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meshscanner.js
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meshscanner.js
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/**
* @description MeshCentral Mesh Agent Local Scanner
* @author Ylian Saint-Hilaire
* @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";
// Construct a Mesh Scanner object
// TODO: We need once "server4" and "server6" per interface, or change the default multicast interface as we send.
module.exports.CreateMeshScanner = function (parent) {
var obj = {};
obj.parent = parent;
obj.dgram = require('dgram');
obj.common = require('./common.js');
obj.servers4 = {};
obj.servers6 = {};
obj.mainTimer = null;
const periodicScanTime = (60000 * 20); // Interval between scans, 20 minutes.
const membershipIPv4 = '239.255.255.235';
const membershipIPv6 = 'FF02:0:0:0:0:0:0:FE';
obj.agentCertificateHashHex = parent.certificateOperations.forge.pki.getPublicKeyFingerprint(parent.certificateOperations.forge.pki.certificateFromPem(parent.certificates.agent.cert).publicKey, { md: parent.certificateOperations.forge.md.sha384.create(), encoding: 'hex' }).toUpperCase();
obj.error = 0;
obj.pendingOutboundPackets = [];
obj.pendingOutboundTimer = null;
// Setup the multicast key if present
if ((typeof obj.parent.args.localdiscovery == 'object') && (typeof obj.parent.args.localdiscovery.key == 'string') && (obj.parent.args.localdiscovery.key.length > 0)) {
obj.multicastKey = parent.crypto.createHash('sha384').update(obj.parent.args.localdiscovery.key).digest('raw').slice(0, 32);
}
// Encrypt UDP packet
function encryptPacket(plainPacket) {
if (obj.multicastKey == null) { return plainPacket; }
const iv = parent.crypto.randomBytes(16), aes = parent.crypto.createCipheriv('aes-256-cbc', obj.multicastKey, iv);
var ciphertext = aes.update(plainPacket);
return Buffer.concat([iv, ciphertext, aes.final()]);
}
// Decrypt UDP packet
function decryptPacket(packet) {
if (obj.multicastKey == null) { return packet; }
if (packet.length < 17) { return null; }
try {
const iv = packet.slice(0, 16), data = packet.slice(16);
const aes = parent.crypto.createDecipheriv('aes-256-cbc', obj.multicastKey, iv);
var plaintextBytes = Buffer.from(aes.update(data));
return Buffer.concat([plaintextBytes, aes.final()]);
} catch (ex) { return null; }
}
// Get a list of IPv4 and IPv6 interface addresses
function getInterfaceList() {
var i;
var ipv4 = ['*'], ipv6 = ['*']; // Bind to IN_ADDR_ANY always
var interfaces = require('os').networkInterfaces();
for (i in interfaces) {
var xinterface = interfaces[i];
for (var j in xinterface) {
var interface2 = xinterface[j];
if ((interface2.mac != '00:00:00:00:00:00') && (interface2.internal == false)) {
if (interface2.family == 'IPv4') { ipv4.push(interface2.address); }
if (interface2.family == 'IPv6') { ipv6.push(interface2.address + '%' + i); }
}
}
}
return { ipv4: ipv4, ipv6: ipv6 };
}
// Setup all IPv4 and IPv6 servers
function setupServers() {
var addresses = getInterfaceList(), i, localAddress, bindOptions;
for (i in obj.servers4) { obj.servers4[i].xxclear = true; }
for (i in obj.servers6) { obj.servers6[i].xxclear = true; }
for (i in addresses.ipv4) {
localAddress = addresses.ipv4[i];
if (obj.servers4[localAddress] != null) {
// Server already exists
obj.servers4[localAddress].xxclear = false;
} else {
// Create a new IPv4 server
try {
var server4 = obj.dgram.createSocket({ type: 'udp4', reuseAddr: true });
server4.xxclear = false;
server4.xxtype = 4;
server4.xxlocal = localAddress;
server4.on('error', function (err) { /*if (this.xxlocal == '*') { console.log("ERROR: Server port 16989 not available, check if server is running twice."); } this.close(); delete obj.servers6[this.xxlocal];*/ });
bindOptions = { port: 16989, exclusive: true };
if (server4.xxlocal != '*') { bindOptions.address = server4.xxlocal; }
server4.bind(bindOptions, function () {
try {
var doscan = true;
try { this.setBroadcast(true); this.setMulticastTTL(128); this.addMembership(membershipIPv4, this.xxlocal); } catch (e) { doscan = false; }
this.on('error', function (error) { /*console.log('Error: ' + error);*/ });
this.on('message', function (msg, info) { onUdpPacket(msg, info, this); });
if (doscan == true) { obj.performScan(this); obj.performScan(this); }
} catch (e) { console.log(e); }
});
obj.servers4[localAddress] = server4;
} catch (e) {
console.log(e);
}
}
}
for (i in addresses.ipv6) {
localAddress = addresses.ipv6[i];
if (obj.servers6[localAddress] != null) {
// Server already exists
obj.servers6[localAddress].xxclear = false;
} else {
// Create a new IPv6 server
try {
var server6 = obj.dgram.createSocket({ type: 'udp6', reuseAddr: true });
server6.xxclear = false;
server6.xxtype = 6;
server6.xxlocal = localAddress;
server6.on('error', function (err) { /*this.close(); delete obj.servers6[this.xxlocal];*/ });
bindOptions = { port: 16989, exclusive: true };
if (server6.xxlocal != '*') { bindOptions.address = server6.xxlocal; }
server6.bind(bindOptions, function () {
try {
var doscan = true;
try { this.setBroadcast(true); this.setMulticastTTL(128); this.addMembership(membershipIPv6, this.xxlocal); } catch (e) { doscan = false; }
this.on('error', function (error) { console.log('Error: ' + error); });
this.on('message', function (msg, info) { onUdpPacket(msg, info, this); });
if (doscan == true) { obj.performScan(this); obj.performScan(this); }
} catch (e) { console.log(e); }
});
obj.servers6[localAddress] = server6;
} catch (e) {
console.log(e);
}
}
}
for (i in obj.servers4) { if (obj.servers4[i].xxclear == true) { obj.servers4[i].close(); delete obj.servers4[i]; } }
for (i in obj.servers6) { if (obj.servers6[i].xxclear == true) { obj.servers6[i].close(); delete obj.servers6[i]; } }
}
// Clear all IPv4 and IPv6 servers
function clearServers() {
var i;
for (i in obj.servers4) { obj.servers4[i].close(); delete obj.servers4[i]; }
for (i in obj.servers6) { obj.servers6[i].close(); delete obj.servers6[i]; }
}
// Start scanning for local network Mesh Agents
obj.start = function () {
if (obj.server4 != null) return;
// Setup the local discovery values
var name = 'MeshCentral';
var info = '';
try {
if ((typeof obj.parent.config.domains[''].title == 'string') && (obj.parent.config.domains[''].title.length > 0)) {
name = obj.parent.config.domains[''].title; info = '';
try { if ((typeof obj.parent.config.domains[''].title2 == 'string') && (obj.parent.config.domains[''].title2.length > 0)) { info = obj.parent.config.domains[''].title2; } } catch (ex) { }
}
} catch (ex) { }
try {
if ((typeof obj.parent.args.localdiscovery.name == 'string') && (obj.parent.args.localdiscovery.name.length > 0)) {
name = obj.parent.args.localdiscovery.name; info = '';
try { if ((typeof obj.parent.args.localdiscovery.info == 'string') && (obj.parent.args.localdiscovery.info.length > 0)) { info = obj.parent.args.localdiscovery.info; } } catch (ex) { }
}
} catch (ex) { }
if (info == '') { info = parent.certificates.CommonName; }
// Figure out the correct websocket port
var port = (parent.args.aliasport)?parent.args.aliasport:parent.args.port;
// Build the IPv4 response
var url = 'wss://%s:' + port + '/agent.ashx';
obj.multicastPacket4 = Buffer.from("MeshCentral2|" + obj.agentCertificateHashHex + '|' + url, 'ascii');
if (parent.certificates.CommonName.indexOf('.') != -1) { url = 'wss://' + parent.certificates.CommonName + ':' + port + '/agent.ashx'; }
obj.multicastPacket4x = Buffer.from("MeshCentral2|" + obj.agentCertificateHashHex + '|' + url + '|' + name + '|' + info, 'ascii');
// Build the IPv6 response
url = 'wss://[%s]:' + port + '/agent.ashx';
obj.multicastPacket6 = Buffer.from("MeshCentral2|" + obj.agentCertificateHashHex + '|' + url, 'ascii');
if (parent.certificates.CommonName.indexOf('.') != -1) { url = 'wss://' + parent.certificates.CommonName + ':' + port + '/agent.ashx'; }
obj.multicastPacket6x = Buffer.from("MeshCentral2|" + obj.agentCertificateHashHex + '|' + url + '|' + name + '|' + info, 'ascii');
setupServers();
obj.mainTimer = setInterval(obj.performScan, periodicScanTime);
return obj;
};
// Stop scanning for local network Mesh Agents
obj.stop = function () {
if (obj.mainTimer != null) { clearInterval(obj.mainTimer); obj.mainTimer = null; }
clearServers();
};
// Look for all Mesh Agents that may be locally reachable, indicating the presense of this server.
obj.performScan = function (server) {
var i;
if (server != null) {
if (server.xxtype == 4) { var p = encryptPacket(obj.multicastPacket4); try { server.send(p, 0, p.length, 16990, membershipIPv4); } catch (e) { } }
if (server.xxtype == 6) { var p = encryptPacket(obj.multicastPacket6); try { server.send(p, 0, p.length, 16990, membershipIPv6); } catch (e) { } }
if ((server.xxtype == 4) && (server.xxlocal == '*')) { var p = encryptPacket(obj.multicastPacket4); try { server.send(p, 0, p.length, 16990, '127.0.0.1'); } catch (e) { } try { server.send(p, 0, p.length, 16990, '255.255.255.255'); } catch (e) { } }
if ((server.xxtype == 6) && (server.xxlocal == '*')) { var p = encryptPacket(obj.multicastPacket6); try { server.send(p, 0, p.length, 16990, '::1'); } catch (e) { } }
} else {
for (i in obj.servers4) { var p = encryptPacket(obj.multicastPacket4); try { obj.servers4[i].send(p, 0, p.length, 16990, membershipIPv4); } catch (e) { } }
for (i in obj.servers6) { var p = encryptPacket(obj.multicastPacket6); try { obj.servers6[i].send(p, 0, p.length, 16990, membershipIPv6); } catch (e) { } }
setupServers(); // Check if any network interfaces where added or removed
}
};
// Called when a UDP packet is received from an agent.
function onUdpPacket(msg, info, server) {
// Decrypt the packet if needed
if ((msg = decryptPacket(msg)) == null) return;
//console.log('Received ' + msg.length + ' bytes from ' + info.address + ':' + info.port + ', on interface: ' + server.xxlocal + '.');
if ((msg.length == 96) && (msg.toString('ascii') == obj.agentCertificateHashHex)) {
if (server.xxtype == 4) { var p = encryptPacket(obj.multicastPacket4); try { server.send(p, 0, p.length, info.port, info.address); } catch (e) { } }
if (server.xxtype == 6) { var p = encryptPacket(obj.multicastPacket6); try { server.send(p, 0, p.length, info.port, info.address); } catch (e) { } }
} else if (msg.toString('ascii') == 'MeshServerScan') {
if (server.xxtype == 4) { var p = encryptPacket(obj.multicastPacket4x); try { server.send(p, 0, p.length, info.port, info.address); } catch (e) { } }
if (server.xxtype == 6) { var p = encryptPacket(obj.multicastPacket6x); try { server.send(p, 0, p.length, info.port, info.address); } catch (e) { } }
}
}
// Send the next packet in the pending list, stop the timer if we are done.
function sendPendingPacket() {
if (obj.pendingOutboundPackets.length == 0) { if (obj.pendingOutboundTimer != null) { clearInterval(obj.pendingOutboundTimer); obj.pendingOutboundTimer = null; } return; }
var packet = obj.pendingOutboundPackets.shift();
if (packet != null) { packet[0].send(packet[1], 0, packet[1].length, packet[2], packet[3]); }
}
// As a side job, we also send server wake-on-lan packets
obj.wakeOnLan = function (macs, host) {
var i, j, futureTime = 0;
for (i in macs) {
var mac = macs[i].split(':').join('');
var hexpacket = 'FFFFFFFFFFFF';
for (j = 0; j < 16; j++) { hexpacket += mac; }
var wakepacket = Buffer.from(hexpacket, 'hex');
// Add all wake packets to the pending list
for (var k = 0; k < 5; k++) {
for (j in obj.servers4) {
obj.pendingOutboundPackets.push([obj.servers4[j], wakepacket, 7, '255.255.255.255']); // IPv4 Broadcast
obj.pendingOutboundPackets.push([obj.servers4[j], wakepacket, 16990, membershipIPv4]); // IPv4 Multicast
if (host != null) { obj.pendingOutboundPackets.push([obj.servers4[j], wakepacket, 7, host]); } // IPv4 Directed
}
for (j in obj.servers6) {
obj.pendingOutboundPackets.push([obj.servers6[j], wakepacket, 16990, membershipIPv6]); // IPv6 Multicast
}
}
// Send each packet at 10ms interval
// This packet spacing is absolutly required, otherwise the outbound buffer gets filled up and packets get lost which often causes the machine not to wake.
if (obj.pendingOutboundTimer == null) { obj.pendingOutboundTimer = setInterval(sendPendingPacket, 10); }
}
};
return obj;
};