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SubjectRe: [PATCHv7 02/14] mm: Add support for unaccepted memory
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On 05.08.22 13:49, Vlastimil Babka wrote:
> On 6/14/22 14:02, Kirill A. Shutemov wrote:
>> UEFI Specification version 2.9 introduces the concept of memory
>> acceptance. Some Virtual Machine platforms, such as Intel TDX or AMD
>> SEV-SNP, require memory to be accepted before it can be used by the
>> guest. Accepting happens via a protocol specific to the Virtual Machine
>> platform.
>>
>> There are several ways kernel can deal with unaccepted memory:
>>
>> 1. Accept all the memory during the boot. It is easy to implement and
>> it doesn't have runtime cost once the system is booted. The downside
>> is very long boot time.
>>
>> Accept can be parallelized to multiple CPUs to keep it manageable
>> (i.e. via DEFERRED_STRUCT_PAGE_INIT), but it tends to saturate
>> memory bandwidth and does not scale beyond the point.
>>
>> 2. Accept a block of memory on the first use. It requires more
>> infrastructure and changes in page allocator to make it work, but
>> it provides good boot time.
>>
>> On-demand memory accept means latency spikes every time kernel steps
>> onto a new memory block. The spikes will go away once workload data
>> set size gets stabilized or all memory gets accepted.
>>
>> 3. Accept all memory in background. Introduce a thread (or multiple)
>> that gets memory accepted proactively. It will minimize time the
>> system experience latency spikes on memory allocation while keeping
>> low boot time.
>>
>> This approach cannot function on its own. It is an extension of #2:
>> background memory acceptance requires functional scheduler, but the
>> page allocator may need to tap into unaccepted memory before that.
>>
>> The downside of the approach is that these threads also steal CPU
>> cycles and memory bandwidth from the user's workload and may hurt
>> user experience.
>>
>> Implement #2 for now. It is a reasonable default. Some workloads may
>> want to use #1 or #3 and they can be implemented later based on user's
>> demands.
>>
>> Support of unaccepted memory requires a few changes in core-mm code:
>>
>> - memblock has to accept memory on allocation;
>>
>> - page allocator has to accept memory on the first allocation of the
>> page;
>>
>> Memblock change is trivial.
>>
>> The page allocator is modified to accept pages on the first allocation.
>> The new page type (encoded in the _mapcount) -- PageUnaccepted() -- is
>> used to indicate that the page requires acceptance.
>>
>> Architecture has to provide two helpers if it wants to support
>> unaccepted memory:
>>
>> - accept_memory() makes a range of physical addresses accepted.
>>
>> - range_contains_unaccepted_memory() checks anything within the range
>> of physical addresses requires acceptance.
>>
>> Signed-off-by: Kirill A. Shutemov <kirill.shutemov@linux.intel.com>
>> Acked-by: Mike Rapoport <rppt@linux.ibm.com> # memblock
>> Reviewed-by: David Hildenbrand <david@redhat.com>
>
> Hmm I realize it's not ideal to raise this at v7, and maybe it was discussed
> before, but it's really not great how this affects the core page allocator
> paths. Wouldn't it be possible to only release pages to page allocator when
> accepted, and otherwise use some new per-zone variables together with the
> bitmap to track how much exactly is where to accept? Then it could be hooked
> in get_page_from_freelist() similarly to CONFIG_DEFERRED_STRUCT_PAGE_INIT -
> if we fail zone_watermark_fast() and there are unaccepted pages in the zone,
> accept them and continue. With a static key to flip in case we eventually
> accept everything. Because this is really similar scenario to the deferred
> init and that one was solved in a way that adds minimal overhead.

I kind of like just having the memory stats being correct (e.g., free
memory) and acceptance being an internal detail to be triggered when
allocating pages -- just like the arch_alloc_page() callback.

I'm sure we could optimize for the !unaccepted memory via static keys
also in this version with some checks at the right places if we find
this to hurt performance?

--
Thanks,

David / dhildenb

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