[PATCH v31 05/12] arm64: kdump: protect crash dump kernel memory
AKASHI Takahiro
takahiro.akashi at linaro.org
Thu Feb 2 06:36:04 PST 2017
On Thu, Feb 02, 2017 at 11:16:37AM +0000, Mark Rutland wrote:
> Hi,
>
> On Thu, Feb 02, 2017 at 07:31:30PM +0900, AKASHI Takahiro wrote:
> > On Wed, Feb 01, 2017 at 06:00:08PM +0000, Mark Rutland wrote:
> > > On Wed, Feb 01, 2017 at 09:46:24PM +0900, AKASHI Takahiro wrote:
> > > > arch_kexec_protect_crashkres() and arch_kexec_unprotect_crashkres()
> > > > are meant to be called around kexec_load() in order to protect
> > > > the memory allocated for crash dump kernel once after it's loaded.
> > > >
> > > > The protection is implemented here by unmapping the region rather than
> > > > making it read-only.
> > > > To make the things work correctly, we also have to
> > > > - put the region in an isolated, page-level mapping initially, and
> > > > - move copying kexec's control_code_page to machine_kexec_prepare()
> > > >
> > > > Note that page-level mapping is also required to allow for shrinking
> > > > the size of memory, through /sys/kernel/kexec_crash_size, by any number
> > > > of multiple pages.
> > >
> > > Looking at kexec_crash_size_store(), I don't see where memory returned
> > > to the OS is mapped. AFAICT, if the region is protected when the user
> > > shrinks the region, the memory will not be mapped, yet handed over to
> > > the kernel for general allocation.
> >
> > The region is protected only when the crash dump kernel is loaded,
> > and after that, we are no longer able to shrink the region.
>
> Ah, sorry. My misunderstanding strikes again. That should be fine; sorry
> for the noise, and thanks for explaining.
>
> > > > @@ -538,6 +540,24 @@ static void __init map_mem(pgd_t *pgd)
> > > > if (memblock_is_nomap(reg))
> > > > continue;
> > > >
> > > > +#ifdef CONFIG_KEXEC_CORE
> > > > + /*
> > > > + * While crash dump kernel memory is contained in a single
> > > > + * memblock for now, it should appear in an isolated mapping
> > > > + * so that we can independently unmap the region later.
> > > > + */
> > > > + if (crashk_res.end &&
> > > > + (start <= crashk_res.start) &&
> > > > + ((crashk_res.end + 1) < end)) {
> > > > + if (crashk_res.start != start)
> > > > + __map_memblock(pgd, start, crashk_res.start);
> > > > +
> > > > + if ((crashk_res.end + 1) < end)
> > > > + __map_memblock(pgd, crashk_res.end + 1, end);
> > > > +
> > > > + continue;
> > > > + }
> > > > +#endif
> > >
> > > This wasn't quite what I had in mind. I had expected that here we would
> > > isolate the ranges we wanted to avoid mapping (with a comment as to why
> > > we couldn't move the memblock_isolate_range() calls earlier). In
> > > map_memblock(), we'd skip those ranges entirely.
> > >
> > > I believe the above isn't correct if we have a single memblock.memory
> > > region covering both the crashkernel and kernel regions. In that case,
> > > we'd erroneously map the portion which overlaps the kernel.
> > >
> > > It seems there are a number of subtle problems here. :/
> >
> > I didn't see any problems, but I will go back with memblock_isolate_range()
> > here in map_mem().
>
> Imagine we have phyiscal memory:
>
> singe RAM bank: |---------------------------------------------------|
> kernel image: |---|
> crashkernel: |------|
>
> ... we reserve the image and crashkernel region, but these would still
> remain part of the memory memblock, and we'd have a memblock layout
> like:
>
> memblock.memory: |---------------------------------------------------|
> memblock.reserved: |---| |------|
>
> ... in map_mem() we iterate over memblock.memory, so we only have a
> single entry to handle in this case. With the code above, we'd find that
> it overlaps the crashk_res, and we'd map the parts which don't overlap,
> e.g.
>
> memblock.memory: |---------------------------------------------------|
> crashkernel: |------|
> mapped regions: |-----------------------------| |------------|
I'm afraid that you might be talking about my v30.
The code in v31 was a bit modified, and now
> ... hwoever, this means we've mapped the portion which overlaps with the
> kernel's linear alias (i.e. the case that we try to handle in
> __map_memblock()). What we actually wanted was:
>
> memblock.memory: |---------------------------------------------------|
> kernel image: |---|
> crashkernel: |------|
|-----------(A)---------------| |----(B)-----|
__map_memblock() is called against each of (A) and (B),
so I think we will get
> mapped regions: |------| |----------------| |------------|
this mapping.
>
>
> To handle all cases I think we have to isolate *both* the image and
> crashkernel in map_mem(). That would leave use with:
>
> memblock.memory: |------||---||----------------||------||------------|
> memblock.reserved: |---| |------|
>
> ... so then we can check for overlap with either the kernel or
> crashkernel in __map_memblock(), and return early, e.g.
>
> __map_memblock(...)
> if (overlaps_with_kernel(...))
> return;
> if (overlaps_with_crashekrenl(...))
> return;
>
> __create_pgd_mapping(...);
> }
>
> We can pull the kernel alias mapping out of __map_memblock() and put it
> at the end of map_mem().
>
> Does that make sense?
OK, I now understand your anticipation.
Thanks,
-Takahiro AKASHI
> Thanks,
> Mark.
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