window.URL = window.URL || window.webkitURL; window.isRtcSupported = !!(window.RTCPeerConnection || window.mozRTCPeerConnection || window.webkitRTCPeerConnection); class ServerConnection { constructor() { this._connect(); Events.on('beforeunload', e => this._disconnect()); Events.on('pagehide', e => this._disconnect()); document.addEventListener('visibilitychange', e => this._onVisibilityChange()); } _connect() { clearTimeout(this._reconnectTimer); if (this._isConnected() || this._isConnecting()) return; const ws = new WebSocket(this._endpoint()); ws.binaryType = 'arraybuffer'; ws.onopen = e => console.log('WS: server connected'); ws.onmessage = e => this._onMessage(e.data); ws.onclose = e => this._onDisconnect(); ws.onerror = e => console.error(e); this._socket = ws; } _onMessage(msg) { msg = JSON.parse(msg); console.log('WS:', msg); switch (msg.type) { case 'peers': Events.fire('peers', msg.peers); break; case 'peer-joined': Events.fire('peer-joined', msg.peer); break; case 'peer-left': Events.fire('peer-left', msg.peerId); break; case 'signal': Events.fire('signal', msg); break; case 'ping': this.send({ type: 'pong' }); break; case 'displayName': Events.fire('displayName', msg); break; default: console.error('WS: unkown message type', msg); } } send(message) { if (!this._isConnected()) return; this._socket.send(JSON.stringify(message)); } _endpoint() { // hack to detect if deployment or development environment const protocol = location.protocol.startsWith('https') ? 'wss' : 'ws'; const webrtc = window.isRtcSupported ? '/webrtc' : '/fallback'; const url = protocol + '://' + location.host + '/server' + webrtc; return url; } _disconnect() { this.send({ type: 'disconnect' }); this._socket.onclose = null; this._socket.close(); } _onDisconnect() { console.log('WS: server disconnected'); Events.fire('notify-user', 'Connection lost. Retry in 5 seconds...'); clearTimeout(this._reconnectTimer); this._reconnectTimer = setTimeout(_ => this._connect(), 5000); } _onVisibilityChange() { if (document.hidden) return; this._connect(); } _isConnected() { return this._socket && this._socket.readyState === this._socket.OPEN; } _isConnecting() { return this._socket && this._socket.readyState === this._socket.CONNECTING; } } class Peer { constructor(serverConnection, peerId) { this._server = serverConnection; this._peerId = peerId; this._filesQueue = []; this._busy = false; } sendJSON(message) { this._send(JSON.stringify(message)); } sendFiles(files) { for (let i = 0; i < files.length; i++) { this._filesQueue.push(files[i]); } if (this._busy) return; this._dequeueFile(); } _dequeueFile() { if (!this._filesQueue.length) return; this._busy = true; const file = this._filesQueue.shift(); this._sendFile(file); } _sendFile(file) { this.sendJSON({ type: 'header', name: file.name, mime: file.type, size: file.size }); this._chunker = new FileChunker(file, chunk => this._send(chunk), offset => this._onPartitionEnd(offset)); this._chunker.nextPartition(); } _onPartitionEnd(offset) { this.sendJSON({ type: 'partition', offset: offset }); } _onReceivedPartitionEnd(offset) { this.sendJSON({ type: 'partition-received', offset: offset }); } _sendNextPartition() { if (!this._chunker || this._chunker.isFileEnd()) return; this._chunker.nextPartition(); } _sendProgress(progress) { this.sendJSON({ type: 'progress', progress: progress }); } _onMessage(message) { if (typeof message !== 'string') { this._onChunkReceived(message); return; } message = JSON.parse(message); console.log('RTC:', message); switch (message.type) { case 'header': this._onFileHeader(message); break; case 'partition': this._onReceivedPartitionEnd(message); break; case 'partition-received': this._sendNextPartition(); break; case 'progress': this._onDownloadProgress(message.progress); break; case 'transfer-complete': this._onTransferCompleted(); break; case 'text': this._onTextReceived(message); break; } } _onFileHeader(header) { this._lastProgress = 0; this._digester = new FileDigester({ name: header.name, mime: header.mime, size: header.size }, file => this._onFileReceived(file)); } _onChunkReceived(chunk) { this._digester.unchunk(chunk); const progress = this._digester.progress; this._onDownloadProgress(progress); // occasionally notify sender about our progress if (progress - this._lastProgress < 0.01) return; this._lastProgress = progress; this._sendProgress(progress); } _onDownloadProgress(progress) { Events.fire('file-progress', { sender: this._peerId, progress: progress }); } _onFileReceived(proxyFile) { Events.fire('file-received', proxyFile); this.sendJSON({ type: 'transfer-complete' }); } _onTransferCompleted() { this._onDownloadProgress(1); this._reader = null; this._busy = false; this._dequeueFile(); Events.fire('notify-user', 'File transfer completed.'); } sendText(text) { const unescaped = btoa(unescape(encodeURIComponent(text))); this.sendJSON({ type: 'text', text: unescaped }); } _onTextReceived(message) { const escaped = decodeURIComponent(escape(atob(message.text))); Events.fire('text-received', { text: escaped, sender: this._peerId }); } } class RTCPeer extends Peer { constructor(serverConnection, peerId) { super(serverConnection, peerId); if (!peerId) return; // we will listen for a caller this._connect(peerId, true); } _connect(peerId, isCaller) { if (!this._conn) this._openConnection(peerId, isCaller); if (isCaller) { this._openChannel(); } else { this._conn.ondatachannel = e => this._onChannelOpened(e); } } _openConnection(peerId, isCaller) { this._isCaller = isCaller; this._peerId = peerId; this._conn = new RTCPeerConnection(RTCPeer.config); this._conn.onicecandidate = e => this._onIceCandidate(e); this._conn.onconnectionstatechange = e => this._onConnectionStateChange(e); this._conn.oniceconnectionstatechange = e => this._onIceConnectionStateChange(e); } _openChannel() { const channel = this._conn.createDataChannel('data-channel', { reliable: true }); channel.binaryType = 'arraybuffer'; channel.onopen = e => this._onChannelOpened(e); this._conn.createOffer().then(d => this._onDescription(d)).catch(e => this._onError(e)); } _onDescription(description) { // description.sdp = description.sdp.replace('b=AS:30', 'b=AS:1638400'); this._conn.setLocalDescription(description) .then(_ => this._sendSignal({ sdp: description })) .catch(e => this._onError(e)); } _onIceCandidate(event) { if (!event.candidate) return; this._sendSignal({ ice: event.candidate }); } onServerMessage(message) { if (!this._conn) this._connect(message.sender, false); if (message.sdp) { this._conn.setRemoteDescription(new RTCSessionDescription(message.sdp)) .then( _ => { if (message.sdp.type === 'offer') { return this._conn.createAnswer() .then(d => this._onDescription(d)); } }) .catch(e => this._onError(e)); } else if (message.ice) { this._conn.addIceCandidate(new RTCIceCandidate(message.ice)); } } _onChannelOpened(event) { console.log('RTC: channel opened with', this._peerId); const channel = event.channel || event.target; channel.onmessage = e => this._onMessage(e.data); channel.onclose = e => this._onChannelClosed(); this._channel = channel; } _onChannelClosed() { console.log('RTC: channel closed', this._peerId); if (!this.isCaller) return; this._connect(this._peerId, true); // reopen the channel } _onConnectionStateChange(e) { console.log('RTC: state changed:', this._conn.connectionState); switch (this._conn.connectionState) { case 'disconnected': this._onChannelClosed(); break; case 'failed': this._conn = null; this._onChannelClosed(); break; } } _onIceConnectionStateChange() { switch (this._conn.iceConnectionState) { case 'failed': console.error('ICE Gathering failed'); break; default: console.log('ICE Gathering', this._conn.iceConnectionState); } } _onError(error) { console.error(error); } _send(message) { if (!this._channel) return this.refresh(); this._channel.send(message); } _sendSignal(signal) { signal.type = 'signal'; signal.to = this._peerId; this._server.send(signal); } refresh() { // check if channel is open. otherwise create one if (this._isConnected() || this._isConnecting()) return; this._connect(this._peerId, this._isCaller); } _isConnected() { return this._channel && this._channel.readyState === 'open'; } _isConnecting() { return this._channel && this._channel.readyState === 'connecting'; } } class PeersManager { constructor(serverConnection) { this.peers = {}; this._server = serverConnection; Events.on('signal', e => this._onMessage(e.detail)); Events.on('peers', e => this._onPeers(e.detail)); Events.on('files-selected', e => this._onFilesSelected(e.detail)); Events.on('send-text', e => this._onSendText(e.detail)); Events.on('peer-left', e => this._onPeerLeft(e.detail)); } _onMessage(message) { if (!this.peers[message.sender]) { this.peers[message.sender] = new RTCPeer(this._server); } this.peers[message.sender].onServerMessage(message); } _onPeers(peers) { peers.forEach(peer => { if (this.peers[peer.id]) { this.peers[peer.id].refresh(); return; } if (window.isRtcSupported && peer.rtcSupported) { this.peers[peer.id] = new RTCPeer(this._server, peer.id); } else { this.peers[peer.id] = new WSPeer(this._server, peer.id); } }) } sendTo(peerId, message) { this.peers[peerId].send(message); } _onFilesSelected(message) { this.peers[message.to].sendFiles(message.files); } _onSendText(message) { this.peers[message.to].sendText(message.text); } _onPeerLeft(peerId) { const peer = this.peers[peerId]; delete this.peers[peerId]; if (!peer || !peer._peer) return; peer._peer.close(); } } class WSPeer { _send(message) { message.to = this._peerId; this._server.send(message); } } class FileChunker { constructor(file, onChunk, onPartitionEnd) { this._chunkSize = 64000; // 64 KB this._maxPartitionSize = 1e6; // 1 MB this._offset = 0; this._partitionSize = 0; this._file = file; this._onChunk = onChunk; this._onPartitionEnd = onPartitionEnd; this._reader = new FileReader(); this._reader.addEventListener('load', e => this._onChunkRead(e.target.result)); } nextPartition() { this._partitionSize = 0; this._readChunk(); } _readChunk() { const chunk = this._file.slice(this._offset, this._offset + this._chunkSize); this._reader.readAsArrayBuffer(chunk); } _onChunkRead(chunk) { this._offset += chunk.byteLength; this._partitionSize += chunk.byteLength; this._onChunk(chunk); if (this._isPartitionEnd() || this.isFileEnd()) { this._onPartitionEnd(this._offset); return; } this._readChunk(); } repeatPartition() { this._offset -= this._partitionSize; this._nextPartition(); } _isPartitionEnd() { return this._partitionSize >= this._maxPartitionSize; } isFileEnd() { return this._offset > this._file.size; } get progress() { return this._offset / this._file.size; } } class FileDigester { constructor(meta, callback) { this._buffer = []; this._bytesReceived = 0; this._size = meta.size; this._mime = meta.mime || 'application/octet-stream'; this._name = meta.name; this._callback = callback; } unchunk(chunk) { this._buffer.push(chunk); this._bytesReceived += chunk.byteLength || chunk.size; const totalChunks = this._buffer.length; this.progress = this._bytesReceived / this._size; if (this._bytesReceived < this._size) return; // we are done let blob = new Blob(this._buffer, { type: this._mime }); this._callback({ name: this._name, mime: this._mime, size: this._size, blob: blob }); } } class Events { static fire(type, detail) { window.dispatchEvent(new CustomEvent(type, { detail: detail })); } static on(type, callback) { return window.addEventListener(type, callback, false); } } RTCPeer.config = { 'iceServers': [{ urls: 'stun:stun.l.google.com:19302' }] }