From mboxrd@z Thu Jan 1 00:00:00 1970 Return-path: Received: from nblzone-211-213.nblnetworks.fi ([83.145.211.213]:45790 "EHLO hillosipuli.retiisi.org.uk" rhost-flags-OK-OK-OK-FAIL) by vger.kernel.org with ESMTP id S1752225Ab2ITUV2 (ORCPT ); Thu, 20 Sep 2012 16:21:28 -0400 Date: Thu, 20 Sep 2012 23:21:22 +0300 From: Sakari Ailus To: linux-media@vger.kernel.org Cc: hverkuil@xs4all.nl, remi@remlab.net, daniel-gl@gmx.net, sylwester.nawrocki@gmail.com, laurent.pinchart@ideasonboard.com Subject: [RFC] Timestamps and V4L2 Message-ID: <20120920202122.GA12025@valkosipuli.retiisi.org.uk> MIME-Version: 1.0 Content-Type: text/plain; charset=us-ascii Content-Disposition: inline Sender: linux-media-owner@vger.kernel.org List-ID: Hi all, This RFC intends to summarise and further the recent discussion on linux-media regarding the proposed changes of timestamping V4L2 buffers. The problem =========== The V4L2 has long used realtime timestamps (such as clock_gettime(CLOCK_REALTIME, ...)) to stamp the video buffers before handing them over to the user. This has been found problematic in associating the video buffers with data from other sources: realtime clock may jump around due to daylight saving time, for example, and ALSA (audio-video synchronisation is a common use case) user space API does not provide the user with realtime timestamps, but instead uses monotonic time (i.e. clock_gettime(CLOCK_MONOTONIC, ...)). This is especially an issue in embedded systems where video recording is a common use case. Drivers typically used in such systems have silently switched to use monotonic timestamps. While against the spec, this is necessary for those systems to operate properly. In general, realtime timestamps are seen of little use in other than debugging purposes, but monotonic timestamps are fine for that as well. It's still possible that an application I'm not aware of uses them in a peculiar way that would be adversely affected by changing to monotonic timestamps. Nevertheless, we're not supposed to break the API (or ABI). It'd be also very important for the application to know what kind of timestamps are provided by the device. Requirements, wishes and constraints ==================================== Now that it seems to be about the time to fix these issues, it's worth looking a little bit to the future to anticipate the coming changes to be able to accommodate them better later on. - The new default should be monotonic. As the monotonic timestamps are seen to be the most useful, they should be made the default. - timeval vs. timespec. The two structs can be used to store timestamp information. They are not compatible with each other. It's a little bit uncertain what's the case with all the architectures but it looks like the timespec fits into the space of timeval in all cases. If timespec is considered to be used somewhere the compatibility must be ensured. Timespec is better than timeval since timespec has more precision and it's the same struct that's used everywhere else in the V4L2 API: timespec does not need conversion to timespec in the user space. struct timespec { __kernel_time_t tv_sec; /* seconds */ long tv_nsec; /* nanoseconds */ }; struct timeval { __kernel_time_t tv_sec; /* seconds */ __kernel_suseconds_t tv_usec; /* microseconds */ }; To be able to use timespec, the user would have to most likely explicitly choose to do that. - Users should know what kind of timestamps the device produces. This includes existing and future kernels. What should be considered are uninformed porting drivers back and forth across kernel versions and out-of-date kernel header files. - Device-dependent timestamps. Some devices such as the uvcvideo ones produce device-dependent timestamps for synchronising video and audio, both produced by the same physical hardware device. For uvcvideo these timestamps are unsigned 32-bit integers. - There's also another clock, Linux-specific raw monotonic clock (as in clock_gettime(CLOCK_RAW_MONOTONIC, ...)) that could be better in some use cases than the regular monotonic clock. The difference is that the raw monotonic clock is free from the NTP adjustments. It would be nice for the user to be able to choose the clock used for timestamps. This is especially important for device-dependent timestamps: not all applications can be expected to be able to use them. - The field adjacent to timestamp, timecode, is 128 bits wide, and not used by a single driver. This field could be re-used. Possible solutions ================== Not all of the solutions below that have been proposed are mutually exclusive. That's also what's making the choice difficult: the ultimate solution to the issue of timestamping may involve several of these --- or possibly something better that's not on the list. Use of timespec --------------- If we can conclude timespec will always fit into the size of timeval (or timecode) we could use timespec instead. The solution should still make the use of timespec explicit to the user space. This seems to conflict with the idea of making monotonic timestamps the default: the default can't be anything incompatible with timeval, and at the same time it's the most important that the monotonic timestamps are timespec. Kernel version as indicator of timestamp ---------------------------------------- Conversion of drivers to use monotonic timestamp is trivial, so the conversion could be done once and for all drivers. The kernel version could be used to indicate the type of the timestamp. If this approach is taken care must be taken when new drivers are integrated: developers sometimes use old kernels for development and might also use an old driver for guidance on timestamps, thus using real-time timestamps when monotonic timestamps should be used. This approach has an advantage over the capability flag below: which is that we don't populate the interface with essentially dead definitions. Capability flag for monotonic timestamps ---------------------------------------- A capability flag can be used to tell whether the timestamp is monotonic. However, it's not extensible cleanly to provide selectable timestamps. These are not features that are needed right now, though. The upside of this option is ease of implementation and use, but it's not extensible. Also we're left with a flag that's set for all drivers: in the end it provides no information to the user and is only noise in the spec. Control for timestamp type -------------------------- Using a control to tell the type of the timestamp is extensible but not as easy to implement than the capability flag: each and every device would get an additional control. The value should likely be also file handle specific, and we do not have file handle specific controls yet. In the meantime the control could be read-only, and later made read-write when the timestamp type can be made selectable. Much of he work of timestamping can be done by the framework: drivers can use a single helper function and need to create one extra standard control. Should the control also have an effect on the types of the timestamps in V4L2 events? Likely yes. Device-dependent timestamp -------------------------- Should we agree on selectable timestamps, the existing timestamp field (or a union with another field of different type) could be used for the device-dependent timestamps. Alternatively we can choose to re-use the existing timecode field. At the moment there's no known use case for passing device-dependent timestamps at the same time with monotonic timestamps. Now what? ========= Almost as many options have been presented as there were opinions, but we need to agree to have a single one. My personal leaning is on using a control for the purpose as it is the most flexible alternative. I'd still need to see an implementation of that but it doesn't seem that difficult, especially when it's read-only. And even for read-write control the vast majority of the work can be done by the V4L2 framework. Questions, comments and opinions are very, very welcome. Kind regards, -- Sakari Ailus e-mail: sakari.ailus@iki.fi XMPP: sailus@retiisi.org.uk