PeerLite

Lightweight WebRTC browser library that supports video, audio and data channels.

Features

Lightweight! 3kb (gzipped)
Zero dependencies
Ships with TypeScript definitions
Uses modern WebRTC APIs
"Perfect negotiation" pattern
Support for renegotiation of connection
ICE candidate batching

Installation

yarn add peer-lite

Usage

Two peers connecting locally

import Peer from 'peer-lite';

const peer1 = new Peer();
const peer2 = new Peer();

peer1.on('signal', async (description) => {
  await peer2.signal(description);
})

peer2.on('signal', async (description) => {
  await peer1.signal(description);
})

peer1.on('onicecandidates', async (candidates) => {
  const promises = candidates.map(async candidate => peer2.addIceCandidate(candidate));
  await Promise.all(promises);
});

peer2.on('onicecandidates', async (candidates) => {
  const promises = candidates.map(async candidate => peer1.addIceCandidate(candidate));
  await Promise.all(promises);
});

peer1.on('streamRemote', (stream) => {
  document.querySelector('#video1').srcObject = stream;
});

peer2.on('streamRemote', (stream) => {
  document.querySelector('#video2').srcObject = stream;
});

(async () => {
  const stream = await Peer.getUserMedia();
  peer1.addStream(stream);
  peer2.addStream(stream);
  peer1.start();
})();

Peer connection with fake signalling server

import Peer from 'peer-lite';

const peer = new Peer();
const fakeSocket = new Socket();

// Peer events

peer.on('signal', async (description) => {
  fakeSocket.emit('signal', description);
});

peer.on('onicecandidates', async (candidates) => {
  fakeSocket.emit('onicecandidates', candidates);
});

peer.on('streamLocal', (stream) => {
  document.querySelector('#videoLocal').srcObject = stream;
});

peer.on('streamRemote', (stream) => {
  document.querySelector('#videoRemote').srcObject = stream;
});

// Socket events

fakeSocket.on('signal', async (description) => {
  await peer.signal(description);
});

fakeSocket.on('onicecandidates', async (candidates) => {
  const promises = candidates.map(async candidate => peer.addIceCandidate(candidate));
  await Promise.all(promises);
});

(async () => {
  const stream = await Peer.getUserMedia();
  peer.addStream(stream);
  peer.start();
})();

Examples

See more examples here with signalling server.

API

Constructor

new Peer(Options)

Peer Options

interface PeerOptions {
  /** Enable support for batching ICECandidates */
  batchCandidates?: boolean;
  /** Timeout in MS before emitting batched ICECandidates */
  batchCandidatesTimeout?: number;
  /** Peer id used when emitting errors */
  id?: string;
  /** RTCPeerConnection options */
  config?: RTCConfiguration;
  /** RTCOfferOptions options */
  offerOptions?: RTCOfferOptions;
  /** Enable support for RTCDataChannels */
  enableDataChannels?: boolean;
  /** Default RTCDataChannel label */
  channelLabel?: string;
  /** Default RTCDataChannel options */
  channelOptions?: RTCDataChannelInit;
  /** Function to transform offer/answer SDP */
  sdpTransform?: (sdp: string) => string;
}

Peer API

interface Peer {
  /** Create a peer instance */
  constructor(options?: PeerOptions);
  /** Initialize the peer */
  init(): RTCPeerConnection;
  /** Start the RTCPeerConnection signalling */
  start({ polite }?: {
      polite?: boolean | undefined;
  }): void;
  /** Process a RTCSessionDescriptionInit on peer */
  signal(description: RTCSessionDescriptionInit): Promise<void>;
  /** Add RTCIceCandidate to peer */
  addIceCandidate(candidate: RTCIceCandidate): Promise<void>;
  /** Send data to connected peer using an RTCDataChannel */
  send(data: string | Blob | ArrayBuffer | ArrayBufferView, label?: string): boolean;
  /** Add RTCDataChannel to peer */
  addDataChannel(label?: string, options?: RTCDataChannelInit): void;
  /** Get RTCDataChannel added to peer */
  getDataChannel(label?: string): RTCDataChannel | undefined;
  /** Close peer if active */
  destroy(): void;
  /** Return the ICEConnectionState of the peer */
  status(): RTCIceConnectionState;
  /** Return true if the peer is connected */
  isConnected(): boolean;
  /** Return true if the peer is closed */
  isClosed(): boolean;
  /** Return the RTCPeerConnection */
  get(): RTCPeerConnection;
  /** Return the local stream */
  getStreamLocal(): MediaStream;
  /** Add stream to peer */
  addStream(stream: MediaStream, replace?: boolean): void;
  /** Remove stream from peer */
  removeStream(stream: MediaStream): void;
  /** Add track to peer */
  addTrack(track: MediaStreamTrack): void;
  /** Remove track on peer */
  removeTrack(track: MediaStreamTrack): void;
  /** Remove tracks on peer */
  removeTracks(tracks: MediaStreamTrack[]): void;
  /** Replace track with another track on peer */
  replaceTrack(track: MediaStreamTrack, newTrack: MediaStreamTrack): Promise<void>;
  on<E extends keyof PeerEvents>(event: E, listener: PeerEvents[E]): TypedEmitter<PeerEvents>;
  off<E extends keyof PeerEvents>(event: E, listener: PeerEvents[E]): TypedEmitter<PeerEvents>;
  offAll<E extends keyof PeerEvents>(event?: E): TypedEmitter<PeerEvents>;
}

Peer Events

interface PeerEvents {
  error: (data: { id: string; message: string; error?: Error }) => void;
  // Connection Status
  connecting: VoidFunction;
  connected: VoidFunction;
  disconnected: VoidFunction;
  status: (status: RTCIceConnectionState) => void;
  // Signal and RTCIceCandidates
  signal: (description: RTCSessionDescriptionInit) => void;
  onicecandidates: (iceCandidates: RTCIceCandidate[]) => void;
  // MediaStreams
  streamLocal: (stream: MediaStream) => void;
  streamRemote: (stream: MediaStream) => void;
  // RTCDataChannel
  channelOpen: (data: { channel: RTCDataChannel }) => void;
  channelClosed: (data: { channel: RTCDataChannel }) => void;
  channelError: (data: { channel: RTCDataChannel; event: RTCErrorEvent }) => void;
  channelData: (data: {
    channel: RTCDataChannel;
    source: 'incoming' | 'outgoing';
    data: string | Blob | ArrayBuffer | ArrayBufferView;
  }) => void;
}

Testing

The tests run inside a headless Chrome and Firefox with Playwright and @playwright/test. These run quickly and allow testing of WebRTC APIs in real browsers.

Run Tests (Chrome only)

yarn test

Run Tests (Chrome + Firefox)

CI=true yarn test

Similar Projects

PeerJS: https://github.com/peers/peerjs
Simple Peer: https://github.com/feross/simple-peer
SimpleWebRTC: https://github.com/andyet/SimpleWebRTC
More here: https://stackoverflow.com/questions/24857637/current-state-of-javascript-webrtc-libraries

peer-lite

PeerLite

Features

Installation

Usage

Two peers connecting locally

Peer connection with fake signalling server

Examples

API

Constructor

Peer Options

Peer API

Peer Events

Testing

Similar Projects

Readme

Keywords

Package Sidebar

Install

Weekly Downloads

Version

License

Unpacked Size

Total Files

Last publish

Collaborators

peer-lite

PeerLite

Features

Installation

Usage

Two peers connecting locally

Peer connection with fake signalling server

Examples

API

Constructor

Peer Options

Peer API

Peer Events

Testing

Similar Projects

Readme

Keywords

Package Sidebar

Install

DownloadsWeekly Downloads

Version

License

Unpacked Size

Total Files

Last publish

Collaborators

Weekly Downloads