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SubjectRe: Re: [PATCH 1/1] [ion]: system-heap use PAGE_ALLOC_COSTLY_ORDER for high order
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On Mon, Oct 6, 2014 at 9:26 AM, PINTU KUMAR <pintu.k@samsung.com> wrote:
>
> Hi,
> >________________________________
> > From: Laura Abbott <lauraa@codeaurora.org>
> >To: Heesub Shin <heesub.shin@samsung.com>; Pintu Kumar <pintu.k@samsung.com>; akpm@linux-foundation.org; gregkh@linuxfoundation.org; john.stultz@linaro.org; rebecca@android.com; ccross@android.com; devel@driverdev.osuosl.org; linux-kernel@vger.kernel.org
> >Cc: iqbal.ams@samsung.com; pintu_agarwal@yahoo.com; vishnu.ps@samsung.com
> >Sent: Monday, 6 October 2014 7:37 PM
> >Subject: Re: [PATCH 1/1] [ion]: system-heap use PAGE_ALLOC_COSTLY_ORDER for high order
> >
> >
> >On 10/6/2014 3:27 AM, Heesub Shin wrote:
> >
> >
> >
> >
> >> Hello Kumar,
> >>
> >> On 10/06/2014 05:31 PM, Pintu Kumar wrote:
> >>> The Android ion_system_heap uses allocation fallback mechanism
> >>> based on 8,4,0 order pages available in the system.
> >>> It changes gfp flags based on higher order allocation request.
> >>> This higher order value is hard-coded as 4, instead of using
> >>> the system defined higher order value.
> >>> Thus replacing this hard-coded value with PAGE_ALLOC_COSTLY_ORDER
> >>> which is defined as 3.
> >>> This will help mapping the higher order request in system heap with
> >>> the actual allocation request.
> >>
> >> Quite reasonable.
> >>
> >> Reviewed-by: Heesub Shin <heesub.shin@samsung.com>
> >>
> >> BTW, Anyone knows how the allocation order (8,4 and 0) was decided? I
> >> think only Google guys might know the answer.
> >>
> >> regards,
> >> heesub
> >>
> >
> >My understanding was this was completely unrelated to the costly order
> >and was related to the page sizes corresponding to IOMMU page sizes
> >(1MB, 64K, 4K). This won't make a difference for the uncached page
> >pool case but for the not page pool case, I'm not sure if there would
> >be a benefit for trying to get 32K pages with some effort vs. just
> >going back to 4K pages.
>
> No, it is not just related to IOMMU case. It comes into picture also for
> normal system-heap allocation (without iommu cases).
> Also, it is applicable for both uncached and page_pool cases.
> Please also check the changes under ion_system_heap_create.
> Here the gfp_flags are set under the pool structure.
> This value is used in ion_page_pool_alloc_pages.
> In both the cases, it internally calls alloc_pages, with this gfp_flags.
> Now, during memory pressure scenario, when alloc_pages moves to slowpath
> this gfp_flags will be used to decide allocation retry.
> In the current code, the higher-order flag is set only when order is greater than 4.
> But, in MM, the order 4 is also considered as higher-order request.
> This higher-order is decided based on PAGE_ALLOC_COSTLY_ORDER (3) value.
> Hence, I think this value should be in sync with the MM code.
> >
> >Do you have any data/metrics that show a benefit from this patch?
> I think it is not related to any data or metrics.
> It is about replacing the hard-coded higher-order check to be in sync with
> the MM code.
>

The selection of the orders used for allocation (8, then 4, then 0) is
designed to match with the sizes often found in IOMMUs, but this isn't
changing the order of the allocation, it is changing the GFP flags
used for the order 4 allocation. Right now we are using the
low_order_gfp_flags for order 4, this patch would change it to use
high_order_gfp_flags. We originally used low_order_gfp_flags here
because the MM subsystem can usually satisfy these allocations, and
the additional load placed on the MM subsystem to kick off kswapd to
free up more order 4 chunks is generally worth it. Using order 4
pages instead of order 0 pages can significantly improve the
performance of many IOMMUs by reducing TLB pressure and time spent
updating page tables. Unless you have data showing that this improves
something, and doesn't just cause all allocations to be order 0 when
under memory pressure, I don't suggest merging this.


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