Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 3 Next »

Introduction

This document is about the VC8000 codec used with V4L2 on the C3V platform.

Before use, please ensure you already know how to use the buildroot and compile the C3V project.

Environment

This feature needs to make some changes to GStreamer and FFmpeg source code to adapt to the v4l2 codec interface and we will provide the patches for the changes. And the kernel also needs to do some config to support the VC8000 V4L2 driver.

Get the patches

The C3V project source code and the patches of the GStreamer and FFmpeg can be obtained from GitHub. If your GitHub has not updated the patches yet, you can also use the file provided below:

Config

Apply the patches

Here we assume that you have already configured GStreamer and FFMPEG in the buildroot and have built it successfully.

GStreamer

Apply the gst1-plugins-good-1.20.1.diff to <buildroot>/output/build/gst1-plugins-good-1.20.1/ by the command:

patch -p1 < gst1-plugins-good-1.20.1.diff

Then rebuild the plugin:

make gst1-plugins-good-rebuild

The modified library is libgstvideo4linux2.so.

FFmpeg

Apply the ffmpeg-4.4.2.diff to <buildroot>/output/build/ffmpeg-4.4.2/ by command:

patch -p1 < ffmpeg-4.4.2.diff

Then rebuild the FFmpeg:

make ffmpeg-rebuild

The modified library is libavcodec.so*.

If can not find the directory in the buildroot, please check the package on the menuconfig and reconfigure it.

After the build, copy the modified libraries to the C3V master rootfs.

Kernel support

Run the command make kconfig on the C3V master to configure the kernel.

video hardware codec driver

Device Drivers > Multimedia support > Media drivers > Video hardware codec

image-20240125-054103.png

Then rebuild the C3V master and boot the platform.

Use

Here just introduce the basic usage with default parameters for H.264 and JPEG. If you need to change the codec parameters, please follow the usage of GStreamer and FFmpeg.

V4L2 Sample

Test sample(please decompress it for use):

This test needs a YUV source file, you can use the GStreamer to generate one:

gst-launch-1.0 -v videotestsrc horizontal-speed=15 num_buffers=100 ! "video/x-raw,width=1920,height=1080,format=NV12,framerate=30/1" ! filesink location=1080p.yuv	
image-20240125-054309.png

H.264 Encode

./v4l2_vsi_sample ifile --key 0 --name 1080p.yuv --size 1920 1080 --framenum 100 --fmt nv12 encoder  --level 11 --fmt h264 --key 1 --source 0 ofile --key 2 --source 1 --name stream.h264

The command will encode the file 1080p.yuv to a file called stream.h264.

image-20240125-054453.png

The file can be played by PC tools like PotPlayer and VLC media player.

H.264 Decode

./v4l2_vsi_sample parser --key 0 --name stream.h264 --fmt h264 --framenum 100 decoder --key 1 --source 0 --size 1920 1080 ofile --fmt nv12 --source 1 --name test.yuv

The command will decode the file stream.h264 to a file called test.yuv.

image-20240125-054958.png

The file can be played by PC tools like Elecard YUV viewer and YuvEye.

Due to the driver's 16-byte alignment of the YUV, the height of the YUV output from the 1080p decode is 1088. However, GStreamer and FFmpeg have undergone internal processing, so the final output is still 1080.

GStreamer

H.264 Encode

Fake live stream:

gst-launch-1.0 -v videotestsrc horizontal-speed=15 num_buffers=100  ! "video/x-raw,width=1920,height=1080,format=NV12,framerate=30/1" ! timeoverlay ! v4l2h264enc ! "video/x-h264,level=(string)4" ! filesink location=gstv4l2h264enc.h264
image-20240125-055112.png

Local file:

gst-launch-1.0 -v filesrc location=1080p.yuv ! rawvideoparse width=1920 height=1080 format=nv12 framerate=60/1 colorimetry=bt601 ! v4l2h264enc ! "video/x-h264,level=(string)4" ! filesink location=gstv4l2h264enc2.h264
image-20240125-055138.png

The level of the v4l2h264enc must be set to 4 or 5. Otherwise, the encoder will not work properly.

H.264 Decode

gst-launch-1.0 -v filesrc location=stream.h264 ! h264parse ! v4l2h264dec ! filesink location=gstv4l2h264dec.yuv
image-20240125-055319.png

JPEG Encode

gst-launch-1.0 -v videotestsrc num_buffers=100 horizontal-speed=15 ! "video/x-raw,width=1920,height=1080,format=NV12" ! v4l2jpegenc ! filesink location=1080p.jpg
image-20240125-055356.png

JPEG Decode

gst-launch-1.0 -v filesrc location=1080p.jpg ! jpegparse ! v4l2jpegdec ! "video/x-raw,colorimetry=bt601" ! filesink location=og_1080p.yuv
image-20240125-055457.png

FFmpeg

H.264 Encode

ffmpeg -benchmark -y -pix_fmt nv12 -s 1920x1080 -i 1080p.yuv -b:v 5242880 -vcodec h264_v4l2m2m -vframes 100 ffout.h264
image-20240125-055643.png

H.264 Decode

ffmpeg -benchmark -y  -r 25 -vcodec h264_v4l2m2m -i ffout.h264 -vframes 100 ffout.yuv
image-20240125-055710.png

JPEG Encode

ffmpeg -benchmark -y -pix_fmt nv12 -s 1920x1080 -i 1080p.yuv -vcodec jpeg_v4l2m2m -vframes 5 ffout_%03d.jpg
image-20240125-055743.png

JPEG Decode

ffmpeg -benchmark -y -vcodec jpeg_v4l2m2m -i ffout_001.jpg -vframes 1 ffout_001.yuv
image-20240125-055828.png

  • No labels