-)
<nixness> here's what I know from experience: 1) write basic tests. 2)
write ones that test multiple features 3) stress test [option 4)
benchmark and record to DB]
<youpi> well, what we'd rather need is to fix the issues we already know
from the existing testsuites :)
[[GSoC project propsal|community/gsoc/project_ideas/testsuites]].
<nixness> youpi, true, and I think I should check what's available in way
of tests, but if the tests are "all or nothing" then it becomes really
hard to fix your mistakes
<youpi> they're not all or nothing
<antrik> youpi: the existing testsuites don't test specific system features
<youpi> libc ones do
<youpi> we could also check posixtestsuite which does too
[[open_issues/open_posix_test_suite]].
<antrik> AFAIK libc has very few failing tests
[[open_issues/glibc_testsuite]].
<youpi> err, like twenty?
<youpi> € grep -v '^#' expected-results-i486-gnu-libc | wc -l
<youpi> 67
<youpi> nope, even more
<antrik> oh, sorry, I confused it with coreutils
<pinotree> plus the binutils ones, i guess
<youpi> yes
[[open_issues/binutils#weak]].
<antrik> anyways, I don't think relying on external testsuites for
regression testing is a good plan
<antrik> also, that doesn't cover unit testing at all
<youpi> why ?
<youpi> sure there can be unit testing at the translator etc. level
<antrik> if we want to implement test-driven development, and/or do serious
refactoring without too much risk, we need a test harness where we can
add specific tests as needed
<youpi> but more than often, the issues are at the libc / etc. level
because of a combination o fthings at the translator level, which unit
testing won't find out
* nixness yewzzz!
<nixness> sure unit testing can find them out. if they're good "unit" tests
<youpi> the problem is that you don't necessarily know what "good" means
<youpi> e.g. for posix correctness
<youpi> since it's not posix
<nixness> but if they're composite clever tests, then you lose that
granularity
<nixness> youpi, is that a blackbox test intended to be run at the very end
to check if you're posix compliant?
<antrik> also, if we have our own test harness, we can run tests
automatically as part of the build process, which is a great plus IMHO
<youpi> nixness: "that" = ?
<nixness> oh nvm, I thought there was a test stuie called "posix
correctness"
<youpi> there's the posixtestsuite yes
<youpi> it's an external one however
<youpi> antrik: being external doesn't mean we can't invoke it
automatically as part of the build process when it's available
<nixness> youpi, but being internal means it can test the inner workings of
certain modules that you are unsure of, and not just the interface
<youpi> sure, that's why I said it'd be useful too
<youpi> but as I said too, most bugs I've seen were not easy to find out at
the unit level
<youpi> but rather at the libc level
<antrik> of course we can integrate external tests if they exist and are
suitable. but that that doesn't preclude adding our own ones too. in
either case, that integration work has to be done too
<youpi> again, I've never said I was against internal testsuite
<antrik> also, the major purpose of a test suite is checking known
behaviour. a low-level test won't directly point to a POSIX violation;
but it will catch any changes in behaviour that would lead to one
<youpi> what I said is that it will be hard to write them tight enough to
find bugs
<youpi> again, the problem is knowing what will lead to a POSIX violation
<youpi> it's long work
<youpi> while libc / posixtestsuite / etc. already do that
<antrik> *any* unexpected change in behaviour is likely to cause bugs
somewher
<youpi> but WHAT is "expected" ?
<youpi> THAT is the issue
<youpi> and libc/posixtessuite do know that
<youpi> at the translator level we don't really
<youpi> see the recent post about link()
[link(dir,name) should fail with
EPERM](http://lists.gnu.org/archive/html/bug-hurd/2011-03/msg00007.html)
<youpi> in my memory jkoenig pointed it out for a lot of such calls
<youpi> and that issue is clearly not known at the translator level
<nixness> so you're saying that the tests have to be really really
low-level, and work our way up?
<youpi> I'm saying that the translator level tests will be difficult to
write
<antrik> why isn't it known at the translator level? if it's a translator
(not libc) bug, than obviously the translator must return something wrong
at some point, and that's something we can check
<youpi> because you'll have to know all the details of the combinations
used in libc, to know whether they'll lead to posix issues
<youpi> antrik: sure, but how did we detect that that was unexpected
behavior?
<youpi> because of a glib test
<youpi> at the translator level we didn't know it was an unexpected
behavior
<antrik> gnulib actually
<youpi> and if you had asked me, I wouldn't have known
<antrik> again, we do *not* write a test suite to find existing bugs
<youpi> right, took one for the other
<youpi> doesn't really matter actually
<youpi> antrik: ok, I don't care then
<antrik> we write a test suite to prevent future bugs, or track status of
known bugs
<youpi> (don't care *enough* for now, I mean)
<nixness> hmm, so write something up antrik for GSoC :) and I'll be sure to
apply
<antrik> now that we know some translators return a wrong error status in a
particular situation, we can write a test that checks exactly this error
status. that way we know when it is fixed, and also when it breaks again
<antrik> nixness: great :-)
<nixness> sweet. that kind of thing would also need a db backend
<antrik> nixness: BTW, if you have a good idea, you can send an application
for it even if it's not listed among the proposed tasks...
<antrik> so you don't strictly need a writeup from me to apply for this :-)
<nixness> antrik, I'll keep that in mind, but I'll also be checking your
draft page
<nixness> oh cool :)
<antrik> (and it's a well known fact that those projects which students
proposed themselfs tend to be the most successful ones :-) )
* nixness draft initiated
<antrik> youpi: BTW, I'm surprised that you didn't mention libc testsuite
before... working up from there is probably a more effective plan than
starting with high-level test suites like Python etc...
<youpi> wasn't it already in the gsoc proposal?
<youpi> bummer
<antrik> nope
freenode, #hurd channel, 2011-03-06:
<nixness> how's the hurd coding workflow, typically?
*nixness* -> *foocraft*.
<foocraft> we're discussing how TDD can work with Hurd (or general kernel
development) on #osdev
<foocraft> so what I wanted to know, since I haven't dealt much with GNU
Hurd, is how do you guys go about coding, in this case
<tschwinge> Our current workflow scheme is... well... is...
<tschwinge> Someone wants to work on something, or spots a bug, then works
on it, submits a patch, and 0 to 10 years later it is applied.
<tschwinge> Roughly.
<foocraft> hmm so there's no indicator of whether things broke with that
patch
<foocraft> and how low do you think we can get with tests? A friend of mine
was telling me that with kernel dev, you really don't know whether, for
instance, the stack even exists, and a lot of things that I, as a
programmer, can assume while writing code break when it comes to writing
kernel code
<foocraft> Autotest seems promising
See autotest link given above.
<foocraft> but in any case, coming up with the testing framework that
doesn't break when the OS itself breaks is hard, it seems
<foocraft> not sure if autotest isolates the mistakes in the os from
finding their way in the validity of the tests themselves
<youpi> it could be interesting to have scripts that automatically start a
sub-hurd to do the tests
[[hurd/subhurd#unit_testing]].
<tschwinge> foocraft: To answer one of your earlier questions: you can do
really low-level testing. Like testing Mach's message passing. A
million times. The questions is whether that makes sense. And / or if
it makes sense to do that as part of a unit testing framework. Or rather
do such things manually once you suspect an error somewhere.
<tschwinge> The reason for the latter may be that Mach IPC is already
heavily tested during normal system operation.
<tschwinge> And yet, there still may be (there are, surely) bugs.
<tschwinge> But I guess that you have to stop at some (arbitrary?) level.
<foocraft> so we'd assume it works, and test from there
<tschwinge> Otherwise you'd be implementing the exact counter-part of what
you're testing.
<tschwinge> Which may be what you want, or may be not. Or it may just not
be feasible.
<foocraft> maybe the testing framework should have dependencies
<foocraft> which we can automate using make, and phony targets that run
tests
<foocraft> so everyone writes a test suite and says that it depends on A
and B working correctly
<foocraft> then it'd go try to run the tests for A etc.
<tschwinge> Hmm, isn't that -- on a high level -- have you have by
different packages? For example, the perl testsuite depends (inherently)
on glibc working properly. A perl program's testsuite depends on perl
working properly.
<foocraft> yeah, but afaik, the ordering is done by hand
freenode, #hurd channel, 2011-03-07:
<antrik> actually, I think for most tests it would be better not to use a
subhurd... that leads precisely to the problem that if something is
broken, you might have a hard time running the tests at all :-)
<antrik> foocraft: most of the Hurd code isn't really low-level. you can
use normal debugging and testing methods
<antrik> gnumach of course *does* have some low-level stuff, so if you add
unit tests to gnumach too, you might run into issues :-)
<antrik> tschwinge: I think testing IPC is a good thing. as I already said,
automated testing is *not* to discover existing but unknown bugs, but to
prevent new ones creeping in, and tracking progress on known bugs
<antrik> tschwinge: I think you are confusing unit testing and regression
testing. http://www.bddebian.com/~hurd-web/open_issues/unit_testing/
talks about unit testing, but a lot (most?) of it is actually about
regression tests...
<tschwinge> antrik: That may certainly be -- I'm not at all an expert in
this, and just generally though that some sort of automated testing is
needed, and thus started collecting ideas.
<tschwinge> antrik: You're of course invited to fix that.
IRC, freenode, #hurd, 2011-03-08
(After discussing the [[open_issues/anatomy_of_a_hurd_system]].)
<antrik> so that's what your question is actually about?
<foocraft> so what I would imagine is a set of only-this-server tests for
each server, and then we can have fun adding composite tests
<foocraft> thus making debugging the composite scenarios a bit less tricky
<antrik> indeed
<foocraft> and if you were trying to pass a composite test, it would also
help knowing that you still didn't break the server-only test
<antrik> there are so many different things that can be tested... the
summer will only suffice to dip into this really :-)
<foocraft> yeah, I'm designing my proposal to focus on 1) make/use a
testing framework that fits the Hurd case very well 2) write some tests
and docs on how to write good tests
<antrik> well, doesn't have to be *one* framework... unit testing and
regression testing are quite different things, which can be covered by
different frameworks
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