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98 lines
4.8 KiB
98 lines
4.8 KiB
4 years ago
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--- README ---
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What
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This module captures from v4l2-compatible cards. I made it because the
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existing v4l import module uses the v4l-compatibility-layer of most
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cards nowadays, which is not what you want. Also the v4l module does not
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keep track of audio-to-video synchronisation in any way. This may be
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sufficient for some capturing cards, but my own SAA7134-based looses a
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frame every now and then so audio and video will become unsynchronised
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after a while.
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Who
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Anyone using a capturing card compatible to v4l2 should be able to use
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the module, there are some warnings applicable though. First, I can only
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test on a SAA7134-based card. I do follow general v4l2 programming
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directives, so in theory it should work on any v4l2 compatible card. The
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SAA7134 driver does have some quirks though. The module detects SAA7134
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based cards and enables some workarounds. I can imagine that other
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drivers that also need workarounds, these are of course not present in
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the module. Second, the v4l2 api changes frequently. If you'd like to
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compile the module yourself, you may run into all sorts of problems,
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including compiling errors and errors during runtime of transcode.
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Sometimes these problems can be solved by adding another include file to
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the source, but you need to have linux kernel version > 2.4.20 anyway
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and also with the latest v4l2 patches applied (see
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http://www.bytesex.org). Linux version >= 2.6.0 should work in theory,
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but I didn't test on it.
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How
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1) Set v4l2 parameters (station, bright, volume, etc.) using your
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favourite tv viewing program or something like v4lctl. I deliberately
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did not include any setting of parameters in the module as these
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external programs are much better at it anyway ;-)
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2) Try!!! You should be able to record from v4l2 now with transcode
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using "-x v4l2". You may have to use "-D" to correct any static (!)
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difference between audio and video, this depends on your card etc. You
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should also use -V, because the SAA7134 driver seems to have a problem
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with RGB capturing, which crashed my computer, so I disabled the
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capture-in-RGB mode for the moment. Most encoders work much better and
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faster with YUV anyway.
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For SAA7134 cards, you may choose to record audio from the card directly
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(using direct PCI transfers, not using sound cards etc.) To enable this
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mode, add "oss=1" to the saa7134 driver module parameters. You now
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should have another dsp device (mostly /dev/dsp1, sometimes /dev/dsp2).
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To use this device for capturing, pass it to transcode with the -p
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flag. Keep in mind that this device can only capture at 32 Khz, although
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it will happily accept any other rate. You may have to use the resample
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filter.
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3) If your cpu can hardly keep up it is advisable to boost up the number
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of internal transcode buffers to e.g. 128 (-u 128). You may run into
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this situation if you're encoding to mpeg2 in real time. If that's not
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enough, you cpu is simply too slow for what you want :-( You'll have to
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tweak. Sometimes, if you're also using filters, it helps to change the
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number of threads.
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4) If your cpu can cope and also the number of v4l2 buffers is
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sufficient (full screen capture should report six buffers) and the
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transcode buffers are not overrun (watch the number between
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parenthesises), and your audio and video become out-of-sync, then you
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should try the force resync mode. Else happy capturing! ;-)
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5) You can enable and tune the resync mode using parameters to
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the v4l2 module (-x v4l2="<param>:<param>:etc").
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Possible parameters:
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resync_margin=x this many frames the audio and video may drift
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apart before frame dropping or cloning starts.
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resync_interval=x this many frames between each resynchronisation
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check
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overrun_guard=x set this to 1 if you have a saa7134 and a very old
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driver (pre-2004)
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crop=wxh+txl use hardware cropping width * height at top / left;
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only works on recent saa7134 driver
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convert=x specifiy conversion scheme manually.
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x is a number, obtained with convert=-1, -2 = auto (default)
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format=x specify colour format manually, use format=list
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to obtain a list.
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Please note: if you do not need the resync mode, do not enable it! If
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your card produces good a/v sync ON AVERAGE (although short variations
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may exist) the resync code will do more harm than good. Resyncing works
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by cloning and dropping frames and yes, this is visible! On the other
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hand, a hickup every now and then may be more acceptable than audio
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running before or behind. Your milage may vary ;-) If you determined
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that you definitely need the resync mode, then you should tune the
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resync parameters. A good start is resync_margin=2,resync_interval=15.
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Whenever "info output" is "on" (-q 1) and a frame is cloned or dropped,
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transcode will show a line with some parameters, like whether the frame
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is dropped or cloned and the sequence numbers of audio and video. When
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finished encoding, a summary is shown.
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