[PATCH 0/4] arch, mm: improve robustness of direct map manipulation
David Hildenbrand
david at redhat.com
Tue Oct 27 21:34:49 AEDT 2020
On 27.10.20 10:47, Mike Rapoport wrote:
> On Tue, Oct 27, 2020 at 09:46:35AM +0100, David Hildenbrand wrote:
>> On 27.10.20 09:38, Mike Rapoport wrote:
>>> On Mon, Oct 26, 2020 at 06:05:30PM +0000, Edgecombe, Rick P wrote:
>>>> On Mon, 2020-10-26 at 11:05 +0200, Mike Rapoport wrote:
>>>>> On Mon, Oct 26, 2020 at 01:13:52AM +0000, Edgecombe, Rick P wrote:
>>>>>> On Sun, 2020-10-25 at 12:15 +0200, Mike Rapoport wrote:
>>>>>>> Indeed, for architectures that define
>>>>>>> CONFIG_ARCH_HAS_SET_DIRECT_MAP
>>>>>>> it is
>>>>>>> possible that __kernel_map_pages() would fail, but since this
>>>>>>> function is
>>>>>>> void, the failure will go unnoticed.
>>>>>>
>>>>>> Could you elaborate on how this could happen? Do you mean during
>>>>>> runtime today or if something new was introduced?
>>>>>
>>>>> A failure in__kernel_map_pages() may happen today. For instance, on
>>>>> x86
>>>>> if the kernel is built with DEBUG_PAGEALLOC.
>>>>>
>>>>> __kernel_map_pages(page, 1, 0);
>>>>>
>>>>> will need to split, say, 2M page and during the split an allocation
>>>>> of
>>>>> page table could fail.
>>>>
>>>> On x86 at least, DEBUG_PAGEALLOC expects to never have to break a page
>>>> on the direct map and even disables locking in cpa because it assumes
>>>> this. If this is happening somehow anyway then we should probably fix
>>>> that. Even if it's a debug feature, it will not be as useful if it is
>>>> causing its own crashes.
>>>>
>>>> I'm still wondering if there is something I'm missing here. It seems
>>>> like you are saying there is a bug in some arch's, so let's add a WARN
>>>> in cross-arch code to log it as it crashes. A warn and making things
>>>> clearer seem like good ideas, but if there is a bug we should fix it.
>>>> The code around the callers still functionally assume re-mapping can't
>>>> fail.
>>>
>>> Oh, I've meant x86 kernel *without* DEBUG_PAGEALLOC, and indeed the call
>>> that unmaps pages back in safe_copy_page will just reset a 4K page to
>>> NP because whatever made it NP at the first place already did the split.
>>>
>>> Still, on arm64 with DEBUG_PAGEALLOC=n there is a possibility of a race
>>> between map/unmap dance in __vunmap() and safe_copy_page() that may
>>> cause access to unmapped memory:
>>>
>>> __vunmap()
>>> vm_remove_mappings()
>>> set_direct_map_invalid()
>>> safe_copy_page()
>>> __kernel_map_pages()
>>> return
>>> do_copy_page() -> fault
>>>
>>> This is a theoretical bug, but it is still not nice :)
>>>
>>>>> Currently, the only user of __kernel_map_pages() outside
>>>>> DEBUG_PAGEALLOC
>>>>> is hibernation, but I think it would be safer to entirely prevent
>>>>> usage
>>>>> of __kernel_map_pages() when DEBUG_PAGEALLOC=n.
>>>>
>>>> I totally agree it's error prone FWIW. On x86, my mental model of how
>>>> it is supposed to work is: If a page is 4k and NP it cannot fail to be
>>>> remapped. set_direct_map_invalid_noflush() should result in 4k NP
>>>> pages, and DEBUG_PAGEALLOC should result in all 4k pages on the direct
>>>> map. Are you seeing this violated or do I have wrong assumptions?
>>>
>>> You are right, there is a set of assumptions about the remapping of the
>>> direct map pages that make it all work, at least on x86.
>>> But this is very subtle and it's not easy to wrap one's head around
>>> this.
>>>
>>> That's why putting __kernel_map_pages() out of "common" use and
>>> keep it only for DEBUG_PAGEALLOC would make things clearer.
>>>
>>>> Beyond whatever you are seeing, for the latter case of new things
>>>> getting introduced to an interface with hidden dependencies... Another
>>>> edge case could be a new caller to set_memory_np() could result in
>>>> large NP pages. None of the callers today should cause this AFAICT, but
>>>> it's not great to rely on the callers to know these details.
>>> A caller of set_memory_*() or set_direct_map_*() should expect a failure
>>> and be ready for that. So adding a WARN to safe_copy_page() is the first
>>> step in that direction :)
>>>
>>
>> I am probably missing something important, but why are we saving/restoring
>> the content of pages that were explicitly removed from the identity mapping
>> such that nobody will access them?
>>
>> Pages that are not allocated should contain garbage or be zero
>> (init_on_free). That should be easy to handle without ever reading the page
>> content.
>
> I'm not familiar with hibernation to say anything smart here, but the
> help text of DEBUG_PAGEALLOC in Kconfig says:
>
> ... this option cannot be enabled in combination with
> hibernation as that would result in incorrect warnings of memory
> corruption after a resume because free pages are not saved to
> the suspend image.
>
> Probably you are right and free pages need to be handled differently,
> but it does not seem the case now.
>
>> The other user seems to be vm_remove_mappings(), where we only *temporarily*
>> remove the mapping - while hibernating, that code shouldn't be active
>> anymore I guess - or we could protect it from happening.
>
> Hmm, I _think_ vm_remove_mappings() shouldn't be active while
> hibernating, but I'm not 100% sure.
>
>> As I expressed in another mail, secretmem pages should rather not be saved
>> when hibernating - hibernation should be rather be disabled.
>
> Agree.
>
>> What am I missing?
>
> I think I miscommunicated the purpose of this set, which was to hide
> __kernel_map_pages() under DEBUG_PAGEALLOC and make hibernation use
> set_direct_map_*() explictly without major rework of free pages handling
> during hibernation.
>
> Does it help?
>
Heh, as always, once you touch questionable code, people will beg for
proper cleanups instead :)
--
Thanks,
David / dhildenb
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