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SubjectRe: [PATCH V2] mm: fix use-after free of page_ext after race with memory-offline
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On 28.07.22 11:53, Charan Teja Kalla wrote:
> Thanks David for the inputs!!
>
> On 7/27/2022 10:59 PM, David Hildenbrand wrote:
>>> Fix those paths where offline races with page_ext access by maintaining
>>> synchronization with rcu lock and is achieved in 3 steps:
>>> 1) Invalidate all the page_ext's of the sections of a memory block by
>>> storing a flag in the LSB of mem_section->page_ext.
>>>
>>> 2) Wait till all the existing readers to finish working with the
>>> ->page_ext's with synchronize_rcu(). Any parallel process that starts
>>> after this call will not get page_ext, through lookup_page_ext(), for
>>> the block parallel offline operation is being performed.
>>>
>>> 3) Now safely free all sections ->page_ext's of the block on which
>>> offline operation is being performed.
>>>
>>> Thanks to David Hildenbrand for his views/suggestions on the initial
>>> discussion[1] and Pavan kondeti for various inputs on this patch.
>>>
>>> FAQ's:
>>> Q) Should page_ext_[get|put]() needs to be used for every page_ext
>>> access?
>>> A) NO, the synchronization is really not needed in all the paths of
>>> accessing page_ext. One case is where extra refcount is taken on a
>>> page for which memory block, this pages falls into, offline operation is
>>> being performed. This extra refcount makes the offline operation not to
>>> succeed hence the freeing of page_ext. Another case is where the page
>>> is already being freed and we do reset its page_owner.
>>>
>>> Some examples where the rcu_lock is not taken while accessing the
>>> page_ext are:
>>> 1) In migration (where we also migrate the page_owner information), we
>>> take the extra refcount on the source and destination pages and then
>>> start the migration. This extra refcount makes the test_pages_isolated()
>>> function to fail thus retry the offline operation.
>>>
>>> 2) In free_pages_prepare(), we do reset the page_owner(through page_ext)
>>> which again doesn't need the protection to access because the page is
>>> already freeing (through only one path).
>>>
>>> So, users need not to use page_ext_[get|put]() when they are sure that
>>> extra refcount is taken on a page preventing the offline operation.
>>>
>>> Q) Why can't the page_ext is freed in the hot_remove path, where memmap
>>> is also freed ?
>>>
>>> A) As per David's answers, there are many reasons and a few are:
>>> 1) Discussions had happened in the past to eventually also use rcu
>>> protection for handling pfn_to_online_page(). So doing it cleanly here
>>> is certainly an improvement.
>>>
>>> 2) It's not good having to scatter section online checks all over the
>>> place in page ext code. Once there is a difference between active vs.
>>> stale page ext data things get a bit messy and error prone. This is
>>> already ugly enough in our generic memmap handling code.
>>>
>>> 3) Having on-demand allocations, such as KASAN or page ext from the
>>> memory online notifier is at least currently cleaner, because we don't
>>> have to handle each and every subsystem that hooks into that during the
>>> core memory hotadd/remove phase, which primarily only setups the
>>> vmemmap, direct map and memory block devices.
>>>
>>> [1] https://lore.kernel.org/linux-mm/59edde13-4167-8550-86f0-11fc67882107@quicinc.com/
>>>
>> I guess if we care about the synchronize_rcu() we could go crazy with
>> temporary allocations for data-to-free + call_rcu().
>
> IMO, single synchronize_rcu() call overhead shouldn't be cared
> especially if the memory offline operation it self is expected to
> complete in seconds. On the Snapdragon system, I can see the lowest it
> can complete in 3-4secs for a complete memory block of size 512M. And
> agree that this time depends on lot of other factors too but wanted to
> raise a point that it is really not a path where tiny optimizations
> should be strictly considered. __Please help in correcting me If I am
> really downplaying the scenario here__.

I agree that we should optimize only if we find this to be an issue.

>
> But then I moved to single synchronize_rcu() just to avoid any visible
> effects that can cause by multiple synchronize_rcu() for a single memory
> block with lot of sections.

Makes sense.

>
> Having said that, I am open to go for call_rcu() and infact it will be a
> much simple change where I can do the freeing of page_ext in the
> __free_page_ext() itself which is called for every section there by
> avoid the extra tracking flag PAGE_EXT_INVALID.
> ...........
> WRITE_ONCE(ms->page_ext, NULL);
> call_rcu(rcu_head, fun); // Free in fun()
> .............
>
> Or your opinion is to use call_rcu () only once in place of
> synchronize_rcu() after invalidating all the page_ext's of memory block?


Yeah, that would be an option. And if you fail to allocate a temporary
buffer to hold the data-to-free (structure containing rcu_head), the
slower fallback path would be synchronize_rcu().

But again, I'm also not sure if we have to optimize here right now.


--
Thanks,

David / dhildenb

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