avcapture allows you to run a containarized application that captures the content and pipes the audio/video for any URL for encoding including generating a live playlist.
- Build:
make build - Run:
docker run -it --net test -v $PWD/path/to/dir:$PWD/path/to/dir -v $PWD/path/to/data:/data -e FFMPEG_TGZ_URI="<url for ffmpeg executable in tgz>" -e FFMPEG_DEPS_URI="<url for ffmpeg dependencies in lib directory>" --name avcapture -p 8080:8080 etherlabsio/avcapture
- As part of ini script, avcapture will download ffmpeg and dependencies to
/datadirectory. ffmpeg binary will be copied to /usr/local/bin and dependencies will be copied to/usr/local/lib - If the ffmpeg and dependencies have to be extracted in every run, initialize the environment variable
DISABLE_FFMPEG_CACHEwith some value. For example-e DISABLE_FFMPEG_CACHE="true".
- A link must be provided to FFmpeg v4.0.2 via the FFMPEG_TGZ_URI environment variable during docker run.
- By default, the application will run server on port
8080. If the application has to run on a different port, set the environment variablePORTwith the new port inside the Dockerfile before theENTRYPOINT. - The user must provide a link to download their own distribution of
FFmpeg v4.0.2via theFFMPEG_TGZ_URIenvironment variable during docker run. - A URI containing
tar.gzdistribution of shared libs to be used by the FFmpeg binary can be provided setting theFFMPEG_DEPS_URIenvironment variable.
- POST: http://IP:8080/start_recording
- "ffmpeg:options" and "chrome:options" are optional. If it is specified, the original arguments to these applications will be replaced completely with the one provided below.
{
"ffmpeg": {
"params": [
["-hls_time", "6"],
["-hls_playlist_type", "event"],
["-hls_segment_filename", "/work/out%04d.ts"],
["/work/play.m3u8"]
],
"options": [
["-y", ""],
["-v", "info"],
["-f", "x11grab"],
["-draw_mouse", "0"],
["-r", "24"],
["-s", "1280x720"],
["-thread_queue_size", "4096"],
["-i", ":99.0+0,0"],
["-f", "pulse"],
["-thread_queue_size", "4096"],
["-i", "default"],
["-acodec", "aac"],
["-strict", "-2"],
["-ar", "48000"],
["-c:v", "libx264"],
["-x264opts", "no-scenecut"],
["-preset", "veryfast"],
["-profile:v", "main"],
["-level", "3.1"],
["-pix_fmt", "yuv420p"],
["-r", "24"],
["-crf", "25"],
["-g", "48"],
["-keyint_min", "48"],
["-force_key_frames", "\"expr:gte(t,n_forced*2)\""],
["-tune", "zerolatency"],
["-b:v", "3600k"],
["-maxrate", "4000k"],
["-bufsize", "5200k"]
]
},
"chrome": {
"url": "<https://www.youtube.com/watch?v=Bey4XXJAqS8>",
"options": [
"--enable-logging=stderr",
"--autoplay-policy=no-user-gesture-required",
"--no-sandbox",
"--start-maximized",
"--window-position=100,300",
"--window-size=1280,720"
]
}
}- POST: http://IP:8080/stop_recording
- No parameter is passed to this call.
User is supposed to map a directory from host system to the docker image. Along with this, user has to provide the output path (as part of /start_recording api) which will direct the output generated to the corresponding directory.
The docker image contains google chrome, ffmpeg and wrapper application.
As part of startup, the wrapper application will configure the system to run chrome browser on the given display id and to capture audio using pulseaudio.
Once the /start_recording is received, chrome will be started to render the url provided. An instance of ffmpeg will be started to capture the display.
We do not package avcapture with either FFmpeg or any shared libs and expect the end user to provide their own distribution.
