Re: + mm-madvise-fix-freeing-of-locked-page-with-madv_free.patch added to -mm tree
From: Mike Kravetz
Date: Fri Aug 25 2017 - 19:41:59 EST
On 08/25/2017 03:51 PM, Nadav Amit wrote:
> Mike Kravetz <mike.kravetz@xxxxxxxxxx> wrote:
>
>> On 08/25/2017 03:02 PM, Nadav Amit wrote:
>>> Michal Hocko <mhocko@xxxxxxxxxx> wrote:
>>>
>>>> Hmm, I do not see this neither in linux-mm nor LKML. Strange
>>>>
>>>> On Wed 23-08-17 14:41:21, Andrew Morton wrote:
>>>>> From: Eric Biggers <ebiggers@xxxxxxxxxx>
>>>>> Subject: mm/madvise.c: fix freeing of locked page with MADV_FREE
>>>>>
>>>>> If madvise(..., MADV_FREE) split a transparent hugepage, it called
>>>>> put_page() before unlock_page(). This was wrong because put_page() can
>>>>> free the page, e.g. if a concurrent madvise(..., MADV_DONTNEED) has
>>>>> removed it from the memory mapping. put_page() then rightfully complained
>>>>> about freeing a locked page.
>>>>>
>>>>> Fix this by moving the unlock_page() before put_page().
>>>
>>> Quick grep shows that a similar flow (put_page() followed by an
>>> unlock_page() ) also happens in hugetlbfs_fallocate(). Isnât it a problem as
>>> well?
>>
>> I assume you are asking about this block of code?
>
> Yes.
>
>>
>> /*
>> * page_put due to reference from alloc_huge_page()
>> * unlock_page because locked by add_to_page_cache()
>> */
>> put_page(page);
>> unlock_page(page);
>>
>> Well, there is a typo (page_put) in the comment. :(
>>
>> However, in this case we have just added the huge page to a hugetlbfs
>> file. The put_page() is there just to drop the reference count on the
>> page (taken when allocated). It will still be non-zero as we have
>> successfully added it to the page cache. So, we are not freeing the
>> page here, just dropping the reference count.
>>
>> This should not cause a problem like that seen in madvise.
>
> Thanks for the quick response.
>
> I am not too familiar with this piece of code, so just for the matter of
> understanding: what prevents the page from being removed from the page cache
> shortly after it is added (even if it is highly unlikely)? The page lock? The
> inode lock?
Someone would need to acquire the inode lock to remove the page. This
is held until we exit the routine. Also note that put_page for this
type of huge page almost always results in the page being put back
on a free list within the hugetlb(fs) subsystem. It is not returned
to the 'normal' memory allocators for general use.
--
Mike Kravetz