Am 24.01.23 um 06:19 schrieb John Stultz:
On Mon, Jan 23, 2023 at 8:29 AM Christian König
<christian.koenig@xxxxxxx> wrote:
Am 23.01.23 um 14:55 schrieb Laurent Pinchart:
- I assume some drivers will be able to support multiple heaps. How do
you envision this being implemented ?
I don't really see an use case for this.
We do have some drivers which say: for this use case you can use
whatever you want, but for that use case you need to use specific memory
(scan out on GPUs for example works like this).
[snipping the constraints argument, which I agree with]
What we do have is compatibility between heaps. E.g. a CMA heap is
usually compatible with the system heap or might even be a subset of
another CMA heap. But I wanted to add that as next step to the heaps
framework itself.
So the difficult question is how is userland supposed to know which
heap is compatible with which?
The heaps should know which other heap they are compatible with.
E.g. the CMA heap should have a link to the system heap because it can
handle all system memory allocations as well.
If we have a specialized CMA heap (for example for 32bit DMA) it should
have a link to the general CMA heap.
If you have two devices, one that points to heap "foo" and the other
points to heap "bar", how does userland know that "foo" satisfies the
constraints of "bar" but "bar" doesn't satisfy the constraints of
"foo".
(foo ="cma", bar="system")
I think it would be much better for device 1 to list "foo" and device
2 to list "foo" and "bar", so you can find that "foo" is the common
heap which will solve both devices' needs.
I think that this would be a rather bad idea because then all devices
need to know about all the possible different heaps they are compatible
with.
For example a device which knows that it's compatible with system memory
should only expose that information.
That a CMA heap is also compatible with system memory is irrelevant for
this device and should be handled between the CMA and system heap.
- Devices could have different constraints based on particular
configurations. For instance, a device may require specific memory
layout for multi-planar YUV formats only (as in allocating the Y and C
planes of NV12 from different memory banks). A dynamic API may thus be
needed (but may also be very painful to use from userspace).
Uff, good to know. But I'm not sure how to expose stuff like that.
Yeah. These edge cases are really hard to solve generically. And
single devices that have separate constraints for different uses are
also not going to be solvable with a simple linking approach.
But I do wonder if a generic solution to all cases is needed
(especially if it really isn't possible)? If we leave the option for
gralloc like omniscient device-specific userland policy, those edge
cases can be handled by those devices that can't run generic logic.
And those devices just won't be able to be supported by generic
distros, hopefully motivating future designs to have less odd
constraints?
Potentially yes, but I think that anything more complex than "please
allocate from this piece of memory for me" is not something which should
be handled inside the device independent framework.
Especially device specific memory and allocation constrains (e.g. things
like don't put those two things on the same memory channel) is *not*
something we should have in an inter device framework.
In those cases we should just be able to say that an allocation should
be made from a specific device and then let the device specific drivers
deal with the constrain.
Regards,
Christian.
thanks
-john