llvm dev - Jun 2012 - [LLVMdev] AddressSanitizer+CMake unittest question

On Mon, Jun 25, 2012 at 5:43 PM, Kostya Serebryany <kcc at google.com>
wrote:
>
>
> On Mon, Jun 25, 2012 at 4:00 PM, Chandler Carruth <chandlerc at
google.com>wrote:
>
>> Context: I'm trying to implement support for ASan's unittest
suite in
>> CMake. This is ... quite challenging.
>>
>> I think I can get it to work with one significant caveat: it will
require
>> manual dependency management. None of the automatic header tracking. I
>> think this is fine in some cases, and not so fine in other cases. Let
me
>> explain.
>>
>> It feels like these tests are really comprised of two distinct
>> collections of tests:
>>
>> 1) Those that rather directly test the ASan runtime. These do not rely
>> upon the compiler instrumenting the code, and simply exercise the
runtime
>> library directly.
>> 2) Those that expect to be instrumented by the compiler, and exercise
the
>> runtime through GoogleTest's death tests on seemingly innocuous
code.
>>
>> For the first bucket, there is no problem. We should be able to handle
>> these easily.
>>
>> For the second bucket, this can be a bit tricky. It requires compiling
>> the tests with a custom compiler and flags. Let's talk about the
options
>> for supporting this case.
>>
>> A) We could require the host compiler to have support for
>> -faddress-sanitizer, but ensure that the just-built runtime library is
used
>> rather than the host compiler's runtime library.
>> B) We can depend upon the Clang built in the same LLVM/Clang/CompilerRT
>> checkout, and provide a custom compilation strategy to use it to
instrument
>> the unittest code.
>>
>>
>> Option A has fairly obvious problems: it introduces version skew into
the
>> equation, and would require a full bootstrap to test new
instrumentation.
>> However, it plays very nicely with the build system, requiring no
special
>> magic. It also would "Just Work" in the cross-compilation
scenario, as much
>> as any unittest would.
>>
>> Option B avoids any version skew issues, but at the cost of requiring
us
>> to implement a "complete" custom compilation strategy for
these source
>> files. At the very least, this will not be portable and thus will only
be
>> enabled on a few platforms, and it will not get automatic header
dependency
>> tracking.
>>
>
B is highly preferable.
I.e.:
  1. Build clang
  2. Build asan-rt (doesn't not matter with which compiler)
  3. build asan-rt-tests using clang from #1
This is what we use now anyway.
There could of course be dependencies between asan-rt and asan-rt-tests,
but even worth, there could be dependencies between the instrumentation
module in LLVM and asan-rt-tests.


>
>>
>> I can pursue either of these options, but I'd like to know which
the ASan
>> folks would be most interested in working with.
>>
>> Second, it would be extremely helpful to have a very firm separation
>> between bucket #1 and bucket #2.
>>
>
> (answering parts at a time)
> Agree. I am going to fix that now.
>
This part is fixed by r159135.

thanks!!

--kcc

>
>
>>  Currently, there is one collection of tests clearly in bucket #1
>> (asan_noinst_test.cc), and plenty of tests clearly in bucket #2, but
there
>> seems to be quite a bit of overlap as well. For example, I would
naively
>> expect asan_interface_test.cc to not require instrumentation -- it
almost
>> exclusively directly calls the runtime. But it is currently being
compiled
>> with instrumentation by the Makefile.old, so I'm at a loss.
Separating
>> these two scenarios into at least separate files, and ideally linking
them
>> into two separate binaries would make everything much simpler. For
example,
>> bucket #2 shouldn't need to include any of ASan's header files,
making it
>> easier to manage manual dependencies if necessary.
>>
>> _______________________________________________
>> LLVM Developers mailing list
>> LLVMdev at cs.uiuc.edu         http://llvm.cs.uiuc.edu
>> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
>>
>>
>
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On Mon, Jun 25, 2012 at 7:38 AM, Kostya Serebryany <kcc at google.com>
wrote:
>
>
>
> On Mon, Jun 25, 2012 at 5:43 PM, Kostya Serebryany <kcc at
google.com> wrote:
>>
>>
>>
>> On Mon, Jun 25, 2012 at 4:00 PM, Chandler Carruth <chandlerc at
google.com> wrote:
>>>
>>> Context: I'm trying to implement support for ASan's
unittest suite in CMake. This is ... quite challenging.
>>>
>>> I think I can get it to work with one significant caveat: it will
require manual dependency management. None of the automatic header tracking. I
think this is fine in some cases, and not so fine in other cases. Let me
explain.
>>>
>>> It feels like these tests are really comprised of two distinct
collections of tests:
>>>
>>> 1) Those that rather directly test the ASan runtime. These do not
rely upon the compiler instrumenting the code, and simply exercise the runtime
library directly.
>>> 2) Those that expect to be instrumented by the compiler, and
exercise the runtime through GoogleTest's death tests on seemingly innocuous
code.
>>>
>>> For the first bucket, there is no problem. We should be able to
handle these easily.
>>>
>>> For the second bucket, this can be a bit tricky. It requires
compiling the tests with a custom compiler and flags. Let's talk about the
options for supporting this case.
>>>
>>> A) We could require the host compiler to have support for
-faddress-sanitizer, but ensure that the just-built runtime library is used
rather than the host compiler's runtime library.
>>> B) We can depend upon the Clang built in the same
LLVM/Clang/CompilerRT checkout, and provide a custom compilation strategy to use
it to instrument the unittest code.
>>>
>>>
>>> Option A has fairly obvious problems: it introduces version skew
into the equation, and would require a full bootstrap to test new
instrumentation. However, it plays very nicely with the build system, requiring
no special magic. It also would "Just Work" in the cross-compilation
scenario, as much as any unittest would.
>>>
>>> Option B avoids any version skew issues, but at the cost of
requiring us to implement a "complete" custom compilation strategy for
these source files. At the very least, this will not be portable and thus will
only be enabled on a few platforms, and it will not get automatic header
dependency tracking.
>
>
> B is highly preferable.
> I.e.:
>   1. Build clang
>   2. Build asan-rt (doesn't not matter with which compiler)
>   3. build asan-rt-tests using clang from #1
> This is what we use now anyway.
> There could of course be dependencies between asan-rt and asan-rt-tests,
but even worth, there could be dependencies between the instrumentation module
in LLVM and asan-rt-tests.
Ok... :: sigh :: Have to go and make this hard on me.


An additional constraint that would make this slightly easier: for the
tests which require instrumentation, could they strictly avoid
including headers outside of the test-helper headers? That is, none of
the libasan headers themselves.

This would make dependency management much much simpler, which seems
important given that it must be done manually.

On Tue, Jun 26, 2012 at 11:06 AM, Chandler Carruth <chandlerc at
google.com>wrote:
> On Mon, Jun 25, 2012 at 7:38 AM, Kostya Serebryany <kcc at
google.com> wrote:
> >
> >
> >
> > On Mon, Jun 25, 2012 at 5:43 PM, Kostya Serebryany <kcc at
google.com>
> wrote:
> >>
> >>
> >>
> >> On Mon, Jun 25, 2012 at 4:00 PM, Chandler Carruth <chandlerc at
google.com>
> wrote:
> >>>
> >>> Context: I'm trying to implement support for ASan's
unittest suite in
> CMake. This is ... quite challenging.
> >>>
> >>> I think I can get it to work with one significant caveat: it
will
> require manual dependency management. None of the automatic header
> tracking. I think this is fine in some cases, and not so fine in other
> cases. Let me explain.
> >>>
> >>> It feels like these tests are really comprised of two distinct
> collections of tests:
> >>>
> >>> 1) Those that rather directly test the ASan runtime. These do
not rely
> upon the compiler instrumenting the code, and simply exercise the runtime
> library directly.
> >>> 2) Those that expect to be instrumented by the compiler, and
exercise
> the runtime through GoogleTest's death tests on seemingly innocuous
code.
> >>>
> >>> For the first bucket, there is no problem. We should be able
to handle
> these easily.
> >>>
> >>> For the second bucket, this can be a bit tricky. It requires
compiling
> the tests with a custom compiler and flags. Let's talk about the
options
> for supporting this case.
> >>>
> >>> A) We could require the host compiler to have support for
> -faddress-sanitizer, but ensure that the just-built runtime library is used
> rather than the host compiler's runtime library.
> >>> B) We can depend upon the Clang built in the same
> LLVM/Clang/CompilerRT checkout, and provide a custom compilation strategy
> to use it to instrument the unittest code.
> >>>
> >>>
> >>> Option A has fairly obvious problems: it introduces version
skew into
> the equation, and would require a full bootstrap to test new
> instrumentation. However, it plays very nicely with the build system,
> requiring no special magic. It also would "Just Work" in the
> cross-compilation scenario, as much as any unittest would.
> >>>
> >>> Option B avoids any version skew issues, but at the cost of
requiring
> us to implement a "complete" custom compilation strategy for
these source
> files. At the very least, this will not be portable and thus will only be
> enabled on a few platforms, and it will not get automatic header dependency
> tracking.
> >
> >
> > B is highly preferable.
> > I.e.:
> >   1. Build clang
> >   2. Build asan-rt (doesn't not matter with which compiler)
> >   3. build asan-rt-tests using clang from #1
> > This is what we use now anyway.
> > There could of course be dependencies between asan-rt and
asan-rt-tests,
> but even worth, there could be dependencies between the instrumentation
> module in LLVM and asan-rt-tests.
>
> Ok... :: sigh :: Have to go and make this hard on me.
>
> An additional constraint that would make this slightly easier: for the
> tests which require instrumentation, could they strictly avoid
> including headers outside of the test-helper headers? That is, none of
> the libasan headers themselves.
>
Um, I guess so. AFAIR, it is true even now. I assume, including gtest
headers is a
separate problem?

>
> This would make dependency management much much simpler, which seems
> important given that it must be done manually.
>
> _______________________________________________
> LLVM Developers mailing list
> LLVMdev at cs.uiuc.edu         http://llvm.cs.uiuc.edu
> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
>


-- 
Alexey Samsonov, MSK
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