Broadcast Box lets you broadcast to others in sub-second time. It was designed to be simple to use and easily modifiable. We wrote Broadcast Box to show off some of the cutting edge tech that is coming to the broadcast space.
Broadcast Box uses WebRTC for broadcast and playback. By using WebRTC instead of RTMP and HLS you get the fastest experience possible.
With WebRTC you get access to the latest in video codecs. With AV1 you can send the same video quality with a 50% reduction in bandwidth required.
WebRTC allows you to upload multiple video streams in the same session. Now you can broadcast multiple camera angles, or share interactive video experiences in real time!
Transcodes are necessary if you want to provide a good experience to all your users. Generating them is prohibitively though. WebRTC provides a solution. With WebRTC users can upolad the same video at different quality levels. This keeps things cheap for the server operator and you still can provide the same experience.
With Broadcast Box you can serve your video without a public IP or forwarding ports! Run Broadcast Box on the same machine that you are running OBS, and share your video with the world! WebRTC comes with P2P technology, so users can broadcast and playback video without paying for dedicated servers.
You could also use P2P to pull other broadcasters into your stream. No special configuration or servers required anymore to get sub-second costreams.
To use Broadcast Box you don't even have to run it locally! A instance of Broadcast Box is hosted at b.siobud.com. If you wish to run it locally skip to Running
To use Broadcast Box with OBS you must set your output to WebRTC and set a proper URL + Stream Key. You may use any Stream Key you like. The same stream key is used for broadcasting and playback.
Go to Settings -> Stream
and set the following values.
- Service: WebRTC
- Server: https://b.siobud.com/api/whip
- StreamKey: (Any Stream Key you like)
Your settings page should look like this.
OBS by default will have ~2 seconds of latency. If you want subsecond latency you can configure
this in Settings -> Output
. Set your encoder to x264
and set tune to zerolatency
. Your Output
page will look like this.
When you are ready to broadcast press Stream Streaming
and now time to watch!
See the example script(s):
examples/gstreamer-broadcast.nu
- can broadcast gstreamer's test sources, or pulsesrc+v4l2src
- expects
gstreamer-1.0
, withgood,bad,ugly
plugins andgst-plugins-rs
-
# testsrcs ./examples/gstreamer-broadcast.nu http://localhost:8080/api/whip testStream1 # v4l2src ./examples/gstreamer-broadcast.nu http://localhost:8080/api/whip testStream1 v4l2
If you are broadcasting to the Stream Key StreamTest
your video will be available at https://b.siobud.com/StreamTest.
You can also go to the home page and enter StreamTest
. The following is a screenshot of OBS broadcasting and
the latency of 120 milleconds observed.
Broadcast Box is made up of two parts. The server is written in Go and is in charge of ingesting and broadcasting WebRTC. The frontend is in react and connects to the Go backend.
While developing webpack-dev-server
is used for the frontend. In production the Go server
can be used to serve the HTML/CSS/JS directly. These are the instructions on how to run all
these parts.
Go dependencies are automatically installed.
react dependencies are installed by running npm install
in the web
directory.
Both projects use .env
files for configuration. For development .env.development
is used
and in production .env.production
is used.
For Go setting APP_ENV
will cause .env.production
to be loaded.
Otherwise .env.development
is used.
For react App the dev server uses .env.development
and npm run build
uses .env.production
For local development you will run the Go server and webpack directly.
To run the Go server run go run .
in the root of this project. You will see the logs
like the following.
2022/12/11 15:22:47 Loading `.env.development`
2022/12/11 15:22:47 Running HTTP Server at `:8080`
To run the web front open the web
folder and execute npm start
if that runs successfully you will
be greeted with.
Compiled successfully!
You can now view broadcast-box in the browser.
Local: http://localhost:3000
On Your Network: http://192.168.1.57:3000
Note that the development build is not optimized.
To create a production build, use npm run build.
webpack compiled successfully
To use Broadcast Box you will open http://localhost:3000
in your browser. In your broadcast tool of choice
you will broadcast to http://localhost:8080/api/whip
.
For production usage Go will server the frontend and backend.
To run the Go server run APP_ENV=production go run .
in the root of this project. You will see the logs
like the following.
2022/12/11 16:02:14 Loading `.env.production`
2022/12/11 16:02:14 Running HTTP Server at `:8080`
If APP_ENV
was set properly .env.production
will be loaded.
To build the frontend execute npm run build
in the web
directory. You will get the following output.
> [email protected] build
> dotenv -e ../.env.production react-scripts build
Creating an optimized production build...
Compiled successfully.
File sizes after gzip:
53.51 kB build/static/js/main.12067218.js
2.27 kB build/static/css/main.8738ee38.css
To use Broadcast Box you will open http://localhost:8080
in your browser. In your broadcast tool of choice
you will broadcast to http://localhost:8080/api/whip
.
A Docker image is also provided to make it easier to run locally and in production. The arguments you run the Dockerfile with depending on if you are using it locally or a server.
If you want to run locally execute docker run -e UDP_MUX_PORT=8080 -e NAT_1_TO_1_IP=127.0.0.1 -p 8080:8080 -p 8080:8080/udp seaduboi/broadcast-box
.
This will make broadcast-box available on http://localhost:8080
. The UDPMux is needed because Docker on macOS/Windows runs inside a NAT.
If you are running on AWS (or other cloud providers) execute. docker run --net=host -e INCLUDE_PUBLIC_IP_IN_NAT_1_TO_1_IP=yes seaduboi/broadcast-box
broadcast-box needs to be run in net=host mode. broadcast-box listens on random UDP ports to establish sessions.
You can also run it in docker-compose with the following
broadcast-box:
environment:
- INCLUDE_PUBLIC_IP_IN_NAT_1_TO_1_IP=yes
image: broadcast-box
hostname: broadcast-box
container_name: broadcast-box
network_mode: "host"
privileged: true
The command to upload the image to Dockerhub is docker buildx build --platform=linux/amd64,linux/arm64 --push -t seaduboi/broadcast-box:latest .
The backend exposes two endpoints.
/api/whip
- Start a WHIP Session. WHIP broadcasts video via WebRTC./api/whep
- Start a WHEP Session. WHEP is video playback via WebRTC.