On 16/11/2021 10:27, Ivaylo Dimitrov wrote:
Hi,
On 16.11.21 г. 8:42 ч., Tomi Valkeinen wrote:
On 15/11/2021 19:15, Ivaylo Dimitrov wrote:
Hi,
On 15.11.21 г. 17:37 ч., Tomi Valkeinen wrote:
On 15/11/2021 15:55, Ivaylo Dimitrov wrote:
Hi Tomi,
On 15.11.21 г. 10:42 ч., Tomi Valkeinen wrote:
Hi,
On 13/11/2021 11:53, Ivaylo Dimitrov wrote:
Memory of BOs backed by TILER is not contiguous, but
omap_gem_map_dma_buf()
exports it like it is. This leads to (possibly) invalid memory
accesses if
another device imports such a BO.
This is one reason why TILER hasn't been officially supported. But
the above is not exactly right, or at least not the whole truth.
Definitely, not only these BOs lie about their memory layout, they
lie about size and alignment as well. I have 2 more patches here
(one is to align TILER memory on page, as proposed by Matthijs in
the other mail, the other to set the correct size when exporting
TILER BO), but I wanted to hear from you first, like, what is the
general trend :) .
My thoughts here are that the current code doesn't work in practice,
so if you get it fixed, it's great =).
Also, I have another patch in mind, that will enable exporting of
buffers that are not TILER backed, but are not CMA backed either.
SGX for example does not need CMA memory to render to.
What do you mean with this? DSS needs contiguous memory, so the
memory has to be 1) physically contiguous, 2) mapped with DMM or 3)
mapped with TILER. There's no reason for the driver to export
non-contiguous memory.
DSS yes, but, omapdrm is used to allocate non-scanout buffers as
well, which do not need to be (and in practice are not) contiguous.
GPU (or anyone with MMU) can render on them (DRI buffers for example)
and later on those buffers can be copied (blit) to the framebuffer.
Yes, not zero-copy, but if you're doing compositing, there is no
option anyway.
Exactly this is done by omap-video driver for example. GBM BOs are
allocated through omapdrm as well.
That is not correct and shouldn't be done. omapdrm is not a generic
memory allocator. We have real generic allocators, so those should be
used. Or, if the buffer is only used for a single device, the buffer
should be allocated from that device's driver.
Yes, I saw the comment in kernel headers that dumb buffers should not be
used for rendering
(https://elixir.bootlin.com/linux/latest/source/include/drm/drm_drv.h#L361).
This makes no sense to me at all, but maybe I am missing the point.
I believe that comments refers to another issue: a dumb buffer from may
not be usable for rendering. It's only guaranteed to be
readable/writable by the CPU.
What I'm talking about is that a driver must support memory allocations
for buffers that the device handled by the driver can use. In many cases
that allocated buffer also works with other devices, and thus dmabuf
export/import can be used. But a driver supporting memory allocations
for buffers that the device itself cannot use is just wrong.
Also, it could be that the implementation of omap-video and/or PVR
userspace blobs is against the specs, but I see omap-video calling
DRM_IOCTL_OMAP_GEM_NEW for DRI buffers without OMAP_BO_SCANOUT and
libdbm.so calling DRM_IOCTL_MODE_CREATE_DUMB to create buffers then used
for rendering.
I think neither of those are exactly material to be used as examples on
how to do things. And there's lots of history there. We didn't have
generic allocators back then.
This is not an issue on omap4 an later, because when export of that
buffer is requested, omapdrm uses DMM and exports a single scatterlist
entry, IIUC.
But, on omap3, given there is no DMM, export is simply refused. I don't
see that as a consistent behaviour - we shall either a) export
non-scanout buffers (scattered ones) using whatever is supported (DMM
and single scatterlist entry on omap4 (and later), multiple-entry
scatterlist on omap3) or b) always require OMAP_BO_SCANOUT for BOs to be
exported and refuse to export if no such flag is set. I would say b) is
not a good option which leaves a) only.
I think we should always require OMAP_BO_SCANOUT, or rather, drop the
flag totally and always expect the buffer to be a scanout buffer. The
only use for DSS is scanout, and those are the only buffers that omapdrm
needs to support. But that would be breaking the uAPI, so I think we
just have to support what we do now.
BTW, I think DMM is not really needed unless userspace requests mmap(),
in theory we can provide userspace with view through DMM but give device
drivers multiple entry scatterlist, potentially saving DMM space.
The userspace (CPU) doesn't need the DMM, the CPU has an MMU. I thought
we already skip the DMM when mapping to the userspace. But in TILER case
we always need TILER, even with the CPU.
I hope I made it clearer now why I think this feature shall be implemented.
I think it's just adding more wrong on top of the old wrong =).
Also, if we need DMM/TILER allocations for other devices than DSS (but
so far this hasn't been mentioned), then I think the DMM/TILER
functionality should be separated from omapdrm and moved to (I think)
dma-heap.
2. Set exp_info.size = omap_gem_mmap_size(obj); when exporting a
BO. That way importer knows the real BO memory size (including
alignment etc) so he will be able to calculate the number of pages
he needs to map the scatterlist.
Can you elaborate what this means?
When we align to page, we shall report the size including the
alignment, no? Or, it is the importer that shall take care to
calculate BO size( including the alignment) based on scatterlist if
he needs to?
I'm not sure... But I guess the export size should include the alignment.
My understanding as well. Will sent that change as a part of page
alignment patch.
Hmm... I haven't had enough coffee yet, but how does this go... Let's
say we have a tiled fb, and the width gets expanded to a page. What
happens to reads/writes that happen outside the fb, but still within
the page? Those should cause an error or do nothing, but is it
possible that they go through TILER and get mapped to some real memory
location?
I lack the details here, but reading through TRM leaves me with the
impression that TILER smallest unit is a tile, and every tile is backed
by a real memory page (4KiB), so outside read-writes will end up in
memory that's there but unused and will do nothing.
omap_gem_new() calls tiler_align(), which in turn seems to return
page-aligned size, so I think there is no issue here.
Maybe, but, consider this example, with numbers totally out of thin air:
We have a fb with the width of 32 pixels, so 128 bytes. If we have tiles
which cover 32 x 32 pixels (so 4096 bytes with 4 bpp), we need one tile
to cover the width. But we have all the rest of the page mapped, so 3968
bytes that are not covered with a tile (or rather, we haven't configured
that tile, or maybe the tile contains old configuration).
I could be totally wrong here, as I don't remember the details. But I do
think that it's very easy to get this wrong, creating memory corruptions
and/or security violations.
Tomi