On Wed, May 08, 2024 at 09:38:33AM +0100, Daniel Stone wrote:
On Wed, 8 May 2024 at 09:33, Daniel Vetter daniel@ffwll.ch wrote:
On Wed, May 08, 2024 at 06:46:53AM +0100, Daniel Stone wrote:
That would have the unfortunate side effect of making sandboxed apps less efficient on some platforms, since they wouldn't be able to do direct scanout anymore ...
I was assuming that everyone goes through pipewire, and ideally that is the only one that can even get at these special chardev.
If pipewire is only for sandboxed apps then yeah this aint great :-/
No, PipeWire is fine, I mean graphical apps.
Right now, if your platform requires CMA for display, then the app needs access to the GPU render node and the display node too, in order to allocate buffers which the compositor can scan out directly. If it only has access to the render nodes and not the display node, it won't be able to allocate correctly, so its content will need a composition pass, i.e. performance penalty for sandboxing. But if it can allocate correctly, then hey, it can exhaust CMA just like heaps can.
Personally I think we'd be better off just allowing access and figuring out cgroups later. It's not like the OOM story is great generally, and hey, you can get there with just render nodes ...
Imo the right fix is to ask the compositor to allocate the buffers in this case, and then maybe have some kind of revoke/purge behaviour on these buffers. Compositor has an actual idea of who's a candidate for direct scanout after all, not the app. Or well at least force migrate the memory from cma to shmem.
If you only whack cgroups on this issue you're still stuck in the world where either all apps together can ddos the display or no one can realistically direct scanout.
So yeah on the display side the problem isn't solved either, but we knew that already. -Sima