308 lines
11 KiB
JavaScript
308 lines
11 KiB
JavaScript
'use strict';
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module.exports.create = function (le) {
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var PromiseA = require('bluebird');
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var utils = require('./utils');
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var RSA = PromiseA.promisifyAll(require('rsa-compat').RSA);
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var core = {
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//
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// Helpers
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//
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getAcmeUrlsAsync: function (args) {
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var now = Date.now();
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// TODO check response header on request for cache time
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if ((now - le._ipc.acmeUrlsUpdatedAt) < 10 * 60 * 1000) {
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return PromiseA.resolve(le._ipc.acmeUrls);
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}
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return le.acme.getAcmeUrlsAsync(args.server).then(function (data) {
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le._ipc.acmeUrlsUpdatedAt = Date.now();
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le._ipc.acmeUrls = data;
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return le._ipc.acmeUrls;
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});
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}
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//
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// The Main Enchilada
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//
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//
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// Accounts
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//
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, accounts: {
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// Accounts
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registerAsync: function (args) {
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var err;
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var copy = utils.merge(args, le);
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var disagreeTos;
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args = utils.tplCopy(copy);
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disagreeTos = (!args.agreeTos && 'undefined' !== typeof args.agreeTos);
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if (!args.email || disagreeTos || (parseInt(args.rsaKeySize, 10) < 2048)) {
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err = new Error(
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"In order to register an account both 'email' and 'agreeTos' must be present"
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+ " and 'rsaKeySize' must be 2048 or greater."
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);
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err.code = 'E_ARGS';
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return PromiseA.reject(err);
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}
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return utils.testEmail(args.email).then(function () {
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var keypairOpts = { public: true, pem: true };
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var promise = le.store.accounts.checkKeypairAsync(args).then(function (keypair) {
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return RSA.import(keypair);
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}, function (/*err*/) {
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if (args.accountKeypair) {
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return le.store.accounts.setKeypairAsync(args, RSA.import(args.accountKeypair));
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}
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return RSA.generateKeypairAsync(args.rsaKeySize, 65537, keypairOpts).then(function (keypair) {
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keypair.privateKeyPem = RSA.exportPrivatePem(keypair);
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keypair.publicKeyPem = RSA.exportPublicPem(keypair);
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keypair.privateKeyJwk = RSA.exportPrivateJwk(keypair);
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return le.store.accounts.setKeypairAsync(args, keypair);
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});
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});
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return promise.then(function (keypair) {
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// Note: the ACME urls are always fetched fresh on purpose
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// TODO is this the right place for this?
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return core.getAcmeUrlsAsync(args).then(function (urls) {
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args._acmeUrls = urls;
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return le.acme.registerNewAccountAsync({
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email: args.email
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, newRegUrl: args._acmeUrls.newReg
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, agreeToTerms: function (tosUrl, agreeCb) {
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if (true === args.agreeTos || tosUrl === args.agreeTos || tosUrl === le.agreeToTerms) {
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agreeCb(null, tosUrl);
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return;
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}
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// args.email = email; // already there
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// args.domains = domains // already there
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args.tosUrl = tosUrl;
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le.agreeToTerms(args, agreeCb);
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}
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, accountKeypair: keypair
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, debug: le.debug || args.debug
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}).then(function (receipt) {
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var reg = {
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keypair: keypair
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, receipt: receipt
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, email: args.email
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};
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// TODO move templating of arguments to right here?
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return le.store.accounts.setAsync(args, reg).then(function (account) {
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// should now have account.id and account.accountId
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args.account = account;
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args.accountId = account.id;
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return account;
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});
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});
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});
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});
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});
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}
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// Accounts
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, getAsync: function (args) {
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return core.accounts.checkAsync(args).then(function (account) {
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if (account) {
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return account;
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} else {
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return core.accounts.registerAsync(args);
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}
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});
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}
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// Accounts
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, checkAsync: function (args) {
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var requiredArgs = ['accountId', 'email', 'domains', 'domain'];
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if (!requiredArgs.some(function (key) { return -1 !== Object.keys(args).indexOf(key); })) {
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return PromiseA.reject(new Error(
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"In order to register or retrieve an account one of '" + requiredArgs.join("', '") + "' must be present"
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));
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}
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var copy = utils.merge(args, le);
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args = utils.tplCopy(copy);
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return le.store.accounts.checkAsync(args).then(function (account) {
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if (!account) {
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return null;
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}
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args.account = account;
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args.accountId = account.id;
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return account;
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});
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}
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}
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, certificates: {
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// Certificates
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registerAsync: function (args) {
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var err;
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var copy = utils.merge(args, le);
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args = utils.tplCopy(copy);
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if (!Array.isArray(args.domains)) {
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return PromiseA.reject(new Error('args.domains should be an array of domains'));
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}
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if (!(args.domains.length && args.domains.every(utils.isValidDomain))) {
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// NOTE: this library can't assume to handle the http loopback
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// (or dns-01 validation may be used)
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// so we do not check dns records or attempt a loopback here
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err = new Error("invalid domain name(s): '" + args.domains + "'");
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err.code = "INVALID_DOMAIN";
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return PromiseA.reject(err);
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}
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return core.accounts.getAsync(copy).then(function (account) {
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copy.account = account;
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//var account = args.account;
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var keypairOpts = { public: true, pem: true };
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var promise = le.store.certificates.checkKeypairAsync(args).then(function (keypair) {
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return RSA.import(keypair);
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}, function (/*err*/) {
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if (args.domainKeypair) {
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return le.store.certificates.setKeypairAsync(args, RSA.import(args.domainKeypair));
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}
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return RSA.generateKeypairAsync(args.rsaKeySize, 65537, keypairOpts).then(function (keypair) {
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keypair.privateKeyPem = RSA.exportPrivatePem(keypair);
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keypair.publicKeyPem = RSA.exportPublicPem(keypair);
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keypair.privateKeyJwk = RSA.exportPrivateJwk(keypair);
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return le.store.certificates.setKeypairAsync(args, keypair);
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});
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});
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return promise.then(function (domainKeypair) {
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args.domainKeypair = domainKeypair;
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//args.registration = domainKey;
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// Note: the ACME urls are always fetched fresh on purpose
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// TODO is this the right place for this?
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return core.getAcmeUrlsAsync(args).then(function (urls) {
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args._acmeUrls = urls;
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return le.acme.getCertificateAsync({
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debug: args.debug || le.debug
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, newAuthzUrl: args._acmeUrls.newAuthz
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, newCertUrl: args._acmeUrls.newCert
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, accountKeypair: RSA.import(account.keypair)
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, domainKeypair: domainKeypair
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, domains: args.domains
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, challengeType: args.challengeType
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//
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// IMPORTANT
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//
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// setChallenge and removeChallenge are handed defaults
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// instead of args because getChallenge does not have
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// access to args
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// (args is per-request, defaults is per instance)
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//
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, setChallenge: function (domain, key, value, done) {
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var copy = utils.merge({ domains: [domain] }, le);
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utils.tplCopy(copy);
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//args.domains = [domain];
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args.domains = args.domains || [domain];
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if (5 !== le.challenger.set.length) {
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done(new Error("le.challenger.set receives the wrong number of arguments."
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+ " You must define setChallenge as function (opts, domain, key, val, cb) { }"));
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return;
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}
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le.challenger.set(copy, domain, key, value, done);
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}
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, removeChallenge: function (domain, key, done) {
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var copy = utils.merge({ domains: [domain] }, le);
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utils.tplCopy(copy);
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if (4 !== le.challenger.remove.length) {
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done(new Error("le.challenger.remove receives the wrong number of arguments."
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+ " You must define removeChallenge as function (opts, domain, key, cb) { }"));
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return;
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}
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le.challenger.remove(copy, domain, key, done);
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}
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}).then(utils.attachCertInfo);
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});
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}).then(function (results) {
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// { cert, chain, privkey }
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args.pems = results;
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return le.store.certificates.setAsync(args).then(function () {
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return results;
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});
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});
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});
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}
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, renewAsync: function (args) {
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// TODO fetch email address if not present
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return core.certificates.registerAsync(args);
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}
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, checkAsync: function (args) {
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var copy = utils.merge(args, le);
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utils.tplCopy(copy);
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// returns pems
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return le.store.certificates.checkAsync(copy).then(utils.attachCertInfo);
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}
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, getAsync: function (args) {
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var copy = utils.merge(args, le);
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args = utils.tplCopy(copy);
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return core.certificates.checkAsync(args).then(function (certs) {
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if (!certs) {
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// There is no cert available
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return core.certificates.registerAsync(args);
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}
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var renewableAt = certs.expiresAt - le.renewWithin;
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//var halfLife = (certs.expiresAt - certs.issuedAt) / 2;
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//var renewable = (Date.now() - certs.issuedAt) > halfLife;
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if (args.duplicate || Date.now() >= renewableAt) {
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// The cert is more than half-expired
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// We're forcing a refresh via 'dupliate: true'
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return core.certificates.renewAsync(args);
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}
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return PromiseA.reject(new Error(
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"[ERROR] Certificate issued at '"
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+ new Date(certs.issuedAt).toISOString() + "' and expires at '"
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+ new Date(certs.expiresAt).toISOString() + "'. Ignoring renewal attempt until half-life at '"
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+ new Date(renewableAt).toISOString() + "'. Set { duplicate: true } to force."
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));
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}).then(function (results) {
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// returns pems
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return results;
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});
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}
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}
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};
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return core;
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};
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