On 02/25/2013 11:18 PM, Seth Jennings wrote:
> On 02/23/2013 06:37 PM, Ric Mason wrote:
>> On 02/23/2013 05:02 AM, Seth Jennings wrote:
>>> On 02/21/2013 08:56 PM, Ric Mason wrote:
>>>> On 02/21/2013 11:50 PM, Seth Jennings wrote:
>>>>> On 02/21/2013 02:49 AM, Ric Mason wrote:
>>>>>> On 02/19/2013 03:16 AM, Seth Jennings wrote:
>>>>>>> On 02/16/2013 12:21 AM, Ric Mason wrote:
>>>>>>>> On 02/14/2013 02:38 AM, Seth Jennings wrote:
>>>>>>>>> This patch adds a documentation file for zsmalloc at
>>>>>>>>> Documentation/vm/zsmalloc.txt
>>>>>>>>>
>>>>>>>>> Signed-off-by: Seth Jennings <[email protected]>
>>>>>>>>> ---
>>>>>>>>> Documentation/vm/zsmalloc.txt | 68
>>>>>>>>> +++++++++++++++++++++++++++++++++++++++++
>>>>>>>>> 1 file changed, 68 insertions(+)
>>>>>>>>> create mode 100644 Documentation/vm/zsmalloc.txt
>>>>>>>>>
>>>>>>>>> diff --git a/Documentation/vm/zsmalloc.txt
>>>>>>>>> b/Documentation/vm/zsmalloc.txt
>>>>>>>>> new file mode 100644
>>>>>>>>> index 0000000..85aa617
>>>>>>>>> --- /dev/null
>>>>>>>>> +++ b/Documentation/vm/zsmalloc.txt
>>>>>>>>> @@ -0,0 +1,68 @@
>>>>>>>>> +zsmalloc Memory Allocator
>>>>>>>>> +
>>>>>>>>> +Overview
>>>>>>>>> +
>>>>>>>>> +zmalloc a new slab-based memory allocator,
>>>>>>>>> +zsmalloc, for storing compressed pages. It is designed for
>>>>>>>>> +low fragmentation and high allocation success rate on
>>>>>>>>> +large object, but <= PAGE_SIZE allocations.
>>>>>>>>> +
>>>>>>>>> +zsmalloc differs from the kernel slab allocator in two primary
>>>>>>>>> +ways to achieve these design goals.
>>>>>>>>> +
>>>>>>>>> +zsmalloc never requires high order page allocations to back
>>>>>>>>> +slabs, or "size classes" in zsmalloc terms. Instead it allows
>>>>>>>>> +multiple single-order pages to be stitched together into a
>>>>>>>>> +"zspage" which backs the slab. This allows for higher
>>>>>>>>> allocation
>>>>>>>>> +success rate under memory pressure.
>>>>>>>>> +
>>>>>>>>> +Also, zsmalloc allows objects to span page boundaries within the
>>>>>>>>> +zspage. This allows for lower fragmentation than could be had
>>>>>>>>> +with the kernel slab allocator for objects between PAGE_SIZE/2
>>>>>>>>> +and PAGE_SIZE. With the kernel slab allocator, if a page
>>>>>>>>> compresses
>>>>>>>>> +to 60% of it original size, the memory savings gained through
>>>>>>>>> +compression is lost in fragmentation because another object of
>>>>>>>>> +the same size can't be stored in the leftover space.
>>>>>>>>> +
>>>>>>>>> +This ability to span pages results in zsmalloc allocations not
>>>>>>>>> being
>>>>>>>>> +directly addressable by the user. The user is given an
>>>>>>>>> +non-dereferencable handle in response to an allocation request.
>>>>>>>>> +That handle must be mapped, using zs_map_object(), which returns
>>>>>>>>> +a pointer to the mapped region that can be used. The mapping is
>>>>>>>>> +necessary since the object data may reside in two different
>>>>>>>>> +noncontigious pages.
>>>>>>>> Do you mean the reason of to use a zsmalloc object must map after
>>>>>>>> malloc is object data maybe reside in two different nocontiguous
>>>>>>>> pages?
>>>>>>> Yes, that is one reason for the mapping. The other reason (more
>>>>>>> of an
>>>>>>> added bonus) is below.
>>>>>>>
>>>>>>>>> +
>>>>>>>>> +For 32-bit systems, zsmalloc has the added benefit of being
>>>>>>>>> +able to back slabs with HIGHMEM pages, something not possible
>>>>>>>> What's the meaning of "back slabs with HIGHMEM pages"?
>>>>>>> By HIGHMEM, I'm referring to the HIGHMEM memory zone on 32-bit
>>>>>>> systems
>>>>>>> with larger that 1GB (actually a little less) of RAM. The upper
>>>>>>> 3GB
>>>>>>> of the 4GB address space, depending on kernel build options, is not
>>>>>>> directly addressable by the kernel, but can be mapped into the
>>>>>>> kernel
>>>>>>> address space with functions like kmap() or kmap_atomic().
>>>>>>>
>>>>>>> These pages can't be used by slab/slub because they are not
>>>>>>> continuously mapped into the kernel address space. However, since
>>>>>>> zsmalloc requires a mapping anyway to handle objects that span
>>>>>>> non-contiguous page boundaries, we do the kernel mapping as part of
>>>>>>> the process.
>>>>>>>
>>>>>>> So zspages, the conceptual slab in zsmalloc backed by single-order
>>>>>>> pages can include pages from the HIGHMEM zone as well.
>>>>>> Thanks for your clarify,
>>>>>> http://lwn.net/Articles/537422/, your article about zswap in lwn.
>>>>>> "Additionally, the kernel slab allocator does not allow
>>>>>> objects that
>>>>>> are less
>>>>>> than a page in size to span a page boundary. This means that if an
>>>>>> object is
>>>>>> PAGE_SIZE/2 + 1 bytes in size, it effectively use an entire page,
>>>>>> resulting in
>>>>>> ~50% waste. Hense there are *no kmalloc() cache size* between
>>>>>> PAGE_SIZE/2 and
>>>>>> PAGE_SIZE."
>>>>>> Are your sure? It seems that kmalloc cache support big size, your
>>>>>> can
>>>>>> check in
>>>>>> include/linux/kmalloc_sizes.h
>>>>> Yes, kmalloc can allocate large objects > PAGE_SIZE, but there are no
>>>>> cache sizes _between_ PAGE_SIZE/2 and PAGE_SIZE. For example, on a
>>>>> system with 4k pages, there are no caches between kmalloc-2048 and
>>>>> kmalloc-4096.
>>>> kmalloc object > PAGE_SIZE/2 or > PAGE_SIZE should also allocate from
>>>> slab cache, correct? Then how can alloc object w/o slab cache which?
>>>> contains this object size objects?
>>> I have to admit, I didn't understand the question.
>> object is allocated from slab cache, correct? There two kinds of slab
>> cache, one is for general purpose, eg. kmalloc slab cache, the other
>> is for special purpose, eg. mm_struct, task_struct. kmalloc object >
>> PAGE_SIZE/2 or > PAGE_SIZE should also allocated from slab cache,
>> correct? then why you said that there are no caches between
>> kmalloc-2048 and kmalloc-4096?
> Ok, now I get it. Yes, I guess I should qualified here that there are
> no _kmalloc_ caches between PAGE_SIZE/2 and PAGE_SIZE.
Why I have?
dma-kmalloc-8192 0 0 8192 4 8 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-4096 0 0 4096 8 8 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-2048 0 0 2048 16 8 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-1024 0 0 1024 32 8 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-512 32 32 512 32 4 : tunables 0 0 0
: slabdata 1 1 0
dma-kmalloc-256 0 0 256 32 2 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-128 0 0 128 32 1 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-64 0 0 64 64 1 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-32 0 0 32 128 1 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-16 0 0 16 256 1 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-8 0 0 8 512 1 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-192 0 0 192 21 1 : tunables 0 0 0
: slabdata 0 0 0
dma-kmalloc-96 0 0 96 42 1 : tunables 0 0 0
: slabdata 0 0 0
kmalloc-8192 100 100 8192 4 8 : tunables 0 0 0
: slabdata 25 25 0
kmalloc-4096 178 216 4096 8 8 : tunables 0 0 0
: slabdata 27 27 0
kmalloc-2048 229 304 2048 16 8 : tunables 0 0 0
: slabdata 19 19 0
kmalloc-1024 832 832 1024 32 8 : tunables 0 0 0
: slabdata 26 26 0
kmalloc-512 2016 2016 512 32 4 : tunables 0 0 0
: slabdata 63 63 0
kmalloc-256 2203 2368 256 32 2 : tunables 0 0 0
: slabdata 74 74 0
kmalloc-128 2026 2464 128 32 1 : tunables 0 0 0
: slabdata 77 77 0
kmalloc-64 27584 27584 64 64 1 : tunables 0 0 0
: slabdata 431 431 0
kmalloc-32 19334 20864 32 128 1 : tunables 0 0 0
: slabdata 163 163 0
kmalloc-16 6912 6912 16 256 1 : tunables 0 0 0
: slabdata 27 27 0
kmalloc-8 17408 17408 8 512 1 : tunables 0 0 0
: slabdata 34 34 0
kmalloc-192 8006 8946 192 21 1 : tunables 0 0 0
: slabdata 426 426 0
kmalloc-96 19828 19992 96 42 1 : tunables 0 0 0
: slabdata 476 476 0
kmem_cache_node 384 384 32 128 1 : tunables 0 0 0
: slabdata 3 3 0
kmem_cache 160 160 128 32 1 : tunables 0 0 0
: slabdata 5 5 0
>
> Yes, one can create caches of a particular size. However that doesn't
> work well for zswap because the compressed pages vary widely and size
> and, imo, it doesn't make sense to create a bunch of caches very
> granular in size.
>
> Plus having granular caches doesn't solve the fragmentation issue
> caused by the storage of large objects.
>
> Thanks,
> Seth
>
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