A high-performance WebRTC library built on Nitro Modules, providing powerful real-time audio and video communication capabilities for React Native applications.
- ๐ High Performance: Built on Nitro Modules for native-level performance
- ๐ฅ Complete WebRTC API: Support for audio/video calls, data channels, and more
- ๐น Media Recording: Built-in MediaRecorder support for recording audio/video streams
- ๐ฌ FFmpeg Integration: Powerful audio/video encoding, decoding, transcoding, and processing capabilities
- ๐๏ธ H.264/H.265 Support: Hardware-accelerated H.264 and H.265 (HEVC) encoding and decoding
- ๐ต Opus Audio Codec: High-quality Opus audio encoding and decoding for efficient audio streaming
- ๐ฑ Cross-Platform: Perfect support for iOS and Android
- ๐ง TypeScript: Full type definitions
- ๐จ Nitro Views: High-performance video rendering views
- React Native >= 0.76.0
- Node.js >= 18.0.0
- iOS >= 13.0
- Android API >= 24
Important
To use Nitro Views features, React Native >= 0.78.0 is required
Using pnpm:
pnpm add react-native-webrtc-nitro react-native-nitro-modulesUsing npm:
npm install react-native-webrtc-nitro react-native-nitro-modulesUsing yarn:
yarn add react-native-webrtc-nitro react-native-nitro-modulescd ios && pod installAdd permission descriptions to Info.plist:
<key>NSCameraUsageDescription</key>
<string>Camera access is required for video calls</string>
<key>NSMicrophoneUsageDescription</key>
<string>Microphone access is required for audio calls</string>Add permissions to AndroidManifest.xml:
<uses-permission android:name="android.permission.CAMERA" />
<uses-permission android:name="android.permission.RECORD_AUDIO" />
<uses-permission android:name="android.permission.INTERNET" />import {
MediaDevices,
RTCPeerConnection,
Permissions
} from 'react-native-webrtc-nitro';
// 1. Check and request permissions
let cameraPermission = await Permissions.query({ name: 'camera' });
if (cameraPermission !== 'granted') {
cameraPermission = await Permissions.request({ name: 'camera' });
}
let microphonePermission = await Permissions.query({ name: 'microphone' });
if (microphonePermission !== 'granted') {
microphonePermission = await Permissions.request({ name: 'microphone' });
}
if (cameraPermission !== 'granted' || microphonePermission !== 'granted') {
console.error('Camera and microphone permissions are required');
return;
}
// 2. Get local media stream
const localStream = await MediaDevices.getUserMedia({
audio: true,
video: true
});
// 3. Create RTCPeerConnection
const peerConnection = new RTCPeerConnection({
iceServers: [
{ urls: 'stun:stun.l.google.com:19302' }
]
});
// 4. Add local stream to connection
localStream.getTracks().forEach(track => {
peerConnection.addTransceiver(track, {
direction: 'sendrecv',
streams: [localStream]
});
});
// 5. Handle ICE candidates
peerConnection.onicecandidate = (event) => {
if (event.candidate) {
// Send ICE candidate to remote peer via signaling server
signalingServer.send({
type: 'candidate',
candidate: event.candidate
});
}
};
// 6. Handle remote stream
peerConnection.ontrack = (event) => {
const remoteStream = event.streams[0];
setRemoteStream(remoteStream);
};
// 7. Create and send offer
const offer = await peerConnection.createOffer();
await peerConnection.setLocalDescription(offer);
// Send offer to remote peer via signaling server
signalingServer.send({
type: 'offer',
sdp: offer.sdp
});
// 8. Receive answer from remote peer
signalingServer.on('answer', async (answer) => {
await peerConnection.setRemoteDescription({
type: 'answer',
sdp: answer.sdp
});
});
// 9. Receive ICE candidates from remote peer
signalingServer.on('candidate', async (candidate) => {
await peerConnection.addIceCandidate({
candidate: candidate.candidate,
sdpMid: candidate.sdpMid
});
});import {
MediaDevices,
RTCPeerConnection,
Permissions
} from 'react-native-webrtc-nitro';
// 1. Check and request permissions
let cameraPermission = await Permissions.query({ name: 'camera' });
if (cameraPermission !== 'granted') {
cameraPermission = await Permissions.request({ name: 'camera' });
}
let microphonePermission = await Permissions.query({ name: 'microphone' });
if (microphonePermission !== 'granted') {
microphonePermission = await Permissions.request({ name: 'microphone' });
}
if (cameraPermission !== 'granted' || microphonePermission !== 'granted') {
console.error('Camera and microphone permissions are required');
return;
}
// 2. Get local media stream
const localStream = await MediaDevices.getUserMedia({
audio: true,
video: true
});
// 3. Create RTCPeerConnection
const peerConnection = new RTCPeerConnection({
iceServers: [
{ urls: 'stun:stun.l.google.com:19302' }
]
});
// 4. Add local stream to connection
localStream.getTracks().forEach(track => {
peerConnection.addTransceiver(track, {
direction: 'sendrecv',
streams: [localStream]
});
});
// 5. Handle ICE candidates
peerConnection.onicecandidate = (event) => {
if (event.candidate) {
// Send ICE candidate to remote peer via signaling server
signalingServer.send({
type: 'candidate',
candidate: event.candidate
});
}
};
// 6. Handle remote stream
peerConnection.ontrack = (event) => {
const remoteStream = event.streams[0];
setRemoteStream(remoteStream);
};
// 7. Receive offer from remote peer
signalingServer.on('offer', async (offer) => {
// Set remote description
await peerConnection.setRemoteDescription({
type: 'offer',
sdp: offer.sdp
});
// Create and send answer
const answer = await peerConnection.createAnswer();
await peerConnection.setLocalDescription(answer);
// Send answer back to caller via signaling server
signalingServer.send({
type: 'answer',
sdp: answer.sdp
});
});
// 8. Receive ICE candidates from remote peer
signalingServer.on('candidate', async (candidate) => {
await peerConnection.addIceCandidate({
candidate: candidate.candidate,
sdpMid: candidate.sdpMid
});
});import { WebrtcView } from 'react-native-webrtc-nitro';
function VideoCall() {
const [localStream, setLocalStream] = useState<MediaStream | null>(null);
const [remoteStream, setRemoteStream] = useState<MediaStream | null>(null);
return (
<View style={styles.container}>
{/* Local video */}
<WebrtcView
style={styles.localVideo}
stream={localStream}
/>
{/* Remote video */}
<WebrtcView
style={styles.remoteVideo}
stream={remoteStream}
/>
</View>
);
}import { MediaRecorder } from 'react-native-webrtc-nitro';
import RNFS from 'react-native-fs';
// Create recorder with media stream
const recorder = new MediaRecorder(mediaStream);
// Take a photo from the stream
const photoPath = `${RNFS.DocumentDirectoryPath}/photo.jpg`;
await recorder.takePhoto(photoPath);
console.log('Photo saved to:', photoPath);
// Start video recording
const videoPath = `${RNFS.DocumentDirectoryPath}/video.mp4`;
recorder.startRecording(videoPath);
// Stop recording after some time
setTimeout(() => {
recorder.stopRecording();
console.log('Video saved to:', videoPath);
}, 10000);Permission management module
// Query permission status
const cameraStatus = await Permissions.query({ name: 'camera' });
const microphoneStatus = await Permissions.query({ name: 'microphone' });
// Returns: 'granted' | 'denied' | 'prompt'
// Request permissions
const cameraPermission = await Permissions.request({ name: 'camera' });
const microphonePermission = await Permissions.request({ name: 'microphone' });
// Returns: 'granted' | 'denied' | 'prompt'Media device access module
// Get user media
const stream = await MediaDevices.getUserMedia({
audio: true,
video: true
});
// Get audio only
const audioStream = await MediaDevices.getUserMedia({
audio: true,
video: false
});
// Get video only
const videoStream = await MediaDevices.getUserMedia({
audio: false,
video: true
});
// Get mock media for testing
const mockStream = await MediaDevices.getMockMedia({
audio: true,
video: true
});Media stream management
// Get stream ID
const streamId = stream.id;
// Get all tracks
const allTracks = stream.getTracks();
// Get audio tracks
const audioTracks = stream.getAudioTracks();
// Get video tracks
const videoTracks = stream.getVideoTracks();
// Add track to stream
stream.addTrack(track);
// Remove track from stream
stream.removeTrack(track);Media track operations
// Get track ID
const trackId = track.id;
// Get track kind ('audio' or 'video')
const trackKind = track.kind;
// Get track state ('live' or 'ended')
const trackState = track.readyState;
// Enable/disable track
track.enabled = true;
track.enabled = false;
// Stop track
track.stop();Peer-to-peer connection
// Create connection
const pc = new RTCPeerConnection(config);
// Add transceiver with track
const transceiver = pc.addTransceiver(track, {
direction: 'sendrecv', // 'sendrecv' | 'sendonly' | 'recvonly' | 'inactive'
streams: [stream]
});
// Add transceiver with media kind
const videoTransceiver = pc.addTransceiver('video', {
direction: 'recvonly'
});
// Get all transceivers
const transceivers = pc.getTransceivers();
// Create offer
const offer = await pc.createOffer();
await pc.setLocalDescription(offer);
// Create answer
const answer = await pc.createAnswer();
await pc.setLocalDescription(answer);
// Set remote description
await pc.setRemoteDescription(answer);
// Add ICE candidate
await pc.addIceCandidate(candidate);
// Get connection state
const connectionState = pc.connectionState; // 'new' | 'connecting' | 'connected' | 'disconnected' | 'failed' | 'closed'
const iceGatheringState = pc.iceGatheringState; // 'new' | 'gathering' | 'complete'
// Get local/remote description
const localDesc = pc.localDescription;
const remoteDesc = pc.remoteDescription;
// Event listeners
pc.onicecandidate = (event) => { };
pc.ontrack = (event) => { };
pc.onconnectionstatechange = (event) => { };
pc.onicegatheringstatechange = (event) => { };
// Close connection
pc.close();Media recording
import { MediaRecorder } from 'react-native-webrtc-nitro';
import RNFS from 'react-native-fs';
// Create recorder
const recorder = new MediaRecorder(stream);
// Take photo
const photoPath = `${RNFS.DocumentDirectoryPath}/photo.jpg`;
await recorder.takePhoto(photoPath);
// Start recording video
const videoPath = `${RNFS.DocumentDirectoryPath}/video.mp4`;
recorder.startRecording(videoPath);
// Stop recording
recorder.stopRecording();react-native-webrtc-nitro
โโโ src/ # TypeScript API
โ โโโ specs/ # Nitro spec definitions
โ โโโ views/ # View components
โโโ cpp/ # C++ core implementation
โ โโโ FFmpeg/ # FFmpeg wrapper
โ โโโ Hybrid/ # Hybrid object implementations
โ โโโ FramePipe/ # Frame processing pipeline
โโโ ios/ # iOS platform code
โโโ android/ # Android platform code
โโโ 3rdparty/ # Third-party libraries
โโโ ffmpeg/
โโโ libdatachannel/
โโโ opus/
# Clone repository
git clone https://github.com/SingTown/react-native-webrtc-nitro.git
cd react-native-webrtc-nitro
# Build native libraries first
cd 3rdparty
# Download dependencies
./download.sh
# Build for iOS
./build_ios.sh
# Build for Android
./build_android.sh
cd ..
# Install dependencies
pnpm installcd example
# iOS
pnpm ios
# Android
pnpm androidCheck the example directory for a complete sample application, including:
- Audio/video calls
- Media recording
- Multi-party conferencing
Pull requests are welcome! For major changes, please open an issue first to discuss what you would like to change.
- Fork the repository
- Create your feature branch (
git checkout -b feature/AmazingFeature) - Commit your changes (
git commit -m 'Add some AmazingFeature') - Push to the branch (
git push origin feature/AmazingFeature) - Open a Pull Request
MPL-2.0 License - see the LICENSE file for details
- Nitro Modules - Powerful React Native native module framework
- libdatachannel - WebRTC data channel implementation
- FFmpeg - Audio/video processing library
- GitHub: @SingTown
- Issues: Submit an issue
If this project helps you, please give us a โญ๏ธ!
Built with โค๏ธ using Nitro Modules