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https://github.com/Ylianst/MeshCentral.git
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29fd370fc9
2. Added workaround for LME/HECI behavior change between AMT/7 and AMT/11
488 lines
24 KiB
JavaScript
488 lines
24 KiB
JavaScript
/*
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Copyright 2018-2021 Intel Corporation
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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var MemoryStream = require('MemoryStream');
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var lme_id = 0; // Our next channel identifier
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var lme_port_offset = 0; // Debug: Set this to "-100" to bind to 16892 & 16893 and IN_ADDRANY. This is for LMS debugging.
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var xmlParser = null;
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try { xmlParser = require('amt-xml'); } catch (ex) { }
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// Documented in: https://software.intel.com/sites/manageability/AMT_Implementation_and_Reference_Guide/HTMLDocuments/MPSDocuments/Intel%20AMT%20Port%20Forwarding%20Protocol%20Reference%20Manual.pdf
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var APF_DISCONNECT = 1;
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var APF_SERVICE_REQUEST = 5;
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var APF_SERVICE_ACCEPT = 6;
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var APF_USERAUTH_REQUEST = 50;
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var APF_USERAUTH_FAILURE = 51;
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var APF_USERAUTH_SUCCESS = 52;
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var APF_GLOBAL_REQUEST = 80;
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var APF_REQUEST_SUCCESS = 81;
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var APF_REQUEST_FAILURE = 82;
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var APF_CHANNEL_OPEN = 90;
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var APF_CHANNEL_OPEN_CONFIRMATION = 91;
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var APF_CHANNEL_OPEN_FAILURE = 92;
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var APF_CHANNEL_WINDOW_ADJUST = 93;
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var APF_CHANNEL_DATA = 94;
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var APF_CHANNEL_CLOSE = 97;
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var APF_PROTOCOLVERSION = 192;
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function lme_object() {
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this.ourId = ++lme_id;
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this.amtId = -1;
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this.LME_CHANNEL_STATUS = 'LME_CS_FREE';
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this.txWindow = 0;
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this.rxWindow = 0;
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this.localPort = 0;
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this.errorCount = 0;
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}
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function stream_bufferedWrite() {
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var emitterUtils = require('events').inherits(this);
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this.buffer = [];
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this._readCheckImmediate = undefined;
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this._ObjectID = "bufferedWriteStream";
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// Writable Events
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emitterUtils.createEvent('close');
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emitterUtils.createEvent('drain');
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emitterUtils.createEvent('error');
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emitterUtils.createEvent('finish');
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emitterUtils.createEvent('pipe');
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emitterUtils.createEvent('unpipe');
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// Readable Events
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emitterUtils.createEvent('readable');
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this.isEmpty = function () {
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return (this.buffer.length == 0);
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};
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this.isWaiting = function () {
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return (this._readCheckImmediate == undefined);
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};
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this.write = function (chunk) {
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for (var args in arguments) { if (typeof (arguments[args]) == 'function') { this.once('drain', arguments[args]); break; } }
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var tmp = Buffer.alloc(chunk.length);
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chunk.copy(tmp);
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this.buffer.push({ offset: 0, data: tmp });
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this.emit('readable');
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return (this.buffer.length == 0 ? true : false);
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};
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this.read = function () {
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var size = arguments.length == 0 ? undefined : arguments[0];
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var bytesRead = 0;
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var list = [];
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while ((size == undefined || bytesRead < size) && this.buffer.length > 0) {
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var len = this.buffer[0].data.length - this.buffer[0].offset;
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var offset = this.buffer[0].offset;
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if (len > (size - bytesRead)) {
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// Only reading a subset
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list.push(this.buffer[0].data.slice(offset, offset + size - bytesRead));
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this.buffer[0].offset += (size - bytesRead);
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bytesRead += (size - bytesRead);
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} else {
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// Reading the entire thing
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list.push(this.buffer[0].data.slice(offset));
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bytesRead += len;
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this.buffer.shift();
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}
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}
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this._readCheckImmediate = setImmediate(function (buffered) {
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buffered._readCheckImmediate = undefined;
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if (buffered.buffer.length == 0) {
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buffered.emit('drain'); // Drained
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} else {
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buffered.emit('readable'); // Not drained
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}
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}, this);
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return (Buffer.concat(list));
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};
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}
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function lme_heci(options) {
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var emitterUtils = require('events').inherits(this);
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emitterUtils.createEvent('error');
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emitterUtils.createEvent('connect');
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emitterUtils.createEvent('notify');
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emitterUtils.createEvent('bind');
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this.on('newListener', function (name, func)
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{
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if (name == 'connect' && this._LME._connected == true) { func.call(this); }
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if (name == 'error' && this._LME._error !=null) { func.call(this, this._LME._error); }
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});
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if ((options != null) && (options.debug == true)) { lme_port_offset = -100; } // LMS debug mode
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var heci = require('heci');
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this.INITIAL_RXWINDOW_SIZE = 4096;
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this._ObjectID = "lme";
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this._LME = heci.create();
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this._LME._connected = false;
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this._LME._error = null;
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this._LME.descriptorMetadata = "amt-lme";
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this._LME._binded = {};
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this._LME.LMS = this;
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this._LME.on('error', function (e) { this._error = e; this.LMS.emit('error', e); });
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this._LME.on('connect', function ()
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{
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this._connected = true;
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this._emitConnected = false;
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this.on('data', function (chunk) {
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// this = HECI
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var cmd = chunk.readUInt8(0);
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//console.log('LME Command ' + cmd + ', ' + chunk.length + ' byte(s).');
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switch (cmd) {
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default:
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console.log('Unhandled LME Command ' + cmd + ', ' + chunk.length + ' byte(s).');
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break;
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case APF_SERVICE_REQUEST:
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var nameLen = chunk.readUInt32BE(1);
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var name = chunk.slice(5, nameLen + 5);
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//console.log("Service Request for: " + name);
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if (name == 'pfwd@amt.intel.com' || name == 'auth@amt.intel.com') {
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var outBuffer = Buffer.alloc(5 + nameLen);
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outBuffer.writeUInt8(6, 0);
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outBuffer.writeUInt32BE(nameLen, 1);
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outBuffer.write(name.toString(), 5);
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this.write(outBuffer);
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//console.log('Answering APF_SERVICE_REQUEST');
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} else {
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//console.log('UNKNOWN APF_SERVICE_REQUEST');
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}
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break;
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case APF_GLOBAL_REQUEST:
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var nameLen = chunk.readUInt32BE(1);
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var name = chunk.slice(5, nameLen + 5).toString();
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switch (name) {
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case 'tcpip-forward':
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var len = chunk.readUInt32BE(nameLen + 6);
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var port = chunk.readUInt32BE(nameLen + 10 + len);
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//console.log("[" + chunk.length + "/" + len + "] APF_GLOBAL_REQUEST for: " + name + " on port " + port);
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if (this[name] == undefined) { this[name] = {}; }
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if (this[name][port] != null) { // Close the existing binding
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for (var i in this.sockets) {
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var channel = this.sockets[i];
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if (channel.localPort == port) { this.sockets[i].end(); delete this.sockets[i]; } // Close this socket
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}
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}
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if (this[name][port] == null)
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{
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try
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{
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// Bind a new server socket if not already present
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this[name][port] = require('net').createServer();
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this[name][port].descriptorMetadata = 'amt-lme (port: ' + port + ')';
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this[name][port].HECI = this;
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if (lme_port_offset == 0) {
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this[name][port].listen({ port: port, host: '127.0.0.1' }); // Normal mode
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} else {
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this[name][port].listen({ port: (port + lme_port_offset) }); // Debug mode
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}
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this[name][port].on('connection', function (socket) {
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//console.log('New [' + socket.remoteFamily + '] TCP Connection on: ' + socket.remoteAddress + ' :' + socket.localPort);
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this.HECI.LMS.bindDuplexStream(socket, socket.remoteFamily, socket.localPort - lme_port_offset);
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});
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this._binded[port] = true;
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if (!this._emitConnected)
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{
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this._emitConnected = true;
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this.LMS.emit('error', 'APF/BIND error');
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}
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this.LMS.emit('bind', this._binded);
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} catch (ex)
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{
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console.info1(ex, 'Port ' + port);
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if(!this._emitConnected)
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{
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this._emitConnected = true;
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this.LMS.emit('error', 'APF/BIND error');
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}
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}
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}
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var outBuffer = Buffer.alloc(5);
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outBuffer.writeUInt8(81, 0);
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outBuffer.writeUInt32BE(port, 1);
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this.write(outBuffer);
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break;
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case 'cancel-tcpip-forward':
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var outBuffer = Buffer.alloc(1);
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outBuffer.writeUInt8(APF_REQUEST_SUCCESS, 0);
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this.write(outBuffer);
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break;
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case 'udp-send-to@amt.intel.com':
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var outBuffer = Buffer.alloc(1);
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outBuffer.writeUInt8(APF_REQUEST_FAILURE, 0);
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this.write(outBuffer);
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break;
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default:
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//console.log("Unknown APF_GLOBAL_REQUEST for: " + name);
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break;
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}
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break;
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case APF_CHANNEL_OPEN_CONFIRMATION:
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var rChannel = chunk.readUInt32BE(1);
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var sChannel = chunk.readUInt32BE(5);
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var wSize = chunk.readUInt32BE(9);
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//console.log('rChannel/' + rChannel + ', sChannel/' + sChannel + ', wSize/' + wSize);
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if (this.sockets[rChannel] != undefined) {
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this.sockets[rChannel].lme.amtId = sChannel;
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this.sockets[rChannel].lme.rxWindow = wSize;
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this.sockets[rChannel].lme.txWindow = wSize;
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this.sockets[rChannel].lme.LME_CHANNEL_STATUS = 'LME_CS_CONNECTED';
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//console.log('LME_CS_CONNECTED');
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this.sockets[rChannel].bufferedStream = new stream_bufferedWrite();
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this.sockets[rChannel].bufferedStream.socket = this.sockets[rChannel];
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this.sockets[rChannel].bufferedStream.on('readable', function () {
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if (this.socket.lme.txWindow > 0) {
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var buffer = this.read(this.socket.lme.txWindow);
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var packet = Buffer.alloc(9 + buffer.length);
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packet.writeUInt8(APF_CHANNEL_DATA, 0);
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packet.writeUInt32BE(this.socket.lme.amtId, 1);
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packet.writeUInt32BE(buffer.length, 5);
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buffer.copy(packet, 9);
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this.socket.lme.txWindow -= buffer.length;
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this.socket.HECI.write(packet);
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}
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});
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this.sockets[rChannel].bufferedStream.on('drain', function () {
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this.socket.resume();
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});
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this.sockets[rChannel].on('data', function (chunk) {
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if (!this.bufferedStream.write(chunk)) { this.pause(); }
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});
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this.sockets[rChannel].on('end', function () {
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var outBuffer = Buffer.alloc(5);
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outBuffer.writeUInt8(APF_CHANNEL_CLOSE, 0);
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outBuffer.writeUInt32BE(this.lme.amtId, 1);
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this.HECI.write(outBuffer);
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});
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this.sockets[rChannel].resume();
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}
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break;
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case APF_PROTOCOLVERSION:
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var major = chunk.readUInt32BE(1);
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var minor = chunk.readUInt32BE(5);
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var reason = chunk.readUInt32BE(9);
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var outBuffer = Buffer.alloc(93);
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outBuffer.writeUInt8(192, 0);
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outBuffer.writeUInt32BE(1, 1);
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outBuffer.writeUInt32BE(0, 5);
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outBuffer.writeUInt32BE(reason, 9);
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//console.log('Answering PROTOCOL_VERSION');
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this.write(outBuffer);
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break;
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case APF_CHANNEL_WINDOW_ADJUST:
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var rChannelId = chunk.readUInt32BE(1);
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var bytesToAdd = chunk.readUInt32BE(5);
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if (this.sockets[rChannelId] != undefined) {
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this.sockets[rChannelId].lme.txWindow += bytesToAdd;
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if (!this.sockets[rChannelId].bufferedStream.isEmpty() && this.sockets[rChannelId].bufferedStream.isWaiting()) {
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this.sockets[rChannelId].bufferedStream.emit('readable');
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}
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} else {
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console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_WINDOW_ADJUST');
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}
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break;
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case APF_CHANNEL_DATA:
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var rChannelId = chunk.readUInt32BE(1);
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var dataLen = chunk.readUInt32BE(5);
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var data = chunk.slice(9, 9 + dataLen);
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if ((this.sockets != null) && (this.sockets[rChannelId] != undefined)) {
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this.sockets[rChannelId].pendingBytes.push(data.length);
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this.sockets[rChannelId].write(data, function () {
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var written = this.pendingBytes.shift();
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//console.log('adjust', this.lme.amtId, written);
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var outBuffer = Buffer.alloc(9);
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outBuffer.writeUInt8(APF_CHANNEL_WINDOW_ADJUST, 0);
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outBuffer.writeUInt32BE(this.lme.amtId, 1);
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outBuffer.writeUInt32BE(written, 5);
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this.HECI.write(outBuffer);
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});
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} else if ((this.insockets != null) && (this.insockets[rChannelId] != undefined)) {
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var channel = this.insockets[rChannelId];
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if (channel.data == null) { channel.data = data.toString(); } else { channel.data += data.toString(); }
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channel.rxWindow += dataLen;
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//console.log('IN DATA', channel.rxWindow, channel.data.length, dataLen, channel.amtId, data.toString());
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var httpData = parseHttp(channel.data);
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if ((httpData != null) || (channel.data.length >= 8000)) {
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// Parse the WSMAN
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var notify = null;
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if (xmlParser != null) { try { notify = xmlParser.ParseWsman(httpData); } catch (e) { } }
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// Event the http data
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if (notify != null) { this.LMS.emit('notify', notify, channel.options, _lmsNotifyToCode(notify)); }
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// Send channel close
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var buffer = Buffer.alloc(5);
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buffer.writeUInt8(APF_CHANNEL_CLOSE, 0);
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buffer.writeUInt32BE(amtId, 1);
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this.write(buffer);
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} else {
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if (channel.rxWindow > 6000) {
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// Send window adjust
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var buffer = Buffer.alloc(9);
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buffer.writeUInt8(APF_CHANNEL_WINDOW_ADJUST, 0);
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buffer.writeUInt32BE(channel.amtId, 1);
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buffer.writeUInt32BE(channel.rxWindow, 5);
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this.write(buffer);
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channel.rxWindow = 0;
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}
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}
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} else {
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console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_DATA');
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}
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break;
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case APF_CHANNEL_OPEN_FAILURE:
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var rChannelId = chunk.readUInt32BE(1);
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var reasonCode = chunk.readUInt32BE(5);
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if ((this.sockets != null) && (this.sockets[rChannelId] != undefined)) {
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this.sockets[rChannelId].end();
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delete this.sockets[rChannelId];
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} else if ((this.insockets != null) && (this.insockets[rChannelId] != undefined)) {
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delete this.insockets[rChannelId];
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} else {
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console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_OPEN_FAILURE');
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}
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break;
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case APF_CHANNEL_CLOSE:
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var rChannelId = chunk.readUInt32BE(1);
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if ((this.sockets != null) && (this.sockets[rChannelId] != undefined)) {
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this.sockets[rChannelId].end();
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var amtId = this.sockets[rChannelId].lme.amtId;
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var buffer = Buffer.alloc(5);
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delete this.sockets[rChannelId];
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buffer.writeUInt8(APF_CHANNEL_CLOSE, 0); // ????????????????????????????
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buffer.writeUInt32BE(amtId, 1);
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this.write(buffer);
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} else if ((this.insockets != null) && (this.insockets[rChannelId] != undefined)) {
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delete this.insockets[rChannelId];
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// Should I send a close back????
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} else {
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console.log('Unknown Recipient ID/' + rChannelId + ' for APF_CHANNEL_CLOSE');
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}
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break;
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case APF_CHANNEL_OPEN:
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var nameLen = chunk.readUInt32BE(1);
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var name = chunk.slice(5, nameLen + 5).toString();
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var channelSender = chunk.readUInt32BE(nameLen + 5);
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var initialWindowSize = chunk.readUInt32BE(nameLen + 9);
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var hostToConnectLen = chunk.readUInt32BE(nameLen + 17);
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var hostToConnect = chunk.slice(nameLen + 21, nameLen + 21 + hostToConnectLen).toString();
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var portToConnect = chunk.readUInt32BE(nameLen + 21 + hostToConnectLen);
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var originatorIpLen = chunk.readUInt32BE(nameLen + 25 + hostToConnectLen);
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var originatorIp = chunk.slice(nameLen + 29 + hostToConnectLen, nameLen + 29 + hostToConnectLen + originatorIpLen).toString();
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var originatorPort = chunk.readUInt32BE(nameLen + 29 + hostToConnectLen + originatorIpLen);
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//console.log('APF_CHANNEL_OPEN', name, channelSender, initialWindowSize, 'From: ' + originatorIp + ':' + originatorPort, 'To: ' + hostToConnect + ':' + portToConnect);
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if (this.insockets == null) { this.insockets = {}; }
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var ourId = ++lme_id;
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var insocket = new lme_object();
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insocket.ourId = ourId;
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insocket.amtId = channelSender;
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insocket.txWindow = initialWindowSize;
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insocket.rxWindow = 0;
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insocket.options = { target: hostToConnect, targetPort: portToConnect, source: originatorIp, sourcePort: originatorPort };
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this.insockets[ourId] = insocket;
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var buffer = Buffer.alloc(17);
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buffer.writeUInt8(APF_CHANNEL_OPEN_CONFIRMATION, 0);
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buffer.writeUInt32BE(channelSender, 1); // Intel AMT sender channel
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buffer.writeUInt32BE(ourId, 5); // Our receiver channel id
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buffer.writeUInt32BE(4000, 9); // Initial Window Size
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buffer.writeUInt32BE(0xFFFFFFFF, 13); // Reserved
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this.write(buffer);
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/*
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var buffer = Buffer.alloc(17);
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buffer.writeUInt8(APF_CHANNEL_OPEN_FAILURE, 0);
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buffer.writeUInt32BE(channelSender, 1); // Intel AMT sender channel
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buffer.writeUInt32BE(2, 5); // Reason code
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buffer.writeUInt32BE(0, 9); // Reserved
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buffer.writeUInt32BE(0, 13); // Reserved
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this.write(buffer);
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console.log('Sent APF_CHANNEL_OPEN_FAILURE', channelSender);
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*/
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break;
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}
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});
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//
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// Due to a change in behavior with AMT/11 (and possibly earlier), we are not going to emit 'connect' here, until
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// we can verify that the first APF/Channel can be bound. Older AMT, like AMT/7 only allowed a single LME connection, so we
|
|
// used to emit connect here. However, newer AMT's will allow more than 1 LME connection, which will result in APF/Bind failure
|
|
//
|
|
//this.LMS.emit('connect');
|
|
this.resume();
|
|
|
|
});
|
|
|
|
this.bindDuplexStream = function (duplexStream, remoteFamily, localPort) {
|
|
var socket = duplexStream;
|
|
//console.log('New [' + remoteFamily + '] Virtual Connection/' + socket.localPort);
|
|
socket.pendingBytes = [];
|
|
socket.HECI = this._LME;
|
|
socket.LMS = this;
|
|
socket.lme = new lme_object();
|
|
socket.lme.Socket = socket;
|
|
socket.localPort = localPort;
|
|
var buffer = new MemoryStream();
|
|
buffer.writeUInt8(0x5A);
|
|
buffer.writeUInt32BE(15);
|
|
buffer.write('forwarded-tcpip');
|
|
buffer.writeUInt32BE(socket.lme.ourId);
|
|
buffer.writeUInt32BE(this.INITIAL_RXWINDOW_SIZE);
|
|
buffer.writeUInt32BE(0xFFFFFFFF);
|
|
for (var i = 0; i < 2; ++i) {
|
|
if (remoteFamily == 'IPv6') {
|
|
buffer.writeUInt32BE(3);
|
|
buffer.write('::1');
|
|
} else {
|
|
buffer.writeUInt32BE(9);
|
|
buffer.write('127.0.0.1');
|
|
}
|
|
buffer.writeUInt32BE(localPort);
|
|
}
|
|
this._LME.write(buffer.buffer);
|
|
if (this._LME.sockets == undefined) { this._LME.sockets = {}; }
|
|
this._LME.sockets[socket.lme.ourId] = socket;
|
|
socket.pause();
|
|
};
|
|
|
|
this._LME.connect(heci.GUIDS.LME, { noPipeline: 0 });
|
|
}
|
|
|
|
function parseHttp(httpData) {
|
|
var i = httpData.indexOf('\r\n\r\n');
|
|
if ((i == -1) || (httpData.length < (i + 2))) { return null; }
|
|
var headers = require('http-headers')(httpData.substring(0, i), true);
|
|
var contentLength = parseInt(headers['content-length']);
|
|
if (httpData.length >= contentLength + i + 4) { return httpData.substring(i + 4, i + 4 + contentLength); }
|
|
return null;
|
|
}
|
|
|
|
function _lmsNotifyToCode(notify) {
|
|
if ((notify == null) || (notify.Body == null) || (notify.Body.MessageID == null)) return null;
|
|
var msgid = notify.Body.MessageID;
|
|
try { msgid += '-' + notify.Body.MessageArguments[0]; } catch (e) { }
|
|
return msgid;
|
|
}
|
|
|
|
module.exports = lme_heci;
|