Re: [RFC PATCH 2/6] drm/cgroup: Add memory accounting DRM cgroup

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 




On 01/07/2024 10:25, Maarten Lankhorst wrote:
Den 2024-06-28 kl. 16:04, skrev Maxime Ripard:
Hi,

On Thu, Jun 27, 2024 at 09:22:56PM GMT, Maarten Lankhorst wrote:
Den 2024-06-27 kl. 19:16, skrev Maxime Ripard:
Hi,

Thanks for working on this!

On Thu, Jun 27, 2024 at 05:47:21PM GMT, Maarten Lankhorst wrote:
The initial version was based roughly on the rdma and misc cgroup
controllers, with a lot of the accounting code borrowed from rdma.

The current version is a complete rewrite with page counter; it uses
the same min/low/max semantics as the memory cgroup as a result.

There's a small mismatch as TTM uses u64, and page_counter long pages.
In practice it's not a problem. 32-bits systems don't really come with
=4GB cards and as long as we're consistently wrong with units, it's
fine. The device page size may not be in the same units as kernel page
size, and each region might also have a different page size (VRAM vs GART
for example).

The interface is simple:
- populate drmcgroup_device->regions[..] name and size for each active
    region, set num_regions accordingly.
- Call drm(m)cg_register_device()
- Use drmcg_try_charge to check if you can allocate a chunk of memory,
    use drmcg_uncharge when freeing it. This may return an error code,
    or -EAGAIN when the cgroup limit is reached. In that case a reference
    to the limiting pool is returned.
- The limiting cs can be used as compare function for
    drmcs_evict_valuable.
- After having evicted enough, drop reference to limiting cs with
    drmcs_pool_put.

This API allows you to limit device resources with cgroups.
You can see the supported cards in /sys/fs/cgroup/drm.capacity
You need to echo +drm to cgroup.subtree_control, and then you can
partition memory.

Signed-off-by: Maarten Lankhorst<maarten.lankhorst@xxxxxxxxxxxxxxx>
Co-developed-by: Friedrich Vock<friedrich.vock@xxxxxx>
I'm sorry, I should have wrote minutes on the discussion we had with TJ
and Tvrtko the other day.

We're all very interested in making this happen, but doing a "DRM"
cgroup doesn't look like the right path to us.

Indeed, we have a significant number of drivers that won't have a
dedicated memory but will depend on DMA allocations one way or the
other, and those pools are shared between multiple frameworks (DRM,
V4L2, DMA-Buf Heaps, at least).

This was also pointed out by Sima some time ago here:
https://lore.kernel.org/amd-gfx/YCVOl8%2F87bqRSQei@phenom.ffwll.local/

So we'll want that cgroup subsystem to be cross-framework. We settled on
a "device" cgroup during the discussion, but I'm sure we'll have plenty
of bikeshedding.

The other thing we agreed on, based on the feedback TJ got on the last
iterations of his series was to go for memcg for drivers not using DMA
allocations.

It's the part where I expect some discussion there too :)

So we went back to a previous version of TJ's work, and I've started to
work on:

    - Integration of the cgroup in the GEM DMA and GEM VRAM helpers (this
      works on tidss right now)

    - Integration of all heaps into that cgroup but the system one
      (working on this at the moment)

Should be similar to what I have then. I think you could use my work to
continue it.

I made nothing DRM specific except the name, if you renamed it the device
resource management cgroup and changed the init function signature to take a
name instead of a drm pointer, nothing would change. This is exactly what
I'm hoping to accomplish, including reserving memory.

I've started to work on rebasing my current work onto your series today,
and I'm not entirely sure how what I described would best fit. Let's
assume we have two KMS device, one using shmem, one using DMA
allocations, two heaps, one using the page allocator, the other using
CMA, and one v4l2 device using dma allocations.

So we would have one KMS device and one heap using the page allocator,
and one KMS device, one heap, and one v4l2 driver using the DMA
allocator.

Would these make different cgroup devices, or different cgroup regions?

Each driver would register a device, whatever feels most logical for that device I suppose.

My guess is that a prefix would also be nice here, so register a device with name of drm/$name or v4l2/$name, heap/$name. I didn't give it much thought and we're still experimenting, so just try something. :)

There's no limit to amount of devices, I only fixed amount of pools to match TTM, but even that could be increased arbitrarily. I just don't think there is a point in doing so.

Do we need a plan for top level controls which do not include region names? If the latter will be driver specific then I am thinking of ease of configuring it all from the outside. Especially considering that one cgroup can have multiple devices in it.

Second question is about double accounting for shmem backed objects. I think they will be seen, for drivers which allocate backing store at buffer objects creation time, under the cgroup of process doing the creation, in the existing memory controller. Right?

Is there a chance to exclude those from there and only have them in this new controller? Or would the opposite be a better choice? That is, not see those in the device memory controller but only in the existing one.

Regards,

Tvrtko

The nice thing is that it should be similar to the memory cgroup controller
in semantics, so you would have the same memory behavior whether you use the
device cgroup or memory cgroup.

I'm sad I missed the discussion, but hopefully we can coordinate more now
that we know we're both working on it. :)

Yeah, definitely :)

Maxime
Cheers,
~Maarten



[Index of Archives]     [Linux DRI Users]     [Linux Intel Graphics]     [Linux USB Devel]     [Video for Linux]     [Linux Audio Users]     [Yosemite News]     [Linux Kernel]     [Linux SCSI]     [XFree86]     [Linux USB Devel]     [Video for Linux]     [Linux Audio Users]     [Linux Kernel]     [Linux SCSI]     [XFree86]
  Powered by Linux