From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1752747AbdDCTqi (ORCPT ); Mon, 3 Apr 2017 15:46:38 -0400 Received: from ec2-52-27-115-49.us-west-2.compute.amazonaws.com ([52.27.115.49]:60047 "EHLO osg.samsung.com" rhost-flags-OK-OK-OK-FAIL) by vger.kernel.org with ESMTP id S1752402AbdDCTqh (ORCPT ); Mon, 3 Apr 2017 15:46:37 -0400 Subject: Re: [RFC 00/10] V4L2 explicit synchronization support To: Mauro Carvalho Chehab , Gustavo Padovan References: <20170313192035.29859-1-gustavo@padovan.org> <20170403081610.16a2a3fc@vento.lan> From: Javier Martinez Canillas Cc: linux-media@vger.kernel.org, Hans Verkuil , Laurent Pinchart , linux-kernel@vger.kernel.org, Gustavo Padovan Message-ID: Date: Mon, 3 Apr 2017 15:46:27 -0400 User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:45.0) Gecko/20100101 Thunderbird/45.8.0 MIME-Version: 1.0 In-Reply-To: <20170403081610.16a2a3fc@vento.lan> Content-Type: text/plain; charset=windows-1252 Content-Transfer-Encoding: 7bit Sender: linux-kernel-owner@vger.kernel.org List-ID: X-Mailing-List: linux-kernel@vger.kernel.org Hello Mauro and Gustavo, On 04/03/2017 07:16 AM, Mauro Carvalho Chehab wrote: > Hi Gustavo, > > Em Mon, 13 Mar 2017 16:20:25 -0300 > Gustavo Padovan escreveu: > >> From: Gustavo Padovan >> >> Hi, >> >> This RFC adds support for Explicit Synchronization of shared buffers in V4L2. >> It uses the Sync File Framework[1] as vector to communicate the fences >> between kernel and userspace. > > Thanks for your work! > > I looked on your patchset, and I didn't notice anything really weird > there. So, instead on reviewing patch per patch, I prefer to discuss > about the requirements and API, as depending on it, the code base will > change a lot. > Agree that's better to first set on an uAPI and then implement based on that. > I'd like to do some tests with it on devices with mem2mem drivers. > My plan is to use an Exynos board for such thing, but I guess that > the DRM driver for it currently doesn't. I'm seeing internally if someone > could be sure that Exynos driver upstream will become ready for such > tests. > Not sure if you should try to do testing before agreeing on an uAPI and implementation. > Javier wrote some patches last year meant to implement implicit > fences support. What we noticed is that, while his mechanism worked > fine for pure capture and pure output devices, when we added a mem2mem > device, on a DMABUF+fences pipeline, e. g.: > > sensor -> [m2m] -> DRM > > End everything using fences/DMABUF, the fences mechanism caused dead > locks on existing userspace apps. > > A m2m device has both capture and output devnodes. Both should be > queued/dequeued. The capture queue is synchronized internally at the > driver with the output buffer[1]. > > [1] The names here are counter-intuitive: "capture" is a devnode > where userspace receives a video stream; "output" is a devnode where > userspace feeds a video stream. > > The problem is that adding implicit fences changed the behavior of > the ioctls, causing gstreamer to wait forever for buffers to be ready. > The problem was related to trying to make user-space unaware of the implicit fences support, and so it tried to QBUF a buffer that had already a pending fence. A workaround was to block the second QBUF ioctl if the buffer had a pending fence, but this caused the mentioned deadlock since GStreamer wasn't expecting the QBUF ioctl to block. > I suspect that, even with explicit fences, the behavior of Q/DQ > will be incompatible with the current behavior (or will require some > dirty hacks to make it identical). > > So, IMHO, the best would be to use a new set of ioctls, when fences are > used (like VIDIOC_QFENCE/DQFENCE). > For explicit you can check if there's an input-fence so is different than implicit, but still I agree that it would be better to have specific ioctls. >> >> I'm sending this to start the discussion on the best approach to implement >> Explicit Synchronization, please check the TODO/OPEN section below. >> >> Explicit Synchronization allows us to control the synchronization of >> shared buffers from userspace by passing fences to the kernel and/or >> receiving them from the the kernel. >> >> Fences passed to the kernel are named in-fences and the kernel should wait >> them to signal before using the buffer. On the other side, the kernel creates >> out-fences for every buffer it receives from userspace. This fence is sent back >> to userspace and it will signal when the capture, for example, has finished. >> >> Signalling an out-fence in V4L2 would mean that the job on the buffer is done >> and the buffer can be used by other drivers. >> >> Current RFC implementation >> -------------------------- >> >> The current implementation is not intended to be more than a PoC to start >> the discussion on how Explicit Synchronization should be supported in V4L2. >> >> The first patch proposes an userspace API for fences, then on patch 2 >> we prepare to the addition of in-fences in patch 3, by introducing the >> infrastructure on vb2 to wait on an in-fence signal before queueing the buffer >> in the driver. >> >> Patch 4 fix uvc v4l2 event handling and patch 5 configure q->dev for vivid >> drivers to enable to subscribe and dequeue events on it. >> >> Patches 6-7 enables support to notify BUF_QUEUED events, i.e., let userspace >> know that particular buffer was enqueued in the driver. This is needed, >> because we return the out-fence fd as an out argument in QBUF, but at the time >> it returns we don't know to which buffer the fence will be attached thus >> the BUF_QUEUED event tells which buffer is associated to the fence received in >> QBUF by userspace. >> >> Patches 8 and 9 add more fence infrastructure to support out-fences and finally >> patch 10 adds support to out-fences. >> >> TODO/OPEN: >> ---------- >> >> * For this first implementation we will keep the ordering of the buffers queued >> in videobuf2, that means we will only enqueue buffer whose fence was signalled >> if that buffer is the first one in the queue. Otherwise it has to wait until it >> is the first one. This is not implmented yet. Later we could create a flag to >> allow unordered queing in the drivers from vb2 if needed. > > The V4L2 spec doesn't warrant that the buffers will be dequeued at the > queue order. > > In practice, however, most drivers will not reorder. Yet, mem2mem codec > drivers may reorder the buffers at the output, as the luminance information > (Y) usually comes first on JPEG/MPEG-like formats. > >> * Should we have out-fences per-buffer or per-plane? or both? In this RFC, for >> simplicity they are per-buffer, but Mauro and Javier raised the option of >> doing per-plane fences. That could benefit mem2mem and V4L2 <-> GPU operation >> at least on cases when we have Capture hw that releases the Y frame before the >> other frames for example. When using V4L2 per-plane out-fences to communicate >> with KMS they would need to be merged together as currently the DRM Plane >> interface only supports one fence per DRM Plane. > > That's another advantage of using a new set of ioctls for queues: with that, > queuing/dequeing per plane will be easier. On codec drivers, doing it per > plane could bring performance improvements. > You don't really need to Q/DQ on a per plane basis AFAICT. Since on QBUF you can get a set of out-fences that can be passed to the other driver and so it should be able to wait per fence. >> In-fences should be per-buffer as the DRM only has per-buffer fences, but I'm not that familiar with DRM, but I thought DRM fences was also per plane and not per buffer. How this works without fences? For V4L2 there's a dma-buf fd per plane and so I was expecting the DRM API to also import a dma-buf fd per DRM plane. I only have access to an Exynos board whose display controller supports single plane formats, so I don't know how this works for multi planar. >> in case of mem2mem operations per-plane fences might be useful? >> >> So should we have both ways, per-plane and per-buffer, or just one of them >> for now? > > The API should be flexible enough to support both usecases. We could > implement just per-buffer in the beginning, but, on such case, we > should deploy an API that will allow to later add per-plane fences > without breaking userspace. > > So, I prefer that, on multiplane fences, we have one fence per plane, > even if, at the first implementation, all fences will be released > at the same time, when the buffer is fully filled. That would allow > us to later improve it, without changing userspace. It's true that vb2 can't currently signal fences per plane since the interface between vb2 and drivers is per vb2_buffer. But the uAPI shouldn't be restricted by this implementation detail (that can be changed) and should support per plane fences IMHO. That's for example the case with the V4L2 dma-buf API. There is a dma-buf fd per plane, and internally for vb2 single planar buffers use the dma-buf associated with plane 0. Now when mentioning this, I noticed that in your implementation the fences are not associated with a dma-buf. I thought the idea was for the fences to be associated with a dma-buf's reservation object. If we do that, then fences will be per fence since the dma-buf/reservation objet are also per fence in v4l2/vb2. > >> * other open topics are how to deal with hw-fences and Request API. > > Let's not mix issues here. Request API is already complex enough > without explicit fences. The same is true for explicit fences: it is > also complex to add support for it with multi-planes and a not > ordered DQ. > > So, my suggestion here is to not delay Request API due to fences, > nor to delay fences due to Request API, letting them to be merged > on different Kernel releases. When both features got added, someone > can work on a patchset that would allow using Request API with fences. > Best regards, -- Javier Martinez Canillas Open Source Group Samsung Research America