On 01/21/2010 04:37 PM, David Howells wrote:
> Suresh Jayaraman <sjayaraman@xxxxxxx> wrote:
>
>> + if (!clp->fscache)
>> + goto error_cleanup;
>
> This should be unnecessary. FS-Cache's API functions in linux/fscache.h
> should handle a NULL cookie and do the right thing.
>
Did you mean __fscache_acquire_cookie() function or any other post
operations after the cookie has been acquired?
Because, nfs_fscache_get_client_cookie() calls fscache_acquire_cookie()
which inturn calls __fscache_acquire_cookie() that returns NULL if
kmem_cache_alloc fails and hence clp->fscache gets a negative cookie in
nfs_fscache_get_client_cookie.
I happened to stumble upon this code when I tried to investigate a bug
that reported a kerbel BUG in 2.6.32 while running LTP testsuite.
--snip--
kernel BUG at fs/nfs/fscache.c:360!
Here's the backtrace:
#0 [ffff88001cc573e0] machine_kexec at ffffffff81021532
#1 [ffff88001cc57430] crash_kexec at ffffffff81094280
#2 [ffff88001cc57500] oops_end at ffffffff814b0290
#3 [ffff88001cc57520] do_invalid_op at ffffffff81004af4
#4 [ffff88001cc575c0] invalid_op at ffffffff81003cd5
#5 [ffff88001cc57648] nfs_fscache_release_page at ffffffffa028a2cd
#6 [ffff88001cc57690] shrink_page_list at ffffffff810e525e
#7 [ffff88001cc57710] isolate_lru_pages at ffffffff810e47f3
#8 [ffff88001cc577a0] shrink_inactive_list at ffffffff810e5669
#9 [ffff88001cc57930] shrink_zone at ffffffff810e62c4
#10 [ffff88001cc579d0] shrink_zones at ffffffff810e63c3
#11 [ffff88001cc57a10] do_try_to_free_pages at ffffffff810e747d
#12 [ffff88001cc57a70] try_to_free_pages at ffffffff810e7832
#13 [ffff88001cc57ad0] __alloc_pages_slowpath at ffffffff810ddef3
#14 [ffff88001cc57b90] __alloc_pages_nodemask at ffffffff810de35c
#15 [ffff88001cc57bb0] load_balance_newidle at ffffffff81048c69
#16 [ffff88001cc57c80] ondemand_readahead at ffffffff810e1d43
#17 [ffff88001cc57cc0] do_generic_file_read at ffffffff810d8cfe
#18 [ffff88001cc57d40] generic_file_aio_read at ffffffff810d9536
#19 [ffff88001cc57dd0] do_sync_read at ffffffff81122f53
#20 [ffff88001cc57f00] vfs_read at ffffffff811237a7
#21 [ffff88001cc57f30] sys_read at ffffffff81123980
#22 [ffff88001cc57f80] system_call_fastpath at ffffffff81002f3b
RIP: 00002b6e30d4b2b0 RSP: 00007fff30463528 RFLAGS: 00010206
--snip--
My interpretation of the BUG is:
Under low (seemingly very low) memory conditions, when we try to do a
NFS read and hence ondemand_readahead(), while trying to preallocate
memory, we find that get_page_from_freelist() didn't manage to find
pages from the free list and hence __alloc_pages_slowpath() is being
invoked.
Direct reclaim kicks in as our attempt to get free list fails even after
the background reclaim. Direct reclaim attempts to shrink caches. And in
shrink_page_list() we check if either page->PG_private or
page->PG_private1 (i.e. PG_fscache) flag is set before calling
try_to_release_page().
try_to_release_page() calls the nfs release_page method where the check
for PG_private fails and nfs_fscache_release_page() gets called and the
kernel BUGs when it finds nfsi->fscache is NULL.
The fact PG_private is not set in nfs_release_page implies that
PG_fscache is set for the page because of check in shrink_page_list()
which in turn implies it's a cache object and cookies should not be
NULL. It appears that the chances of a race condition is also unlikely
because we seem to be holding page lock in try_to_release_page().
This lead to the question of whether we are setting the cookie properly
in all cases and the allocation failure in fscache_acquire_cookie()
seemed like a potential place where it could still get set to NULL and
remain as it is.
Perhaps, my hypothesis has a hole or two or I'm miss something.
Thanks,
--
Suresh Jayaraman
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