# rustrtc
A pure Rust implementation of WebRTC.
## Features
- **PeerConnection**: The main entry point for WebRTC connections.
- **Data Channels**: Support for reliable and unreliable data channels.
- **Media Support**: RTP/SRTP handling for audio and video.
- **ICE/STUN**: Interactive Connectivity Establishment and STUN protocol support.
- **DTLS**: Datagram Transport Layer Security for secure communication.
- **SDP**: Session Description Protocol parsing and generation.
## Usage
Here is a simple example of how to create a `PeerConnection` and handle an offer:
```rust
use rustrtc::{PeerConnection, RtcConfiguration, SessionDescription, SdpType};
#[tokio::main]
async fn main() {
let config = RtcConfiguration::default();
let pc = PeerConnection::new(config);
// Create a Data Channel
let dc = pc.create_data_channel("data", None).unwrap();
// Handle received messages
let dc_clone = dc.clone();
tokio::spawn(async move {
while let Some(event) = dc_clone.recv().await {
if let rustrtc::DataChannelEvent::Message(data) = event {
println!("Received: {:?}", String::from_utf8_lossy(&data));
}
}
});
// Create an offer
let offer = pc.create_offer().await.unwrap();
pc.set_local_description(offer).unwrap();
// Wait for ICE gathering to complete
pc.wait_for_gathering_complete().await;
// Get the complete SDP with candidates
let complete_offer = pc.local_description().unwrap();
println!("Offer SDP: {}", complete_offer.to_sdp_string());
}
```
## Configuration
`rustrtc` allows customizing the WebRTC session via `RtcConfiguration`:
- **ice_servers**: Configure STUN/TURN servers.
- **ice_transport_policy**: Control ICE candidate gathering (e.g., `All`, `Relay`).
- **ssrc_start**: Set the starting SSRC value for local tracks.
- **media_capabilities**: Configure supported codecs (payload types, names) and SCTP ports.
```rust
use rustrtc::{PeerConnection, RtcConfiguration, IceServer, IceTransportPolicy, config::MediaCapabilities};
let mut config = RtcConfiguration::default();
// Configure ICE servers
config.ice_servers.push(IceServer::new(vec!["stun:stun.l.google.com:19302"]));
// Set ICE transport policy (optional)
config.ice_transport_policy = IceTransportPolicy::All;
config.ssrc_start = 10000;
// Customize media capabilities
let mut caps = MediaCapabilities::default();
// ... configure audio/video/application caps ...
config.media_capabilities = Some(caps);
let pc = PeerConnection::new(config);
```
## Examples
You can run the examples provided in the repository.
### Echo Server
The echo server example demonstrates how to accept a WebRTC connection, receive data on a data channel, and echo it back. It also supports video playback if an IVF file is provided.
1. Run the server:
```bash
cargo run --example echo_server
```
2. Open your browser and navigate to `http://127.0.0.1:3000`.
### DataChannel Chat
A multi-user chat room using WebRTC DataChannels.
1. Run the server:
```bash
cargo run --example datachannel_chat
```
2. Open your browser and navigate to `http://127.0.0.1:3000`. Open multiple tabs to chat between them.
### Audio Saver
Records audio from the browser's microphone and saves it to a file (`output.ulaw`) on the server.
1. Run the server:
```bash
cargo run --example audio_saver
```
2. Open your browser and navigate to `http://127.0.0.1:3000`. Click "Start" to begin recording.
### RTP Play (FFmpeg)
Streams a video file (`examples/static/output.ivf`) via RTP to a UDP port, which can be played back using `ffplay`.
1. Run the server:
```bash
cargo run --example rtp_play
```
2. In a separate terminal, run `ffplay` (requires ffmpeg installed):
```bash
ffplay -protocol_whitelist file,udp,rtp -i examples/rtp_play.sdp
```
## License
This project is licensed under the MIT License.