datachannel-rs  
Rust wrappers for libdatachannel, a WebRTC Data Channels standalone implementation in C++.
Usage
This crate provides two traits that end user must implement, DataChannelHandler
and
PeerConnectionHandler
, which defined all callbacks for RtcPeerConnection
and
RtcDataChannel
structs respectively.
Aforementioned traits are defined as follows:
pub trait DataChannelHandler {
fn on_open(&mut self) {}
fn on_closed(&mut self) {}
fn on_error(&mut self, err: &str) {}
fn on_message(&mut self, msg: &[u8]) {}
fn on_buffered_amount_low(&mut self) {}
fn on_available(&mut self) {}
}
pub trait PeerConnectionHandler {
type DCH;
fn data_channel_handler(&mut self, info: DataChannelInfo) -> Self::DCH;
fn on_description(&mut self, sess_desc: SessionDescription) {}
fn on_candidate(&mut self, cand: IceCandidate) {}
fn on_connection_state_change(&mut self, state: ConnectionState) {}
fn on_gathering_state_change(&mut self, state: GatheringState) {}
fn on_data_channel(&mut self, data_channel: Box<RtcDataChannel<Self::DCH>>) {}
}
Note that all on_*
methods have a default no-operation implementation.
The main struct, RtcPeerconnection
, takes a RtcConfig
(which defines ICE servers)
and a instance of PeerConnectionHandler
.
Here is the basic workflow:
use datachannel::{DataChannelHandler, DataChannelInfo, PeerConnectionHandler, RtcConfig, RtcPeerConnection};
struct MyChannel;
impl DataChannelHandler for MyChannel {
fn on_open(&mut self) {
// TODO: notify that the data channel is ready (optional)
}
fn on_message(&mut self, msg: &[u8]) {
// TODO: process the received message
}
}
struct MyConnection;
impl PeerConnectionHandler for MyConnection {
type DCH = MyChannel;
/// Used to create the `RtcDataChannel` received through `on_data_channel`.
fn data_channel_handler(&mut self, _info: DataChannelInfo) -> Self::DCH {
MyChannel
}
fn on_data_channel(&mut self, mut dc: Box<RtcDataChannel<Self::DCH>>) {
// TODO: store `dc` to keep receiving its messages (otherwise it will be dropped)
}
}
let ice_servers = vec!["stun:stun.l.google.com:19302"];
let conf = RtcConfig::new(&ice_servers);
let mut pc = RtcPeerConnection::new(&conf, MyConnection)?;
let mut dc = pc.create_data_channel("test-dc", MyChannel)?;
// TODO: exchange `SessionDescription` and `IceCandidate` with remote peer
// TODO: wait for `dc` to be opened (should be signaled through `on_open`)
// ...
// Then send a message
dc.send("Hello Peer!".as_bytes())?;
Complete implementation example can be found in the tests.
See also async-datachannel for an async-based implementation.
Cargo features
- log (default) Enables logging provided by the
log
crate (mutually exclusive with tracing). - tracing Enables logging provided by the
tracing
crate (mutally exclusive with log). - vendored Builds libdatachannel and its dependencies statically and bundles them in
the build (including
OpenSSL
). - media Enables media support through
libdatachannel
.
Building
Note that CMake
is required to compile libdatachannel through
datachannel-sys.
Apple macOS
You probably need to set the following environment variables if your build fails with an
OpenSSL
related error.
export OPENSSL_ROOT_DIR=/usr/local/opt/openssl@3
export OPENSSL_LIBRARIES=/usr/local/opt/openssl@3/lib
With the paths of your local OpenSSL
installation.
Ubuntu
Required dependencies:
# Needed to compile libdatachannel
sudo apt install build-essential cmake pkg-config libssl-dev clang