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    SubjectRe: [PATCH v6 4/5] dma-buf: heaps: Add CMA heap to dmabuf heaps
    On Wed, Jul 24, 2019 at 12:00 AM Christoph Hellwig <hch@infradead.org> wrote:
    > On Mon, Jul 22, 2019 at 10:04:06PM -0700, John Stultz wrote:
    > > Apologies, I'm not sure I'm understanding your suggestion here.
    > > dma_alloc_contiguous() does have some interesting optimizations
    > > (avoiding allocating single page from cma), though its focus on
    > > default area vs specific device area doesn't quite match up the usage
    > > model for dma heaps. Instead of allocating memory for a single
    > > device, we want to be able to allow userland, for a given usage mode,
    > > to be able to allocate a dmabuf from a specific heap of memory which
    > > will satisfy the usage mode for that buffer pipeline (across multiple
    > > devices).
    > >
    > > Now, indeed, the system and cma heaps in this patchset are a bit
    > > simple/trivial (though useful with my devices that require contiguous
    > > buffers for the display driver), but more complex ION heaps have
    > > traditionally stayed out of tree in vendor code, in many cases making
    > > incompatible tweaks to the ION core dmabuf exporter logic.
    >
    > So what would the more complicated heaps be?

    Mostly secure heaps, but there have been work in the past with
    specially aligned chunk heaps in the past. Unfortunately since every
    vendor tree also include many of their own hacks to the core ION code
    (usually without changelogs or comments) its hard to decipher much of
    it.

    Some examples:
    msm:
    https://github.com/Panchajanya1999/msm-4.14/blob/Pie/drivers/staging/android/ion/ion_cma_secure_heap.c

    exynos:
    https://github.com/exynos-linux-stable/starlte/tree/tw90-android-p/drivers/staging/android/ion/exynos

    hisi:
    https://github.com/hexdebug/android_kernel_huawei_hi3660/blob/master/drivers/staging/android/ion/ion_seccm_heap.c
    https://github.com/hexdebug/android_kernel_huawei_hi3660/blob/master/drivers/staging/android/ion/ion_secsg_heap.c
    https://github.com/hexdebug/android_kernel_huawei_hi3660/blob/master/drivers/staging/android/ion/ion_fama_misc_heap.c

    mediatek:
    https://android.googlesource.com/kernel/mediatek/+/android-mtk-3.18/drivers/staging/android/ion/mtk/ion_mm_heap.c

    But Andrew's example is probably a better example against the dmabuf
    heaps frameworks


    > > That's why
    > > dmabuf heaps is trying to destage ION in a way that allows heaps to
    > > implement their exporter logic themselves, so we can start pulling
    > > those more complicated heaps out of their vendor hidey-holes and get
    > > some proper upstream review.
    > >
    > > But I suspect I just am confused as to what your suggesting. Maybe
    > > could you expand a bit? Apologies for being a bit dense.
    >
    > My suggestion is to merge the system and CMA heaps. CMA (at least
    > the system-wide CMA area) is really just an optimization to get
    > large contigous regions more easily. We should make use of it as
    > transparent as possible, just like we do in the DMA code.

    I'm still not understanding how this would work. Benjamin and Laura
    already commented on this point, but for a simple example, with the
    HiKey boards, the DRM driver requires contiguous memory for the
    framebuffer, but the GPU can handle non-contiguous. Thus the target
    framebuffers that we pass to the display has to be CMA allocated, but
    all the other graphics buffers that the GPU will render to and
    composite can be system.

    Having the separate heaps allows the gralloc code to allocate the
    proper buffer depending on the planned usage (GRALLOC_USAGE_HW_FB or
    not), and that way we don't waste CMA on buffers that don't have to be
    contiguous.

    Laura already touched on this, but similar logic can be used for
    camera buffers, which can make sure we allocate from a specifically
    reserved CMA region that is only used for the camera so we can always
    be sure to have N free buffers immediately to capture with, etc.

    But let me know if I'm still misunderstanding your suggestion.

    thanks
    -john

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