qemu-devel
[Top][All Lists]
Advanced

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

Re: [RFC for Linux] virtio_balloon: Add VIRTIO_BALLOON_F_THP_ORDER to ha


From: David Hildenbrand
Subject: Re: [RFC for Linux] virtio_balloon: Add VIRTIO_BALLOON_F_THP_ORDER to handle THP spilt issue
Date: Tue, 31 Mar 2020 16:09:59 +0200
User-agent: Mozilla/5.0 (X11; Linux x86_64; rv:68.0) Gecko/20100101 Thunderbird/68.6.0

On 31.03.20 16:07, Michael S. Tsirkin wrote:
> On Tue, Mar 31, 2020 at 04:03:18PM +0200, David Hildenbrand wrote:
>> On 31.03.20 15:37, Michael S. Tsirkin wrote:
>>> On Tue, Mar 31, 2020 at 03:32:05PM +0200, David Hildenbrand wrote:
>>>> On 31.03.20 15:24, Michael S. Tsirkin wrote:
>>>>> On Tue, Mar 31, 2020 at 12:35:24PM +0200, David Hildenbrand wrote:
>>>>>> On 26.03.20 10:49, Michael S. Tsirkin wrote:
>>>>>>> On Thu, Mar 26, 2020 at 08:54:04AM +0100, David Hildenbrand wrote:
>>>>>>>>
>>>>>>>>
>>>>>>>>> Am 26.03.2020 um 08:21 schrieb Michael S. Tsirkin <address@hidden>:
>>>>>>>>>
>>>>>>>>> On Thu, Mar 12, 2020 at 09:51:25AM +0100, David Hildenbrand wrote:
>>>>>>>>>>> On 12.03.20 09:47, Michael S. Tsirkin wrote:
>>>>>>>>>>> On Thu, Mar 12, 2020 at 09:37:32AM +0100, David Hildenbrand wrote:
>>>>>>>>>>>> 2. You are essentially stealing THPs in the guest. So the fastest
>>>>>>>>>>>> mapping (THP in guest and host) is gone. The guest won't be able 
>>>>>>>>>>>> to make
>>>>>>>>>>>> use of THP where it previously was able to. I can imagine this 
>>>>>>>>>>>> implies a
>>>>>>>>>>>> performance degradation for some workloads. This needs a proper
>>>>>>>>>>>> performance evaluation.
>>>>>>>>>>>
>>>>>>>>>>> I think the problem is more with the alloc_pages API.
>>>>>>>>>>> That gives you exactly the given order, and if there's
>>>>>>>>>>> a larger chunk available, it will split it up.
>>>>>>>>>>>
>>>>>>>>>>> But for balloon - I suspect lots of other users,
>>>>>>>>>>> we do not want to stress the system but if a large
>>>>>>>>>>> chunk is available anyway, then we could handle
>>>>>>>>>>> that more optimally by getting it all in one go.
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> So if we want to address this, IMHO this calls for a new API.
>>>>>>>>>>> Along the lines of
>>>>>>>>>>>
>>>>>>>>>>>    struct page *alloc_page_range(gfp_t gfp, unsigned int min_order,
>>>>>>>>>>>                    unsigned int max_order, unsigned int *order)
>>>>>>>>>>>
>>>>>>>>>>> the idea would then be to return at a number of pages in the given
>>>>>>>>>>> range.
>>>>>>>>>>>
>>>>>>>>>>> What do you think? Want to try implementing that?
>>>>>>>>>>
>>>>>>>>>> You can just start with the highest order and decrement the order 
>>>>>>>>>> until
>>>>>>>>>> your allocation succeeds using alloc_pages(), which would be enough 
>>>>>>>>>> for
>>>>>>>>>> a first version. At least I don't see the immediate need for a new
>>>>>>>>>> kernel API.
>>>>>>>>>
>>>>>>>>> OK I remember now.  The problem is with reclaim. Unless reclaim is
>>>>>>>>> completely disabled, any of these calls can sleep. After it wakes up,
>>>>>>>>> we would like to get the larger order that has become available
>>>>>>>>> meanwhile.
>>>>>>>>>
>>>>>>>>
>>>>>>>> Yes, but that‘s a pure optimization IMHO.
>>>>>>>> So I think we should do a trivial implementation first and then see 
>>>>>>>> what we gain from a new allocator API. Then we might also be able to 
>>>>>>>> justify it using real numbers.
>>>>>>>>
>>>>>>>
>>>>>>> Well how do you propose implement the necessary semantics?
>>>>>>> I think we are both agreed that alloc_page_range is more or
>>>>>>> less what's necessary anyway - so how would you approximate it
>>>>>>> on top of existing APIs?
>>>>>> diff --git a/include/linux/balloon_compaction.h 
>>>>>> b/include/linux/balloon_compaction.h
>>>
>>> .....
>>>
>>>
>>>>>> diff --git a/mm/balloon_compaction.c b/mm/balloon_compaction.c
>>>>>> index 26de020aae7b..067810b32813 100644
>>>>>> --- a/mm/balloon_compaction.c
>>>>>> +++ b/mm/balloon_compaction.c
>>>>>> @@ -112,23 +112,35 @@ size_t balloon_page_list_dequeue(struct 
>>>>>> balloon_dev_info *b_dev_info,
>>>>>>  EXPORT_SYMBOL_GPL(balloon_page_list_dequeue);
>>>>>>  
>>>>>>  /*
>>>>>> - * balloon_page_alloc - allocates a new page for insertion into the 
>>>>>> balloon
>>>>>> - *                      page list.
>>>>>> + * balloon_pages_alloc - allocates a new page (of at most the given 
>>>>>> order)
>>>>>> + *                       for insertion into the balloon page list.
>>>>>>   *
>>>>>>   * Driver must call this function to properly allocate a new balloon 
>>>>>> page.
>>>>>>   * Driver must call balloon_page_enqueue before definitively removing 
>>>>>> the page
>>>>>>   * from the guest system.
>>>>>>   *
>>>>>> + * Will fall back to smaller orders if allocation fails. The order of 
>>>>>> the
>>>>>> + * allocated page is stored in page->private.
>>>>>> + *
>>>>>>   * Return: struct page for the allocated page or NULL on allocation 
>>>>>> failure.
>>>>>>   */
>>>>>> -struct page *balloon_page_alloc(void)
>>>>>> +struct page *balloon_pages_alloc(int order)
>>>>>>  {
>>>>>> -        struct page *page = alloc_page(balloon_mapping_gfp_mask() |
>>>>>> -                                       __GFP_NOMEMALLOC | __GFP_NORETRY 
>>>>>> |
>>>>>> -                                       __GFP_NOWARN);
>>>>>> -        return page;
>>>>>> +        struct page *page;
>>>>>> +
>>>>>> +        while (order >= 0) {
>>>>>> +                page = alloc_pages(balloon_mapping_gfp_mask() |
>>>>>> +                                   __GFP_NOMEMALLOC | __GFP_NORETRY |
>>>>>> +                                   __GFP_NOWARN, order);
>>>>>> +                if (page) {
>>>>>> +                        set_page_private(page, order);
>>>>>> +                        return page;
>>>>>> +                }
>>>>>> +                order--;
>>>>>> +        }
>>>>>> +        return NULL;
>>>>>>  }
>>>>>> -EXPORT_SYMBOL_GPL(balloon_page_alloc);
>>>>>> +EXPORT_SYMBOL_GPL(balloon_pages_alloc);
>>>>>>  
>>>>>>  /*
>>>>>>   * balloon_page_enqueue - inserts a new page into the balloon page list.
>>>>>
>>>>>
>>>>> I think this will try to invoke direct reclaim from the first iteration
>>>>> to free up the max order.
>>>>
>>>> %__GFP_NORETRY: The VM implementation will try only very lightweight
>>>> memory direct reclaim to get some memory under memory pressure (thus it
>>>> can sleep). It will avoid disruptive actions like OOM killer.
>>>>
>>>> Certainly good enough for a first version I would say, no?
>>>
>>> Frankly how well that behaves would depend a lot on the workload.
>>> Can regress just as well.
>>>
>>> For the 1st version I'd prefer something that is the least disruptive,
>>> and that IMHO means we only trigger reclaim at all in the same configuration
>>> as now - when we can't satisfy the lowest order allocation.
>>
>> Agreed.
>>
>>>
>>> Anything else would be a huge amount of testing with all kind of
>>> workloads.
>>>
>>
>> So doing a "& ~__GFP_RECLAIM" in case order > 0? (as done in
>> GFP_TRANSHUGE_LIGHT)
> 
> That will improve the situation when reclaim is not needed, but leave
> the problem in place for when it's needed: if reclaim does trigger, we
> can get a huge free page and immediately break it up.
> 
> So it's ok as a first step but it will make the second step harder as
> we'll need to test with reclaim :).

I expect the whole "steal huge pages from your guest" to be problematic,
as I already mentioned to Alex. This needs a performance evaluation.

This all smells like a lot of workload dependent fine-tuning. :)

-- 
Thanks,

David / dhildenb




reply via email to

[Prev in Thread] Current Thread [Next in Thread]