MeshCentral/letsencrypt.js

252 lines
14 KiB
JavaScript

/**
* @description MeshCentral letsEncrypt module, uses ACME-Client to do all the work.
* @author Ylian Saint-Hilaire
* @copyright Intel Corporation 2018-2022
* @license Apache-2.0
* @version v0.0.2
*/
/*xjslint node: true */
/*xjslint plusplus: true */
/*xjslint maxlen: 256 */
/*jshint node: true */
/*jshint strict: false */
/*jshint esversion: 6 */
'use strict';
// ACME-Client Implementation
var globalLetsEncrypt = null;
module.exports.CreateLetsEncrypt = function (parent) {
const acme = require('acme-client');
var obj = {};
obj.fs = require('fs');
obj.path = require('path');
obj.parent = parent;
obj.forge = obj.parent.certificateOperations.forge;
obj.leDomains = null;
obj.challenges = {};
obj.runAsProduction = false;
obj.redirWebServerHooked = false;
obj.zerossl = false;
obj.csr = null;
obj.configErr = null;
obj.configOk = false;
obj.pendingRequest = false;
// Let's Encrypt debug logging
obj.log = function (str) {
parent.debug('cert', 'LE: ' + str);
var d = new Date();
obj.events.push(d.toLocaleDateString() + ' ' + d.toLocaleTimeString() + ' - ' + str);
while (obj.events.length > 200) { obj.events.shift(); } // Keep only 200 last events.
}
obj.events = [];
// Setup the certificate storage paths
obj.certPath = obj.path.join(obj.parent.datapath, 'letsencrypt-certs');
try { obj.parent.fs.mkdirSync(obj.certPath); } catch (e) { }
// Hook up GreenLock to the redirection server
if (obj.parent.config.settings.rediraliasport === 80) { obj.redirWebServerHooked = true; }
else if ((obj.parent.config.settings.rediraliasport == null) && (obj.parent.redirserver.port == 80)) { obj.redirWebServerHooked = true; }
// Deal with HTTP challenges
function challengeCreateFn(authz, challenge, keyAuthorization) { if (challenge.type === 'http-01') { obj.challenges[challenge.token] = keyAuthorization; } }
function challengeRemoveFn(authz, challenge, keyAuthorization) { if (challenge.type === 'http-01') { delete obj.challenges[challenge.token]; } }
obj.challenge = function (token, hostname, func) { if (obj.challenges[token] != null) { obj.log("Succesful response to challenge."); } else { obj.log("Failed to respond to challenge, token: " + token + ", table: " + JSON.stringify(obj.challenges) + "."); } func(obj.challenges[token]); }
// Get the current certificate
obj.getCertificate = function(certs, func) {
obj.runAsProduction = (obj.parent.config.letsencrypt.production === true);
obj.zerossl = ((typeof obj.parent.config.letsencrypt.zerossl == 'object') ? obj.parent.config.letsencrypt.zerossl : false);
obj.log("Getting certs from local store (" + (obj.runAsProduction ? "Production" : "Staging") + ")");
if (certs.CommonName.indexOf('.') == -1) { obj.configErr = "Add \"cert\" value to settings in config.json before using Let's Encrypt."; parent.addServerWarning(obj.configErr); obj.log("WARNING: " + obj.configErr); func(certs); return; }
if (obj.parent.config.letsencrypt == null) { obj.configErr = "No Let's Encrypt configuration"; parent.addServerWarning(obj.configErr); obj.log("WARNING: " + obj.configErr); func(certs); return; }
if (obj.parent.config.letsencrypt.email == null) { obj.configErr = "Let's Encrypt email address not specified."; parent.addServerWarning(obj.configErr); obj.log("WARNING: " + obj.configErr); func(certs); return; }
if ((obj.parent.redirserver == null) || ((typeof obj.parent.config.settings.rediraliasport === 'number') && (obj.parent.config.settings.rediraliasport !== 80)) || ((obj.parent.config.settings.rediraliasport == null) && (obj.parent.redirserver.port !== 80))) { obj.configErr = "Redirection web server must be active on port 80 for Let's Encrypt to work."; parent.addServerWarning(obj.configErr); obj.log("WARNING: " + obj.configErr); func(certs); return; }
if (obj.redirWebServerHooked !== true) { obj.configErr = "Redirection web server not setup for Let's Encrypt to work."; parent.addServerWarning(obj.configErr); obj.log("WARNING: " + obj.configErr); func(certs); return; }
if ((obj.parent.config.letsencrypt.rsakeysize != null) && (obj.parent.config.letsencrypt.rsakeysize !== 2048) && (obj.parent.config.letsencrypt.rsakeysize !== 3072)) { obj.configErr = "Invalid Let's Encrypt certificate key size, must be 2048 or 3072."; parent.addServerWarning(obj.configErr); obj.log("WARNING: " + obj.configErr); func(certs); return; }
if (obj.checkInterval == null) { obj.checkInterval = setInterval(obj.checkRenewCertificate, 86400000); } // Call certificate check every 24 hours.
obj.configOk = true;
// Get the list of domains
obj.leDomains = [ certs.CommonName ];
if (obj.parent.config.letsencrypt.names != null) {
if (typeof obj.parent.config.letsencrypt.names == 'string') { obj.parent.config.letsencrypt.names = obj.parent.config.letsencrypt.names.split(','); }
obj.parent.config.letsencrypt.names.map(function (s) { return s.trim(); }); // Trim each name
if ((typeof obj.parent.config.letsencrypt.names != 'object') || (obj.parent.config.letsencrypt.names.length == null)) { console.log("ERROR: Let's Encrypt names must be an array in config.json."); func(certs); return; }
obj.leDomains = obj.parent.config.letsencrypt.names;
}
// Read TLS certificate from the configPath
var certFile = obj.path.join(obj.certPath, (obj.runAsProduction ? 'production.crt' : 'staging.crt'));
var keyFile = obj.path.join(obj.certPath, (obj.runAsProduction ? 'production.key' : 'staging.key'));
if (obj.fs.existsSync(certFile) && obj.fs.existsSync(keyFile)) {
obj.log("Reading certificate files");
// Read the certificate and private key
var certPem = obj.fs.readFileSync(certFile).toString('utf8');
var cert = obj.forge.pki.certificateFromPem(certPem);
var keyPem = obj.fs.readFileSync(keyFile).toString('utf8');
var key = obj.forge.pki.privateKeyFromPem(keyPem);
// Decode the certificate common and alt names
obj.certNames = [cert.subject.getField('CN').value];
var altNames = cert.getExtension('subjectAltName');
if (altNames) { for (var i = 0; i < altNames.altNames.length; i++) { var acn = altNames.altNames[i].value.toLowerCase(); if (obj.certNames.indexOf(acn) == -1) { obj.certNames.push(acn); } } }
// Decode the certificate expire time
obj.certExpire = cert.validity.notAfter;
// Use this certificate when possible on any domain
if (obj.certNames.indexOf(certs.CommonName) >= 0) {
obj.log("Setting LE cert for default domain.");
certs.web.cert = certPem;
certs.web.key = keyPem;
//certs.web.ca = [results.pems.chain];
}
for (var i in obj.parent.config.domains) {
if ((obj.parent.config.domains[i].dns != null) && (obj.parent.certificateOperations.compareCertificateNames(obj.certNames, obj.parent.config.domains[i].dns))) {
obj.log("Setting LE cert for domain " + i + ".");
certs.dns[i].cert = certPem;
certs.dns[i].key = keyPem;
//certs.dns[i].ca = [results.pems.chain];
}
}
} else {
obj.log("No certificate files found");
}
func(certs);
setTimeout(obj.checkRenewCertificate, 5000); // Hold 5 seconds and check if we need to request a certificate.
}
// Check if we need to get a new certificate
// Return 0 = CertOK, 1 = Request:NoCert, 2 = Request:Expire, 3 = Request:MissingNames
obj.checkRenewCertificate = function () {
if (obj.pendingRequest == true) { obj.log("Request for certificate is in process."); return 4; }
if (obj.certNames == null) {
obj.log("Got no certificates, asking for one now.");
obj.requestCertificate();
return 1;
} else {
// Look at the existing certificate to see if we need to renew it
var daysLeft = Math.floor((obj.certExpire - new Date()) / 86400000);
obj.log("Certificate has " + daysLeft + " day(s) left.");
if (daysLeft < 45) {
obj.log("Asking for new certificate because of expire time.");
obj.requestCertificate();
return 2;
} else {
var missingDomain = false;
for (var i in obj.leDomains) {
if (obj.parent.certificateOperations.compareCertificateNames(obj.certNames, obj.leDomains[i]) == false) {
obj.log("Missing name \"" + obj.leDomains[i] + "\".");
missingDomain = true;
}
}
if (missingDomain) {
obj.log("Asking for new certificate because of missing names.");
obj.requestCertificate();
return 3;
} else {
obj.log("Certificate is ok.");
}
}
}
return 0;
}
obj.requestCertificate = function () {
if (obj.pendingRequest == true) return;
if (obj.configOk == false) { obj.log("Can't request cert, invalid configuration."); return; }
if (acme.forge == null) { obj.log("Forge not setup in ACME, unable to continue."); return; }
obj.pendingRequest = true;
// Create a private key
obj.log("Generating private key...");
acme.forge.createPrivateKey().then(function (accountKey) {
// Create the ACME client
obj.log("Setting up ACME client...");
if (obj.zerossl) {
if (obj.zerossl.kid == "") { obj.log("EAB KID hasn't been set, invalid configuration."); return; }
if (obj.zerossl.hmackey == "") { obj.log("EAB HMAC KEY hasn't been set, invalid configuration."); return; }
obj.client = new acme.Client({
directoryUrl: acme.directory.zerossl.production,
accountKey: accountKey,
externalAccountBinding: {
kid: obj.zerossl.kid,
hmacKey: obj.zerossl.hmackey
}
});
} else {
obj.client = new acme.Client({
directoryUrl: obj.runAsProduction ? acme.directory.letsencrypt.production : acme.directory.letsencrypt.staging,
accountKey: accountKey
});
}
// Create Certificate Request (CSR)
obj.log("Creating certificate request...");
var certRequest = { commonName: obj.leDomains[0] };
if (obj.leDomains.length > 1) { certRequest.altNames = obj.leDomains; }
acme.forge.createCsr(certRequest).then(function (r) {
obj.csr = r[1];
obj.tempPrivateKey = r[0];
if(obj.zerossl) { obj.log("Requesting certificate from ZeroSSL..."); } else { obj.log("Requesting certificate from Let's Encrypt..."); }
obj.client.auto({
csr: obj.csr,
email: obj.parent.config.letsencrypt.email,
termsOfServiceAgreed: true,
skipChallengeVerification: (obj.parent.config.letsencrypt.skipchallengeverification === true),
challengeCreateFn,
challengeRemoveFn
}).then(function (cert) {
obj.log("Got certificate.");
// Save certificate and private key to PEM files
var certFile = obj.path.join(obj.certPath, (obj.runAsProduction ? 'production.crt' : 'staging.crt'));
var keyFile = obj.path.join(obj.certPath, (obj.runAsProduction ? 'production.key' : 'staging.key'));
obj.fs.writeFileSync(certFile, cert);
obj.fs.writeFileSync(keyFile, obj.tempPrivateKey);
delete obj.tempPrivateKey;
// Cause a server restart
obj.log("Performing server restart...");
obj.parent.performServerCertUpdate();
}, function (err) {
obj.log("Failed to obtain certificate: " + err.message);
obj.pendingRequest = false;
delete obj.client;
});
}, function (err) {
obj.log("Failed to generate certificate request: " + err.message);
obj.pendingRequest = false;
delete obj.client;
});
}, function (err) {
obj.log("Failed to generate private key: " + err.message);
obj.pendingRequest = false;
delete obj.client;
});
}
// Return the status of this module
obj.getStats = function () {
var r = {
configOk: obj.configOk,
leDomains: obj.leDomains,
challenges: obj.challenges,
production: obj.runAsProduction,
webServer: obj.redirWebServerHooked,
certPath: obj.certPath,
skipChallengeVerification: (obj.parent.config.letsencrypt.skipchallengeverification == true)
};
if (obj.configErr) { r.error = "WARNING: " + obj.configErr; }
if (obj.certExpire) { r.cert = 'Present'; r.daysLeft = Math.floor((obj.certExpire - new Date()) / 86400000); } else { r.cert = 'None'; }
return r;
}
return obj;
}