le-store-certbot.js/index.js

622 lines
21 KiB
JavaScript

'use strict';
var PromiseA = require('bluebird');
var mkdirpAsync = PromiseA.promisify(require('mkdirp'));
var path = require('path');
var fs = PromiseA.promisifyAll(require('fs'));
var sfs = require('safe-replace');
function log(debug) {
if (debug) {
var args = Array.prototype.slice.call(arguments);
args.shift();
args.unshift("[le-store-certbot]");
console.log.apply(console, args);
}
}
function writeRenewalConfig(args) {
var pyobj = args.pyobj;
pyobj.checkpoints = parseInt(pyobj.checkpoints, 10) || 0;
var pyconf = PromiseA.promisifyAll(require('pyconf'));
var liveDir = args.liveDir || path.join(args.configDir, 'live', args.domains[0]);
var certPath = args.certPath || pyobj.cert || path.join(liveDir, 'cert.pem');
var fullchainPath = args.fullchainPath || pyobj.fullchain || path.join(liveDir, 'fullchain.pem');
var chainPath = args.chainPath || pyobj.chain || path.join(liveDir, 'chain.pem');
var privkeyPath = args.privkeyPath || pyobj.privkey
//|| args.domainPrivateKeyPath || args.domainKeyPath || pyobj.keyPath
|| path.join(liveDir, 'privkey.pem');
log(args.debug, 'writeRenewalConfig privkeyPath', privkeyPath);
var updates = {
account: args.account.id
, configDir: args.configDir
, domains: args.domains
, email: args.email
, tos: args.agreeTos && true
// yes, it's an array. weird, right?
, webrootPath: args.webrootPath && [args.webrootPath] || []
, server: args.server || args.acmeDiscoveryUrl
, privkey: privkeyPath
, fullchain: fullchainPath
, cert: certPath
, chain: chainPath
, http01Port: args.http01Port
, keyPath: args.domainPrivateKeyPath || args.privkeyPath
, rsaKeySize: args.rsaKeySize
, checkpoints: pyobj.checkpoints
/* // TODO XXX what's the deal with these? they don't make sense
// are they just old junk? or do they have a meaning that I don't know about?
, fullchainPath: path.join(args.configDir, 'chain.pem')
, certPath: path.join(args.configDir, 'cert.pem')
, chainPath: path.join(args.configDir, 'chain.pem')
*/ // TODO XXX end
, workDir: args.workDir
, logsDir: args.logsDir
};
// final section is completely dynamic
// :hostname = :webroot_path
args.domains.forEach(function (hostname) {
updates[hostname] = args.webrootPath;
});
// must write back to the original pyobject or
// annotations will be lost
Object.keys(updates).forEach(function (key) {
pyobj[key] = updates[key];
});
return mkdirpAsync(path.dirname(args.renewalPath)).then(function () {
return pyconf.writeFileAsync(args.renewalPath, pyobj);
}).then(function () {
// NOTE
// writing twice seems to causes a bug,
// so instead we re-read the file from the disk
return pyconf.readFileAsync(args.renewalPath);
});
}
function pyToJson(pyobj) {
if (!pyobj) {
return null;
}
var jsobj = {};
Object.keys(pyobj).forEach(function (key) {
jsobj[key] = pyobj[key];
});
jsobj.__lines = undefined;
jsobj.__keys = undefined;
return jsobj;
}
var defaults = {
configDir: [ '~', 'letsencrypt', 'etc' ].join(path.sep) // /etc/letsencrypt/
, logsDir: [ '~', 'letsencrypt', 'var', 'log' ].join(path.sep) // /var/log/letsencrypt/
, workDir: [ '~', 'letsencrypt', 'var', 'lib' ].join(path.sep) // /var/lib/letsencrypt/
, accountsDir: [ ':configDir', 'accounts', ':serverDir' ].join(path.sep)
, renewalPath: [ ':configDir', 'renewal', ':hostname.conf' ].join(path.sep)
, renewalDir: [ ':configDir', 'renewal', '' ].join(path.sep)
, serverDirGet: function (copy) {
return (copy.server || '').replace('https://', '').replace(/(\/)$/, '').replace(/\//g, path.sep);
}
, privkeyPath: ':configDir/live/:hostname/privkey.pem'.split(/\//).join(path.sep)
, fullchainPath: [ ':configDir', 'live', ':hostname', 'fullchain.pem' ].join(path.sep)
, certPath: [ ':configDir', 'live', ':hostname', 'cert.pem' ].join(path.sep)
, chainPath: [ ':configDir', 'live', ':hostname', 'chain.pem' ].join(path.sep)
, rsaKeySize: 2048
, webrootPath: [ ':workDir', 'acme-challenge' ].join(path.sep)
};
module.exports.create = function (configs) {
var mergedConfigs;
var store = {
getOptions: function () {
if (mergedConfigs) {
return configs;
}
if (!configs.domainKeyPath) {
configs.domainKeyPath = configs.privkeyPath || defaults.privkeyPath;
}
Object.keys(defaults).forEach(function (key) {
if (!configs[key]) {
configs[key] = defaults[key];
}
});
mergedConfigs = configs;
return configs;
}
, keypairs: {
checkAsync: function (keypath, format) {
if (!keypath) {
return null;
}
return fs.readFileAsync(keypath, 'ascii').then(function (key) {
if ('jwk' === format) {
return { privateKeyJwk: JSON.parse(key) };
}
else {
return { privateKeyPem: key };
}
}, function (err) {
if ('ENOENT' !== err.code) {
throw err;
}
return null;
});
}
, setAsync: function (keypath, keypair, format) {
return mkdirpAsync(path.dirname(keypath)).then(function () {
var key;
if ('jwk' === format) {
key = JSON.stringify(keypair.privateKeyJwk, null, ' ');
}
else {
key = keypair.privateKeyPem;
}
return fs.writeFileAsync(keypath, key, 'ascii').then(function () {
return keypair;
});
});
}
}
//
// Certificates
//
, certificates: {
// Certificates
checkKeypairAsync: function (args) {
if (!args.domainKeyPath) {
return PromiseA.reject(new Error("missing options.domainKeyPath"));
}
return store.keypairs.checkAsync(args.domainKeyPath, 'pem');
}
// Certificates
, setKeypairAsync: function (args, keypair) {
return store.keypairs.setAsync(args.domainKeyPath, keypair, 'pem');
}
// Certificates
, checkAsync: function (args) {
if (!args.fullchainPath || !args.privkeyPath || !args.certPath || !args.chainPath) {
return PromiseA.reject(new Error("missing one or more of privkeyPath, fullchainPath, certPath, chainPath from options"));
}
//, fs.readFileAsync(fullchainPath, 'ascii')
// note: if this ^^ gets added back in, the arrays below must change
return PromiseA.all([
fs.readFileAsync(args.privkeyPath, 'ascii') // 0
, fs.readFileAsync(args.certPath, 'ascii') // 1
, fs.readFileAsync(args.chainPath, 'ascii') // 2
// stat the file, not the link
, fs.statAsync(args.certPath) // 3
]).then(function (arr) {
return {
privkey: arr[0] // privkey.pem
, cert: arr[1] // cert.pem
, chain: arr[2] // chain.pem
/*
// TODO populate these values only if they are known
, issuedAt: arr[3].mtime.valueOf()
, expiresAt: arr[3].mtime.valueOf() + (90 * 24 * 60 * 60 * 100)
*/
};
}, function (err) {
if (args.debug) {
console.error("[le-store-certbot] certificates.check");
console.error(err.stack);
}
return null;
});
}
// Certificates
, setAsync: function (args) {
return store.configs.getAsync(args).then(function (pyobj) {
var pems = args.pems;
pyobj.checkpoints = parseInt(pyobj.checkpoints, 10) || 0;
var liveDir = args.liveDir || path.join(args.configDir, 'live', args.domains[0]);
var certPath = args.certPath || pyobj.cert || path.join(liveDir, 'cert.pem');
var fullchainPath = args.fullchainPath || pyobj.fullchain || path.join(liveDir, 'fullchain.pem');
var chainPath = args.chainPath || pyobj.chain || path.join(liveDir, 'chain.pem');
var privkeyPath = args.privkeyPath || pyobj.privkey
|| args.domainKeyPath
|| path.join(liveDir, 'privkey.pem');
var archiveDir = args.archiveDir || path.join(args.configDir, 'archive', args.domains[0]);
var checkpoints = pyobj.checkpoints.toString();
var certArchive = path.join(archiveDir, 'cert' + checkpoints + '.pem');
var fullchainArchive = path.join(archiveDir, 'fullchain' + checkpoints + '.pem');
var chainArchive = path.join(archiveDir, 'chain'+ checkpoints + '.pem');
var privkeyArchive = path.join(archiveDir, 'privkey' + checkpoints + '.pem');
return mkdirpAsync(archiveDir).then(function () {
return PromiseA.all([
sfs.writeFileAsync(certArchive, pems.cert, 'ascii')
, sfs.writeFileAsync(chainArchive, pems.chain, 'ascii')
, sfs.writeFileAsync(fullchainArchive, pems.cert + pems.chain, 'ascii')
, sfs.writeFileAsync(privkeyArchive, pems.privkey, 'ascii')
]);
}).then(function () {
return mkdirpAsync(liveDir);
}).then(function () {
return PromiseA.all([
sfs.writeFileAsync(certPath, pems.cert, 'ascii')
, sfs.writeFileAsync(chainPath, pems.chain, 'ascii')
, sfs.writeFileAsync(fullchainPath, pems.cert + pems.chain, 'ascii')
, sfs.writeFileAsync(privkeyPath, pems.privkey, 'ascii')
]);
}).then(function () {
pyobj.checkpoints += 1;
args.checkpoints += 1;
// TODO other than for compatibility this is optional, right?
// or is it actually needful for renewal? (i.e. list of domains)
return writeRenewalConfig(args);
}).then(function () {
return {
privkey: pems.privkey
, cert: pems.cert
, chain: pems.chain
/*
// TODO populate these only if they are actually known
, issuedAt: Date.now()
, expiresAt: Date.now() + (90 * 24 * 60 * 60 * 100)
*/
};
});
});
}
}
//
// Accounts
//
, accounts: {
// Accounts
_getAccountKeyPath: function (args) {
var promise = PromiseA.resolve(args.accountId);
if (args.email && !args.accountKeyPath && !args.accountId) {
promise = store.accounts._getAccountIdByEmail(args);
}
return promise.then(function (accountId) {
if (!accountId) {
return null;
}
return args.accountKeyPath || path.join(args.accountsDir, accountId, 'private_key.json');
});
}
// Accounts
, _getAccountIdByEmail: function (args) {
// If we read 10,000 account directories looking for
// just one email address, that could get crazy.
// We should have a folder per email and list
// each account as a file in the folder
// TODO
var email = args.email;
if ('string' !== typeof email) {
log(args.debug, "No email given");
return PromiseA.resolve(null);
}
return fs.readdirAsync(args.accountsDir).then(function (nodes) {
log(args.debug, "success reading arg.accountsDir");
return PromiseA.all(nodes.map(function (node) {
return fs.readFileAsync(path.join(args.accountsDir, node, 'regr.json'), 'utf8').then(function (text) {
var regr = JSON.parse(text);
regr.__accountId = node;
return regr;
});
})).then(function (regrs) {
var accountId;
log(args.debug, "regrs.length", regrs.length);
regrs.some(function (regr) {
return regr.body.contact.some(function (contact) {
var match = contact.toLowerCase() === 'mailto:' + email.toLowerCase();
if (match) {
accountId = regr.__accountId;
return true;
}
});
});
if (!accountId) {
return null;
}
return accountId;
});
}).then(function (accountId) {
return accountId;
}, function (err) {
if ('ENOENT' === err.code) {
// ignore error
return null;
}
return PromiseA.reject(err);
});
}
// Accounts
, _getAccountIdByPublicKey: function (keypair) {
// we use insecure md5 - even though we know it's bad - because that's how the python client did
return require('crypto').createHash('md5').update(keypair.publicKeyPem).digest('hex');
}
// Accounts
, checkKeypairAsync: function (args) {
if (!(args.accountKeyPath || args.accountsDir)) {
return PromiseA.reject(new Error("must provide one of options.accountKeyPath or options.accountsDir"));
}
return store.accounts._getAccountKeyPath(args).then(function (keypath) {
return store.keypairs.checkAsync(keypath, 'jwk');
});
}
// Accounts
, setKeypairAsync: function (args, keypair) {
var accountId;
if (args.email) {
accountId = store.accounts._getAccountIdByPublicKey(keypair);
}
return store.accounts._getAccountKeyPath({
accountsDir: args.accountsDir
, email: args.email
, accountId: args.accountId || accountId
}).then(function (keypath) {
return store.keypairs.setAsync(keypath, keypair, 'jwk');
});
}
// Accounts
, checkAsync: function (args) {
var promise;
var files = {};
var accountId;
if (args.accountId) {
promise = PromiseA.resolve(args.accountId);
}
else if (args.email) {
promise = store.accounts._getAccountIdByEmail(args);
}
else {
promise = PromiseA.reject(new Error("must provide accountId or email"));
}
return promise.then(function (_accountId) {
log(args.debug, 'accountId:', _accountId);
if (!_accountId) {
return false;
}
accountId = _accountId;
var accountDir = path.join(args.accountsDir, accountId);
var configs = [ 'meta.json', 'private_key.json', 'regr.json' ];
return PromiseA.all(configs.map(function (filename) {
var keyname = filename.slice(0, -5);
return fs.readFileAsync(path.join(accountDir, filename), 'utf8').then(function (text) {
var data;
try {
data = JSON.parse(text);
} catch(e) {
files[keyname] = { error: e };
return;
}
files[keyname] = data;
return true;
}, function (err) {
log(args.debug, 'Error reading account files:', err);
files[keyname] = { error: err };
});
}));
}).then(function (hasAccount) {
if (!hasAccount) {
return null;
}
var err;
if (!Object.keys(files).every(function (key) {
return !files[key].error;
}) || !files.private_key || !files.private_key.n) {
err = new Error("Account '" + accountId + "' was corrupt (had id, but was missing files).");
err.code = 'E_ACCOUNT_CORRUPT';
err.data = files;
return PromiseA.reject(err);
}
//files.private_key;
//files.regr;
//files.meta;
files.accountId = accountId; // preserve current account id
files.id = accountId;
files.keypair = { privateKeyJwk: files.private_key };
return files;
});
}
// Accounts
, setAsync: function (args, reg) {
var os = require("os");
var accountId = store.accounts._getAccountIdByPublicKey(reg.keypair);
var accountDir = path.join(args.accountsDir, accountId);
var accountMeta = {
creation_host: os.hostname()
, creation_dt: new Date().toISOString()
};
return mkdirpAsync(accountDir).then(function () {
// TODO abstract file writing
return PromiseA.all([
// meta.json {"creation_host": "ns1.redirect-www.org", "creation_dt": "2015-12-11T04:14:38Z"}
fs.writeFileAsync(path.join(accountDir, 'meta.json'), JSON.stringify(accountMeta), 'utf8')
// private_key.json { "e", "d", "n", "q", "p", "kty", "qi", "dp", "dq" }
, fs.writeFileAsync(path.join(accountDir, 'private_key.json'), JSON.stringify(reg.keypair.privateKeyJwk), 'utf8')
// regr.json:
/*
{ body: { contact: [ 'mailto:coolaj86@gmail.com' ],
agreement: 'https://letsencrypt.org/documents/LE-SA-v1.0.1-July-27-2015.pdf',
key: { e: 'AQAB', kty: 'RSA', n: '...' } },
uri: 'https://acme-v01.api.letsencrypt.org/acme/reg/71272',
new_authzr_uri: 'https://acme-v01.api.letsencrypt.org/acme/new-authz',
terms_of_service: 'https://letsencrypt.org/documents/LE-SA-v1.0.1-July-27-2015.pdf' }
*/
, fs.writeFileAsync(path.join(accountDir, 'regr.json'), JSON.stringify({ body: reg.receipt }), 'utf8')
]);
}).then(function () {
return {
id: accountId
, accountId: accountId
, email: args.email
, keypair: reg.keypair
, receipt: reg.receipt
};
});
}
// Accounts
, getAccountIdAsync: function (args) {
var pyconf = PromiseA.promisifyAll(require('pyconf'));
return pyconf.readFileAsync(args.renewalPath).then(function (renewal) {
var accountId = renewal.account;
renewal = renewal.account;
return accountId;
}, function (err) {
if ("ENOENT" === err.code) {
return store.accounts._getAccountIdByEmail(args);
}
return PromiseA.reject(err);
});
}
}
//
// Configs
//
, configs: {
// Configs
checkAsync: function (copy) {
copy.domains = [];
return store.configs._checkHelperAsync(copy).then(function (pyobj) {
var exists = pyobj.checkpoints >= 0;
if (!exists) {
return null;
}
return pyToJson(pyobj);
});
}
// Configs
, _checkHelperAsync: function (args) {
var pyconf = PromiseA.promisifyAll(require('pyconf'));
return pyconf.readFileAsync(args.renewalPath).then(function (pyobj) {
return pyobj;
}, function () {
return pyconf.readFileAsync(path.join(__dirname, 'renewal.conf.tpl')).then(function (pyobj) {
return pyobj;
});
});
}
// Configs
, getAsync: function (args) {
return store.configs._checkHelperAsync(args).then(function (pyobj) {
var minver = pyobj.checkpoints >= 0;
args.pyobj = pyobj;
if (!minver) {
args.checkpoints = 0;
pyobj.checkpoints = 0;
return writeRenewalConfig(args);
}
// args.account.id = pyobj.account
// args.configDir = args.configDir || pyobj.configDir;
args.checkpoints = pyobj.checkpoints;
args.agreeTos = (args.agreeTos || pyobj.tos) && true;
args.email = args.email || pyobj.email;
args.domains = args.domains || pyobj.domains;
// yes, it's an array. weird, right?
args.webrootPath = args.webrootPath || pyobj.webrootPath[0];
args.server = args.server || args.acmeDiscoveryUrl || pyobj.server;
args.certPath = args.certPath || pyobj.cert;
args.privkeyPath = args.privkeyPath || pyobj.privkey;
args.chainPath = args.chainPath || pyobj.chain;
args.fullchainPath = args.fullchainPath || pyobj.fullchain;
//, workDir: args.workDir
//, logsDir: args.logsDir
args.rsaKeySize = args.rsaKeySize || pyobj.rsaKeySize;
args.http01Port = args.http01Port || pyobj.http01Port;
args.domainKeyPath = args.domainKeyPath || args.keyPath || pyobj.keyPath;
return writeRenewalConfig(args);
});
}
// Configs
, allAsync: function (copy) {
copy.domains = [];
return fs.readdirAsync(copy.renewalDir).then(function (nodes) {
nodes = nodes.filter(function (node) {
return /^[a-z0-9]+.*\.conf$/.test(node);
});
return PromiseA.all(nodes.map(function (node) {
copy.domains = [node.replace(/\.conf$/, '')];
return store.configs.getAsync(copy);
}));
});
}
}
};
return store;
};