On Wed, Dec 9, 2020 at 3:53 PM Minchan Kim minchan@kernel.org wrote:
On Wed, Nov 18, 2020 at 07:19:07PM -0800, John Stultz wrote:
The CMA heap currently only registers the default CMA heap, as we didn't want to expose all CMA regions and there's otherwise no way to pick and choose.
Yub.
dma-buf really need a way to make exclusive CMA area. Otherwise, default CMA would be shared among drivers and introduce fragmentation easily since we couldn't control other drivers. In such aspect, I don't think current cma-heap works if userspace needs big memory chunk.
Yes, the default CMA region is not always optimal.
That's why I was hopeful for Kunihiko Hayashi's patch to allow for exposing specific cma regions: https://lore.kernel.org/lkml/1594948208-4739-1-git-send-email-hayashi.kunihi...
I think it would be a good solution, but all we need is *some* driver which can be considered the primary user/owner of the cma region which would then explicitly export it via the dmabuf heaps.
Here, the problem is there is no in-kernel user to bind the specific CMA area because the owner will be random in userspace via dma-buf interface.
Well, while I agree that conceptually the dmabuf heaps allow for allocations for multi-device pipelines, and thus are not tied to specific devices. I do think that the memory types exposed are likely to have specific devices/drivers in the pipeline that it matters most to. So I don't see a big issue with the in-kernel driver registering a specific CMA region as a dmabuf heap.
Is there a reason to use dma-heap framework to add cma-area for specific device ?
Even if some in-tree users register dma-heap with cma-area, the buffers could be allocated in user-land and these could be shared among other devices. For exclusive access, I guess, the device don't need to register dma-heap for cma area.
It's not really about exclusive access. More just that if you want to bind a memory reservation/region (cma or otherwise), at least for DTS, it needs to bind with some device in DT.
Then the device driver can register that region with a heap driver. This avoids adding new Linux-specific software bindings to DT. It becomes a driver implementation detail instead. The primary user of the heap type would probably be a practical pick (ie the display or isp driver).
If it's the only solution, we could create some dummy driver which has only module_init and bind it from there but I don't think it's a good idea.
Yea, an un-upstreamable dummy driver is maybe what it devolves to in the worst case. But I suspect it would be cleaner for a display or ISP driver that benefits most from the heap type to add the reserved memory reference to their DT node, and on init for them to register the region with the dmabuf heap code.
The other potential solution Rob has suggested is that we create some tag for the memory reservation (ie: like we do with cma: "reusable"), which can be used to register the region to a heap. But this has the problem that each tag has to be well defined and map to a known heap.
Do you think that's the only solution to make progress for this feature? Then, could you elaborate it a bit more or any other ideas from dma-buf folks?
I'm skeptical of that DT tag approach working out, as we'd need a new DT binding for the new tag name, and we'd have to do so for each new heap type that needs this (so non-default cma, your chunk heap, whatever other similar heap types that use reserved regions folks come up with). Having *some* driver take ownership for the reserved region and register it with the appropriate heap type seems much cleaner/flexible and avoids mucking with the DT ABI.
thanks -john