> On Nov 21, 2017, at 2:09 AM, Dmitry Vyukov <[email protected]> wrote:
>
>> On Mon, Nov 20, 2017 at 10:44 PM, Andy Lutomirski <[email protected]> wrote:
>>> On Mon, Nov 20, 2017 at 9:07 AM, Andy Lutomirski <[email protected]> wrote:
>>> This sets up stack switching, including for SYSCALL. I think it's
>>> in decent shape.
>>>
>>> Known issues:
>>> - KASAN is likely to be busted. This could be fixed either by teaching
>>> KASAN that cpu_entry_area contains valid stacks (I have no clue how
>>> to go about doing this) or by rigging up the IST entry code to switch
>>> RSP to point to the direct-mapped copy of the stacks before calling
>>> into non-KASAN-excluded C code.
>>>
>>
>> I tried to fix the KASAN issue, and I'm doing something wrong. I'm
>> building this tree:
>>
>> https://git.kernel.org/pub/scm/linux/kernel/git/luto/linux.git/commit/?h=x86/entry_stack&id=8319677bd04a1ab291ca71fe1da7aa023306e4a9
>>
>> for 64 bits with KASAN on. The relevant commit is:
>>
>> https://git.kernel.org/pub/scm/linux/kernel/git/luto/linux.git/commit/?h=x86/entry_stack&id=a4bdb48c3469708b6b51e5ab90d27bf0c859000c
>>
>> If I run tools/testing/selftests/single_step_syscall_32, then the
>> kernel goes into lala land and infinite loops. The root cause seems
>> to we're hitting do_debug with RSP pointing into the fixmap,
>> specifically in the cpu_entry_area's exception stack, with a value of
>> roughly 0xffffffffff1bd108. The KASAN instrumentation in do_debug is
>> then getting a page fault. I think my KASAN setup code should be
>> populating the KASAN data there and, indeed, gdb seems to be able to
>> access the faulting address. So I'm confused.
>
>
> Hi,
>
> I don't have any great insights.
>
> You have stack instrumentation turned on, right? And the fault happens
> on stack instrumentation?
> Stack instrumentation is turned on with gcc7+ I think. And as the
> result compiler adds redzones on stack and poisons/unpoisons shadow
> for them in function prologue/epilogue.
I found the problem. I goofed in the setup code, so I ended up with a only zero page in the shadow. Turns out that gdb can happily write to read only memory :(
>
> The fact that KASAN instrumentation faults, but gdb can access it
> sounds strange. KASAN instrumentation is no magic, it just does not a
> normal memory load. Please check exact faulting address. KASAN can do
> accesses with large offset from RSP.
>
> Does the fault happen before/after kasan_early_init? Before that there
> is a different bootstrap shadow mapped by kasan_map_early_shadow.
>
> Does the fault happen on read access or write access? Stack
> instrumentation does write into shadow, but some parts of shadow are
> mapped with a single read-only page. Can gdb write to that address?
>
> Is it possible that the stack has overflowed? I see that we increase
> EXCEPTION_STACK_ORDER by order 1 under KASAN (from 4k page to 8k
> pages), but it may be not enough. Normal stacks are increased from 16k
> to 32k.
>
> Last stupid question: why is it -1 here:
> FIX_CPU_ENTRY_AREA_BOTTOM = FIX_CPU_ENTRY_AREA_TOP +
> (CPU_ENTRY_AREA_PAGES * NR_CPUS) - 1,
> ?
> Say CPU_ENTRY_AREA_PAGES=1 (we need only 1 page) and NR_CPUS=1, then
> the increment will be 0, which looks wrong for any case (must be at
> least 1, right?).
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