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SubjectRE: [PATCH 1/5] staging: zsmalloc: zsmalloc memory allocation library
> From: Dave Hansen [mailto:dave@linux.vnet.ibm.com]
> Subject: Re: [PATCH 1/5] staging: zsmalloc: zsmalloc memory allocation library
>
> On 02/06/2012 09:26 AM, Seth Jennings wrote:
> > On 01/26/2012 01:12 PM, Dave Hansen wrote:
> >> void *kmap_atomic_prot(struct page *page, pgprot_t prot)
> >> {
> >> ...
> >> type = kmap_atomic_idx_push();
> >> idx = type + KM_TYPE_NR*smp_processor_id();
> >> vaddr = __fix_to_virt(FIX_KMAP_BEGIN + idx);
> >>
> >> I think if you do a get_cpu()/put_cpu() or just a preempt_disable()
> >> across the operations you'll be guaranteed to get two contiguous addresses.
> >
> > I'm not quite following here. kmap_atomic() only does this for highmem pages.
> > For normal pages (all pages for 64-bit), it doesn't do any mapping at all. It
> > just returns the virtual address of the page since it is in the kernel's address
> > space.
> >
> > For this design, the pages _must_ be mapped, even if the pages are directly
> > reachable in the address space, because they must be virtually contiguous.
>
> I guess you could use vmap() for that. It's just going to be slower
> than kmap_atomic(). I'm really not sure it's worth all the trouble to
> avoid order-1 allocations, though.

Seth, Nitin, please correct me if I am wrong, but...

Dave, your comment makes me wonder if maybe you might be missing
the key value of the new allocator. The zsmalloc allocator can grab
any random* page "A" with X unused bytes at the END of the page,
and any random page "B" with Y unused bytes at the BEGINNING of the page
and "coalesce" them to store any byte sequence with a length** Z
not exceeding X+Y. Presumably this markedly increases
the density of compressed-pages-stored-per-physical-page***. I don't
see how allowing order-1 allocations helps here but if I am missing
something clever, please explain further.

(If anyone missed Jonathan Corbet's nice lwn.net article, see:
https://lwn.net/Articles/477067/ )

* Not really ANY random page, just any random page that has been
previously get_free_page'd by the allocator and hasn't been
free'd yet.
** X, Y and Z are all rounded to a multiple of 16 so there
is still some internal fragmentation cost.
*** Would be interesting to see some random and real workload data
comparing density for zsmalloc and xvmalloc. And also zbud
too as a goal is to replace zbud with zsmalloc too.


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