/** * @description Intel AMT Redirection Transport Module - using Node * @author Ylian Saint-Hilaire * @version v0.0.1f */ // Construct a MeshServer object var CreateAmtRedirect = function (module) { var obj = {}; obj.m = module; // This is the inner module (Terminal or Desktop) module.parent = obj; obj.State = 0; obj.net = require('net'); obj.tls = require('tls'); obj.crypto = require('crypto'); obj.constants = require('constants'); obj.socket = null; obj.host = null; obj.port = 0; obj.user = null; obj.pass = null; obj.connectstate = 0; obj.protocol = module.protocol; // 1 = SOL, 2 = KVM, 3 = IDER obj.xtlsoptions = null; obj.amtaccumulator = ''; obj.amtsequence = 1; obj.amtkeepalivetimer = null; obj.authuri = '/RedirectionService'; obj.digestRealmMatch = null; obj.onStateChanged = null; // Private method //obj.Debug = function (msg) { console.log(msg); } obj.Start = function (host, port, user, pass, tls, tlsFingerprint, tlsoptions) { obj.host = host; obj.port = port; obj.user = user; obj.pass = pass; obj.xtls = tls; obj.xtlsoptions = tlsoptions; obj.xtlsFingerprint = tlsFingerprint; obj.connectstate = 0; if (obj.xtlsoptions && obj.xtlsoptions.meshServerConnect) { // Use the websocket wrapper to connect to MeshServer server obj.socket = CreateWebSocketWrapper(obj.xtlsoptions.host, obj.xtlsoptions.port, '/webrelay.ashx?user=' + encodeURIComponent(obj.xtlsoptions.username) + '&pass=' + encodeURIComponent(obj.xtlsoptions.password) + '&host=' + encodeURIComponent(obj.host) + '&p=2&tls=' + tlsFingerprint.xtls + '&tls1only=' + tlsFingerprint.xtlsMethod, obj.xtlsoptions.xtlsFingerprint); obj.socket.setEncoding('binary'); obj.socket.ondata = obj.xxOnSocketData; obj.socket.onclose = obj.xxOnSocketClosed; obj.socket.connect(obj.xxOnSocketConnected); } else if (tls == false) { obj.socket = new obj.net.Socket(); obj.socket.setEncoding('binary'); obj.socket.connect(port, host, obj.xxOnSocketConnected); obj.socket.on('data', obj.xxOnSocketData); obj.socket.on('close', obj.xxOnSocketClosed); obj.socket.on('error', obj.xxOnSocketClosed); } else { if (obj.xtlsoptions == null) { obj.xtlsoptions = { secureProtocol: 'TLSv1_method', ciphers: 'RSA+AES:!aNULL:!MD5:!DSS', secureOptions: obj.constants.SSL_OP_NO_SSLv2 | obj.constants.SSL_OP_NO_SSLv3 | obj.constants.SSL_OP_NO_COMPRESSION | obj.constants.SSL_OP_CIPHER_SERVER_PREFERENCE, rejectUnauthorized: false }; } obj.socket = obj.tls.connect(port, host, obj.xtlsoptions, obj.xxOnSocketConnected); obj.socket.setEncoding('binary'); obj.socket.on('data', obj.xxOnSocketData); obj.socket.on('close', obj.xxOnSocketClosed); obj.socket.on('error', obj.xxOnSocketClosed); } obj.xxStateChange(1); } // Get the certificate of Intel AMT obj.getPeerCertificate = function () { if (obj.xtls == true) { return obj.socket.getPeerCertificate(); } return null; } obj.xxOnSocketConnected = function () { if (obj.socket == null) return; if (!obj.xtlsoptions || !obj.xtlsoptions.meshServerConnect) { if (obj.xtls == true) { obj.xtlsCertificate = obj.socket.getPeerCertificate(); if ((obj.xtlsFingerprint != 0) && (obj.xtlsCertificate.fingerprint.split(':').join('').toLowerCase() != obj.xtlsFingerprint)) { obj.Stop(); return; } } } if (urlvars && urlvars['redirtrace']) { console.log('REDIR-CONNECTED'); } //obj.Debug("Socket Connected"); obj.xxStateChange(2); if (obj.protocol == 1) obj.xxSend(obj.RedirectStartSol); // TODO: Put these strings in higher level module to tighten code if (obj.protocol == 2) obj.xxSend(obj.RedirectStartKvm); // Don't need these is the feature if not compiled-in. if (obj.protocol == 3) obj.xxSend(obj.RedirectStartIder); } obj.xxOnSocketData = function (data) { if (!data || obj.connectstate == -1) return; if (urlvars && urlvars['redirtrace']) { console.log('REDIR-RECV(' + data.length + '): ' + rstr2hex(data)); } //obj.Debug("Recv(" + data.length + "): " + rstr2hex(data)); if ((obj.protocol == 2 || obj.protocol == 3) && obj.connectstate == 1) { return obj.m.ProcessData(data); } // KVM traffic, forward it directly. obj.amtaccumulator += data; //obj.Debug("Recv(" + obj.amtaccumulator.length + "): " + rstr2hex(obj.amtaccumulator)); while (obj.amtaccumulator.length >= 1) { var cmdsize = 0; switch (obj.amtaccumulator.charCodeAt(0)) { case 0x11: // StartRedirectionSessionReply (17) if (obj.amtaccumulator.length < 4) return; var statuscode = obj.amtaccumulator.charCodeAt(1); switch (statuscode) { case 0: // STATUS_SUCCESS if (obj.amtaccumulator.length < 13) return; var oemlen = obj.amtaccumulator.charCodeAt(12); if (obj.amtaccumulator.length < 13 + oemlen) return; obj.xxSend(String.fromCharCode(0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00)); // Query authentication support cmdsize = (13 + oemlen); break; default: obj.Stop(); break; } break; case 0x14: // AuthenticateSessionReply (20) if (obj.amtaccumulator.length < 9) return; var authDataLen = ReadIntX(obj.amtaccumulator, 5); if (obj.amtaccumulator.length < 9 + authDataLen) return; var status = obj.amtaccumulator.charCodeAt(1); var authType = obj.amtaccumulator.charCodeAt(4); var authData = []; for (i = 0; i < authDataLen; i++) { authData.push(obj.amtaccumulator.charCodeAt(9 + i)); } var authDataBuf = obj.amtaccumulator.substring(9, 9 + authDataLen); cmdsize = 9 + authDataLen; if (authType == 0) { // ###BEGIN###{Mode-NodeWebkit} if (obj.user == '*') { if (authData.indexOf(2) >= 0) { // Kerberos Auth var ticket; if (kerberos && kerberos != null) { var ticketReturn = kerberos.getTicket('HTTP' + ((obj.tls == 1)?'S':'') + '/' + ((obj.pass == '') ? (obj.host + ':' + obj.port) : obj.pass)); if (ticketReturn.returnCode == 0 || ticketReturn.returnCode == 0x90312) { ticket = ticketReturn.ticket; if (process.platform.indexOf('win') >= 0) { // Clear kerberos tickets on both 32 and 64bit Windows platforms try { require('child_process').exec('%windir%\\system32\\klist purge', function (error, stdout, stderr) { if (error) { require('child_process').exec('%windir%\\sysnative\\klist purge', function (error, stdout, stderr) { if (error) { console.error('Unable to purge kerberos tickets'); } }); } }); } catch (e) { console.log(e); } } } else { console.error('Unexpected Kerberos error code: ' + ticketReturn.returnCode); } } if (ticket) { obj.xxSend(String.fromCharCode(0x13, 0x00, 0x00, 0x00, 0x02) + IntToStrX(ticket.length) + ticket); } else { obj.Stop(); } } else obj.Stop(); } else { // ###END###{Mode-NodeWebkit} // Query if (authData.indexOf(4) >= 0) { // Good Digest Auth (With cnonce and all) obj.xxSend(String.fromCharCode(0x13, 0x00, 0x00, 0x00, 0x04) + IntToStrX(obj.user.length + obj.authuri.length + 8) + String.fromCharCode(obj.user.length) + obj.user + String.fromCharCode(0x00, 0x00) + String.fromCharCode(obj.authuri.length) + obj.authuri + String.fromCharCode(0x00, 0x00, 0x00, 0x00)); } else if (authData.indexOf(3) >= 0) { // Bad Digest Auth (Not sure why this is supported, cnonce is not used!) obj.xxSend(String.fromCharCode(0x13, 0x00, 0x00, 0x00, 0x03) + IntToStrX(obj.user.length + obj.authuri.length + 7) + String.fromCharCode(obj.user.length) + obj.user + String.fromCharCode(0x00, 0x00) + String.fromCharCode(obj.authuri.length) + obj.authuri + String.fromCharCode(0x00, 0x00, 0x00)); } else if (authData.indexOf(1) >= 0) { // Basic Auth (Probably a good idea to not support this unless this is an old version of Intel AMT) obj.xxSend(String.fromCharCode(0x13, 0x00, 0x00, 0x00, 0x01) + IntToStrX(obj.user.length + obj.pass.length + 2) + String.fromCharCode(obj.user.length) + obj.user + String.fromCharCode(obj.pass.length) + obj.pass); } else obj.Stop(); // ###BEGIN###{Mode-NodeWebkit} } // ###END###{Mode-NodeWebkit} } else if ((authType == 3 || authType == 4) && status == 1) { var curptr = 0; // Realm var realmlen = authDataBuf.charCodeAt(curptr); var realm = authDataBuf.substring(curptr + 1, curptr + 1 + realmlen); curptr += (realmlen + 1); // Check the digest realm. If it does not match, close the connection. if (obj.digestRealmMatch && (obj.digestRealmMatch != realm)) { obj.Stop(); return; } // Nonce var noncelen = authDataBuf.charCodeAt(curptr); var nonce = authDataBuf.substring(curptr + 1, curptr + 1 + noncelen); curptr += (noncelen + 1); // QOP var qoplen = 0; var qop = null; var cnonce = obj.xxRandomValueHex(32); var snc = '00000002'; var extra = ''; if (authType == 4) { qoplen = authDataBuf.charCodeAt(curptr); qop = authDataBuf.substring(curptr + 1, curptr + 1 + qoplen); curptr += (qoplen + 1); extra = snc + ':' + cnonce + ':' + qop + ':'; } var digest = hex_md5(hex_md5(obj.user + ':' + realm + ':' + obj.pass) + ':' + nonce + ':' + extra + hex_md5('POST:' + obj.authuri)); var totallen = obj.user.length + realm.length + nonce.length + obj.authuri.length + cnonce.length + snc.length + digest.length + 7; if (authType == 4) totallen += (qop.length + 1); var buf = String.fromCharCode(0x13, 0x00, 0x00, 0x00, authType) + IntToStrX(totallen) + String.fromCharCode(obj.user.length) + obj.user + String.fromCharCode(realm.length) + realm + String.fromCharCode(nonce.length) + nonce + String.fromCharCode(obj.authuri.length) + obj.authuri + String.fromCharCode(cnonce.length) + cnonce + String.fromCharCode(snc.length) + snc + String.fromCharCode(digest.length) + digest; if (authType == 4) buf += (String.fromCharCode(qop.length) + qop); obj.xxSend(buf); } else if (status == 0) { // Success if (obj.protocol == 1) { // Serial-over-LAN: Send Intel AMT serial settings... var MaxTxBuffer = 10000; var TxTimeout = 100; var TxOverflowTimeout = 0; var RxTimeout = 10000; var RxFlushTimeout = 100; var Heartbeat = 0;//5000; obj.xxSend(String.fromCharCode(0x20, 0x00, 0x00, 0x00) + ToIntStr(obj.amtsequence++) + ToShortStr(MaxTxBuffer) + ToShortStr(TxTimeout) + ToShortStr(TxOverflowTimeout) + ToShortStr(RxTimeout) + ToShortStr(RxFlushTimeout) + ToShortStr(Heartbeat) + ToIntStr(0)); } if (obj.protocol == 2) { // Remote Desktop: Send traffic directly... obj.xxSend(String.fromCharCode(0x40, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00)); } // ###BEGIN###{IDER} if (obj.protocol == 3) { // Remote IDER: Send traffic directly... obj.connectstate = 1; obj.xxStateChange(3); } // ###END###{IDER} } else obj.Stop(); break; case 0x21: // Response to settings (33) if (obj.amtaccumulator.length < 23) break; cmdsize = 23; obj.xxSend(String.fromCharCode(0x27, 0x00, 0x00, 0x00) + ToIntStr(obj.amtsequence++) + String.fromCharCode(0x00, 0x00, 0x1B, 0x00, 0x00, 0x00)); if (obj.protocol == 1) { obj.amtkeepalivetimer = setInterval(obj.xxSendAmtKeepAlive, 2000); } obj.connectstate = 1; obj.xxStateChange(3); break; case 0x29: // Serial Settings (41) if (obj.amtaccumulator.length < 10) break; cmdsize = 10; break; case 0x2A: // Incoming display data (42) if (obj.amtaccumulator.length < 10) break; var cs = (10 + ((obj.amtaccumulator.charCodeAt(9) & 0xFF) << 8) + (obj.amtaccumulator.charCodeAt(8) & 0xFF)); if (obj.amtaccumulator.length < cs) break; obj.m.ProcessData(obj.amtaccumulator.substring(10, cs)); cmdsize = cs; break; case 0x2B: // Keep alive message (43) if (obj.amtaccumulator.length < 8) break; cmdsize = 8; break; case 0x41: if (obj.amtaccumulator.length < 8) break; obj.connectstate = 1; obj.m.Start(); // KVM traffic, forward rest of accumulator directly. if (obj.amtaccumulator.length > 8) { obj.m.ProcessData(obj.amtaccumulator.substring(8)); } cmdsize = obj.amtaccumulator.length; break; default: console.log("Unknown Intel AMT command: " + obj.amtaccumulator.charCodeAt(0) + " acclen=" + obj.amtaccumulator.length); obj.Stop(); return; } if (cmdsize == 0) return; obj.amtaccumulator = obj.amtaccumulator.substring(cmdsize); } } obj.xxSend = function (x) { if (urlvars && urlvars['redirtrace']) { console.log('REDIR-SEND(' + x.length + '): ' + rstr2hex(x)); } //obj.Debug("Send(" + x.length + "): " + rstr2hex(x)); obj.socket.write(new Buffer(x, 'binary')); } obj.Send = function (x) { if (obj.socket == null || obj.connectstate != 1) return; if (obj.protocol == 1) { obj.xxSend(String.fromCharCode(0x28, 0x00, 0x00, 0x00) + ToIntStr(obj.amtsequence++) + ToShortStr(x.length) + x); } else { obj.xxSend(x); } } obj.xxSendAmtKeepAlive = function () { if (obj.socket == null) return; obj.xxSend(String.fromCharCode(0x2B, 0x00, 0x00, 0x00) + ToIntStr(obj.amtsequence++)); } obj.xxRandomValueHex = function(len) { return obj.crypto.randomBytes(Math.ceil(len / 2)).toString('hex').slice(0, len); } obj.xxOnSocketClosed = function () { if (urlvars && urlvars['redirtrace']) { console.log('REDIR-CLOSED'); } //obj.Debug("Socket Closed"); obj.Stop(); } obj.xxStateChange = function(newstate) { if (obj.State == newstate) return; obj.State = newstate; obj.m.xxStateChange(obj.State); if (obj.onStateChanged != null) obj.onStateChanged(obj, obj.State); } obj.Stop = function () { if (urlvars && urlvars['redirtrace']) { console.log('REDIR-CLOSED'); } //obj.Debug("Socket Stopped"); obj.xxStateChange(0); obj.connectstate = -1; obj.amtaccumulator = ''; if (obj.socket != null) { obj.socket.destroy(); obj.socket = null; } if (obj.amtkeepalivetimer != null) { clearInterval(obj.amtkeepalivetimer); obj.amtkeepalivetimer = null; } } obj.RedirectStartSol = String.fromCharCode(0x10, 0x00, 0x00, 0x00, 0x53, 0x4F, 0x4C, 0x20); obj.RedirectStartKvm = String.fromCharCode(0x10, 0x01, 0x00, 0x00, 0x4b, 0x56, 0x4d, 0x52); obj.RedirectStartIder = String.fromCharCode(0x10, 0x00, 0x00, 0x00, 0x49, 0x44, 0x45, 0x52); return obj; } function ToIntStr(v) { return String.fromCharCode((v & 0xFF), ((v >> 8) & 0xFF), ((v >> 16) & 0xFF), ((v >> 24) & 0xFF)); } function ToShortStr(v) { return String.fromCharCode((v & 0xFF), ((v >> 8) & 0xFF)); }