const fs = require('fs'); const _ = require('lodash'); const logger = require('../logger').ssl; const error = require('../lib/error'); const certificateModel = require('../models/certificate'); const internalAuditLog = require('./audit-log'); const tempWrite = require('temp-write'); const utils = require('../lib/utils'); const moment = require('moment'); const debug_mode = process.env.NODE_ENV !== 'production' || !!process.env.DEBUG; const le_staging = process.env.NODE_ENV !== 'production'; const internalNginx = require('./nginx'); const internalHost = require('./host'); const certbot_command = '/usr/bin/certbot'; const le_config = '/etc/letsencrypt.ini'; const dns_plugins = require('../global/certbot-dns-plugins'); function omissions() { return ['is_deleted']; } const internalCertificate = { allowed_ssl_files: ['certificate', 'certificate_key', 'intermediate_certificate'], interval_timeout: 1000 * 60 * 60, // 1 hour interval: null, interval_processing: false, initTimer: () => { logger.info('Let\'s Encrypt Renewal Timer initialized'); internalCertificate.interval = setInterval(internalCertificate.processExpiringHosts, internalCertificate.interval_timeout); // And do this now as well internalCertificate.processExpiringHosts(); }, /** * Triggered by a timer, this will check for expiring hosts and renew their ssl certs if required */ processExpiringHosts: () => { if (!internalCertificate.interval_processing) { internalCertificate.interval_processing = true; logger.info('Renewing SSL certs close to expiry...'); let cmd = certbot_command + ' renew --non-interactive --quiet ' + '--config "' + le_config + '" ' + '--preferred-challenges "dns,http" ' + '--disable-hook-validation ' + (le_staging ? '--staging' : ''); return utils.exec(cmd) .then((result) => { if (result) { logger.info('Renew Result: ' + result); } return internalNginx.reload() .then(() => { logger.info('Renew Complete'); return result; }); }) .then(() => { // Now go and fetch all the letsencrypt certs from the db and query the files and update expiry times return certificateModel .query() .where('is_deleted', 0) .andWhere('provider', 'letsencrypt') .then((certificates) => { if (certificates && certificates.length) { let promises = []; certificates.map(function (certificate) { promises.push( internalCertificate.getCertificateInfoFromFile('/etc/letsencrypt/live/npm-' + certificate.id + '/fullchain.pem') .then((cert_info) => { return certificateModel .query() .where('id', certificate.id) .andWhere('provider', 'letsencrypt') .patch({ expires_on: moment(cert_info.dates.to, 'X').format('YYYY-MM-DD HH:mm:ss') }); }) .catch((err) => { // Don't want to stop the train here, just log the error logger.error(err.message); }) ); }); return Promise.all(promises); } }); }) .then(() => { internalCertificate.interval_processing = false; }) .catch((err) => { logger.error(err); internalCertificate.interval_processing = false; }); } }, /** * @param {Access} access * @param {Object} data * @returns {Promise} */ create: (access, data) => { return access.can('certificates:create', data) .then(() => { data.owner_user_id = access.token.getUserId(1); if (data.provider === 'letsencrypt') { data.nice_name = data.domain_names.sort().join(', '); } return certificateModel .query() .omit(omissions()) .insertAndFetch(data); }) .then((certificate) => { if (certificate.provider === 'letsencrypt') { // Request a new Cert from LE. Let the fun begin. // 1. Find out any hosts that are using any of the hostnames in this cert // 2. Disable them in nginx temporarily // 3. Generate the LE config // 4. Request cert // 5. Remove LE config // 6. Re-instate previously disabled hosts // 1. Find out any hosts that are using any of the hostnames in this cert return internalHost.getHostsWithDomains(certificate.domain_names) .then((in_use_result) => { // 2. Disable them in nginx temporarily return internalCertificate.disableInUseHosts(in_use_result) .then(() => { return in_use_result; }); }) .then((in_use_result) => { // With DNS challenge no config is needed, so skip 3 and 5. if (certificate.meta.dns_challenge) { return internalNginx.reload().then(() => { // 4. Request cert return internalCertificate.requestLetsEncryptSslWithDnsChallenge(certificate); }) .then(internalNginx.reload) .then(() => { // 6. Re-instate previously disabled hosts return internalCertificate.enableInUseHosts(in_use_result); }) .then(() => { return certificate; }) .catch((err) => { // In the event of failure, revert things and throw err back return internalCertificate.enableInUseHosts(in_use_result) .then(internalNginx.reload) .then(() => { throw err; }); }); } else { // 3. Generate the LE config return internalNginx.generateLetsEncryptRequestConfig(certificate) .then(internalNginx.reload) .then(() => { // 4. Request cert return internalCertificate.requestLetsEncryptSsl(certificate); }) .then(() => { // 5. Remove LE config return internalNginx.deleteLetsEncryptRequestConfig(certificate); }) .then(internalNginx.reload) .then(() => { // 6. Re-instate previously disabled hosts return internalCertificate.enableInUseHosts(in_use_result); }) .then(() => { return certificate; }) .catch((err) => { // In the event of failure, revert things and throw err back return internalNginx.deleteLetsEncryptRequestConfig(certificate) .then(() => { return internalCertificate.enableInUseHosts(in_use_result); }) .then(internalNginx.reload) .then(() => { throw err; }); }); } }) .then(() => { // At this point, the letsencrypt cert should exist on disk. // Lets get the expiry date from the file and update the row silently return internalCertificate.getCertificateInfoFromFile('/etc/letsencrypt/live/npm-' + certificate.id + '/fullchain.pem') .then((cert_info) => { return certificateModel .query() .patchAndFetchById(certificate.id, { expires_on: moment(cert_info.dates.to, 'X').format('YYYY-MM-DD HH:mm:ss') }) .then((saved_row) => { // Add cert data for audit log saved_row.meta = _.assign({}, saved_row.meta, { letsencrypt_certificate: cert_info }); return saved_row; }); }); }).catch(async (error) => { // Delete the certificate from the database if it was not created successfully await certificateModel .query() .deleteById(certificate.id); throw error; }); } else { return certificate; } }).then((certificate) => { data.meta = _.assign({}, data.meta || {}, certificate.meta); // Add to audit log return internalAuditLog.add(access, { action: 'created', object_type: 'certificate', object_id: certificate.id, meta: data }) .then(() => { return certificate; }); }); }, /** * @param {Access} access * @param {Object} data * @param {Number} data.id * @param {String} [data.email] * @param {String} [data.name] * @return {Promise} */ update: (access, data) => { return access.can('certificates:update', data.id) .then((/*access_data*/) => { return internalCertificate.get(access, {id: data.id}); }) .then((row) => { if (row.id !== data.id) { // Sanity check that something crazy hasn't happened throw new error.InternalValidationError('Certificate could not be updated, IDs do not match: ' + row.id + ' !== ' + data.id); } return certificateModel .query() .omit(omissions()) .patchAndFetchById(row.id, data) .then((saved_row) => { saved_row.meta = internalCertificate.cleanMeta(saved_row.meta); data.meta = internalCertificate.cleanMeta(data.meta); // Add row.nice_name for custom certs if (saved_row.provider === 'other') { data.nice_name = saved_row.nice_name; } // Add to audit log return internalAuditLog.add(access, { action: 'updated', object_type: 'certificate', object_id: row.id, meta: _.omit(data, ['expires_on']) // this prevents json circular reference because expires_on might be raw }) .then(() => { return _.omit(saved_row, omissions()); }); }); }); }, /** * @param {Access} access * @param {Object} data * @param {Number} data.id * @param {Array} [data.expand] * @param {Array} [data.omit] * @return {Promise} */ get: (access, data) => { if (typeof data === 'undefined') { data = {}; } return access.can('certificates:get', data.id) .then((access_data) => { let query = certificateModel .query() .where('is_deleted', 0) .andWhere('id', data.id) .allowEager('[owner]') .first(); if (access_data.permission_visibility !== 'all') { query.andWhere('owner_user_id', access.token.getUserId(1)); } // Custom omissions if (typeof data.omit !== 'undefined' && data.omit !== null) { query.omit(data.omit); } if (typeof data.expand !== 'undefined' && data.expand !== null) { query.eager('[' + data.expand.join(', ') + ']'); } return query; }) .then((row) => { if (row) { return _.omit(row, omissions()); } else { throw new error.ItemNotFoundError(data.id); } }); }, /** * @param {Access} access * @param {Object} data * @param {Number} data.id * @param {String} [data.reason] * @returns {Promise} */ delete: (access, data) => { return access.can('certificates:delete', data.id) .then(() => { return internalCertificate.get(access, {id: data.id}); }) .then((row) => { if (!row) { throw new error.ItemNotFoundError(data.id); } return certificateModel .query() .where('id', row.id) .patch({ is_deleted: 1 }) .then(() => { // Add to audit log row.meta = internalCertificate.cleanMeta(row.meta); return internalAuditLog.add(access, { action: 'deleted', object_type: 'certificate', object_id: row.id, meta: _.omit(row, omissions()) }); }) .then(() => { if (row.provider === 'letsencrypt') { // Revoke the cert return internalCertificate.revokeLetsEncryptSsl(row); } }); }) .then(() => { return true; }); }, /** * All Certs * * @param {Access} access * @param {Array} [expand] * @param {String} [search_query] * @returns {Promise} */ getAll: (access, expand, search_query) => { return access.can('certificates:list') .then((access_data) => { let query = certificateModel .query() .where('is_deleted', 0) .groupBy('id') .omit(['is_deleted']) .allowEager('[owner]') .orderBy('nice_name', 'ASC'); if (access_data.permission_visibility !== 'all') { query.andWhere('owner_user_id', access.token.getUserId(1)); } // Query is used for searching if (typeof search_query === 'string') { query.where(function () { this.where('name', 'like', '%' + search_query + '%'); }); } if (typeof expand !== 'undefined' && expand !== null) { query.eager('[' + expand.join(', ') + ']'); } return query; }); }, /** * Report use * * @param {Number} user_id * @param {String} visibility * @returns {Promise} */ getCount: (user_id, visibility) => { let query = certificateModel .query() .count('id as count') .where('is_deleted', 0); if (visibility !== 'all') { query.andWhere('owner_user_id', user_id); } return query.first() .then((row) => { return parseInt(row.count, 10); }); }, /** * @param {Object} certificate * @returns {Promise} */ writeCustomCert: (certificate) => { if (debug_mode) { logger.info('Writing Custom Certificate:', certificate); } let dir = '/data/custom_ssl/npm-' + certificate.id; return new Promise((resolve, reject) => { if (certificate.provider === 'letsencrypt') { reject(new Error('Refusing to write letsencrypt certs here')); return; } let cert_data = certificate.meta.certificate; if (typeof certificate.meta.intermediate_certificate !== 'undefined') { cert_data = cert_data + '\n' + certificate.meta.intermediate_certificate; } try { if (!fs.existsSync(dir)) { fs.mkdirSync(dir); } } catch (err) { reject(err); return; } fs.writeFile(dir + '/fullchain.pem', cert_data, function (err) { if (err) { reject(err); } else { resolve(); } }); }) .then(() => { return new Promise((resolve, reject) => { fs.writeFile(dir + '/privkey.pem', certificate.meta.certificate_key, function (err) { if (err) { reject(err); } else { resolve(); } }); }); }); }, /** * @param {Access} access * @param {Object} data * @param {Array} data.domain_names * @param {String} data.meta.letsencrypt_email * @param {Boolean} data.meta.letsencrypt_agree * @returns {Promise} */ createQuickCertificate: (access, data) => { return internalCertificate.create(access, { provider: 'letsencrypt', domain_names: data.domain_names, meta: data.meta }); }, /** * Validates that the certs provided are good. * No access required here, nothing is changed or stored. * * @param {Object} data * @param {Object} data.files * @returns {Promise} */ validate: (data) => { return new Promise((resolve) => { // Put file contents into an object let files = {}; _.map(data.files, (file, name) => { if (internalCertificate.allowed_ssl_files.indexOf(name) !== -1) { files[name] = file.data.toString(); } }); resolve(files); }) .then((files) => { // For each file, create a temp file and write the contents to it // Then test it depending on the file type let promises = []; _.map(files, (content, type) => { promises.push(new Promise((resolve) => { if (type === 'certificate_key') { resolve(internalCertificate.checkPrivateKey(content)); } else { // this should handle `certificate` and intermediate certificate resolve(internalCertificate.getCertificateInfo(content, true)); } }).then((res) => { return {[type]: res}; })); }); return Promise.all(promises) .then((files) => { let data = {}; _.each(files, (file) => { data = _.assign({}, data, file); }); return data; }); }); }, /** * @param {Access} access * @param {Object} data * @param {Number} data.id * @param {Object} data.files * @returns {Promise} */ upload: (access, data) => { return internalCertificate.get(access, {id: data.id}) .then((row) => { if (row.provider !== 'other') { throw new error.ValidationError('Cannot upload certificates for this type of provider'); } return internalCertificate.validate(data) .then((validations) => { if (typeof validations.certificate === 'undefined') { throw new error.ValidationError('Certificate file was not provided'); } _.map(data.files, (file, name) => { if (internalCertificate.allowed_ssl_files.indexOf(name) !== -1) { row.meta[name] = file.data.toString(); } }); // TODO: This uses a mysql only raw function that won't translate to postgres return internalCertificate.update(access, { id: data.id, expires_on: moment(validations.certificate.dates.to, 'X').format('YYYY-MM-DD HH:mm:ss'), domain_names: [validations.certificate.cn], meta: _.clone(row.meta) // Prevent the update method from changing this value that we'll use later }) .then((certificate) => { console.log('ROWMETA:', row.meta); certificate.meta = row.meta; return internalCertificate.writeCustomCert(certificate); }); }) .then(() => { return _.pick(row.meta, internalCertificate.allowed_ssl_files); }); }); }, /** * Uses the openssl command to validate the private key. * It will save the file to disk first, then run commands on it, then delete the file. * * @param {String} private_key This is the entire key contents as a string */ checkPrivateKey: (private_key) => { return tempWrite(private_key, '/tmp') .then((filepath) => { return new Promise((resolve, reject) => { const failTimeout = setTimeout(() => { reject(new error.ValidationError('Result Validation Error: Validation timed out. This could be due to the key being passphrase-protected.')); }, 10000); utils .exec('openssl pkey -in ' + filepath + ' -check -noout 2>&1 ') .then((result) => { clearTimeout(failTimeout); if (!result.toLowerCase().includes('key is valid')) { reject(new error.ValidationError('Result Validation Error: ' + result)); } fs.unlinkSync(filepath); resolve(true); }) .catch((err) => { clearTimeout(failTimeout); fs.unlinkSync(filepath); reject(new error.ValidationError('Certificate Key is not valid (' + err.message + ')', err)); }); }); }); }, /** * Uses the openssl command to both validate and get info out of the certificate. * It will save the file to disk first, then run commands on it, then delete the file. * * @param {String} certificate This is the entire cert contents as a string * @param {Boolean} [throw_expired] Throw when the certificate is out of date */ getCertificateInfo: (certificate, throw_expired) => { return tempWrite(certificate, '/tmp') .then((filepath) => { return internalCertificate.getCertificateInfoFromFile(filepath, throw_expired) .then((cert_data) => { fs.unlinkSync(filepath); return cert_data; }).catch((err) => { fs.unlinkSync(filepath); throw err; }); }); }, /** * Uses the openssl command to both validate and get info out of the certificate. * It will save the file to disk first, then run commands on it, then delete the file. * * @param {String} certificate_file The file location on disk * @param {Boolean} [throw_expired] Throw when the certificate is out of date */ getCertificateInfoFromFile: (certificate_file, throw_expired) => { let cert_data = {}; return utils.exec('openssl x509 -in ' + certificate_file + ' -subject -noout') .then((result) => { // subject=CN = something.example.com let regex = /(?:subject=)?[^=]+=\s+(\S+)/gim; let match = regex.exec(result); if (typeof match[1] === 'undefined') { throw new error.ValidationError('Could not determine subject from certificate: ' + result); } cert_data['cn'] = match[1]; }) .then(() => { return utils.exec('openssl x509 -in ' + certificate_file + ' -issuer -noout'); }) .then((result) => { // issuer=C = US, O = Let's Encrypt, CN = Let's Encrypt Authority X3 let regex = /^(?:issuer=)?(.*)$/gim; let match = regex.exec(result); if (typeof match[1] === 'undefined') { throw new error.ValidationError('Could not determine issuer from certificate: ' + result); } cert_data['issuer'] = match[1]; }) .then(() => { return utils.exec('openssl x509 -in ' + certificate_file + ' -dates -noout'); }) .then((result) => { // notBefore=Jul 14 04:04:29 2018 GMT // notAfter=Oct 12 04:04:29 2018 GMT let valid_from = null; let valid_to = null; let lines = result.split('\n'); lines.map(function (str) { let regex = /^(\S+)=(.*)$/gim; let match = regex.exec(str.trim()); if (match && typeof match[2] !== 'undefined') { let date = parseInt(moment(match[2], 'MMM DD HH:mm:ss YYYY z').format('X'), 10); if (match[1].toLowerCase() === 'notbefore') { valid_from = date; } else if (match[1].toLowerCase() === 'notafter') { valid_to = date; } } }); if (!valid_from || !valid_to) { throw new error.ValidationError('Could not determine dates from certificate: ' + result); } if (throw_expired && valid_to < parseInt(moment().format('X'), 10)) { throw new error.ValidationError('Certificate has expired'); } cert_data['dates'] = { from: valid_from, to: valid_to }; return cert_data; }).catch((err) => { throw new error.ValidationError('Certificate is not valid (' + err.message + ')', err); }); }, /** * Cleans the ssl keys from the meta object and sets them to "true" * * @param {Object} meta * @param {Boolean} [remove] * @returns {Object} */ cleanMeta: function (meta, remove) { internalCertificate.allowed_ssl_files.map((key) => { if (typeof meta[key] !== 'undefined' && meta[key]) { if (remove) { delete meta[key]; } else { meta[key] = true; } } }); return meta; }, /** * @param {Object} certificate the certificate row * @returns {Promise} */ requestLetsEncryptSsl: (certificate) => { logger.info('Requesting Let\'sEncrypt certificates for Cert #' + certificate.id + ': ' + certificate.domain_names.join(', ')); let cmd = certbot_command + ' certonly --non-interactive ' + '--config "' + le_config + '" ' + '--cert-name "npm-' + certificate.id + '" ' + '--agree-tos ' + '--email "' + certificate.meta.letsencrypt_email + '" ' + '--preferred-challenges "dns,http" ' + '--domains "' + certificate.domain_names.join(',') + '" ' + (le_staging ? '--staging' : ''); if (debug_mode) { logger.info('Command:', cmd); } return utils.exec(cmd) .then((result) => { logger.success(result); return result; }); }, /** * @param {Object} certificate the certificate row * @param {String} dns_provider the dns provider name (key used in `certbot-dns-plugins.js`) * @param {String | null} credentials the content of this providers credentials file * @param {String} propagation_seconds the cloudflare api token * @returns {Promise} */ requestLetsEncryptSslWithDnsChallenge: (certificate) => { const dns_plugin = dns_plugins[certificate.meta.dns_provider]; if (!dns_plugin) { throw Error(`Unknown DNS provider '${certificate.meta.dns_provider}'`); } logger.info(`Requesting Let'sEncrypt certificates via ${dns_plugin.display_name} for Cert #${certificate.id}: ${certificate.domain_names.join(', ')}`); const credentials_loc = '/etc/letsencrypt/credentials/credentials-' + certificate.id; const credentials_cmd = 'mkdir -p /etc/letsencrypt/credentials 2> /dev/null; echo \'' + certificate.meta.dns_provider_credentials.replace('\'', '\\\'') + '\' > \'' + credentials_loc + '\' && chmod 600 \'' + credentials_loc + '\''; const prepare_cmd = 'pip3 install ' + dns_plugin.package_name + '==' + dns_plugin.package_version + ' ' + dns_plugin.dependencies; // Whether the plugin has a ---credentials argument const has_config_arg = certificate.meta.dns_provider !== 'route53' && certificate.meta.dns_provider !== 'duckdns'; let main_cmd = certbot_command + ' certonly --non-interactive ' + '--cert-name "npm-' + certificate.id + '" ' + '--agree-tos ' + '--email "' + certificate.meta.letsencrypt_email + '" ' + '--domains "' + certificate.domain_names.join(',') + '" ' + '--authenticator ' + dns_plugin.full_plugin_name + ' ' + ( has_config_arg ? '--' + dns_plugin.full_plugin_name + '-credentials "' + credentials_loc + '"' : '' ) + ( certificate.meta.propagation_seconds !== undefined ? ' --' + dns_plugin.full_plugin_name + '-propagation-seconds ' + certificate.meta.propagation_seconds : '' ) + (le_staging ? ' --staging' : ''); // Prepend the path to the credentials file as an environment variable if (certificate.meta.dns_provider === 'route53') { main_cmd = 'AWS_CONFIG_FILE=\'' + credentials_loc + '\' ' + main_cmd; } if (certificate.meta.dns_provider === 'duckdns') { main_cmd = main_cmd + ' --' + dns_plugin.full_plugin_name + '-token ' + certificate.meta.dns_provider_credentials; } if (debug_mode) { logger.info('Command:', `${credentials_cmd} && ${prepare_cmd} && ${main_cmd}`); } return utils.exec(credentials_cmd) .then(() => { return utils.exec(prepare_cmd) .then(() => { return utils.exec(main_cmd) .then(async (result) => { logger.info(result); return result; }); }); }).catch(async (err) => { // Don't fail if file does not exist const delete_credentials_cmd = `rm -f '${credentials_loc}' || true`; await utils.exec(delete_credentials_cmd); throw err; }); }, /** * @param {Access} access * @param {Object} data * @param {Number} data.id * @returns {Promise} */ renew: (access, data) => { return access.can('certificates:update', data) .then(() => { return internalCertificate.get(access, data); }) .then((certificate) => { if (certificate.provider === 'letsencrypt') { let renewMethod = certificate.meta.dns_challenge ? internalCertificate.renewLetsEncryptSslWithDnsChallenge : internalCertificate.renewLetsEncryptSsl; return renewMethod(certificate) .then(() => { return internalCertificate.getCertificateInfoFromFile('/etc/letsencrypt/live/npm-' + certificate.id + '/fullchain.pem'); }) .then((cert_info) => { return certificateModel .query() .patchAndFetchById(certificate.id, { expires_on: moment(cert_info.dates.to, 'X').format('YYYY-MM-DD HH:mm:ss') }); }) .then((updated_certificate) => { // Add to audit log return internalAuditLog.add(access, { action: 'renewed', object_type: 'certificate', object_id: updated_certificate.id, meta: updated_certificate }) .then(() => { return updated_certificate; }); }); } else { throw new error.ValidationError('Only Let\'sEncrypt certificates can be renewed'); } }); }, /** * @param {Object} certificate the certificate row * @returns {Promise} */ renewLetsEncryptSsl: (certificate) => { logger.info('Renewing Let\'sEncrypt certificates for Cert #' + certificate.id + ': ' + certificate.domain_names.join(', ')); let cmd = certbot_command + ' renew --non-interactive ' + '--config "' + le_config + '" ' + '--cert-name "npm-' + certificate.id + '" ' + '--preferred-challenges "dns,http" ' + '--disable-hook-validation ' + (le_staging ? '--staging' : ''); if (debug_mode) { logger.info('Command:', cmd); } return utils.exec(cmd) .then((result) => { logger.info(result); return result; }); }, /** * @param {Object} certificate the certificate row * @returns {Promise} */ renewLetsEncryptSslWithDnsChallenge: (certificate) => { const dns_plugin = dns_plugins[certificate.meta.dns_provider]; if (!dns_plugin) { throw Error(`Unknown DNS provider '${certificate.meta.dns_provider}'`); } logger.info(`Renewing Let'sEncrypt certificates via ${dns_plugin.display_name} for Cert #${certificate.id}: ${certificate.domain_names.join(', ')}`); let main_cmd = certbot_command + ' renew --non-interactive ' + '--cert-name "npm-' + certificate.id + '" ' + '--disable-hook-validation' + (le_staging ? ' --staging' : ''); // Prepend the path to the credentials file as an environment variable if (certificate.meta.dns_provider === 'route53') { const credentials_loc = '/etc/letsencrypt/credentials/credentials-' + certificate.id; main_cmd = 'AWS_CONFIG_FILE=\'' + credentials_loc + '\' ' + main_cmd; } if (debug_mode) { logger.info('Command:', main_cmd); } return utils.exec(main_cmd) .then(async (result) => { logger.info(result); return result; }); }, /** * @param {Object} certificate the certificate row * @param {Boolean} [throw_errors] * @returns {Promise} */ revokeLetsEncryptSsl: (certificate, throw_errors) => { logger.info('Revoking Let\'sEncrypt certificates for Cert #' + certificate.id + ': ' + certificate.domain_names.join(', ')); const main_cmd = certbot_command + ' revoke --non-interactive ' + '--cert-path "/etc/letsencrypt/live/npm-' + certificate.id + '/fullchain.pem" ' + '--delete-after-revoke ' + (le_staging ? '--staging' : ''); // Don't fail command if file does not exist const delete_credentials_cmd = `rm -f '/etc/letsencrypt/credentials/credentials-${certificate.id}' || true`; if (debug_mode) { logger.info('Command:', main_cmd + '; ' + delete_credentials_cmd); } return utils.exec(main_cmd) .then(async (result) => { await utils.exec(delete_credentials_cmd); logger.info(result); return result; }) .catch((err) => { if (debug_mode) { logger.error(err.message); } if (throw_errors) { throw err; } }); }, /** * @param {Object} certificate * @returns {Boolean} */ hasLetsEncryptSslCerts: (certificate) => { let le_path = '/etc/letsencrypt/live/npm-' + certificate.id; return fs.existsSync(le_path + '/fullchain.pem') && fs.existsSync(le_path + '/privkey.pem'); }, /** * @param {Object} in_use_result * @param {Number} in_use_result.total_count * @param {Array} in_use_result.proxy_hosts * @param {Array} in_use_result.redirection_hosts * @param {Array} in_use_result.dead_hosts */ disableInUseHosts: (in_use_result) => { if (in_use_result.total_count) { let promises = []; if (in_use_result.proxy_hosts.length) { promises.push(internalNginx.bulkDeleteConfigs('proxy_host', in_use_result.proxy_hosts)); } if (in_use_result.redirection_hosts.length) { promises.push(internalNginx.bulkDeleteConfigs('redirection_host', in_use_result.redirection_hosts)); } if (in_use_result.dead_hosts.length) { promises.push(internalNginx.bulkDeleteConfigs('dead_host', in_use_result.dead_hosts)); } return Promise.all(promises); } else { return Promise.resolve(); } }, /** * @param {Object} in_use_result * @param {Number} in_use_result.total_count * @param {Array} in_use_result.proxy_hosts * @param {Array} in_use_result.redirection_hosts * @param {Array} in_use_result.dead_hosts */ enableInUseHosts: (in_use_result) => { if (in_use_result.total_count) { let promises = []; if (in_use_result.proxy_hosts.length) { promises.push(internalNginx.bulkGenerateConfigs('proxy_host', in_use_result.proxy_hosts)); } if (in_use_result.redirection_hosts.length) { promises.push(internalNginx.bulkGenerateConfigs('redirection_host', in_use_result.redirection_hosts)); } if (in_use_result.dead_hosts.length) { promises.push(internalNginx.bulkGenerateConfigs('dead_host', in_use_result.dead_hosts)); } return Promise.all(promises); } else { return Promise.resolve(); } } }; module.exports = internalCertificate;