Re: RFC: add min_num_buffers and clarify V4L2_CID_MIN_BUFFERS_FOR_CAPTURE/OUTPUT

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

 



On 10/29/24 10:04, Hans Verkuil wrote:
> On 29/10/2024 09:17, Hans Verkuil wrote:
>> On 28/10/2024 16:52, Laurent Pinchart wrote:
>>> Hi Hans,
>>>
>>> On Mon, Oct 28, 2024 at 12:10:22PM +0100, Hans Verkuil wrote:
>>>> Hi all,
>>>>
>>>> This mail thread uncovered some corner cases around how many buffers should be allocated
>>>> if VIDIOC_REQBUFS with count = 1 is called:
>>>>
>>>> https://lore.kernel.org/linux-media/20241003-rp1-cfe-v6-0-d6762edd98a8@xxxxxxxxxxxxxxxx/T/#mc2210597d92b5a0f09fabdac2f7307128aaa9bd8
>>>
>>> I'll repeat below some comments I've made in that thread, as they're
>>> better discussed in the context of this RFC.
>>>
>>>> When it comes to the minimum number of buffers there are a number of limitations:
>>>>
>>>> 1) The DMA engine needs at least N buffers to be queued before it can start. Typically
>>>>    this is 0, 1 or 2, and a driver sets this via the vb2_queue min_queued_buffers field.
>>>>    So if min_queued_buffers = 1, then the DMA engine needs one buffer at all times to
>>>>    DMA to. Allocating just one buffer would mean the DMA engine can never return that
>>>>    buffer to userspace (it would just keep recycling the same buffer over and over), so
>>>>    the minimum must be min_queued_buffers + 1.
>>>
>>> I think you're mixing hardware and driver constraints here. Drivers can
>>> use scratch buffers to relax the hardware requirements, and allow
>>> userspace operation with less buffers than strictly required by the
>>> hardware.
>>>
>>> The cost of allocating such scratch buffers vary depending on the
>>> device. When an IOMMU is available, or when the device has a line stride
>>> that can be set to 0 and supports race-free programming of the stride
>>> and buffer addresses, the scratch buffer can be as small as a single
>>> page or a single line. In other cases, a full-frame scratch buffer is
>>> required, which is costly, and the decision on whether or not to
>>> allocate such a scratch buffer should probably be taken with userspace
>>> being involved.
>>
>> I honestly don't see why you would want to spend a lot of time on adding
>> scratch buffer support just to save a bit of memory. Is the use-case of
>> capturing just a single buffer so common? To me it seems that it only
>> makes sense to spend effort on this if you only need to capture a single
>> buffer and never need to stream more buffers.
>>
>> Can you describe the use-case of capturing just a single buffer? Is that
>> just for testing libcamera? Or is it something that happens all the time
>> during normal libcamera operation?
>>
>> Supporting scratch buffers is a lot of effort for something that is not
>> needed for normal streaming.
>>
>>>
>>> min_queued_buffers describes how the device operates from a userspace
>>> point of view, so I don't think it should be considered or documented as
>>> being a hardware requirement, but a driver requirement.
>>
>> It's a hardware and/or driver requirement. It is absolutely not a userspace
>> requirement. Normal userspace applications that use VIDIOC_REQBUFS and just
>> stream video will never notice this.
>>
>>>
>>>> 2) Historically VIDIOC_REQBUFS is expected to increase the count value to a number that
>>>>    ensures the application can smoothly process the video stream. Typically this will
>>>>    be 3 or 4 (if min_queued_buffers == 2): min_queued_buffers are used by the DMA engine,
>>>>    one buffer is queued up in vb2, ready to be used by the DMA engine as soon as it
>>>>    returns a filled buffer to userspace, and one buffer is processed by userspace.
>>>>
>>>>    This is to support applications that call VIDIOC_REQBUFS with count = 1 and leave it
>>>>    to the driver to increment it to a workable value.
>>>
>>> Do we know what those applications are ? I'm not disputing the fact that
>>> this may need to be supported to avoid breaking old userspace, but I
>>> also think this feature should be phased out for new drivers, especially
>>> drivers that require a device-specific userspace and therefore won't
>>> work out of the box with old applications.
>>
>> xawtv is one: it will call REQBUFS with count = 2 (so this would fail for
>> any driver that sets min_queued_buffers to 2), and with count = 1 if it wants
>> to capture just a single frame.
>>
>> 'git grep min_queued_buffers|grep -v videobuf|wc' gives me 83 places where it is
>> set. Some of those are likely wrong (min_queued_buffers has been abused as a
>> replacement for min_reqbufs_allocation), but still that's quite a lot.
>>
>> Mostly these are older drivers for hardware without an IOMMU and typically for
>> SDTV capture. So memory is not a consideration for those drivers since a
>> SDTV buffer is quite small.
>>
>>>
>>>> 3) Stateful codecs in particular have additional requirements beyond the DMA engine
>>>>    limits due to the fact that they have to keep track of reference buffers and other
>>>>    codec limitations. As such more buffers are needed, and that number might also vary
>>>>    based on the specific codec used. The V4L2_CID_MIN_BUFFERS_FOR_CAPTURE/OUTPUT
>>>>    controls are used to report that. Support for this is required by the stateful codec
>>>>    API.
>>>>
>>>>    The documentation of these controls suggest that these are generic controls, but
>>>>    as of today they are only used by stateful codec drivers.
>>>>
>>>> 4) Some corner cases (mainly/only SDR, I think) where you need more than the usual
>>>>    3 or 4 buffers since the buffers arrive at a high frequency.
>>>
>>> High frame rates is an important feature, but it's also a can of worms.
>>> V4L2 is lacking the ability to batch multiple frames, we will have to
>>> address that. Hopefully it could be decoupled from this RFC.
>>
>> It's a separate issue indeed. I just mentioned it because I know SDR drivers
>> use this. They are rarely used, though.
>>
>>>
>>>> Rather than have drivers try to correct the count value (typically incorrectly), the
>>>> vb2_queue min_reqbufs_allocation field was added to set the minimum number of
>>>> buffers that VIDIOC_REQBUFS should allocate if count is less than that.
>>>
>>> Even if I dislike this feature, I agree it's better implemented through
>>> min_reqbufs_allocation than by manual calculations in drivers.
>>>
>>>> VIDIOC_CREATE_BUFS is not affected by that: if you use CREATE_BUFS you take full control
>>>> of how many buffers you want to create. It might create fewer buffers if you run out of
>>>> memory, but never more than requested.
>>>>
>>>> But what is missing is that if you use CREATE_BUFS you need to know the value of
>>>> min_queued_buffers + 1, and that is not exposed.
>>>>
>>>> I would propose to add a min_num_buffers field to struct v4l2_create_buffers
>>>> and add a V4L2_BUF_CAP_SUPPORTS_MIN_NUM_BUFFERS flag to signal the presence of
>>>> that field. And vb2 can set it to min_queued_buffers + 1.
>>>
>>> This would require allocating a buffer first to get the value. Wouldn't
>>> a read-only control be better ?
>>
>> No. You can call CREATE_BUFS with count = 0: in that case it does nothing,
>> except filling in all those capabilities. It was designed with that in mind
>> so you have an ioctl that can return all that information.
>>
>>>
>>> Furthermore, I would rather provide the min_queued_buffers value instead
>>> of min_queued_buffers + 1. The V4L2 API should provide userspace with
>>> information it needs to make informed decisions, but not make those
>>> decisions in behalf of userspace. It's up to applications to add 1 or
>>> more buffers depending on their use case.
>>
>> I would definitely want more opinions on this. What's the point of returning
>> min_queued_buffers and then creating that many buffers and still not be able
>> to stream?
>>
>> Can you think of a scenario (e.g. in libcamera or elsewhere) where that makes
>> sense?
>>
>> Also, will the average V4L2 user have the knowledge to understand that? You
>> have that knowledge, but I think for anyone else it would be really confusing.
>>
>>>
>>> I think we also need to discuss policies regarding scratch buffer
>>> allocation in the context of this RFC. When the hardware supports small
>>> scratch buffers, I would like to make it mandatory for drivers to do so
>>> and support min_queued_buffers = 0.
>>
>> I would first like to know the use-case (as I mentioned above).
>>
>> For the type of drivers I mostly work with (video receivers), it would just
>> be a lot of work for no gain. But perhaps for camera pipelines it does make
>> sense?
>>
>>> When scratch buffers are expensive, do we want to still support them in
>>> the kernel, perhaps in a way controlled by userspace ? A userspace that
>>> can guarantee it will always provide min_queued_buffers + 1 buffers
>>> could indicate so and avoid scratch buffer allocation, while a userspace
>>> that can't provide that guarantee would get scratch buffers from the
>>> kernel.
>>
>> That is really the difference between using VIDIOC_REQBUFS and VIDIOC_CREATE_BUFS.
>> I.e., userspace can already choose this.
>>
>> Just to clarify the reason for this RFC: the current situation is messy. There
>> is a lot of history and a lot of older drivers do not always do the right thing.
>>
>> With this RFC I would like to get a consensus of how it should work. After that
>> I want to implement any missing bits and improve the documentation, and finally
>> go through the drivers and at least try to make them behave consistently.
>>
>> Also I want to improve v4l2-compliance to test more corner cases, especially
>> if you use CREATE_BUFS instead of REQBUFS (I already have a patch for that
>> ready).
>>
>> The work Benjamin did on increasing the max number of supported buffers and the
>> REMOVE_BUFS ioctl uncovered a lot of that messy history, and it is clear we need
>> to try and clarify how it should work.
>>
>>>> The second proposal is to explicitly document that the V4L2_CID_MIN_BUFFERS_FOR_CAPTURE/OUTPUT
>>>> are for stateful codec support only, at least for now.
>>
>> I just discovered that v4l2-compliance and v4l2-ctl do not honor these controls
>> for stateful codecs. That's something that needs to be fixed.
>>
>> There is also one other item that I would like to discuss: the vb2 queue_setup
>> callback is currently used for both REQBUFS and CREATE_BUFS, and it remains
>> confusing for drivers how to use it exactly. I am inclined to redesign that
>> part, most likely splitting it in two: either one callback for REQBUFS and one
>> for CREATE_BUFS, or alternatively, one callback when allocating buffers for
>> the first time (so REQBUFS and when CREATE_BUFS is called for the first time,
>> i.e. when no buffers are allocated yet), and one callback when adding additional
>> buffers. I would have to think about this, and probably experiment a bit.

What vb2 needs is information about the buffers based on the current pixel format:
i.e. the number of planes and the size of each plane. Currently it relies on
queue_setup to figure that out and either set or verify the sizes.

It might be much easier if there is a callback for drivers to provide that information,
and let vb2 handle the actual REQBUFS/CREATE_BUFS handling. Every driver basically
does the same tests (or is supposed to, at least). Moving that to vb2 should simplify
drivers.

> 
> Actually, this really has to be addressed since this is broken: you can call
> CREATE_BUFS as a replacement for REQBUFS, but it will act like REQBUFS and
> the requested sizes are not honored.
> 
> I added tests for this to v4l2-compliance (locally only), and it fails on
> everything.
> 
> It should not be news to anyone that I hate the CREATE_BUFS ioctl API. I posted
> an RFC for a VIDIOC_ADD_BUFS replacement earlier this year:
> 
> https://lore.kernel.org/linux-media/243a66ad-6dff-4a43-ab03-e01d1038fe8a@xxxxxxxxx/
> 
> I wonder if we should restrict CREATE_BUFS to only be used after calling
> REQBUFS, and to a proper job for ADD_BUFS. Because given the vb2 design flaw
> I am not sure if it can be worked around. Or if we even want that.
> 
> What a mess.

I had a brainwave and I think this can be solved in the vb2 framework. This
will require that a new V4L2_BUF_CAP_ flag is introduced to indicate that
CREATE_BUFS does the right thing when called without calling REQBUFS first.

I don't dare restrict CREATE_BUFS as I suggested above: this ioctl has been
around for over a decade and I have no idea how it is used 'in the field'.

I think I will work on the issues described in this RFC tomorrow and see if
I can post an RFC patch series so we can continue the discussion based on
actual code.

Regards,

	Hans

> 
> Looking at the kernel history, CREATE_BUFS was added back in 2011 and the first
> very simple v4l2-compliance tests were added in 2012.
> 
> Moral: whenever a new uAPI is added, make sure it you make really good compliance
> tests as well.
> 
> Regards,
> 
> 	Hans
> 
>>
>> Regards,
>>
>> 	Hans
>>
>>>>
>>>> If this is in place, then min_reqbufs_allocation should be set to a sane number of
>>>> buffers (i.e. typically 3 or 4), and if you want precise control, use VIDIOC_CREATE_BUFS.
>>>
>>
>>
> 
> 





[Index of Archives]     [Linux Input]     [Video for Linux]     [Gstreamer Embedded]     [Mplayer Users]     [Linux USB Devel]     [Linux Audio Users]     [Linux Kernel]     [Linux SCSI]     [Yosemite Backpacking]

  Powered by Linux