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apprelays.js
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/**
* @description MeshCentral MSTSC & SSH relay
* @author Ylian Saint-Hilaire & Bryan Roe
* @copyright Intel Corporation 2018-2022
* @license Apache-2.0
* @version v0.0.1
*/
/*jslint node: true */
/*jshint node: true */
/*jshint strict:false */
/*jshint -W097 */
/*jshint esversion: 6 */
"use strict";
/*
Protocol numbers
10 = RDP
11 = SSH-TERM
12 = VNC
13 = SSH-FILES
14 = Web-TCP
*/
// Protocol Numbers
const PROTOCOL_TERMINAL = 1;
const PROTOCOL_DESKTOP = 2;
const PROTOCOL_FILES = 5;
const PROTOCOL_AMTWSMAN = 100;
const PROTOCOL_AMTREDIR = 101;
const PROTOCOL_MESSENGER = 200;
const PROTOCOL_WEBRDP = 201;
const PROTOCOL_WEBSSH = 202;
const PROTOCOL_WEBSFTP = 203;
const PROTOCOL_WEBVNC = 204;
// Mesh Rights
const MESHRIGHT_EDITMESH = 0x00000001; // 1
const MESHRIGHT_MANAGEUSERS = 0x00000002; // 2
const MESHRIGHT_MANAGECOMPUTERS = 0x00000004; // 4
const MESHRIGHT_REMOTECONTROL = 0x00000008; // 8
const MESHRIGHT_AGENTCONSOLE = 0x00000010; // 16
const MESHRIGHT_SERVERFILES = 0x00000020; // 32
const MESHRIGHT_WAKEDEVICE = 0x00000040; // 64
const MESHRIGHT_SETNOTES = 0x00000080; // 128
const MESHRIGHT_REMOTEVIEWONLY = 0x00000100; // 256
const MESHRIGHT_NOTERMINAL = 0x00000200; // 512
const MESHRIGHT_NOFILES = 0x00000400; // 1024
const MESHRIGHT_NOAMT = 0x00000800; // 2048
const MESHRIGHT_DESKLIMITEDINPUT = 0x00001000; // 4096
const MESHRIGHT_LIMITEVENTS = 0x00002000; // 8192
const MESHRIGHT_CHATNOTIFY = 0x00004000; // 16384
const MESHRIGHT_UNINSTALL = 0x00008000; // 32768
const MESHRIGHT_NODESKTOP = 0x00010000; // 65536
const MESHRIGHT_REMOTECOMMAND = 0x00020000; // 131072
const MESHRIGHT_RESETOFF = 0x00040000; // 262144
const MESHRIGHT_GUESTSHARING = 0x00080000; // 524288
const MESHRIGHT_DEVICEDETAILS = 0x00100000; // 1048576
const MESHRIGHT_RELAY = 0x00200000; // 2097152
const MESHRIGHT_ADMIN = 0xFFFFFFFF;
// SerialTunnel object is used to embed TLS within another connection.
function SerialTunnel(options) {
var obj = new require('stream').Duplex(options);
obj.forwardwrite = null;
obj.updateBuffer = function (chunk) { this.push(chunk); };
obj._write = function (chunk, encoding, callback) { if (obj.forwardwrite != null) { obj.forwardwrite(chunk); } else { console.err("Failed to fwd _write."); } if (callback) callback(); }; // Pass data written to forward
obj._read = function (size) { }; // Push nothing, anything to read should be pushed from updateBuffer()
return obj;
}
// Construct a Web relay object
module.exports.CreateWebRelaySession = function (parent, db, req, args, domain, userid, nodeid, addr, port, appid, sessionid, expire, mtype) {
const obj = {};
obj.parent = parent;
obj.lastOperation = Date.now();
obj.domain = domain;
obj.userid = userid;
obj.nodeid = nodeid;
obj.addr = addr;
obj.port = port;
obj.appid = appid;
obj.sessionid = sessionid;
obj.expireTimer = null;
obj.mtype = mtype;
var pendingRequests = [];
var nextTunnelId = 1;
var tunnels = {};
var errorCount = 0; // If we keep closing tunnels without processing requests, fail the requests
parent.parent.debug('webrelay', 'CreateWebRelaySession, userid:' + userid + ', addr:' + addr + ', port:' + port);
// Any HTTP cookie set by the device is going to be shared between all tunnels to that device.
obj.webCookies = {};
// Setup an expire time if needed
if (expire != null) {
var timeout = (expire - Date.now());
if (timeout < 10) { timeout = 10; }
parent.parent.debug('webrelay', 'timeout set to ' + Math.floor(timeout / 1000) + ' second(s).');
obj.expireTimer = setTimeout(function () { parent.parent.debug('webrelay', 'timeout'); close(); }, timeout);
}
// Events
obj.closed = false;
obj.onclose = null;
// Check if any tunnels need to be cleaned up
obj.checkTimeout = function () {
const limit = Date.now() - (1 * 60 * 1000); // This is is 5 minutes before current time
// Close any old non-websocket tunnels
const tunnelToRemove = [];
for (var i in tunnels) { if ((tunnels[i].lastOperation < limit) && (tunnels[i].isWebSocket !== true)) { tunnelToRemove.push(tunnels[i]); } }
for (var i in tunnelToRemove) { tunnelToRemove[i].close(); }
// Close this session if no longer used
if (obj.lastOperation < limit) {
var count = 0;
for (var i in tunnels) { count++; }
if (count == 0) { close(); } // Time limit reached and no tunnels, clean up.
}
}
// Handle new HTTP request
obj.handleRequest = function (req, res) {
parent.parent.debug('webrelay', 'handleRequest, url:' + req.url);
pendingRequests.push([req, res, false]);
handleNextRequest();
}
// Handle new websocket request
obj.handleWebSocket = function (ws, req) {
parent.parent.debug('webrelay', 'handleWebSocket, url:' + req.url);
pendingRequests.push([req, ws, true]);
handleNextRequest();
}
// Handle request
function handleNextRequest() {
if (obj.closed == true) return;
// if there are not pending requests, do nothing
if (pendingRequests.length == 0) return;
// If the errorCount is high, something is really wrong, we are opening lots of tunnels and not processing any requests.
if (errorCount > 5) { close(); return; }
// Check to see if any of the tunnels are free
var count = 0;
for (var i in tunnels) {
count += ((tunnels[i].isWebSocket || tunnels[i].isStreaming) ? 0 : 1);
if ((tunnels[i].relayActive == true) && (tunnels[i].res == null) && (tunnels[i].isWebSocket == false) && (tunnels[i].isStreaming == false)) {
// Found a free tunnel, use it
const x = pendingRequests.shift();
if (x[2] == true) { tunnels[i].processWebSocket(x[0], x[1]); } else { tunnels[i].processRequest(x[0], x[1]); }
return;
}
}
if (count > 0) return;
launchNewTunnel();
}
function launchNewTunnel() {
// Launch a new tunnel
if (obj.closed == true) return;
parent.parent.debug('webrelay', 'launchNewTunnel');
const tunnel = module.exports.CreateWebRelay(obj, db, args, domain, obj.mtype);
tunnel.onclose = function (tunnelId, processedCount) {
if (tunnels == null) return;
parent.parent.debug('webrelay', 'tunnel-onclose');
if (processedCount == 0) { errorCount++; } // If this tunnel closed without processing any requests, mark this as an error
delete tunnels[tunnelId];
handleNextRequest();
}
tunnel.onconnect = function (tunnelId) {
if (tunnels == null) return;
parent.parent.debug('webrelay', 'tunnel-onconnect');
if (pendingRequests.length > 0) {
const x = pendingRequests.shift();
if (x[2] == true) { tunnels[tunnelId].processWebSocket(x[0], x[1]); } else { tunnels[tunnelId].processRequest(x[0], x[1]); }
}
}
tunnel.oncompleted = function (tunnelId, closed) {
if (tunnels == null) return;
if (closed === true) {
parent.parent.debug('webrelay', 'tunnel-oncompleted and closed');
} else {
parent.parent.debug('webrelay', 'tunnel-oncompleted');
}
if (closed !== true) {
errorCount = 0; // Something got completed, clear any error count
if (pendingRequests.length > 0) {
const x = pendingRequests.shift();
if (x[2] == true) { tunnels[tunnelId].processWebSocket(x[0], x[1]); } else { tunnels[tunnelId].processRequest(x[0], x[1]); }
}
}
}
tunnel.onNextRequest = function () {
if (tunnels == null) return;
parent.parent.debug('webrelay', 'tunnel-onNextRequest');
handleNextRequest();
}
tunnel.connect(userid, nodeid, addr, port, appid);
tunnel.tunnelId = nextTunnelId++;
tunnels[tunnel.tunnelId] = tunnel;
}
// Close all tunnels
obj.close = function () { close(); }
// Close all tunnels
function close() {
// Set the session as closed
if (obj.closed == true) return;
parent.parent.debug('webrelay', 'tunnel-close');
obj.closed = true;
// Clear the time if present
if (obj.expireTimer != null) { clearTimeout(obj.expireTimer); delete obj.expireTimer; }
// Close all tunnels
for (var i in tunnels) { tunnels[i].close(); }
tunnels = null;
// Close any pending requests
for (var i in pendingRequests) { if (pendingRequests[i][2] == true) { pendingRequests[i][1].close(); } else { pendingRequests[i][1].end(); } }
// Notify of session closure
if (obj.onclose) { obj.onclose(obj.sessionid); }
// Cleanup
delete obj.userid;
delete obj.lastOperation;
}
return obj;
}
// Construct a Web relay object
module.exports.CreateWebRelay = function (parent, db, args, domain, mtype) {
//const Net = require('net');
const WebSocket = require('ws')
const obj = {};
obj.lastOperation = Date.now();
obj.relayActive = false;
obj.closed = false;
obj.isWebSocket = false; // If true, this request will not close and so, it can't be allowed to hold up other requests
obj.isStreaming = false; // If true, this request will not close and so, it can't be allowed to hold up other requests
obj.processedRequestCount = 0;
obj.mtype = mtype;
const constants = (require('crypto').constants ? require('crypto').constants : require('constants')); // require('constants') is deprecated in Node 11.10, use require('crypto').constants instead.
// Events
obj.onclose = null;
obj.oncompleted = null;
obj.onconnect = null;
obj.onNextRequest = null;
// Called when we need to close the tunnel because the response stream has closed
function handleResponseClosure() { obj.close(); }
// Return cookie name and values
function parseRequestCookies(cookiesString) {
var r = {};
if (typeof cookiesString != 'string') return r;
var cookieString = cookiesString.split('; ');
for (var i in cookieString) { var j = cookieString[i].indexOf('='); if (j > 0) { r[cookieString[i].substring(0, j)] = cookieString[i].substring(j + 1); } }
return r;
}
// Process a HTTP request
obj.processRequest = function (req, res) {
if (obj.relayActive == false) { console.log("ERROR: Attempt to use an unconnected tunnel"); return false; }
parent.lastOperation = obj.lastOperation = Date.now();
// Check if this is a websocket
if (req.headers['upgrade'] == 'websocket') { console.log('Attempt to process a websocket in HTTP tunnel method.'); res.end(); return false; }
// If the response stream is closed, close this tunnel right away
res.socket.on('end', handleResponseClosure);
// Construct the HTTP request
var request = req.method + ' ' + req.url + ' HTTP/' + req.httpVersion + '\r\n';
const blockedHeaders = ['cookie', 'upgrade-insecure-requests', 'sec-ch-ua', 'sec-ch-ua-mobile', 'dnt', 'sec-fetch-user', 'sec-ch-ua-platform', 'sec-fetch-site', 'sec-fetch-mode', 'sec-fetch-dest']; // These are headers we do not forward
for (var i in req.headers) { if (blockedHeaders.indexOf(i) == -1) { request += i + ': ' + req.headers[i] + '\r\n'; } }
var cookieStr = '';
for (var i in parent.webCookies) { if (cookieStr != '') { cookieStr += '; ' } cookieStr += (i + '=' + parent.webCookies[i].value); }
var reqCookies = parseRequestCookies(req.headers.cookie);
for (var i in reqCookies) { if ((i != 'xid') && (i != 'xid.sig')) { if (cookieStr != '') { cookieStr += '; ' } cookieStr += (i + '=' + reqCookies[i]); } }
if (cookieStr.length > 0) { request += 'cookie: ' + cookieStr + '\r\n' } // If we have session cookies, set them in the header here
request += '\r\n';
if (req.headers['content-length'] != null) {
// Stream the HTTP request and body, this is a content-length HTTP request, just forward the body data
send(Buffer.from(request));
req.on('data', function (data) { send(data); }); // TODO: Flow control (Not sure how to do this in ExpressJS)
req.on('end', function () { });
} else if (req.headers['transfer-encoding'] != null) {
// Stream the HTTP request and body, this is a chunked encoded HTTP request
// TODO: Flow control (Not sure how to do this in ExpressJS)
send(Buffer.from(request));
req.on('data', function (data) { send(Buffer.concat([Buffer.from(data.length.toString(16) + '\r\n', 'binary'), data, send(Buffer.from('\r\n', 'binary'))])); });
req.on('end', function () { send(Buffer.from('0\r\n\r\n', 'binary')); });
} else {
// Request has no body, send it now
send(Buffer.from(request));
}
obj.res = res;
}
// Process a websocket request
obj.processWebSocket = function (req, ws) {
if (obj.relayActive == false) { console.log("ERROR: Attempt to use an unconnected tunnel"); return false; }
parent.lastOperation = obj.lastOperation = Date.now();
// Mark this tunnel as being a web socket tunnel
obj.isWebSocket = true;
obj.ws = ws;
// Pause the websocket until we get a tunnel connected
obj.ws._socket.pause();
// If the response stream is closed, close this tunnel right away
obj.ws._socket.on('end', function () { obj.close(); });
// Remove the trailing '/.websocket' if needed
var baseurl = req.url, i = req.url.indexOf('?');
if (i > 0) { baseurl = req.url.substring(0, i); }
if (baseurl.endsWith('/.websocket')) { req.url = baseurl.substring(0, baseurl.length - 11) + ((i < 1) ? '' : req.url.substring(i)); }
// Construct the HTTP request
var request = req.method + ' ' + req.url + ' HTTP/' + req.httpVersion + '\r\n';
const blockedHeaders = ['cookie', 'sec-websocket-extensions']; // These are headers we do not forward
for (var i in req.headers) { if (blockedHeaders.indexOf(i) == -1) { request += i + ': ' + req.headers[i] + '\r\n'; } }
var cookieStr = '';
for (var i in parent.webCookies) { if (cookieStr != '') { cookieStr += '; ' } cookieStr += (i + '=' + parent.webCookies[i].value); }
if (cookieStr.length > 0) { request += 'cookie: ' + cookieStr + '\r\n' } // If we have session cookies, set them in the header here
request += '\r\n';
send(Buffer.from(request));
// Hook up the websocket events
obj.ws.on('message', function (data) {
// Setup opcode and payload
var op = 2, payload = data;
if (typeof data == 'string') { op = 1; payload = Buffer.from(data, 'binary'); } // Text frame
sendWebSocketFrameToDevice(op, payload);
});
obj.ws.on('ping', function (data) { sendWebSocketFrameToDevice(9, data); }); // Forward ping frame
obj.ws.on('pong', function (data) { sendWebSocketFrameToDevice(10, data); }); // Forward pong frame
obj.ws.on('close', function () { obj.close(); });
obj.ws.on('error', function (err) { obj.close(); });
}
function sendWebSocketFrameToDevice(op, payload) {
// Select a random mask
const mask = parent.parent.parent.crypto.randomBytes(4)
// Setup header and mask
var header = null;
if (payload.length < 126) {
header = Buffer.alloc(6); // Header (2) + Mask (4)
header[0] = 0x80 + op; // FIN + OP
header[1] = 0x80 + payload.length; // Mask + Length
mask.copy(header, 2, 0, 4); // Copy the mask
} else if (payload.length <= 0xFFFF) {
header = Buffer.alloc(8); // Header (2) + Length (2) + Mask (4)
header[0] = 0x80 + op; // FIN + OP
header[1] = 0x80 + 126; // Mask + 126
header.writeInt16BE(payload.length, 2); // Payload size
mask.copy(header, 4, 0, 4); // Copy the mask
} else {
header = Buffer.alloc(14); // Header (2) + Length (8) + Mask (4)
header[0] = 0x80 + op; // FIN + OP
header[1] = 0x80 + 127; // Mask + 127
header.writeInt32BE(payload.length, 6); // Payload size
mask.copy(header, 10, 0, 4); // Copy the mask
}
// Mask the payload
for (var i = 0; i < payload.length; i++) { payload[i] = (payload[i] ^ mask[i % 4]); }
// Send the frame
//console.log(obj.tunnelId, '-->', op, payload.length);
send(Buffer.concat([header, payload]));
}
// Disconnect
obj.close = function (arg) {
if (obj.closed == true) return;
obj.closed = true;
// If we are processing a http response that terminates when it closes, do this now.
if ((obj.socketParseState == 1) && (obj.socketXHeader['connection'] != null) && (obj.socketXHeader['connection'].toLowerCase() == 'close')) {
processHttpResponse(null, obj.socketAccumulator, true, true); // Indicate this tunnel is done and also closed, do not put a new request on this tunnel.
obj.socketAccumulator = '';
obj.socketParseState = 0;
}
if (obj.tls) {
try { obj.tls.end(); } catch (ex) { console.log(ex); }
delete obj.tls;
}
/*
// Event the session ending
if ((obj.startTime) && (obj.meshid != null)) {
// Collect how many raw bytes where received and sent.
// We sum both the websocket and TCP client in this case.
var inTraffc = obj.ws._socket.bytesRead, outTraffc = obj.ws._socket.bytesWritten;
if (obj.wsClient != null) { inTraffc += obj.wsClient._socket.bytesRead; outTraffc += obj.wsClient._socket.bytesWritten; }
const sessionSeconds = Math.round((Date.now() - obj.startTime) / 1000);
const user = parent.users[obj.cookie.userid];
const username = (user != null) ? user.name : null;
const event = { etype: 'relay', action: 'relaylog', domain: domain.id, nodeid: obj.nodeid, userid: obj.cookie.userid, username: username, sessionid: obj.sessionid, msgid: 123, msgArgs: [sessionSeconds, obj.sessionid], msg: "Left Web-SSH session \"" + obj.sessionid + "\" after " + sessionSeconds + " second(s).", protocol: PROTOCOL_WEBSSH, bytesin: inTraffc, bytesout: outTraffc };
parent.DispatchEvent(['*', obj.nodeid, obj.cookie.userid, obj.meshid], obj, event);
delete obj.startTime;
delete obj.sessionid;
}
*/
if (obj.wsClient) {
obj.wsClient.removeAllListeners('open');
obj.wsClient.removeAllListeners('message');
obj.wsClient.removeAllListeners('close');
try { obj.wsClient.close(); } catch (ex) { console.log(ex); }
delete obj.wsClient;
}
// Close any pending request
if (obj.res) { obj.res.socket.removeListener('end', handleResponseClosure); obj.res.end(); delete obj.res; }
if (obj.ws) { obj.ws.close(); delete obj.ws; }
// Event disconnection
if (obj.onclose) { obj.onclose(obj.tunnelId, obj.processedRequestCount); }
obj.relayActive = false;
};
// Start the loopback server
obj.connect = function (userid, nodeid, addr, port, appid) {
if (obj.relayActive || obj.closed) return;
obj.addr = addr;
obj.port = port;
obj.appid = appid;
// Encode a cookie for the mesh relay
const cookieContent = { userid: userid, domainid: domain.id, nodeid: nodeid, tcpport: port };
if (addr != null) { cookieContent.tcpaddr = addr; }
const cookie = parent.parent.parent.encodeCookie(cookieContent, parent.parent.parent.loginCookieEncryptionKey);
try {
// Setup the correct URL with domain and use TLS only if needed.
const options = { rejectUnauthorized: false };
const protocol = (args.tlsoffload) ? 'ws' : 'wss';
var domainadd = '';
if ((domain.dns == null) && (domain.id != '')) { domainadd = domain.id + '/' }
var url = protocol + '://localhost:' + args.port + '/' + domainadd + (((obj.mtype == 3) && (obj.relaynodeid == null)) ? 'local' : 'mesh') + 'relay.ashx?p=14&auth=' + cookie; // Protocol 14 is Web-TCP
if (domain.id != '') { url += '&domainid=' + domain.id; } // Since we are using "localhost", we are going to signal what domain we are on using a URL argument.
parent.parent.parent.debug('relay', 'TCP: Connection websocket to ' + url);
obj.wsClient = new WebSocket(url, options);
obj.wsClient.on('open', function () { parent.parent.parent.debug('relay', 'TCP: Relay websocket open'); });
obj.wsClient.on('message', function (data) { // Make sure to handle flow control.
if (obj.tls) {
// WS --> TLS
processRawHttpData(data);
} else if (obj.relayActive == false) {
if ((data == 'c') || (data == 'cr')) {
if (appid == 2) {
// TLS needs to be setup
obj.ser = new SerialTunnel();
obj.ser.forwardwrite = function (data) { if (data.length > 0) { try { obj.wsClient.send(data); } catch (ex) { } } }; // TLS ---> WS
// TLSSocket to encapsulate TLS communication, which then tunneled via SerialTunnel
const tlsoptions = { socket: obj.ser, rejectUnauthorized: false };
obj.tls = require('tls').connect(tlsoptions, function () {
parent.parent.parent.debug('relay', "Web Relay Secure TLS Connection");
obj.relayActive = true;
parent.lastOperation = obj.lastOperation = Date.now(); // Update time of last opertion performed
if (obj.onconnect) { obj.onconnect(obj.tunnelId); } // Event connection
});
obj.tls.setEncoding('binary');
obj.tls.on('error', function (err) { parent.parent.parent.debug('relay', "Web Relay TLS Connection Error", err); obj.close(); });
// Decrypted tunnel from TLS communcation to be forwarded to the browser
obj.tls.on('data', function (data) { processHttpData(data); }); // TLS ---> Browser
} else {
// No TLS needed, tunnel is now active
obj.relayActive = true;
parent.lastOperation = obj.lastOperation = Date.now(); // Update time of last opertion performed
if (obj.onconnect) { obj.onconnect(obj.tunnelId); } // Event connection
}
}
} else {
processRawHttpData(data);
}
});
obj.wsClient.on('close', function () { parent.parent.parent.debug('relay', 'TCP: Relay websocket closed'); obj.close(); });
obj.wsClient.on('error', function (err) { parent.parent.parent.debug('relay', 'TCP: Relay websocket error: ' + err); obj.close(); });
} catch (ex) {
console.log(ex);
}
}
function processRawHttpData(data) {
if (typeof data == 'string') {
// Forward any ping/pong commands to the browser
var cmd = null;
try { cmd = JSON.parse(data); } catch (ex) { }
if ((cmd != null) && (cmd.ctrlChannel == '102938') && (cmd.type == 'ping')) { cmd.type = 'pong'; obj.wsClient.send(JSON.stringify(cmd)); }
return;
}
if (obj.tls) {
// If TLS is in use, WS --> TLS
if (data.length > 0) { try { obj.ser.updateBuffer(data); } catch (ex) { console.log(ex); } }
} else {
// Relay WS --> TCP, event data coming in
processHttpData(data.toString('binary'));
}
}
// Process incoming HTTP data
obj.socketAccumulator = '';
obj.socketParseState = 0;
obj.socketContentLengthRemaining = 0;
function processHttpData(data) {
//console.log('processHttpData', data.length);
obj.socketAccumulator += data;
while (true) {
//console.log('ACC(' + obj.socketAccumulator + '): ' + obj.socketAccumulator);
if (obj.socketParseState == 0) {
var headersize = obj.socketAccumulator.indexOf('\r\n\r\n');
if (headersize < 0) return;
//obj.Debug("Header: "+obj.socketAccumulator.substring(0, headersize)); // Display received HTTP header
obj.socketHeader = obj.socketAccumulator.substring(0, headersize).split('\r\n');
obj.socketAccumulator = obj.socketAccumulator.substring(headersize + 4);
obj.socketXHeader = { Directive: obj.socketHeader[0].split(' ') };
for (var i in obj.socketHeader) {
if (i != 0) {
var x2 = obj.socketHeader[i].indexOf(':');
const n = obj.socketHeader[i].substring(0, x2).toLowerCase();
const v = obj.socketHeader[i].substring(x2 + 2);
if (n == 'set-cookie') { // Since "set-cookie" can be present many times in the header, handle it as an array of values
if (obj.socketXHeader[n] == null) { obj.socketXHeader[n] = [v]; } else { obj.socketXHeader[n].push(v); }
} else {
obj.socketXHeader[n] = v;
}
}
}
// Check if this is a streaming response
if ((obj.socketXHeader['content-type'] != null) && (obj.socketXHeader['content-type'].toLowerCase().indexOf('text/event-stream') >= 0)) {
obj.isStreaming = true; // This tunnel is now a streaming tunnel and will not close anytime soon.
if (obj.onNextRequest != null) obj.onNextRequest(); // Call this so that any HTTP requests that are waitting for this one to finish get handled by a new tunnel.
}
// Check if this HTTP request has a body
if (obj.socketXHeader['content-length'] != null) { obj.socketParseState = 1; }
if ((obj.socketXHeader['connection'] != null) && (obj.socketXHeader['connection'].toLowerCase() == 'close')) { obj.socketParseState = 1; }
if ((obj.socketXHeader['transfer-encoding'] != null) && (obj.socketXHeader['transfer-encoding'].toLowerCase() == 'chunked')) { obj.socketParseState = 1; }
if (obj.isWebSocket) {
if ((obj.socketXHeader['connection'] != null) && (obj.socketXHeader['connection'].toLowerCase() == 'upgrade')) {
obj.processedRequestCount++;
obj.socketParseState = 2; // Switch to decoding websocket frames
obj.ws._socket.resume(); // Resume the browser's websocket
} else {
obj.close(); // Failed to upgrade to websocket
}
}
// Forward the HTTP request into the tunnel, if no body is present, close the request.
processHttpResponse(obj.socketXHeader, null, (obj.socketParseState == 0));
}
if (obj.socketParseState == 1) {
var csize = -1;
if (obj.socketXHeader['content-length'] != null) {
// The body length is specified by the content-length
if (obj.socketContentLengthRemaining == 0) { obj.socketContentLengthRemaining = parseInt(obj.socketXHeader['content-length']); } // Set the remaining content-length if not set
var data = obj.socketAccumulator.substring(0, obj.socketContentLengthRemaining); // Grab the available data, not passed the expected content-length
obj.socketAccumulator = obj.socketAccumulator.substring(data.length); // Remove the data from the accumulator
obj.socketContentLengthRemaining -= data.length; // Substract the obtained data from the expected size
if (obj.socketContentLengthRemaining > 0) {
// Send any data we have, if we are done, signal the end of the response
processHttpResponse(null, data, false);
return; // More data is needed, return now so we exit the while() loop.
} else {
// We are done with this request
const closing = (obj.socketXHeader['connection'] != null) && (obj.socketXHeader['connection'].toLowerCase() == 'close');
if (closing) {
// We need to close this tunnel.
processHttpResponse(null, data, false);
obj.close();
} else {
// Proceed with the next request.
processHttpResponse(null, data, true);
}
}
csize = 0; // We are done
} else if ((obj.socketXHeader['connection'] != null) && (obj.socketXHeader['connection'].toLowerCase() == 'close')) {
// The body ends with a close, in this case, we will only process the header
processHttpResponse(null, obj.socketAccumulator, false);
obj.socketAccumulator = '';
return;
} else if ((obj.socketXHeader['transfer-encoding'] != null) && (obj.socketXHeader['transfer-encoding'].toLowerCase() == 'chunked')) {
// The body is chunked
var clen = obj.socketAccumulator.indexOf('\r\n');
if (clen < 0) { return; } // Chunk length not found, exit now and get more data.
// Chunk length if found, lets see if we can get the data.
csize = parseInt(obj.socketAccumulator.substring(0, clen), 16);
if (obj.socketAccumulator.length < clen + 2 + csize + 2) return;
// We got a chunk with all of the data, handle the chunck now.
var data = obj.socketAccumulator.substring(clen + 2, clen + 2 + csize);
obj.socketAccumulator = obj.socketAccumulator.substring(clen + 2 + csize + 2);
processHttpResponse(null, data, (csize == 0));
}
if (csize == 0) {
//obj.Debug("xxOnSocketData DONE: (" + obj.socketData.length + "): " + obj.socketData);
obj.socketParseState = 0;
obj.socketHeader = null;
}
}
if (obj.socketParseState == 2) {
// We are in websocket pass-thru mode, decode the websocket frame
if (obj.socketAccumulator.length < 2) return; // Need at least 2 bytes to decode a websocket header
//console.log('WebSocket frame', obj.socketAccumulator.length, Buffer.from(obj.socketAccumulator, 'binary'));
// Decode the websocket frame
const buf = Buffer.from(obj.socketAccumulator, 'binary');
const fin = ((buf[0] & 0x80) != 0);
const rsv = ((buf[0] & 0x70) != 0);
const op = buf[0] & 0x0F;
const mask = ((buf[1] & 0x80) != 0);
var len = buf[1] & 0x7F;
//console.log(obj.tunnelId, 'fin: ' + fin + ', rsv: ' + rsv + ', op: ' + op + ', len: ' + len);
// Calculate the total length
var payload = null;
if (len < 126) {
// 1 byte length
if (buf.length < (2 + len)) return; // Insuffisent data
payload = buf.slice(2, 2 + len);
obj.socketAccumulator = obj.socketAccumulator.substring(2 + len); // Remove data from accumulator
} else if (len == 126) {
// 2 byte length
if (buf.length < 4) return;
len = buf.readUInt16BE(2);
if (buf.length < (4 + len)) return; // Insuffisent data
payload = buf.slice(4, 4 + len);
obj.socketAccumulator = obj.socketAccumulator.substring(4 + len); // Remove data from accumulator
} if (len == 127) {
// 8 byte length
if (buf.length < 10) return;
len = buf.readUInt32BE(2);
if (len > 0) { obj.close(); return; } // This frame is larger than 4 gigabyte, close the connection.
len = buf.readUInt32BE(6);
if (buf.length < (10 + len)) return; // Insuffisent data
payload = buf.slice(10, 10 + len);
obj.socketAccumulator = obj.socketAccumulator.substring(10 + len); // Remove data from accumulator
}
if (buf.length < len) return;
// If the mask or reserved bit are true, we are not decoding this right, close the connection.
if ((mask == true) || (rsv == true)) { obj.close(); return; }
// TODO: If FIN is not set, we need to add support for continue frames
//console.log(obj.tunnelId, '<--', op, payload ? payload.length : 0);
// Perform operation
switch (op) {
case 0: { break; } // Continue frame (TODO)
case 1: { try { obj.ws.send(payload.toString('binary')); } catch (ex) { } break; } // Text frame
case 2: { try { obj.ws.send(payload); } catch (ex) { } break; } // Binary frame
case 8: { obj.close(); return; } // Connection close
case 9: { try { obj.ws.ping(payload); } catch (ex) { } break; } // Ping frame
case 10: { try { obj.ws.pong(payload); } catch (ex) { } break; } // Pong frame
}
}
}
}
// This is a fully parsed HTTP response from the remote device
function processHttpResponse(header, data, done, closed) {
//console.log('processHttpResponse', header, data ? data.length : 0, done, closed);
if (obj.isWebSocket == false) {
if (obj.res == null) return;
parent.lastOperation = obj.lastOperation = Date.now(); // Update time of last opertion performed
// If there is a header, send it
if (header != null) {
const statusCode = parseInt(header.Directive[1]);
if ((!isNaN(statusCode)) && (statusCode > 0) && (statusCode <= 999)) { obj.res.status(statusCode); } // Set the status
const blockHeaders = ['Directive', 'sec-websocket-extensions', 'connection', 'transfer-encoding', 'last-modified', 'content-security-policy', 'cache-control']; // We do not forward these headers
for (var i in header) {
if (i == 'set-cookie') {
for (var ii in header[i]) {
// Decode the new cookie
//console.log('set-cookie', header[i][ii]);
const cookieSplit = header[i][ii].split(';');
var newCookieName = null, newCookie = {};
for (var j in cookieSplit) {
var l = cookieSplit[j].indexOf('='), k = null, v = null;
if (l == -1) { k = cookieSplit[j].trim(); } else { k = cookieSplit[j].substring(0, l).trim(); v = cookieSplit[j].substring(l + 1).trim(); }
if (j == 0) { newCookieName = k; newCookie.value = v; } else { newCookie[k.toLowerCase()] = (v == null) ? true : v; }
}
if (newCookieName != null) {
if ((typeof newCookie['max-age'] == 'string') && (parseInt(newCookie['max-age']) <= 0)) {
delete parent.webCookies[newCookieName]; // Remove a expired cookie
//console.log('clear-cookie', newCookieName);
} else if (((newCookie.secure != true) || (obj.tls != null))) {
parent.webCookies[newCookieName] = newCookie; // Keep this cookie in the session
if (newCookie.httponly != true) { obj.res.set(i, header[i]); } // if the cookie is not HTTP-only, forward it to the browser. We need to do this to allow JavaScript to read it.
//console.log('new-cookie', newCookieName, newCookie);
}
}
}
}
else if (blockHeaders.indexOf(i) == -1) { obj.res.set(i.trim(), header[i]); } // Set the headers if not blocked
}
obj.res.set('Content-Security-Policy', "default-src 'self' 'unsafe-inline' 'unsafe-eval' data: blob:;"); // Set an "allow all" policy, see if the can restrict this in the future
//obj.res.set('Content-Security-Policy', "default-src * 'unsafe-inline' 'unsafe-eval'; script-src * 'unsafe-inline' 'unsafe-eval'; connect-src * 'unsafe-inline'; img-src * data: blob: 'unsafe-inline'; frame-src *; style-src * 'unsafe-inline';"); // Set an "allow all" policy, see if the can restrict this in the future
obj.res.set('Cache-Control', 'no-store'); // Tell the browser not to cache the responses since since the relay port can be used for many relays
}
// If there is data, send it
if (data != null) { try { obj.res.write(data, 'binary'); } catch (ex) { } }
// If we are done, close the response
if (done == true) {
// Close the response
obj.res.socket.removeListener('end', handleResponseClosure);
obj.res.end();
delete obj.res;
// Event completion
obj.processedRequestCount++;
if (obj.oncompleted) { obj.oncompleted(obj.tunnelId, closed); }
}
} else {
// Tunnel is now in web socket pass-thru mode
if (header != null) {
if ((typeof header.connection == 'string') && (header.connection.toLowerCase() == 'upgrade')) {
// Websocket upgrade succesful
obj.socketParseState = 2;
} else {
// Unable to upgrade to web socket
obj.close();
}
}
}
}
// Send data thru the relay tunnel. Written to use TLS if needed.
function send(data) { try { if (obj.tls) { obj.tls.write(data); } else { obj.wsClient.send(data); } } catch (ex) { } }
parent.parent.parent.debug('relay', 'TCP: Request for web relay');
return obj;
};
// Construct a MSTSC Relay object, called upon connection
// This implementation does not have TLS support
// This is a bit of a hack as we are going to run the RDP connection thru a loopback connection.
// If the "node-rdpjs-2" module supported passing a socket, we would do something different.
module.exports.CreateMstscRelay = function (parent, db, ws, req, args, domain) {
const Net = require('net');
const WebSocket = require('ws');
const obj = {};
obj.ws = ws;
obj.tcpServerPort = 0;
obj.relayActive = false;
var rdpClient = null;
parent.parent.debug('relay', 'RDP: Request for RDP relay (' + req.clientIp + ')');
// Disconnect
obj.close = function (arg) {
if (obj.ws == null) return;
// Event the session ending
if ((obj.startTime) && (obj.meshid != null)) {
// Collect how many raw bytes where received and sent.
// We sum both the websocket and TCP client in this case.
var inTraffc = obj.ws._socket.bytesRead, outTraffc = obj.ws._socket.bytesWritten;
if (obj.wsClient != null) { inTraffc += obj.wsClient._socket.bytesRead; outTraffc += obj.wsClient._socket.bytesWritten; }
const sessionSeconds = Math.round((Date.now() - obj.startTime) / 1000);
const user = parent.users[obj.userid];
const username = (user != null) ? user.name : null;
const event = { etype: 'relay', action: 'relaylog', domain: domain.id, nodeid: obj.nodeid, userid: obj.userid, username: username, sessionid: obj.sessionid, msgid: 125, msgArgs: [sessionSeconds, obj.sessionid], msg: "Left Web-RDP session \"" + obj.sessionid + "\" after " + sessionSeconds + " second(s).", protocol: PROTOCOL_WEBRDP, bytesin: inTraffc, bytesout: outTraffc };
parent.parent.DispatchEvent(['*', obj.nodeid, obj.userid, obj.meshid], obj, event);
delete obj.startTime;
delete obj.sessionid;
}
if (obj.wsClient) { obj.wsClient.close(); delete obj.wsClient; }
if (obj.tcpServer) { obj.tcpServer.close(); delete obj.tcpServer; }
if (rdpClient) { rdpClient.close(); rdpClient = null; }
if ((arg == 1) || (arg == null)) { try { ws.close(); } catch (ex) { console.log(ex); } } // Soft close, close the websocket
if (arg == 2) { try { ws._socket._parent.end(); } catch (ex) { console.log(ex); } } // Hard close, close the TCP socket
obj.ws.removeAllListeners();
obj.relayActive = false;
delete obj.ws;
delete obj.nodeid;
delete obj.meshid;
delete obj.userid;
};
// Start the looppback server
function startTcpServer() {
obj.tcpServer = new Net.Server();
obj.tcpServer.listen(0, 'localhost', function () { obj.tcpServerPort = obj.tcpServer.address().port; startRdp(obj.tcpServerPort); });
obj.tcpServer.on('connection', function (socket) {
if (obj.relaySocket != null) {
socket.close();
} else {
obj.relaySocket = socket;
obj.relaySocket.pause();
obj.relaySocket.on('data', function (chunk) { // Make sure to handle flow control.
if (obj.relayActive == true) { obj.relaySocket.pause(); if (obj.wsClient != null) { obj.wsClient.send(chunk, function () { obj.relaySocket.resume(); }); } }
});
obj.relaySocket.on('end', function () { obj.close(); });
obj.relaySocket.on('error', function (err) { obj.close(); });
// Setup the correct URL with domain and use TLS only if needed.
const options = { rejectUnauthorized: false };
const protocol = (args.tlsoffload) ? 'ws' : 'wss';
var domainadd = '';
if ((domain.dns == null) && (domain.id != '')) { domainadd = domain.id + '/' }
var url = protocol + '://localhost:' + args.port + '/' + domainadd + (((obj.mtype == 3) && (obj.relaynodeid == null)) ? 'local' : 'mesh') + 'relay.ashx?p=10&auth=' + obj.infos.ip; // Protocol 10 is Web-RDP
if (domain.id != '') { url += '&domainid=' + domain.id; } // Since we are using "localhost", we are going to signal what domain we are on using a URL argument.
parent.parent.debug('relay', 'RDP: Connection websocket to ' + url);
obj.wsClient = new WebSocket(url, options);
obj.wsClient.on('open', function () { parent.parent.debug('relay', 'RDP: Relay websocket open'); });
obj.wsClient.on('message', function (data) { // Make sure to handle flow control.
if (obj.relayActive == false) {
if ((data == 'c') || (data == 'cr')) {
obj.relayActive = true;
obj.relaySocket.resume();
}
} else {
try { // Forward any ping/pong commands to the browser
var cmd = JSON.parse(data);
if ((cmd != null) && (cmd.ctrlChannel == '102938')) {
if (cmd.type == 'ping') { send(['ping']); }
else if (cmd.type == 'pong') { send(['pong']); }
}
return;
} catch (ex) { // You are not JSON data so just send over relaySocket
obj.wsClient._socket.pause();
try {
obj.relaySocket.write(data, function () {
if (obj.wsClient && obj.wsClient._socket) { try { obj.wsClient._socket.resume(); } catch (ex) { console.log(ex); } }
});
} catch (ex) { console.log(ex); obj.close(); }
}
}
});
obj.wsClient.on('close', function () { parent.parent.debug('relay', 'RDP: Relay websocket closed'); obj.close(); });
obj.wsClient.on('error', function (err) { parent.parent.debug('relay', 'RDP: Relay websocket error: ' + err); obj.close(); });
obj.tcpServer.close();
obj.tcpServer = null;
}
});
}
// Start the RDP client
function startRdp(port) {
parent.parent.debug('relay', 'RDP: Starting RDP client on loopback port ' + port);
try {
const args = {
logLevel: 'NONE', // 'ERROR',
domain: obj.infos.domain,
userName: obj.infos.username,
password: obj.infos.password,
enablePerf: true,
autoLogin: true,
screen: obj.infos.screen,
locale: obj.infos.locale,
};
if (obj.infos.options) {
if (obj.infos.options.flags != null) { args.perfFlags = obj.infos.options.flags; delete obj.infos.options.flags; }
if ((obj.infos.options.workingDir != null) && (obj.infos.options.workingDir != '')) { args.workingDir = obj.infos.options.workingDir; }
if ((obj.infos.options.alternateShell != null) && (obj.infos.options.alternateShell != '')) { args.alternateShell = obj.infos.options.alternateShell; }
}
rdpClient = require('./rdp').createClient(args).on('connect', function () {
send(['rdp-connect']);
if ((typeof obj.infos.options == 'object') && (obj.infos.options.savepass == true)) { saveRdpCredentials(); } // Save the credentials if needed
obj.sessionid = Buffer.from(parent.crypto.randomBytes(9), 'binary').toString('base64').replace(/\+/g, '@').replace(/\//g, '$');
obj.startTime = Date.now();
// Event session start
try {
const user = parent.users[obj.userid];
const username = (user != null) ? user.name : null;
const event = { etype: 'relay', action: 'relaylog', domain: domain.id, nodeid: obj.nodeid, userid: obj.userid, username: username, sessionid: obj.sessionid, msgid: 150, msgArgs: [obj.sessionid], msg: "Started Web-RDP session \"" + obj.sessionid + "\".", protocol: PROTOCOL_WEBRDP };
parent.parent.DispatchEvent(['*', obj.nodeid, obj.userid, obj.meshid], obj, event);
} catch (ex) { console.log(ex); }
}).on('bitmap', function (bitmap) {
try { ws.send(bitmap.data); } catch (ex) { } // Send the bitmap data as binary
delete bitmap.data;
send(['rdp-bitmap', bitmap]); // Send the bitmap metadata seperately, without bitmap data.
}).on('clipboard', function (content) {
send(['rdp-clipboard', content]); // The clipboard data has changed
}).on('pointer', function (cursorId, cursorStr) {
if (cursorStr == null) { cursorStr = 'default'; }
if (obj.lastCursorStrSent != cursorStr) {
obj.lastCursorStrSent = cursorStr;
//console.log('pointer', cursorStr);
send(['rdp-pointer', cursorStr]); // The mouse pointer has changed
}
}).on('close', function () {
send(['rdp-close']); // This RDP session has closed
}).on('error', function (err) {
if (typeof err == 'string') { send(['rdp-error', err]); }
if ((typeof err == 'object') && (err.err) && (err.code)) { send(['rdp-error', err.err, err.code]); }
}).connect('localhost', obj.tcpServerPort);
} catch (ex) {
console.log('startRdpException', ex);
obj.close();
}
}
// Save RDP credentials into database
function saveRdpCredentials() {
if (domain.allowsavingdevicecredentials == false) return;
parent.parent.db.Get(obj.nodeid, function (err, nodes) {
if ((err != null) || (nodes == null) || (nodes.length != 1)) return;
const node = nodes[0];
if (node.rdp == null) { node.rdp = {}; }
// Check if credentials are already set
if ((typeof node.rdp[obj.userid] == 'object') && (node.rdp[obj.userid].d == obj.infos.domain) && (node.rdp[obj.userid].u == obj.infos.username) && (node.rdp[obj.userid].p == obj.infos.password)) return;
// Clear up any existing credentials or credentials for users that don't exist anymore
for (var i in node.rdp) { if (!i.startsWith('user/') || (parent.users[i] == null)) { delete node.rdp[i]; } }
// Clear legacy credentials
delete node.rdp.d;
delete node.rdp.u;
delete node.rdp.p;
// Save the credentials
node.rdp[obj.userid] = { d: obj.infos.domain, u: obj.infos.username, p: obj.infos.password };
parent.parent.db.Set(node);
// Event the node change
const event = { etype: 'node', action: 'changenode', nodeid: obj.nodeid, domain: domain.id, userid: obj.userid, node: parent.CloneSafeNode(node), msg: "Changed RDP credentials" };
if (parent.parent.db.changeStream) { event.noact = 1; } // If DB change stream is active, don't use this event to change the node. Another event will come.
parent.parent.DispatchEvent(parent.CreateMeshDispatchTargets(node.meshid, [obj.nodeid]), obj, event);
});
}
// When data is received from the web socket
// RDP default port is 3389
ws.on('message', function (data) {
try {
var msg = null;
try { msg = JSON.parse(data); } catch (ex) { }
if ((msg == null) || (typeof msg != 'object')) return;
switch (msg[0]) {
case 'infos': {
obj.infos = msg[1];
if (obj.infos.ip.startsWith('node/')) {
// Use the user session
obj.nodeid = obj.infos.ip;
obj.userid = req.session.userid;
} else {
// Decode the authentication cookie
obj.cookie = parent.parent.decodeCookie(obj.infos.ip, parent.parent.loginCookieEncryptionKey);
if ((obj.cookie == null) || (typeof obj.cookie.nodeid != 'string') || (typeof obj.cookie.userid != 'string')) { obj.close(); return; }
obj.nodeid = obj.cookie.nodeid;
obj.userid = obj.cookie.userid;
}
// Get node and rights
parent.GetNodeWithRights(domain, obj.userid, obj.nodeid, function (node, rights, visible) {
if (obj.ws == null) return; // obj has been cleaned up, just exit.
if ((node == null) || (visible == false) || ((rights & MESHRIGHT_REMOTECONTROL) == 0)) { obj.close(); return; }
if ((rights != MESHRIGHT_ADMIN) && ((rights & MESHRIGHT_REMOTEVIEWONLY) != 0)) { obj.viewonly = true; }
if ((rights != MESHRIGHT_ADMIN) && ((rights & MESHRIGHT_DESKLIMITEDINPUT) != 0)) { obj.limitedinput = true; }
node = parent.common.unEscapeLinksFieldName(node); // unEscape node data for rdp/ssh credentials
obj.mtype = node.mtype; // Store the device group type
obj.meshid = node.meshid; // Store the MeshID
// Check if we need to relay thru a different agent
const mesh = parent.meshes[obj.meshid];
if (mesh && mesh.relayid) {
obj.relaynodeid = mesh.relayid;
obj.tcpaddr = node.host;
// Get the TCP port to use
var tcpport = 3389;
if ((obj.cookie != null) && (obj.cookie.tcpport != null)) { tcpport = obj.cookie.tcpport; } else { if (node.rdpport) { tcpport = node.rdpport } }
// Re-encode a cookie with a device relay