mirror of
https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs.git
synced 2024-11-05 17:19:38 +00:00
35b84d219f
Chrome audio decoder doesn't cope well with not perfect ts, generating noises in the audio. Part-of: <https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs/-/merge_requests/1524>
453 lines
18 KiB
Markdown
453 lines
18 KiB
Markdown
# webrtcsink and webrtcsrc
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All-batteries included GStreamer WebRTC producer and consumer, that try their
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best to do The Right Thing™.
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It also provides a flexible and all-purposes WebRTC signalling server
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([gst-webrtc-signalling-server](signalling/src/bin/server.rs)) and a Javascript
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API ([gstwebrtc-api](gstwebrtc-api)) to produce and consume compatible WebRTC
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streams from a web browser.
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## Use case
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The [webrtcbin] element in GStreamer is extremely flexible and powerful, but
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using it can be a difficult exercise. When all you want to do is serve a fixed
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set of streams to any number of consumers, `webrtcsink` (which wraps
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`webrtcbin` internally) can be a useful alternative.
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[webrtcbin]: https://gstreamer.freedesktop.org/documentation/webrtc/index.html
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## Features
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`webrtcsink` implements the following features:
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* Built-in signaller: when using the default signalling server, this element
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will perform signalling without requiring application interaction.
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This makes it usable directly from `gst-launch`.
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* Application-provided signalling: `webrtcsink` can be instantiated by an
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application with a custom signaller. That signaller must be a GObject, and
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must implement the `Signallable` interface as defined
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[here](src/signaller/mod.rs). The [default signaller](src/signaller/imp.rs)
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can be used as an example.
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An [example](examples/webrtcsink-custom-signaller/README.md) is also available to use as a boilerplate for
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implementing and using a custom signaller.
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* Sandboxed consumers: when a consumer is added, its encoder / payloader /
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webrtcbin elements run in a separately managed pipeline. This provides a
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certain level of sandboxing, as opposed to having those elements running
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inside the element itself.
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It is important to note that at this moment, encoding is not shared between
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consumers. While this is not on the roadmap at the moment, nothing in the
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design prevents implementing this optimization.
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* Congestion control: the element leverages transport-wide congestion control
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feedback messages in order to adapt the bitrate of individual consumers' video
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encoders to the available bandwidth.
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* Configuration: the level of user control over the element is slowly expanding,
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consult `gst-inspect-1.0` for more information on the available properties and
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signals.
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* Packet loss mitigation: webrtcsink now supports sending protection packets for
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Forward Error Correction, modulating the amount as a function of the available
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bandwidth, and can honor retransmission requests. Both features can be
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disabled via properties.
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It is important to note that full control over the individual elements used by
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`webrtcsink` is *not* on the roadmap, as it will act as a black box in that
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respect, for example `webrtcsink` wants to reserve control over the bitrate for
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congestion control.
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A signal is now available however for the application to provide the initial
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configuration for the encoders `webrtcsink` instantiates.
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If more granular control is required, applications should use `webrtcbin`
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directly, `webrtcsink` will focus on trying to just do the right thing, although
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it might expose more interfaces to guide and tune the heuristics it employs.
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[example project]: https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs/-/tree/main/net/webrtc/examples/webrtcsink-custom-signaller
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## Building
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> Make sure to install the development packages for some codec libraries
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> beforehand, such as libx264, libvpx and libopusenc, exact names depend
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> on your distribution.
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``` shell
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cargo build
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```
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## Usage
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Open three terminals. In the first one, run the signalling server:
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``` shell
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cd signalling
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WEBRTCSINK_SIGNALLING_SERVER_LOG=debug cargo run --bin gst-webrtc-signalling-server
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```
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In the second one, run a web browser client (can produce and consume streams):
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``` shell
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cd gstwebrtc-api
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npm install
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npm start
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```
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In the third one, run a webrtcsink producer from a GStreamer pipeline:
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``` shell
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export GST_PLUGIN_PATH=<path-to-gst-plugins-rs>/target/debug:$GST_PLUGIN_PATH
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gst-launch-1.0 webrtcsink name=ws meta="meta,name=gst-stream" videotestsrc ! ws. audiotestsrc ! ws.
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```
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The webrtcsink produced stream will appear in the former web page
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(automatically opened at https://localhost:9090) under the name "gst-stream",
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if you click on it you should see a test video stream and hear a test tone.
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You can also produce WebRTC streams from the web browser and consume them with
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a GStreamer pipeline. Click on the "Start Capture" button and copy the
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"Client ID" value.
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Then open a new terminal and run:
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``` shell
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export GST_PLUGIN_PATH=<path-to-gst-plugins-rs>/target/debug:$GST_PLUGIN_PATH
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gst-launch-1.0 playbin uri=gstwebrtc://127.0.0.1:8443?peer-id=[Client ID]
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```
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Replacing the "peer-id" value with the previously copied "Client ID" value. You
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should see the playbin element opening a window and showing you the content
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produced by the web page.
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## Configuration
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The webrtcsink element itself can be configured through its properties, see
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`gst-inspect-1.0 webrtcsink` for more information about that, in addition the
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default signaller also exposes properties for configuring it, in
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particular setting the signalling server address, those properties
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can be accessed through the `gst::ChildProxy` interface, for example
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with gst-launch:
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``` shell
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gst-launch-1.0 webrtcsink signaller::uri="ws://127.0.0.1:8443" ..
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```
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### Enable 'navigation' a.k.a user interactivity with the content
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`webrtcsink` implements the [`GstNavigation`] interface which allows interacting
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with the content, for example move with your mouse, entering keys with the
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keyboard, etc... On top of that a `WebRTCDataChannel` based protocol has been
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implemented and can be activated with the `enable-data-channel-navigation=true`
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property allowing a client to send GstNavigation events using the WebRTC data channel.
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The [gstwebrtc-api](gstwebrtc-api) and `webrtcsrc` implement the protocol as well
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and they can be used as a client to control a remote sever.
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You can easily test this feature using the [`wpesrc`] element with the following pipeline
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that will start a server that allows you to navigate the GStreamer documentation:
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``` shell
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gst-launch-1.0 wpesrc location=https://gstreamer.freedesktop.org/documentation/ ! queue ! webrtcsink enable-data-channel-navigation=true meta="meta,name=web-stream"
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```
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You can control it inside the video running within your web browser (at
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https://127.0.0.1:9090 if you followed previous steps in that readme) or
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with the following GSteamer pipeline as a client:
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``` shell
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gst-launch-1.0 webrtcsrc signaller::producer-peer-id=<webrtcsink-peer-id> enable-data-channel-navigation=true ! videoconvert ! autovideosink
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```
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### Sending HTTP headers
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During the initial signalling server handshake, you have the option to transmit
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HTTP headers, which can be utilized, for instance, for authentication purposes or sticky sessions:
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``` shell
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gst-launch-1.0 webrtcsink signaller::uri="ws://127.0.0.1:8443" signaller::headers="headers,foo=bar,cookie=\"session=1234567890; foo=bar\""
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```
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[`GstNavigation`]: https://gstreamer.freedesktop.org/documentation/video/gstnavigation.html
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[`wpesrc`]: https://gstreamer.freedesktop.org/documentation/wpe/wpesrc.html
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## Testing congestion control
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For the purpose of testing congestion in a reproducible manner, a
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[simple tool] has been used, it has been used on Linux exclusively but it is
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also documented as usable on MacOS too. Client web browser has to be launched
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on a separate machine on the LAN to test for congestion, although specific
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configurations may allow to run it on the same machine.
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Testing procedure was:
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* identify the server machine network interface (e.g. with `ifconfig` on Linux)
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* identify the client machine IP address (e.g. with `ifconfig` on Linux)
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* start the various services as explained in the Usage section (use
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`GST_DEBUG=webrtcsink:7` to get detailed logs about congestion control)
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* start playback in the client browser
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* Run a `comcast` command on the server machine, for instance:
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``` shell
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$HOME/go/bin/comcast --device=$SERVER_INTERFACE --target-bw 3000 --target-addr=$CLIENT_IP --target-port=1:65535 --target-proto=udp
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```
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* Observe the bitrate sharply decreasing, playback should slow down briefly
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then catch back up
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* Remove the bandwidth limitation, and observe the bitrate eventually increasing
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back to a maximum:
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``` shell
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$HOME/go/bin/comcast --device=$SERVER_INTERFACE --stop
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```
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For comparison, the congestion control property can be set to "disabled" on
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webrtcsink, then the above procedure applied again, the expected result is
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for playback to simply crawl down to a halt until the bandwidth limitation
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is lifted:
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``` shell
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gst-launch-1.0 webrtcsink congestion-control=disabled
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```
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[simple tool]: https://github.com/tylertreat/comcast
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## Monitoring tool
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An example of client/server application for monitoring per-consumer stats
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can be found [here].
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[here]: https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs/-/tree/main/net/webrtc/examples
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## License
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All the rust code in this repository is licensed under the
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[Mozilla Public License Version 2.0].
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Code in [gstwebrtc-api](gstwebrtc-api) is also licensed under the
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[Mozilla Public License Version 2.0].
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[Mozilla Public License Version 2.0]: http://opensource.org/licenses/MPL-2.0
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## Using the AWS KVS signaller
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* Setup AWS Kinesis Video Streams
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* Create a channel from the AWS console (<https://us-east-1.console.aws.amazon.com/kinesisvideo/home?region=us-east-1#/signalingChannels/create>)
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* Start a producer:
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```
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AWS_ACCESS_KEY_ID="XXX" AWS_SECRET_ACCESS_KEY="XXX" gst-launch-1.0 videotestsrc pattern=ball ! video/x-raw, width=1280, height=720 ! videoconvert ! textoverlay text="Hello from GStreamer!" ! videoconvert ! awskvswebrtcsink name=ws signaller::channel-name="XXX"
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```
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* Connect a viewer @ <https://awslabs.github.io/amazon-kinesis-video-streams-webrtc-sdk-js/examples/index.html>
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## Using the WHIP Signaller
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### WHIP Client
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WHIP Client Signaller uses BaseWebRTCSink
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Testing the whip client as the signaller can be done by setting up janus and
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<https://github.com/meetecho/simple-whip-server/>.
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* Set up a [janus] instance with the videoroom plugin configured
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to expose a room with ID 1234 (configuration in `janus.plugin.videoroom.jcfg`)
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* Open the <janus/share/janus/demos/videoroomtest.html> web page, click start
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and join the room
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* Set up the [simple whip server] as explained in its README
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* Navigate to <http://localhost:7080/>, create an endpoint named room1234
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pointing to the Janus room with ID 1234
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* Finally, send a stream to the endpoint with:
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``` shell
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gst-launch-1.0 -e uridecodebin uri=file:///home/meh/path/to/video/file ! \
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videoconvert ! video/x-raw ! queue ! \
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whipwebrtcsink name=ws signaller::whip-endpoint="http://127.0.0.1:7080/whip/endpoint/room1234"
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```
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You should see a second video displayed in the videoroomtest web page.
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### WHIP Server
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WHIP Server Signaller uses BaseWebRTCSrc
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The WHIP Server as the signaller can be tested in two ways.
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Note: The initial version of `whipserversrc` does not check any auth or encryption.
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Host application using `whipserversrc` behind an HTTP(s) proxy to enforce the auth and encryption between the WHIP client and server
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#### 1. Using the Gstreamer element `whipwebrtcsink`
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a. In one tab of the terminal start the WHIP server using the below command
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``` shell
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RUST_BACKTRACE=full GST_DEBUG=webrtc*:6 GST_PLUGIN_PATH=target/x86_64-unknown-linux-gnu/debug:$GST_PLUGIN_PATH gst-launch-1.0 whipserversrc signaller::host-addr=http://127.0.0.1:8190 stun-server="stun://stun.l.google.com:19302" turn-servers="\<\"turns://user1:pass1@turn.serverone.com:7806\", \"turn://user2:pass2@turn.servertwo.com:7809\"\>" ! videoconvert ! autovideosink
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```
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b. In the second tab start the WHIP Client by sending a test video as shown in the below command
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``` shell
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RUST_BACKTRACE=full GST_DEBUG=webrtc*:6 GST_PLUGIN_PATH=target/x86_64-unknown-linux-gnu/debug:$GST_PLUGIN_PATH gst-launch-1.0 videotestsrc ! videoconvert ! video/x-raw ! queue ! \
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whipwebrtcsink name=ws signaller::whip-endpoint="http://127.0.0.1:8190/whip/endpoint"
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```
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#### 2. Using Meetecho's `simple-whip-client`
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Set up the simple whip client using using the instructions present in https://github.com/meetecho/simple-whip-client#readme
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a. In one tab of the terminal start the WHIP server using the below command
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``` shell
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RUST_BACKTRACE=full GST_DEBUG=webrtc*:6 GST_PLUGIN_PATH=target/x86_64-unknown-linux-gnu/debug:$GST_PLUGIN_PATH gst-launch-1.0 whipserversrc signaller::host-addr=http://127.0.0.1:8190 stun-server="stun://stun.l.google.com:19302" turn-servers="\<\"turns://user1:pass1@turn.serverone.com:7806\", \"turn://user2:pass2@turn.servertwo.com:7809\"\>" name=ws ! videoconvert ! autovideosink ws. ! audioconvert ! autoaudiosink
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```
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b. In the second tab start the `simple-whip-client` as shown in the below command
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``` shell
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./whip-client --url http://127.0.0.1:8190/whip/endpoint \
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-A "audiotestsrc is-live=true wave=red-noise ! audioconvert ! audioresample ! queue ! opusenc perfect-timestamp=true ! rtpopuspay pt=100 ssrc=1 ! queue ! application/x-rtp,media=audio,encoding-name=OPUS,payload=100" \
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-V "videotestsrc is-live=true pattern=ball ! videoconvert ! queue ! vp8enc deadline=1 ! rtpvp8pay pt=96 ssrc=2 ! queue ! application/x-rtp,media=video,encoding-name=VP8,payload=96" \
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-S stun://stun.l.google.com:19302 \
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-l 7 \
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-n true
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```
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Terminating the client will close the session and the client should receive 200 (OK) as the response to the DELETE request
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## Using the LiveKit Signaller
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Testing the LiveKit signaller can be done by setting up [LiveKit] and creating a room.
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You can connect either by given the API key and secret:
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``` shell
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gst-launch-1.0 -e uridecodebin uri=file:///home/meh/path/to/video/file ! \
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videoconvert ! video/x-raw ! queue ! \
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livekitwebrtcsink signaller::ws-url=ws://127.0.0.1:7880 signaller::api-key=devkey signaller::secret-key=secret signaller::room-name=testroom
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```
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Or by using a separately created authentication token
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``` shell
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gst-launch-1.0 -e uridecodebin uri=file:///home/meh/path/to/video/file ! \
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videoconvert ! video/x-raw ! queue ! \
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livekitwebrtcsink signaller::ws-url=ws://127.0.0.1:7880 signaller::auth-token=mygeneratedtoken signaller::room-name=testroom
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```
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You should see a second video displayed in the videoroomtest web page.
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## Streaming from LiveKit using the livekitwebrtcsrc element
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First, publish a stream to the room using the following command:
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```shell
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gst-launch-1.0 livekitwebrtcsink name=sink \
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signaller::ws-url=ws://127.0.0.1:7880 \
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signaller::api-key=devkey \
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signaller::secret-key=secret \
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signaller::room-name=testroom \
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signaller::identity=gst-producer \
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signaller::participant-name=gst-producer \
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video-caps='video/x-h264' \
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videotestsrc is-live=1 \
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! video/x-raw,width=640,height=360,framerate=15/1 \
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! timeoverlay ! videoconvert ! queue ! sink.
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```
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Then play back the published stream:
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```shell
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gst-launch-1.0 livekitwebrtcsrc \
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name=src \
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signaller::ws-url=ws://127.0.0.1:7880 \
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signaller::api-key=devkey \
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signaller::secret-key=secret \
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signaller::room-name=testroom \
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signaller::identity=gst-consumer \
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signaller::participant-name=gst-consumer \
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signaller::producer-peer-id=gst-producer \
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video-codecs='<H264>' \
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src. ! queue ! videoconvert ! autovideosink
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```
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### Auto-subscribe with livekitwebrtcsrc element
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With the LiveKit source element, you can also subscribe to all the peers in
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your room, simply by not specifying any value for
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`signaller::producer-peer-id`. Unwanted peers can also be ignored by supplying
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an array of peer IDs to `signaller::excluded-producer-peer-ids`. Importantly,
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it is also necessary to add sinks for all the streams in the room that the
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source element has subscribed to.
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First, publish a few streams using different connections:
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```shell
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gst-launch-1.0 \
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livekitwebrtcsink name=sinka \
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signaller::ws-url=ws://127.0.0.1:7880 \
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signaller::api-key=devkey \
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signaller::secret-key=secret \
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signaller::room-name=testroom \
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signaller::identity=gst-producer-a \
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signaller::participant-name=gst-producer-a \
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video-caps='video/x-vp8' \
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livekitwebrtcsink name=sinkb \
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signaller::ws-url=ws://127.0.0.1:7880 \
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signaller::api-key=devkey \
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signaller::secret-key=secret \
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signaller::room-name=testroom \
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signaller::identity=gst-producer-b \
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signaller::participant-name=gst-producer-b \
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video-caps='video/x-vp8' \
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livekitwebrtcsink name=sinkc \
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signaller::ws-url=ws://127.0.0.1:7880 \
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signaller::api-key=devkey \
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signaller::secret-key=secret \
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signaller::room-name=testroom \
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signaller::identity=gst-producer-c \
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signaller::participant-name=gst-producer-c \
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video-caps='video/x-vp8' \
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videotestsrc is-live=1 \
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! video/x-raw,width=640,height=360,framerate=15/1 \
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! timeoverlay ! videoconvert ! queue ! sinka. \
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videotestsrc pattern=ball is-live=1 \
|
|
! video/x-raw,width=320,height=180,framerate=15/1 \
|
|
! timeoverlay ! videoconvert ! queue ! sinkb.
|
|
videotestsrc is-live=1 \
|
|
! video/x-raw,width=320,height=180,framerate=15/1 \
|
|
! timeoverlay ! videoconvert ! queue ! sinkc.
|
|
```
|
|
|
|
Then watch only streams A and B by excluding peer C:
|
|
|
|
```shell
|
|
gst-launch-1.0 livekitwebrtcsrc \
|
|
name=src \
|
|
signaller::ws-url=ws://127.0.0.1:7880 \
|
|
signaller::api-key=devkey \
|
|
signaller::secret-key=secret \
|
|
signaller::room-name=testroom \
|
|
signaller::identity=gst-consumer \
|
|
signaller::participant-name=gst-consumer \
|
|
signaller::excluded-producer-peer-ids='<gst-producer-c>' \
|
|
src. ! queue ! videoconvert ! autovideosink
|
|
src. ! queue ! videoconvert ! autovideosink
|
|
```
|
|
|
|
[LiveKit]: https://livekit.io/
|
|
[janus]: https://github.com/meetecho/janus-gateway
|
|
[simple whip server]: https://github.com/meetecho/simple-whip-server/
|