Rust wrappers for libdatachannel, a WebRTC Data Channels standalone implementation in C++.
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) -> 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, 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) -> 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.
Note that CMake
is required to compile libdatachannel through
datachannel-sys.
By default libdatachannel will be built and linked dynamically. However there is a
static
Cargo feature that will build and link it statically (with all its
dependencies, including OpenSSL
).
You probably need to set the following environment variables if your build fails with an
OpenSSL
related error.
export OPENSSL_ROOT_DIR=/usr/local/Cellar/[email protected]/1.1.1i/
export OPENSSL_LIBRARIES=/usr/local/Cellar/[email protected]/1.1.1i/lib
With the paths of your local OpenSSL
installation.