On 2010-10-20 11:27, Wu Fengguang wrote:
> On Wed, Oct 20, 2010 at 03:05:56PM +0800, KOSAKI Motohiro wrote:
>>> On Tue, Oct 19, 2010 at 06:06:21PM +0800, Torsten Kaiser wrote:
>>>> On Tue, Oct 19, 2010 at 10:43 AM, Torsten Kaiser
>>>> <just.for.lkml@xxxxxxxxxxxxxx> wrote:
>>>>> On Tue, Oct 19, 2010 at 1:11 AM, Neil Brown <neilb@xxxxxxx> wrote:
>>>>>> Yes, thanks for the report.
>>>>>> This is a real bug exactly as you describe.
>>>>>>
>>>>>> This is how I think I will fix it, though it needs a bit of review and
>>>>>> testing before I can be certain.
>>>>>> Also I need to check raid10 etc to see if they can suffer too.
>>>>>>
>>>>>> If you can test it I would really appreciate it.
>>>>>
>>>>> I did test it, but while it seemed to fix the deadlock, the system
>>>>> still got unusable.
>>>>> The still running "vmstat 1" showed that the swapout was still
>>>>> progressing, but at a rate of ~20k sized bursts every 5 to 20 seconds.
>>>>>
>>>>> I also tried to additionally add Wu's patch:
>>>>> --- linux-next.orig/mm/vmscan.c 2010-10-13 12:35:14.000000000 +0800
>>>>> +++ linux-next/mm/vmscan.c 2010-10-19 00:13:04.000000000 +0800
>>>>> @@ -1163,6 +1163,13 @@ static int too_many_isolated(struct zone
>>>>> isolated = zone_page_state(zone, NR_ISOLATED_ANON);
>>>>> }
>>>>>
>>>>> + /*
>>>>> + * GFP_NOIO/GFP_NOFS callers are allowed to isolate more pages, so that
>>>>> + * they won't get blocked by normal ones and form circular deadlock.
>>>>> + */
>>>>> + if ((sc->gfp_mask & GFP_IOFS) == GFP_IOFS)
>>>>> + inactive >>= 3;
>>>>> +
>>>>> return isolated > inactive;
>>>>>
>>>>> Either it did help somewhat, or I was more lucky on my second try, but
>>>>> this time I needed ~5 tries instead of only 2 to get the system mostly
>>>>> stuck again. On the testrun with Wu's patch the writeout pattern was
>>>>> more stable, a burst of ~80kb each 20 seconds. But I would suspect
>>>>> that the size of the burst is rather random.
>>>>>
>>>>> I do have a complete SysRq+T dump from the first run, I can send that
>>>>> to anyone how wants it.
>>>>> (It's 190k so I don't want not spam it to the list)
>>>>
>>>> Is this call trace from the SysRq+T violation the rule to only
>>>> allocate one bio from bio_alloc() until its submitted?
>>>>
>>>> [ 549.700038] Call Trace:
>>>> [ 549.700038] [<ffffffff81566b54>] schedule_timeout+0x144/0x200
>>>> [ 549.700038] [<ffffffff81045cd0>] ? process_timeout+0x0/0x10
>>>> [ 549.700038] [<ffffffff81565e22>] io_schedule_timeout+0x42/0x60
>>>> [ 549.700038] [<ffffffff81083123>] mempool_alloc+0x163/0x1b0
>>>> [ 549.700038] [<ffffffff81053560>] ? autoremove_wake_function+0x0/0x40
>>>> [ 549.700038] [<ffffffff810ea2b9>] bio_alloc_bioset+0x39/0xf0
>>>> [ 549.700038] [<ffffffff810ea38d>] bio_clone+0x1d/0x50
>>>> [ 549.700038] [<ffffffff814318ed>] make_request+0x23d/0x850
>>>> [ 549.700038] [<ffffffff81082e20>] ? mempool_alloc_slab+0x10/0x20
>>>> [ 549.700038] [<ffffffff81045cd0>] ? process_timeout+0x0/0x10
>>>> [ 549.700038] [<ffffffff81436e63>] md_make_request+0xc3/0x220
>>>> [ 549.700038] [<ffffffff81083099>] ? mempool_alloc+0xd9/0x1b0
>>>> [ 549.700038] [<ffffffff811ec153>] generic_make_request+0x1b3/0x370
>>>> [ 549.700038] [<ffffffff810ea2d6>] ? bio_alloc_bioset+0x56/0xf0
>>>> [ 549.700038] [<ffffffff811ec36a>] submit_bio+0x5a/0xd0
>>>> [ 549.700038] [<ffffffff81080cf5>] ? unlock_page+0x25/0x30
>>>> [ 549.700038] [<ffffffff810a871e>] swap_writepage+0x7e/0xc0
>>>> [ 549.700038] [<ffffffff81090d99>] shmem_writepage+0x1c9/0x240
>>>> [ 549.700038] [<ffffffff8108c9cb>] pageout+0x11b/0x270
>>>> [ 549.700038] [<ffffffff8108cd78>] shrink_page_list+0x258/0x4d0
>>>> [ 549.700038] [<ffffffff8108d9e7>] shrink_inactive_list+0x187/0x310
>>>> [ 549.700038] [<ffffffff8102dcb1>] ? __wake_up_common+0x51/0x80
>>>> [ 549.700038] [<ffffffff811fc8b2>] ? cpumask_next_and+0x22/0x40
>>>> [ 549.700038] [<ffffffff8108e1c0>] shrink_zone+0x3e0/0x470
>>>> [ 549.700038] [<ffffffff8108e797>] try_to_free_pages+0x157/0x410
>>>> [ 549.700038] [<ffffffff81087c92>] __alloc_pages_nodemask+0x412/0x760
>>>> [ 549.700038] [<ffffffff810b27d6>] alloc_pages_current+0x76/0xe0
>>>> [ 549.700038] [<ffffffff810b6dad>] new_slab+0x1fd/0x2a0
>>>> [ 549.700038] [<ffffffff81045cd0>] ? process_timeout+0x0/0x10
>>>> [ 549.700038] [<ffffffff810b8721>] __slab_alloc+0x111/0x540
>>>> [ 549.700038] [<ffffffff81059961>] ? prepare_creds+0x21/0xb0
>>>> [ 549.700038] [<ffffffff810b92bb>] kmem_cache_alloc+0x9b/0xa0
>>>> [ 549.700038] [<ffffffff81059961>] prepare_creds+0x21/0xb0
>>>> [ 549.700038] [<ffffffff8104a919>] sys_setresgid+0x29/0x120
>>>> [ 549.700038] [<ffffffff8100242b>] system_call_fastpath+0x16/0x1b
>>>> [ 549.700038] ffff88011e125ea8 0000000000000046 ffff88011e125e08
>>>> ffffffff81073c59
>>>> [ 549.700038] 0000000000012780 ffff88011ea905b0 ffff88011ea90808
>>>> ffff88011e125fd8
>>>> [ 549.700038] ffff88011ea90810 ffff88011e124010 0000000000012780
>>>> ffff88011e125fd8
>>>>
>>>> swap_writepage() uses get_swap_bio() which uses bio_alloc() to get one
>>>> bio. That bio is the submitted, but the submit path seems to get into
>>>> make_request from raid1.c and that allocates a second bio from
>>>> bio_alloc() via bio_clone().
>>>>
>>>> I am seeing this pattern (swap_writepage calling
>>>> md_make_request/make_request and then getting stuck in mempool_alloc)
>>>> more than 5 times in the SysRq+T output...
>>>
>>> I bet the root cause is the failure of pool->alloc(__GFP_NORETRY)
>>> inside mempool_alloc(), which can be fixed by this patch.
>>>
>>> Thanks,
>>> Fengguang
>>> ---
>>>
>>> concurrent direct page reclaim problem
>>>
>>> __GFP_NORETRY page allocations may fail when there are many concurrent page
>>> allocating tasks, but not necessary in real short of memory. The root cause
>>> is, tasks will first run direct page reclaim to free some pages from the LRU
>>> lists and put them to the per-cpu page lists and the buddy system, and then
>>> try to get a free page from there. However the free pages reclaimed by this
>>> task may be consumed by other tasks when the direct reclaim task is able to
>>> get the free page for itself.
>>>
>>> Let's retry it a bit harder.
>>>
>>> --- linux-next.orig/mm/page_alloc.c 2010-10-20 13:44:50.000000000 +0800
>>> +++ linux-next/mm/page_alloc.c 2010-10-20 13:50:54.000000000 +0800
>>> @@ -1700,7 +1700,7 @@ should_alloc_retry(gfp_t gfp_mask, unsig
>>> unsigned long pages_reclaimed)
>>> {
>>> /* Do not loop if specifically requested */
>>> - if (gfp_mask & __GFP_NORETRY)
>>> + if (gfp_mask & __GFP_NORETRY && pages_reclaimed > (1 << (order + 12)))
>>> return 0;
>>>
>>> /*
>>
>> SLUB usually try high order allocation with __GFP_NORETRY at first. In
>> other words, It strongly depend on __GFP_NORETRY don't any retry. I'm
>> worry this...
>
> Right. I noticed that too. Hopefully the "limited" retry won't impact
> it too much. That said, we do need a better solution than such hacks.
>
>> And, in this case, stucked tasks have PF_MEMALLOC. allocation with PF_MEMALLOC
>> failure mean this zone have zero memory purely. So, retrying don't solve anything.
>
> The zone has no free (buddy) memory, but has plenty of reclaimable pages.
> The concurrent page reclaimers may steal pages reclaimed by this task
> from time to time, but not always. So retry reclaiming will help.
>
>> And I think the root cause is in another.
>>
>> bio_clone() use fs_bio_set internally.
>>
>> struct bio *bio_clone(struct bio *bio, gfp_t gfp_mask)
>> {
>> struct bio *b = bio_alloc_bioset(gfp_mask, bio->bi_max_vecs, fs_bio_set);
>> ...
>>
>> and fs_bio_set is initialized very small pool size.
>>
>> #define BIO_POOL_SIZE 2
>> static int __init init_bio(void)
>> {
>> ..
>> fs_bio_set = bioset_create(BIO_POOL_SIZE, 0);
>
> Agreed. BIO_POOL_SIZE=2 is too small to be deadlock free.
>
>> So, I think raid1.c need to use their own bioset instead fs_bio_set.
>> otherwise, bio pool exshost can happen very easily.
>
> That would fix the deadlock, but not enough for good IO throughput
> when multiple CPUs are trying to submit IO. Increasing BIO_POOL_SIZE
> to a large value should help fix both the deadlock and IO throughput.
>
>> But I'm not sure. I'm not IO expert.
>
> [add CC to Jens]
We surely need 1 set aside for each level of that stack that will
potentially consume one. 1 should be enough for the generic pool, and
then clones will use a separate pool. So md and friends should really
have a pool per device, so that stacking will always work properly.
There should be no throughput concerns, it should purely be a safe guard
measure to prevent us deadlocking when doing IO for reclaim.
--
Jens Axboe
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