bd6deaca46
Instead of registering it on page load. This will allow us to add an option for users to override the default constraints later. This is also generally nicer because the browser won't open the webcam immediately when you load the page and keep recording from it. |
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.. | ||
multiparty-sendrecv/gst | ||
sendrecv | ||
signalling | ||
.gitignore | ||
LICENSE | ||
README.md |
GStreamer WebRTC demos
All demos use the same signalling server in the signalling/
directory
Downloading GStreamer
The GStreamer WebRTC implementation has now been merged upstream, and is in the GStreamer 1.14 release. Binaries can be found here:
https://gstreamer.freedesktop.org/download/
Building GStreamer from source
If you don't want to use the binaries provided by GStreamer or on your Linux distro, you can build GStreamer from source.
The easiest way to build the webrtc plugin and all the plugins it needs, is to use Cerbero. These instructions should work out of the box for all platforms, including cross-compiling for iOS and Android.
One thing to note is that it's written in Python 2, so you may need to replace all instances of ./cerbero-uninstalled
(or cerbero
) with python2 cerbero-uninstalled
or whatever Python 2 is called on your platform.
Building GStreamer manually from source
For hacking on the webrtc plugin, you may want to build manually using the git repositories:
- http://cgit.freedesktop.org/gstreamer/gstreamer
- http://cgit.freedesktop.org/gstreamer/gst-plugins-base
- http://cgit.freedesktop.org/gstreamer/gst-plugins-good
- http://cgit.freedesktop.org/gstreamer/gst-plugins-bad
- http://cgit.freedesktop.org/libnice/libnice
You can build these with either Autotools gst-uninstalled:
https://arunraghavan.net/2014/07/quick-start-guide-to-gst-uninstalled-1-x/
Or with Meson gst-build:
https://cgit.freedesktop.org/gstreamer/gst-build/
You may need to install the following packages using your package manager:
json-glib, libsoup, libnice, libnice-gstreamer1 (the gstreamer plugin for libnice)
Filing bugs
Please only file bugs about the demos here. Bugs about GStreamer's WebRTC implementation should be filed on the GStreamer bugzilla.
You can also find us on IRC by joining #gstreamer @ FreeNode.
Documentation
Currently, the best way to understand the API is to read the examples. This post breaking down the API should help with that:
http://blog.nirbheek.in/2018/02/gstreamer-webrtc.html
Examples
sendrecv: Send and receive audio and video
- Serve the
js/
directory on the root of your website, or open https://webrtc.nirbheek.in- The JS code assumes the signalling server is on port 8443 of the same server serving the HTML
- Build the sources in the
gst/
directory on your machine
$ gcc webrtc-sendrecv.c $(pkg-config --cflags --libs gstreamer-webrtc-1.0 gstreamer-sdp-1.0 libsoup-2.4 json-glib-1.0) -o webrtc-sendrecv
- Open the website in a browser and ensure that the status is "Registered with server, waiting for call", and note the
id
too. - Run
webrtc-sendrecv --peer-id=ID
with theid
from the browser. You will see state changes and an SDP exchange. - You will see a bouncing ball + hear red noise in the browser, and your browser's webcam + mic in the gst app
TODO: Port to Python and Rust.
multiparty-sendrecv: Multiparty audio conference with N peers
- Build the sources in the
gst/
directory on your machine
$ gcc mp-webrtc-sendrecv.c $(pkg-config --cflags --libs gstreamer-webrtc-1.0 gstreamer-sdp-1.0 libsoup-2.4 json-glib-1.0) -o mp-webrtc-sendrecv
- Run
mp-webrtc-sendrecv --room-id=ID
withID
as a room name. The peer will connect to the signalling server and setup a conference room. - Run this as many times as you like, each will spawn a peer that sends red noise and outputs the red noise it receives from other peers.
- To change what a peer sends, find the
audiotestsrc
element in the source and change thewave
property. - You can, of course, also replace
audiotestsrc
itself withautoaudiosrc
(any platform) orpulsesink
(on linux).
- To change what a peer sends, find the
- TODO: implement JS to do the same, derived from the JS for the
sendrecv
example.
TODO: Selective Forwarding Unit (SFU) example
- Server routes media between peers
- Participant sends 1 stream, receives n-1 streams
TODO: Multipoint Control Unit (MCU) example
- Server mixes media from all participants
- Participant sends 1 stream, receives 1 stream