/* eslint no-unused-vars: ["error", { "varsIgnorePattern": "^net|tls$" }] */ 'use strict'; const net = require('net'); const tls = require('tls'); const { randomFillSync } = require('crypto'); const PerMessageDeflate = require('./permessage-deflate'); const { EMPTY_BUFFER } = require('./constants'); const { isValidStatusCode } = require('./validation'); const { mask: applyMask, toBuffer } = require('./buffer-util'); const kByteLength = Symbol('kByteLength'); const maskBuffer = Buffer.alloc(4); /** * HyBi Sender implementation. */ class Sender { /** * Creates a Sender instance. * * @param {(net.Socket|tls.Socket)} socket The connection socket * @param {Object} [extensions] An object containing the negotiated extensions * @param {Function} [generateMask] The function used to generate the masking * key */ constructor(socket, extensions, generateMask) { this._extensions = extensions || {}; if (generateMask) { this._generateMask = generateMask; this._maskBuffer = Buffer.alloc(4); } this._socket = socket; this._firstFragment = true; this._compress = false; this._bufferedBytes = 0; this._deflating = false; this._queue = []; } /** * Frames a piece of data according to the HyBi WebSocket protocol. * * @param {(Buffer|String)} data The data to frame * @param {Object} options Options object * @param {Boolean} [options.fin=false] Specifies whether or not to set the * FIN bit * @param {Function} [options.generateMask] The function used to generate the * masking key * @param {Boolean} [options.mask=false] Specifies whether or not to mask * `data` * @param {Buffer} [options.maskBuffer] The buffer used to store the masking * key * @param {Number} options.opcode The opcode * @param {Boolean} [options.readOnly=false] Specifies whether `data` can be * modified * @param {Boolean} [options.rsv1=false] Specifies whether or not to set the * RSV1 bit * @return {(Buffer|String)[]} The framed data * @public */ static frame(data, options) { let mask; let merge = false; let offset = 2; let skipMasking = false; if (options.mask) { mask = options.maskBuffer || maskBuffer; if (options.generateMask) { options.generateMask(mask); } else { randomFillSync(mask, 0, 4); } skipMasking = (mask[0] | mask[1] | mask[2] | mask[3]) === 0; offset = 6; } let dataLength; if (typeof data === 'string') { if ( (!options.mask || skipMasking) && options[kByteLength] !== undefined ) { dataLength = options[kByteLength]; } else { data = Buffer.from(data); dataLength = data.length; } } else { dataLength = data.length; merge = options.mask && options.readOnly && !skipMasking; } let payloadLength = dataLength; if (dataLength >= 65536) { offset += 8; payloadLength = 127; } else if (dataLength > 125) { offset += 2; payloadLength = 126; } const target = Buffer.allocUnsafe(merge ? dataLength + offset : offset); target[0] = options.fin ? options.opcode | 0x80 : options.opcode; if (options.rsv1) target[0] |= 0x40; target[1] = payloadLength; if (payloadLength === 126) { target.writeUInt16BE(dataLength, 2); } else if (payloadLength === 127) { target[2] = target[3] = 0; target.writeUIntBE(dataLength, 4, 6); } if (!options.mask) return [target, data]; target[1] |= 0x80; target[offset - 4] = mask[0]; target[offset - 3] = mask[1]; target[offset - 2] = mask[2]; target[offset - 1] = mask[3]; if (skipMasking) return [target, data]; if (merge) { applyMask(data, mask, target, offset, dataLength); return [target]; } applyMask(data, mask, data, 0, dataLength); return [target, data]; } /** * Sends a close message to the other peer. * * @param {Number} [code] The status code component of the body * @param {(String|Buffer)} [data] The message component of the body * @param {Boolean} [mask=false] Specifies whether or not to mask the message * @param {Function} [cb] Callback * @public */ close(code, data, mask, cb) { let buf; if (code === undefined) { buf = EMPTY_BUFFER; } else if (typeof code !== 'number' || !isValidStatusCode(code)) { throw new TypeError('First argument must be a valid error code number'); } else if (data === undefined || !data.length) { buf = Buffer.allocUnsafe(2); buf.writeUInt16BE(code, 0); } else { const length = Buffer.byteLength(data); if (length > 123) { throw new RangeError('The message must not be greater than 123 bytes'); } buf = Buffer.allocUnsafe(2 + length); buf.writeUInt16BE(code, 0); if (typeof data === 'string') { buf.write(data, 2); } else { buf.set(data, 2); } } const options = { [kByteLength]: buf.length, fin: true, generateMask: this._generateMask, mask, maskBuffer: this._maskBuffer, opcode: 0x08, readOnly: false, rsv1: false }; if (this._deflating) { this.enqueue([this.dispatch, buf, false, options, cb]); } else { this.sendFrame(Sender.frame(buf, options), cb); } } /** * Sends a ping message to the other peer. * * @param {*} data The message to send * @param {Boolean} [mask=false] Specifies whether or not to mask `data` * @param {Function} [cb] Callback * @public */ ping(data, mask, cb) { let byteLength; let readOnly; if (typeof data === 'string') { byteLength = Buffer.byteLength(data); readOnly = false; } else { data = toBuffer(data); byteLength = data.length; readOnly = toBuffer.readOnly; } if (byteLength > 125) { throw new RangeError('The data size must not be greater than 125 bytes'); } const options = { [kByteLength]: byteLength, fin: true, generateMask: this._generateMask, mask, maskBuffer: this._maskBuffer, opcode: 0x09, readOnly, rsv1: false }; if (this._deflating) { this.enqueue([this.dispatch, data, false, options, cb]); } else { this.sendFrame(Sender.frame(data, options), cb); } } /** * Sends a pong message to the other peer. * * @param {*} data The message to send * @param {Boolean} [mask=false] Specifies whether or not to mask `data` * @param {Function} [cb] Callback * @public */ pong(data, mask, cb) { let byteLength; let readOnly; if (typeof data === 'string') { byteLength = Buffer.byteLength(data); readOnly = false; } else { data = toBuffer(data); byteLength = data.length; readOnly = toBuffer.readOnly; } if (byteLength > 125) { throw new RangeError('The data size must not be greater than 125 bytes'); } const options = { [kByteLength]: byteLength, fin: true, generateMask: this._generateMask, mask, maskBuffer: this._maskBuffer, opcode: 0x0a, readOnly, rsv1: false }; if (this._deflating) { this.enqueue([this.dispatch, data, false, options, cb]); } else { this.sendFrame(Sender.frame(data, options), cb); } } /** * Sends a data message to the other peer. * * @param {*} data The message to send * @param {Object} options Options object * @param {Boolean} [options.binary=false] Specifies whether `data` is binary * or text * @param {Boolean} [options.compress=false] Specifies whether or not to * compress `data` * @param {Boolean} [options.fin=false] Specifies whether the fragment is the * last one * @param {Boolean} [options.mask=false] Specifies whether or not to mask * `data` * @param {Function} [cb] Callback * @public */ send(data, options, cb) { const perMessageDeflate = this._extensions[PerMessageDeflate.extensionName]; let opcode = options.binary ? 2 : 1; let rsv1 = options.compress; let byteLength; let readOnly; if (typeof data === 'string') { byteLength = Buffer.byteLength(data); readOnly = false; } else { data = toBuffer(data); byteLength = data.length; readOnly = toBuffer.readOnly; } if (this._firstFragment) { this._firstFragment = false; if ( rsv1 && perMessageDeflate && perMessageDeflate.params[ perMessageDeflate._isServer ? 'server_no_context_takeover' : 'client_no_context_takeover' ] ) { rsv1 = byteLength >= perMessageDeflate._threshold; } this._compress = rsv1; } else { rsv1 = false; opcode = 0; } if (options.fin) this._firstFragment = true; if (perMessageDeflate) { const opts = { [kByteLength]: byteLength, fin: options.fin, generateMask: this._generateMask, mask: options.mask, maskBuffer: this._maskBuffer, opcode, readOnly, rsv1 }; if (this._deflating) { this.enqueue([this.dispatch, data, this._compress, opts, cb]); } else { this.dispatch(data, this._compress, opts, cb); } } else { this.sendFrame( Sender.frame(data, { [kByteLength]: byteLength, fin: options.fin, generateMask: this._generateMask, mask: options.mask, maskBuffer: this._maskBuffer, opcode, readOnly, rsv1: false }), cb ); } } /** * Dispatches a message. * * @param {(Buffer|String)} data The message to send * @param {Boolean} [compress=false] Specifies whether or not to compress * `data` * @param {Object} options Options object * @param {Boolean} [options.fin=false] Specifies whether or not to set the * FIN bit * @param {Function} [options.generateMask] The function used to generate the * masking key * @param {Boolean} [options.mask=false] Specifies whether or not to mask * `data` * @param {Buffer} [options.maskBuffer] The buffer used to store the masking * key * @param {Number} options.opcode The opcode * @param {Boolean} [options.readOnly=false] Specifies whether `data` can be * modified * @param {Boolean} [options.rsv1=false] Specifies whether or not to set the * RSV1 bit * @param {Function} [cb] Callback * @private */ dispatch(data, compress, options, cb) { if (!compress) { this.sendFrame(Sender.frame(data, options), cb); return; } const perMessageDeflate = this._extensions[PerMessageDeflate.extensionName]; this._bufferedBytes += options[kByteLength]; this._deflating = true; perMessageDeflate.compress(data, options.fin, (_, buf) => { if (this._socket.destroyed) { const err = new Error( 'The socket was closed while data was being compressed' ); if (typeof cb === 'function') cb(err); for (let i = 0; i < this._queue.length; i++) { const params = this._queue[i]; const callback = params[params.length - 1]; if (typeof callback === 'function') callback(err); } return; } this._bufferedBytes -= options[kByteLength]; this._deflating = false; options.readOnly = false; this.sendFrame(Sender.frame(buf, options), cb); this.dequeue(); }); } /** * Executes queued send operations. * * @private */ dequeue() { while (!this._deflating && this._queue.length) { const params = this._queue.shift(); this._bufferedBytes -= params[3][kByteLength]; Reflect.apply(params[0], this, params.slice(1)); } } /** * Enqueues a send operation. * * @param {Array} params Send operation parameters. * @private */ enqueue(params) { this._bufferedBytes += params[3][kByteLength]; this._queue.push(params); } /** * Sends a frame. * * @param {Buffer[]} list The frame to send * @param {Function} [cb] Callback * @private */ sendFrame(list, cb) { if (list.length === 2) { this._socket.cork(); this._socket.write(list[0]); this._socket.write(list[1], cb); this._socket.uncork(); } else { this._socket.write(list[0], cb); } } } module.exports = Sender;