/************************************************************************ * Copyright 2010-2015 Brian McKelvey. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. ***********************************************************************/ var util = require('util'); var utils = require('./utils'); var EventEmitter = require('events').EventEmitter; var WebSocketFrame = require('./WebSocketFrame'); var BufferList = require('../vendor/FastBufferList'); var Validation = require('./Validation').Validation; var bufferAllocUnsafe = utils.bufferAllocUnsafe; var bufferFromString = utils.bufferFromString; // Connected, fully-open, ready to send and receive frames const STATE_OPEN = 'open'; // Received a close frame from the remote peer const STATE_PEER_REQUESTED_CLOSE = 'peer_requested_close'; // Sent close frame to remote peer. No further data can be sent. const STATE_ENDING = 'ending'; // Connection is fully closed. No further data can be sent or received. const STATE_CLOSED = 'closed'; var setImmediateImpl = ('setImmediate' in global) ? global.setImmediate.bind(global) : process.nextTick.bind(process); var idCounter = 0; function WebSocketConnection(socket, extensions, protocol, maskOutgoingPackets, config) { this._debug = utils.BufferingLogger('websocket:connection', ++idCounter); this._debug('constructor'); if (this._debug.enabled) { instrumentSocketForDebugging(this, socket); } // Superclass Constructor EventEmitter.call(this); this._pingListenerCount = 0; this.on('newListener', function(ev) { if (ev === 'ping'){ this._pingListenerCount++; } }).on('removeListener', function(ev) { if (ev === 'ping') { this._pingListenerCount--; } }); this.config = config; this.socket = socket; this.protocol = protocol; this.extensions = extensions; this.remoteAddress = socket.remoteAddress; this.closeReasonCode = -1; this.closeDescription = null; this.closeEventEmitted = false; // We have to mask outgoing packets if we're acting as a WebSocket client. this.maskOutgoingPackets = maskOutgoingPackets; // We re-use the same buffers for the mask and frame header for all frames // received on each connection to avoid a small memory allocation for each // frame. this.maskBytes = bufferAllocUnsafe(4); this.frameHeader = bufferAllocUnsafe(10); // the BufferList will handle the data streaming in this.bufferList = new BufferList(); // Prepare for receiving first frame this.currentFrame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); this.fragmentationSize = 0; // data received so far... this.frameQueue = []; // Various bits of connection state this.connected = true; this.state = STATE_OPEN; this.waitingForCloseResponse = false; // Received TCP FIN, socket's readable stream is finished. this.receivedEnd = false; this.closeTimeout = this.config.closeTimeout; this.assembleFragments = this.config.assembleFragments; this.maxReceivedMessageSize = this.config.maxReceivedMessageSize; this.outputBufferFull = false; this.inputPaused = false; this.receivedDataHandler = this.processReceivedData.bind(this); this._closeTimerHandler = this.handleCloseTimer.bind(this); // Disable nagle algorithm? this.socket.setNoDelay(this.config.disableNagleAlgorithm); // Make sure there is no socket inactivity timeout this.socket.setTimeout(0); if (this.config.keepalive && !this.config.useNativeKeepalive) { if (typeof(this.config.keepaliveInterval) !== 'number') { throw new Error('keepaliveInterval must be specified and numeric ' + 'if keepalive is true.'); } this._keepaliveTimerHandler = this.handleKeepaliveTimer.bind(this); this.setKeepaliveTimer(); if (this.config.dropConnectionOnKeepaliveTimeout) { if (typeof(this.config.keepaliveGracePeriod) !== 'number') { throw new Error('keepaliveGracePeriod must be specified and ' + 'numeric if dropConnectionOnKeepaliveTimeout ' + 'is true.'); } this._gracePeriodTimerHandler = this.handleGracePeriodTimer.bind(this); } } else if (this.config.keepalive && this.config.useNativeKeepalive) { if (!('setKeepAlive' in this.socket)) { throw new Error('Unable to use native keepalive: unsupported by ' + 'this version of Node.'); } this.socket.setKeepAlive(true, this.config.keepaliveInterval); } // The HTTP Client seems to subscribe to socket error events // and re-dispatch them in such a way that doesn't make sense // for users of our client, so we want to make sure nobody // else is listening for error events on the socket besides us. this.socket.removeAllListeners('error'); } WebSocketConnection.CLOSE_REASON_NORMAL = 1000; WebSocketConnection.CLOSE_REASON_GOING_AWAY = 1001; WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR = 1002; WebSocketConnection.CLOSE_REASON_UNPROCESSABLE_INPUT = 1003; WebSocketConnection.CLOSE_REASON_RESERVED = 1004; // Reserved value. Undefined meaning. WebSocketConnection.CLOSE_REASON_NOT_PROVIDED = 1005; // Not to be used on the wire WebSocketConnection.CLOSE_REASON_ABNORMAL = 1006; // Not to be used on the wire WebSocketConnection.CLOSE_REASON_INVALID_DATA = 1007; WebSocketConnection.CLOSE_REASON_POLICY_VIOLATION = 1008; WebSocketConnection.CLOSE_REASON_MESSAGE_TOO_BIG = 1009; WebSocketConnection.CLOSE_REASON_EXTENSION_REQUIRED = 1010; WebSocketConnection.CLOSE_REASON_INTERNAL_SERVER_ERROR = 1011; WebSocketConnection.CLOSE_REASON_TLS_HANDSHAKE_FAILED = 1015; // Not to be used on the wire WebSocketConnection.CLOSE_DESCRIPTIONS = { 1000: 'Normal connection closure', 1001: 'Remote peer is going away', 1002: 'Protocol error', 1003: 'Unprocessable input', 1004: 'Reserved', 1005: 'Reason not provided', 1006: 'Abnormal closure, no further detail available', 1007: 'Invalid data received', 1008: 'Policy violation', 1009: 'Message too big', 1010: 'Extension requested by client is required', 1011: 'Internal Server Error', 1015: 'TLS Handshake Failed' }; function validateCloseReason(code) { if (code < 1000) { // Status codes in the range 0-999 are not used return false; } if (code >= 1000 && code <= 2999) { // Codes from 1000 - 2999 are reserved for use by the protocol. Only // a few codes are defined, all others are currently illegal. return [1000, 1001, 1002, 1003, 1007, 1008, 1009, 1010, 1011, 1012, 1013, 1014].indexOf(code) !== -1; } if (code >= 3000 && code <= 3999) { // Reserved for use by libraries, frameworks, and applications. // Should be registered with IANA. Interpretation of these codes is // undefined by the WebSocket protocol. return true; } if (code >= 4000 && code <= 4999) { // Reserved for private use. Interpretation of these codes is // undefined by the WebSocket protocol. return true; } if (code >= 5000) { return false; } } util.inherits(WebSocketConnection, EventEmitter); WebSocketConnection.prototype._addSocketEventListeners = function() { this.socket.on('error', this.handleSocketError.bind(this)); this.socket.on('end', this.handleSocketEnd.bind(this)); this.socket.on('close', this.handleSocketClose.bind(this)); this.socket.on('drain', this.handleSocketDrain.bind(this)); this.socket.on('pause', this.handleSocketPause.bind(this)); this.socket.on('resume', this.handleSocketResume.bind(this)); this.socket.on('data', this.handleSocketData.bind(this)); }; // set or reset the keepalive timer when data is received. WebSocketConnection.prototype.setKeepaliveTimer = function() { this._debug('setKeepaliveTimer'); if (!this.config.keepalive || this.config.useNativeKeepalive) { return; } this.clearKeepaliveTimer(); this.clearGracePeriodTimer(); this._keepaliveTimeoutID = setTimeout(this._keepaliveTimerHandler, this.config.keepaliveInterval); }; WebSocketConnection.prototype.clearKeepaliveTimer = function() { if (this._keepaliveTimeoutID) { clearTimeout(this._keepaliveTimeoutID); } }; // No data has been received within config.keepaliveTimeout ms. WebSocketConnection.prototype.handleKeepaliveTimer = function() { this._debug('handleKeepaliveTimer'); this._keepaliveTimeoutID = null; this.ping(); // If we are configured to drop connections if the client doesn't respond // then set the grace period timer. if (this.config.dropConnectionOnKeepaliveTimeout) { this.setGracePeriodTimer(); } else { // Otherwise reset the keepalive timer to send the next ping. this.setKeepaliveTimer(); } }; WebSocketConnection.prototype.setGracePeriodTimer = function() { this._debug('setGracePeriodTimer'); this.clearGracePeriodTimer(); this._gracePeriodTimeoutID = setTimeout(this._gracePeriodTimerHandler, this.config.keepaliveGracePeriod); }; WebSocketConnection.prototype.clearGracePeriodTimer = function() { if (this._gracePeriodTimeoutID) { clearTimeout(this._gracePeriodTimeoutID); } }; WebSocketConnection.prototype.handleGracePeriodTimer = function() { this._debug('handleGracePeriodTimer'); // If this is called, the client has not responded and is assumed dead. this._gracePeriodTimeoutID = null; this.drop(WebSocketConnection.CLOSE_REASON_ABNORMAL, 'Peer not responding.', true); }; WebSocketConnection.prototype.handleSocketData = function(data) { this._debug('handleSocketData'); // Reset the keepalive timer when receiving data of any kind. this.setKeepaliveTimer(); // Add received data to our bufferList, which efficiently holds received // data chunks in a linked list of Buffer objects. this.bufferList.write(data); this.processReceivedData(); }; WebSocketConnection.prototype.processReceivedData = function() { this._debug('processReceivedData'); // If we're not connected, we should ignore any data remaining on the buffer. if (!this.connected) { return; } // Receiving/parsing is expected to be halted when paused. if (this.inputPaused) { return; } var frame = this.currentFrame; // WebSocketFrame.prototype.addData returns true if all data necessary to // parse the frame was available. It returns false if we are waiting for // more data to come in on the wire. if (!frame.addData(this.bufferList)) { this._debug('-- insufficient data for frame'); return; } var self = this; // Handle possible parsing errors if (frame.protocolError) { // Something bad happened.. get rid of this client. this._debug('-- protocol error'); process.nextTick(function() { self.drop(WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR, frame.dropReason); }); return; } else if (frame.frameTooLarge) { this._debug('-- frame too large'); process.nextTick(function() { self.drop(WebSocketConnection.CLOSE_REASON_MESSAGE_TOO_BIG, frame.dropReason); }); return; } // For now since we don't support extensions, all RSV bits are illegal if (frame.rsv1 || frame.rsv2 || frame.rsv3) { this._debug('-- illegal rsv flag'); process.nextTick(function() { self.drop(WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR, 'Unsupported usage of rsv bits without negotiated extension.'); }); return; } if (!this.assembleFragments) { this._debug('-- emitting frame'); process.nextTick(function() { self.emit('frame', frame); }); } process.nextTick(function() { self.processFrame(frame); }); this.currentFrame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); // If there's data remaining, schedule additional processing, but yield // for now so that other connections have a chance to have their data // processed. We use setImmediate here instead of process.nextTick to // explicitly indicate that we wish for other I/O to be handled first. if (this.bufferList.length > 0) { setImmediateImpl(this.receivedDataHandler); } }; WebSocketConnection.prototype.handleSocketError = function(error) { this._debug('handleSocketError: %j', error); if (this.state === STATE_CLOSED) { // See https://github.com/theturtle32/WebSocket-Node/issues/288 this._debug(' --- Socket \'error\' after \'close\''); return; } this.closeReasonCode = WebSocketConnection.CLOSE_REASON_ABNORMAL; this.closeDescription = 'Socket Error: ' + error.syscall + ' ' + error.code; this.connected = false; this.state = STATE_CLOSED; this.fragmentationSize = 0; if (utils.eventEmitterListenerCount(this, 'error') > 0) { this.emit('error', error); } this.socket.destroy(error); this._debug.printOutput(); }; WebSocketConnection.prototype.handleSocketEnd = function() { this._debug('handleSocketEnd: received socket end. state = %s', this.state); this.receivedEnd = true; if (this.state === STATE_CLOSED) { // When using the TLS module, sometimes the socket will emit 'end' // after it emits 'close'. I don't think that's correct behavior, // but we should deal with it gracefully by ignoring it. this._debug(' --- Socket \'end\' after \'close\''); return; } if (this.state !== STATE_PEER_REQUESTED_CLOSE && this.state !== STATE_ENDING) { this._debug(' --- UNEXPECTED socket end.'); this.socket.end(); } }; WebSocketConnection.prototype.handleSocketClose = function(hadError) { this._debug('handleSocketClose: received socket close'); this.socketHadError = hadError; this.connected = false; this.state = STATE_CLOSED; // If closeReasonCode is still set to -1 at this point then we must // not have received a close frame!! if (this.closeReasonCode === -1) { this.closeReasonCode = WebSocketConnection.CLOSE_REASON_ABNORMAL; this.closeDescription = 'Connection dropped by remote peer.'; } this.clearCloseTimer(); this.clearKeepaliveTimer(); this.clearGracePeriodTimer(); if (!this.closeEventEmitted) { this.closeEventEmitted = true; this._debug('-- Emitting WebSocketConnection close event'); this.emit('close', this.closeReasonCode, this.closeDescription); } }; WebSocketConnection.prototype.handleSocketDrain = function() { this._debug('handleSocketDrain: socket drain event'); this.outputBufferFull = false; this.emit('drain'); }; WebSocketConnection.prototype.handleSocketPause = function() { this._debug('handleSocketPause: socket pause event'); this.inputPaused = true; this.emit('pause'); }; WebSocketConnection.prototype.handleSocketResume = function() { this._debug('handleSocketResume: socket resume event'); this.inputPaused = false; this.emit('resume'); this.processReceivedData(); }; WebSocketConnection.prototype.pause = function() { this._debug('pause: pause requested'); this.socket.pause(); }; WebSocketConnection.prototype.resume = function() { this._debug('resume: resume requested'); this.socket.resume(); }; WebSocketConnection.prototype.close = function(reasonCode, description) { if (this.connected) { this._debug('close: Initating clean WebSocket close sequence.'); if ('number' !== typeof reasonCode) { reasonCode = WebSocketConnection.CLOSE_REASON_NORMAL; } if (!validateCloseReason(reasonCode)) { throw new Error('Close code ' + reasonCode + ' is not valid.'); } if ('string' !== typeof description) { description = WebSocketConnection.CLOSE_DESCRIPTIONS[reasonCode]; } this.closeReasonCode = reasonCode; this.closeDescription = description; this.setCloseTimer(); this.sendCloseFrame(this.closeReasonCode, this.closeDescription); this.state = STATE_ENDING; this.connected = false; } }; WebSocketConnection.prototype.drop = function(reasonCode, description, skipCloseFrame) { this._debug('drop'); if (typeof(reasonCode) !== 'number') { reasonCode = WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR; } if (typeof(description) !== 'string') { // If no description is provided, try to look one up based on the // specified reasonCode. description = WebSocketConnection.CLOSE_DESCRIPTIONS[reasonCode]; } this._debug('Forcefully dropping connection. skipCloseFrame: %s, code: %d, description: %s', skipCloseFrame, reasonCode, description ); this.closeReasonCode = reasonCode; this.closeDescription = description; this.frameQueue = []; this.fragmentationSize = 0; if (!skipCloseFrame) { this.sendCloseFrame(reasonCode, description); } this.connected = false; this.state = STATE_CLOSED; this.clearCloseTimer(); this.clearKeepaliveTimer(); this.clearGracePeriodTimer(); if (!this.closeEventEmitted) { this.closeEventEmitted = true; this._debug('Emitting WebSocketConnection close event'); this.emit('close', this.closeReasonCode, this.closeDescription); } this._debug('Drop: destroying socket'); this.socket.destroy(); }; WebSocketConnection.prototype.setCloseTimer = function() { this._debug('setCloseTimer'); this.clearCloseTimer(); this._debug('Setting close timer'); this.waitingForCloseResponse = true; this.closeTimer = setTimeout(this._closeTimerHandler, this.closeTimeout); }; WebSocketConnection.prototype.clearCloseTimer = function() { this._debug('clearCloseTimer'); if (this.closeTimer) { this._debug('Clearing close timer'); clearTimeout(this.closeTimer); this.waitingForCloseResponse = false; this.closeTimer = null; } }; WebSocketConnection.prototype.handleCloseTimer = function() { this._debug('handleCloseTimer'); this.closeTimer = null; if (this.waitingForCloseResponse) { this._debug('Close response not received from client. Forcing socket end.'); this.waitingForCloseResponse = false; this.state = STATE_CLOSED; this.socket.end(); } }; WebSocketConnection.prototype.processFrame = function(frame) { this._debug('processFrame'); this._debug(' -- frame: %s', frame); // Any non-control opcode besides 0x00 (continuation) received in the // middle of a fragmented message is illegal. if (this.frameQueue.length !== 0 && (frame.opcode > 0x00 && frame.opcode < 0x08)) { this.drop(WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR, 'Illegal frame opcode 0x' + frame.opcode.toString(16) + ' ' + 'received in middle of fragmented message.'); return; } switch(frame.opcode) { case 0x02: // WebSocketFrame.BINARY_FRAME this._debug('-- Binary Frame'); if (this.assembleFragments) { if (frame.fin) { // Complete single-frame message received this._debug('---- Emitting \'message\' event'); this.emit('message', { type: 'binary', binaryData: frame.binaryPayload }); } else { // beginning of a fragmented message this.frameQueue.push(frame); this.fragmentationSize = frame.length; } } break; case 0x01: // WebSocketFrame.TEXT_FRAME this._debug('-- Text Frame'); if (this.assembleFragments) { if (frame.fin) { if (!Validation.isValidUTF8(frame.binaryPayload)) { this.drop(WebSocketConnection.CLOSE_REASON_INVALID_DATA, 'Invalid UTF-8 Data Received'); return; } // Complete single-frame message received this._debug('---- Emitting \'message\' event'); this.emit('message', { type: 'utf8', utf8Data: frame.binaryPayload.toString('utf8') }); } else { // beginning of a fragmented message this.frameQueue.push(frame); this.fragmentationSize = frame.length; } } break; case 0x00: // WebSocketFrame.CONTINUATION this._debug('-- Continuation Frame'); if (this.assembleFragments) { if (this.frameQueue.length === 0) { this.drop(WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR, 'Unexpected Continuation Frame'); return; } this.fragmentationSize += frame.length; if (this.fragmentationSize > this.maxReceivedMessageSize) { this.drop(WebSocketConnection.CLOSE_REASON_MESSAGE_TOO_BIG, 'Maximum message size exceeded.'); return; } this.frameQueue.push(frame); if (frame.fin) { // end of fragmented message, so we process the whole // message now. We also have to decode the utf-8 data // for text frames after combining all the fragments. var bytesCopied = 0; var binaryPayload = bufferAllocUnsafe(this.fragmentationSize); var opcode = this.frameQueue[0].opcode; this.frameQueue.forEach(function (currentFrame) { currentFrame.binaryPayload.copy(binaryPayload, bytesCopied); bytesCopied += currentFrame.binaryPayload.length; }); this.frameQueue = []; this.fragmentationSize = 0; switch (opcode) { case 0x02: // WebSocketOpcode.BINARY_FRAME this.emit('message', { type: 'binary', binaryData: binaryPayload }); break; case 0x01: // WebSocketOpcode.TEXT_FRAME if (!Validation.isValidUTF8(binaryPayload)) { this.drop(WebSocketConnection.CLOSE_REASON_INVALID_DATA, 'Invalid UTF-8 Data Received'); return; } this.emit('message', { type: 'utf8', utf8Data: binaryPayload.toString('utf8') }); break; default: this.drop(WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR, 'Unexpected first opcode in fragmentation sequence: 0x' + opcode.toString(16)); return; } } } break; case 0x09: // WebSocketFrame.PING this._debug('-- Ping Frame'); if (this._pingListenerCount > 0) { // logic to emit the ping frame: this is only done when a listener is known to exist // Expose a function allowing the user to override the default ping() behavior var cancelled = false; var cancel = function() { cancelled = true; }; this.emit('ping', cancel, frame.binaryPayload); // Only send a pong if the client did not indicate that he would like to cancel if (!cancelled) { this.pong(frame.binaryPayload); } } else { this.pong(frame.binaryPayload); } break; case 0x0A: // WebSocketFrame.PONG this._debug('-- Pong Frame'); this.emit('pong', frame.binaryPayload); break; case 0x08: // WebSocketFrame.CONNECTION_CLOSE this._debug('-- Close Frame'); if (this.waitingForCloseResponse) { // Got response to our request to close the connection. // Close is complete, so we just hang up. this._debug('---- Got close response from peer. Completing closing handshake.'); this.clearCloseTimer(); this.waitingForCloseResponse = false; this.state = STATE_CLOSED; this.socket.end(); return; } this._debug('---- Closing handshake initiated by peer.'); // Got request from other party to close connection. // Send back acknowledgement and then hang up. this.state = STATE_PEER_REQUESTED_CLOSE; var respondCloseReasonCode; // Make sure the close reason provided is legal according to // the protocol spec. Providing no close status is legal. // WebSocketFrame sets closeStatus to -1 by default, so if it // is still -1, then no status was provided. if (frame.invalidCloseFrameLength) { this.closeReasonCode = 1005; // 1005 = No reason provided. respondCloseReasonCode = WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR; } else if (frame.closeStatus === -1 || validateCloseReason(frame.closeStatus)) { this.closeReasonCode = frame.closeStatus; respondCloseReasonCode = WebSocketConnection.CLOSE_REASON_NORMAL; } else { this.closeReasonCode = frame.closeStatus; respondCloseReasonCode = WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR; } // If there is a textual description in the close frame, extract it. if (frame.binaryPayload.length > 1) { if (!Validation.isValidUTF8(frame.binaryPayload)) { this.drop(WebSocketConnection.CLOSE_REASON_INVALID_DATA, 'Invalid UTF-8 Data Received'); return; } this.closeDescription = frame.binaryPayload.toString('utf8'); } else { this.closeDescription = WebSocketConnection.CLOSE_DESCRIPTIONS[this.closeReasonCode]; } this._debug( '------ Remote peer %s - code: %d - %s - close frame payload length: %d', this.remoteAddress, this.closeReasonCode, this.closeDescription, frame.length ); this._debug('------ responding to remote peer\'s close request.'); this.sendCloseFrame(respondCloseReasonCode, null); this.connected = false; break; default: this._debug('-- Unrecognized Opcode %d', frame.opcode); this.drop(WebSocketConnection.CLOSE_REASON_PROTOCOL_ERROR, 'Unrecognized Opcode: 0x' + frame.opcode.toString(16)); break; } }; WebSocketConnection.prototype.send = function(data, cb) { this._debug('send'); if (Buffer.isBuffer(data)) { this.sendBytes(data, cb); } else if (typeof(data['toString']) === 'function') { this.sendUTF(data, cb); } else { throw new Error('Data provided must either be a Node Buffer or implement toString()'); } }; WebSocketConnection.prototype.sendUTF = function(data, cb) { data = bufferFromString(data.toString(), 'utf8'); this._debug('sendUTF: %d bytes', data.length); var frame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); frame.opcode = 0x01; // WebSocketOpcode.TEXT_FRAME frame.binaryPayload = data; this.fragmentAndSend(frame, cb); }; WebSocketConnection.prototype.sendBytes = function(data, cb) { this._debug('sendBytes'); if (!Buffer.isBuffer(data)) { throw new Error('You must pass a Node Buffer object to WebSocketConnection.prototype.sendBytes()'); } var frame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); frame.opcode = 0x02; // WebSocketOpcode.BINARY_FRAME frame.binaryPayload = data; this.fragmentAndSend(frame, cb); }; WebSocketConnection.prototype.ping = function(data) { this._debug('ping'); var frame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); frame.opcode = 0x09; // WebSocketOpcode.PING frame.fin = true; if (data) { if (!Buffer.isBuffer(data)) { data = bufferFromString(data.toString(), 'utf8'); } if (data.length > 125) { this._debug('WebSocket: Data for ping is longer than 125 bytes. Truncating.'); data = data.slice(0,124); } frame.binaryPayload = data; } this.sendFrame(frame); }; // Pong frames have to echo back the contents of the data portion of the // ping frame exactly, byte for byte. WebSocketConnection.prototype.pong = function(binaryPayload) { this._debug('pong'); var frame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); frame.opcode = 0x0A; // WebSocketOpcode.PONG if (Buffer.isBuffer(binaryPayload) && binaryPayload.length > 125) { this._debug('WebSocket: Data for pong is longer than 125 bytes. Truncating.'); binaryPayload = binaryPayload.slice(0,124); } frame.binaryPayload = binaryPayload; frame.fin = true; this.sendFrame(frame); }; WebSocketConnection.prototype.fragmentAndSend = function(frame, cb) { this._debug('fragmentAndSend'); if (frame.opcode > 0x07) { throw new Error('You cannot fragment control frames.'); } var threshold = this.config.fragmentationThreshold; var length = frame.binaryPayload.length; // Send immediately if fragmentation is disabled or the message is not // larger than the fragmentation threshold. if (!this.config.fragmentOutgoingMessages || (frame.binaryPayload && length <= threshold)) { frame.fin = true; this.sendFrame(frame, cb); return; } var numFragments = Math.ceil(length / threshold); var sentFragments = 0; var sentCallback = function fragmentSentCallback(err) { if (err) { if (typeof cb === 'function') { // pass only the first error cb(err); cb = null; } return; } ++sentFragments; if ((sentFragments === numFragments) && (typeof cb === 'function')) { cb(); } }; for (var i=1; i <= numFragments; i++) { var currentFrame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); // continuation opcode except for first frame. currentFrame.opcode = (i === 1) ? frame.opcode : 0x00; // fin set on last frame only currentFrame.fin = (i === numFragments); // length is likely to be shorter on the last fragment var currentLength = (i === numFragments) ? length - (threshold * (i-1)) : threshold; var sliceStart = threshold * (i-1); // Slice the right portion of the original payload currentFrame.binaryPayload = frame.binaryPayload.slice(sliceStart, sliceStart + currentLength); this.sendFrame(currentFrame, sentCallback); } }; WebSocketConnection.prototype.sendCloseFrame = function(reasonCode, description, cb) { if (typeof(reasonCode) !== 'number') { reasonCode = WebSocketConnection.CLOSE_REASON_NORMAL; } this._debug('sendCloseFrame state: %s, reasonCode: %d, description: %s', this.state, reasonCode, description); if (this.state !== STATE_OPEN && this.state !== STATE_PEER_REQUESTED_CLOSE) { return; } var frame = new WebSocketFrame(this.maskBytes, this.frameHeader, this.config); frame.fin = true; frame.opcode = 0x08; // WebSocketOpcode.CONNECTION_CLOSE frame.closeStatus = reasonCode; if (typeof(description) === 'string') { frame.binaryPayload = bufferFromString(description, 'utf8'); } this.sendFrame(frame, cb); this.socket.end(); }; WebSocketConnection.prototype.sendFrame = function(frame, cb) { this._debug('sendFrame'); frame.mask = this.maskOutgoingPackets; var flushed = this.socket.write(frame.toBuffer(), cb); this.outputBufferFull = !flushed; return flushed; }; module.exports = WebSocketConnection; function instrumentSocketForDebugging(connection, socket) { /* jshint loopfunc: true */ if (!connection._debug.enabled) { return; } var originalSocketEmit = socket.emit; socket.emit = function(event) { connection._debug('||| Socket Event \'%s\'', event); originalSocketEmit.apply(this, arguments); }; for (var key in socket) { if ('function' !== typeof(socket[key])) { continue; } if (['emit'].indexOf(key) !== -1) { continue; } (function(key) { var original = socket[key]; if (key === 'on') { socket[key] = function proxyMethod__EventEmitter__On() { connection._debug('||| Socket method called: %s (%s)', key, arguments[0]); return original.apply(this, arguments); }; return; } socket[key] = function proxyMethod() { connection._debug('||| Socket method called: %s', key); return original.apply(this, arguments); }; })(key); } }