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Message-ID: <7af45547-1f51-4933-b226-08b462d9f539@riseup.net>
Date: Thu, 15 Feb 2024 14:43:17 -0300
From: Arthur Grillo <arthurgrillo@...eup.net>
To: Pekka Paalanen <pekka.paalanen@...oniitty.fi>,
Louis Chauvet <louis.chauvet@...tlin.com>
Cc: miquel.raynal@...tlin.com, mripard@...nel.org,
rodrigosiqueiramelo@...il.com, melissa.srw@...il.com, mairacanal@...eup.net,
hamohammed.sa@...il.com, daniel@...ll.ch, maarten.lankhorst@...ux.intel.com,
tzimmermann@...e.de, airlied@...il.com, marcheu@...gle.com,
seanpaul@...gle.com, nicolejadeyee@...gle.com,
dri-devel@...ts.freedesktop.org, linux-kernel@...r.kernel.org,
thomas.petazzoni@...tlin.com
Subject: Re: [PATCH 2/2] drm/vkms: Use a simpler composition function
On 08/02/24 06:39, Pekka Paalanen wrote:
> On Wed, 7 Feb 2024 16:49:56 +0100
> Louis Chauvet <louis.chauvet@...tlin.com> wrote:
>
>> Hello Pekka, Arthur, Maxime,
>
> Hi all
>
>>>>>>>>>>> Change the composition algorithm to iterate over pixels instead of lines.
>>>>>>>>>>> It allows a simpler management of rotation and pixel access for complex formats.
>>>>>>>>>>>
>>>>>>>>>>> This new algorithm allows read_pixel function to have access to x/y
>>>>>>>>>>> coordinates and make it possible to read the correct thing in a block
>>>>>>>>>>> when block_w and block_h are not 1.
>>>>>>>>>>> The iteration pixel-by-pixel in the same method also allows a simpler
>>>>>>>>>>> management of rotation with drm_rect_* helpers. This way it's not needed
>>>>>>>>>>> anymore to have misterious switch-case distributed in multiple places.
>>>>>>>>>>
>>>>>>>>>> Hi,
>>>>>>>>>>
>>>>>>>>>> there was a very good reason to write this code using lines:
>>>>>>>>>> performance. Before lines, it was indeed operating on individual pixels.
>>>>>>>>>>
>>>>>>>>>> Please, include performance measurements before and after this series
>>>>>>>>>> to quantify the impact on the previously already supported pixel
>>>>>>>>>> formats, particularly the 32-bit-per-pixel RGB variants.
>>>>>>>>>>
>>>>>>>>>> VKMS will be used more and more in CI for userspace projects, and
>>>>>>>>>> performance actually matters there.
>>>>>>>>>>
>>>>>>>>>> I'm worrying that this performance degradation here is significant. I
>>>>>>>>>> believe it is possible to keep blending with lines, if you add new line
>>>>>>>>>> getters for reading from rotated, sub-sampled etc. images. That way you
>>>>>>>>>> don't have to regress the most common formats' performance.
>>
>> I tested, and yes, it's significant for most of the tests. None of them
>> timed out on my machine, but I agree that I have to improve this. Do you
>> know which tests are the more "heavy"?
>
> I don't, but considering that various userspace projects (e.g. Wayland
> compositors) want to use VKMS more and more in their own CI, looking
> only at IGT is not enough. Every second saved per run is a tiny bit of
> data center energy saved, or developers waiting less for results.
>
> I do have some expectations that for each KMS property, Wayland
> compositors tend to use the "normal" property value more than any other
> value. So if you test different pixel formats, you probably set
> rotation to normal, since it's completely orthogonal in userspace. And
> then you would test different rotations with just one pixel format.
>
> At least I would personally leave it to IGT to test all the possible
> combinations of pixel formats + rotations + odd sizes + odd positions.
> Wayland compositor CI wants to test the compositor internals, not VKMS
> internals.
>
>>>>>>>>> While I understand performance is important and should be taken into
>>>>>>>>> account seriously, I cannot understand how broken testing could be
>>>>>>>>> considered better. Fast but inaccurate will always be significantly
>>>>>>>>> less attractive to my eyes.
>>>>>>>>
>>>>>>>> AFAIK, neither the cover letter nor the commit log claimed it was fixing
>>>>>>>> something broken, just that it was "better" (according to what
>>>>>>>> criteria?).
>>
>> Sorry Maxime for this little missunderstanding, I will improve the commit
>> message and cover letter for the v2.
>>
>>>>>>> Today's RGB implementation is only optimized in the line-by-line case
>>>>>>> when there is no rotation. The logic is bit convoluted and may possibly
>>>>>>> be slightly clarified with a per-format read_line() implementation,
>>>>>>> at a very light performance cost. Such an improvement would definitely
>>>>>>> benefit to the clarity of the code, especially when transformations
>>>>>>> (especially the rotations) come into play because they would be clearly
>>>>>>> handled differently instead of being "hidden" in the optimized logic.
>>>>>>> Performances would not change much as this path is not optimized today
>>>>>>> anyway (the pixel-oriented logic is already used in the rotation case).
>>
>> [...]
>>
>>>>>> I think it would, if I understand what you mean. Ever since I proposed
>>>>>> a line-by-line algorithm to improve the performance, I was thinking of
>>>>>> per-format read_line() functions that would be selected outside of any
>>>>>> loops.
>>
>> [...]
>>
>>>>>> I haven't looked at VKMS in a long time, and I am disappointed to find
>>>>>> that vkms_compose_row() is calling plane->pixel_read() pixel-by-pixel.
>>>>>> The reading vfunc should be called with many pixels at a time when the
>>>>>> source FB layout allows it. The whole point of the line-based functions
>>>>>> was that they repeat the innermost loop in every function body to make
>>>>>> the per-pixel overhead as small as possible. The VKMS implementations
>>>>>> benchmarked before and after the original line-based algorithm showed
>>>>>> that calling a function pointer per-pixel is relatively very expensive.
>>>>>> Or maybe it was a switch-case.
>>
>> [...]
>>
>>>>> But, I agree with Miquel that the rotation logic is easier to implement
>>>>> in a pixel-based way. So going pixel-by-pixel only when rotation occurs
>>>>> would be great.
>>>>
>>>> Yes, and I think that can very well be done in the line-based framework
>>>> still that existed in the old days before any rotation support was
>>>> added. Essentially a plug-in line-getter function that then calls a
>>>> format-specific line-getter pixel-by-pixel while applying the rotation.
>>>> It would be simple, it would leave unrotated performance unharmed (use
>>>> format-specific line-getter directly with lines), but it might be
>>>> somewhat less performant for rotated KMS planes. I suspect that might
>>>> be a good compromise.
>>>>
>>>> Format-specific line-getters could also be parameterized by
>>>> pixel-to-pixel offset in bytes. Then they could directly traverse FB
>>>> rows forward and backward, and even FB columns. It may or may not have
>>>> a penalty compared to the original line-getters, so it would have to
>>>> be benchmarked.
>>>
>>> Oh, actually, since the byte offset depends on format, it might be
>>> better to parametrize by direction and compute the offset in the
>>> format-specific line-getter before the loop.
>>>
>>
>> I'm currently working on this implementation. The algorithm would look
>> like:
>>
>> void blend(...) {
>> for(int y = 0; y < height; y++) {
>> for(int plane = 0; plane < nb_planes; plane++) {
>> if(planes[plane].read_line && planes[plane].rotation == DRM_ROTATION_0) {
>
> I would try to drop the rotation check here completely. Instead, when
> choosing the function pointer to call here, outside of *all* loops, you
> would check the rotation property. If rotation is a no-op, pick the
> read_line function directly. If rotation/reflection is needed, pick a
> rotation function that will then call read_line function pixel-by-pixel.
>
> So planes[plane] would have two vfuncs, one with a plain read_line that
> assumes normal orientation and can return a line of arbitrary length
> from arbitrary x,y position, and another vfunc that this loop here will
> call which is either some rotation handling function or just the same
> function as the first vfunc.
>
> The two function pointers might well need different signatures, meaning
> you need a simple wrapper for the rotation=normal case too.
>
> I believe that could result in cleaner code.
>
>> [...] /* Small common logic to manage REFLECT_X/Y and translations */
>> planes[plane].read_line(....);
>> } else {
>> [...] /* v1 of my patch, pixel by pixel read */
>> }
>> }
>> }
>> }
>>
>> where read_line is:
>> void read_line(frame_info *src, int y, int x_start, int x_stop, pixel_argb16 *dts[])
>> - y is the line to read (so the caller need to compute the correct offset)
>> - x_start/x_stop are the start and stop column, but they may be not
>> ordered properly (i.e DRM_REFLECT_X will make x_start greater than
>> x_stop)
>> - src/dst are source and destination buffers
>
> This sounds ok. An alternative would be something like
>
> enum direction {
> RIGHT,
> LEFT,
> UP,
> DOWN,
> };
>
> void read_line(frame_info *src, int start_x, int start_y, enum direction dir,
> int count_pixels, pixel_argb16 *dst);
>
> Based on dir, before the inner loop this function would compute the
> byte offset between the pixels to be read. If the format is multiplanar
> YUV, it can compute the offset per plane. And the starting pointers per
> pixel plane, of course, and one end pointer for the loop stop condition
> maybe from dst.
>
> This might make all the other directions than RIGHT much faster than
> calling read_line one pixel at a time to achieve the same.
>
> Would need to benchmark if this is significantly slower than your
> suggestion for dir=RIGHT, though. If it's roughly the same, then it
> would probably be worth it.
>
>
>> This way:
>> - It's simple to read for the general case (usage of drm_rect_* instead of
>> manually rewriting the logic)
>> - Each pixel format can be quickly implemented with "pixel-by-pixel"
>> methods
>> - The performances should be good if no rotation is implied for some
>> formats
>>
>> I also created some helpers for conversions between formats to avoid code
>> duplication between pixel and line algorithms (and also between argb and
>> xrgb variants).
>>
>> The only flaw with this, is that most of the read_line functions will
>> look like:
>>
>> void read_line(...) {
>> int increment = x_start < x_stop ? 1: -1;
>> while(x_start != x_stop) {
>> out += 1;
>> [...] /* color conversion */
>> x_start += increment;
>> }
>> }
>>
>> But as Pekka explained, it's probably the most efficient way to do it.
>
> Yes, I expect them to look roughly like that. It's necessary for moving
> as much of the setup computations and real function calls out of the
> inner-most loop as possible. The middle (over KMS planes) and outer
> (over y) loops are less sensitive to wasted cycles on redundant
> computations.
>
>> Is there a way to save the output of vkms to a folder (something like
>> "one image per frame")? It's a bit complex to debug graphics without
>> seeing them.
>>
>> I have something which (I think) should work, but some tests are failing
>> and I don't find why in my code (I don't find the reason why the they are
>> failing and the hexdump I added to debug seems normal).
>>
>> I think my issue is a simple mistake in the "translation managment" or
>> maybe just a wrong offset, but I don't see my error in the code. I think a
>> quick look on the final image would help me a lot.
>
> I don't know anything about the kernel unit testing frameworks, maybe
> they could help?
>
> But if you drive the test through UAPI from userspace, use a writeback
> connector to fetch the resulting image. I'm sure IGT has code doing
> that somewhere, although many IGT tests rely on CRC instead because CRC
> is more widely available in hardware.
>
> Arthur's new benchmark seems to be using writeback, you just need to
> make it save to file:
> https://lore.kernel.org/all/20240207-bench-v1-1-7135ad426860@riseup.net/
Hi,
I just found that the IGT's test kms_writeback has a flag '--dump' that
does that, maybe you can use it or copy the logic to the benchmark.
Best Regards,
~Arthur Grillo
>
>
> Thanks,
> pq
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