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README.md
letiny-core
A framework for building letsencrypt clients, forked from letiny.
Supports all of:
- node with
ursa(works fast) - node with
forge(works on windows) - browser WebCrypto (not implemented, but... Let's Encrypt over WebRTC anyone?)
- any javascript implementation
These aren't the droids you're looking for
This is a library / framework for building letsencrypt clients. You probably want one of these pre-built clients instead:
letsencrypt(compatible with the official client)letiny(lightweight client cli)letsencrypt-express(automatic https for express)
Install & Usage:
npm install --save letiny-core
You will follow these steps to obtain certificates:
- discover ACME registration urls with
getAcmeUrls - register a user account with
registerNewAccount - implement a method to agree to the terms of service as
agreeToTos - get certificates with
getCertificate - implement a method to store the challenge token as
setChallenge - implement a method to get the challenge token as
getChallenge - implement a method to remove the challenge token as
removeChallenge
Demo
You can see this working for yourself, but you'll need to be on an internet connected computer with a domain.
Get a temporary domain for testing
npm install -g ddns-cli
ddns --random --email user@example.com --agree
Note: use YOUR EMAIL and accept the terms of service (run ddns --help to see them).
Install letiny-core and its dependencies. Note: it's okay if you're on windows
and ursa fails to compile. It'll still work.
git clone https://github.com/Daplie/letiny-core.git ~/letiny-core
pushd ~/letiny-core
npm install
Run the demo:
node examples/letsencrypt.js user@example.com example.com
Note: use YOUR TEMPORARY DOMAIN and YOUR EMAIL.
API
The Goodies
// Accounts
LeCore.registerNewAccount(options, cb) // returns "regr" registration data
{ newRegUrl: '<url>' // no defaults, specify acmeUrls.newAuthz
, email: '<email>' // valid email (server checks MX records)
, accountPrivateKeyPem: '<ASCII PEM>' // callback to allow user interaction for tosUrl
, agreeToTerms: fn (tosUrl, cb) {} // must specify agree=tosUrl to continue (or falsey to end)
}
// Registration
LeCore.getCertificate(options, cb) // returns (err, pems={ key, cert, ca })
{ newAuthzUrl: '<url>' // specify acmeUrls.newAuthz
, newCertUrl: '<url>' // specify acmeUrls.newCert
, domainPrivateKeyPem: '<ASCII PEM>'
, accountPrivateKeyPem: '<ASCII PEM>'
, domains: ['example.com']
, setChallenge: fn (hostname, key, val, cb)
, removeChallenge: fn (hostname, key, cb)
}
// Discovery URLs
LeCore.getAcmeUrls(acmeDiscoveryUrl, cb) // returns (err, acmeUrls={newReg,newAuthz,newCert,revokeCert})
Helpers & Stuff
// Constants
LeCore.productionServerUrl // https://acme-v01.api.letsencrypt.org/directory
LeCore.stagingServerUrl // https://acme-staging.api.letsencrypt.org/directory
LeCore.acmeChallengePrefix // /.well-known/acme-challenge/
LeCore.configDir // /etc/letsencrypt/
LeCore.logsDir // /var/log/letsencrypt/
LeCore.workDir // /var/lib/letsencrypt/
LeCore.knownEndpoints // new-authz, new-cert, new-reg, revoke-cert
// HTTP Client Helpers
LeCore.Acme // Signs requests with JWK
acme = new Acme(lePrivateKey) // privateKey format is abstract
acme.post(url, body, cb) // POST with signature
acme.parseLinks(link) // (internal) parses 'link' header
acme.getNonce(url, cb) // (internal) HEAD request to get 'replay-nonce' strings
// Note: some of these are not async,
// but they will be soon. Don't rely
// on their API yet.
// Crypto Helpers
LeCore.leCrypto
generateRsaKeypair(bitLen, exponent, cb); // returns { privateKeyPem, privateKeyJwk, publicKeyPem, publicKeyMd5 }
thumbprint(lePubKey) // generates public key thumbprint
generateSignature(lePrivKey, bodyBuf, nonce) // generates a signature
privateJwkToPems(jwk) // { n: '...', e: '...', iq: '...', ... } to PEMs
privatePemToJwk // PEM to JWK (see line above)
importPemPrivateKey(privateKeyPem) // (internal) returns abstract private key
For testing and development, you can also inject the dependencies you want to use:
LeCore = LeCore.create({
request: require('request')
, leCrypto: rquire('./lib/letsencrypt-forge')
});
// now uses node `request` (could also use jQuery or Angular in the browser)
LeCore.getAcmeUrls(discoveryUrl, function (err, urls) {
console.log(urls);
});
Example
Below you'll find a stripped-down example. You can see the full example in the example folder.
Register Account & Domain
This is how you register an ACME account and get an HTTPS certificate
'use strict';
var LeCore = require('letiny-core');
var email = 'user@example.com'; // CHANGE TO YOUR EMAIL
var domains = 'example.com'; // CHANGE TO YOUR DOMAIN
var acmeDiscoveryUrl = LeCore.stagingServerUrl; // CHANGE to production, when ready
var accountPrivateKeyPem = null;
var domainPrivateKeyPem = null;
var acmeUrls = null;
LeCore.leCrypto.generateRsaKeypair(2048, 65537, function (err, pems) {
// ...
LeCore.getAcmeUrls(acmeDiscoveryUrl, function (err, urls) {
// ...
runDemo();
});
});
function runDemo() {
LeCore.registerNewAccount(
{ newRegUrl: acmeUrls.newReg
, email: email
, accountPrivateKeyPem: accountPrivateKeyPem
, agreeToTerms: function (tosUrl, done) {
// agree to the exact version of these terms
done(null, tosUrl);
}
}
, function (err, regr) {
LeCore.getCertificate(
{ newAuthzUrl: acmeUrls.newAuthz
, newCertUrl: acmeUrls.newCert
, domainPrivateKeyPem: domainPrivateKeyPem
, accountPrivateKeyPem: accountPrivateKeyPem
, domains: domains
, setChallenge: challengeStore.set
, removeChallenge: challengeStore.remove
}
, function (err, certs) {
// Note: you should save certs to disk (or db)
certStore.set(domains[0], certs, function () {
// ...
});
}
);
}
);
}
But wait, there's more! See example/letsencrypt.js
Run a Server on 80, 443, and 5001 (https/tls)
That will fail unless you have a webserver running on 80 and 443 (or 5001)
to respond to /.well-known/acme-challenge/xxxxxxxx with the proper token
var https = require('https');
var http = require('http');
var LeCore = deps.LeCore;
var httpsOptions = deps.httpsOptions;
var challengeStore = deps.challengeStore;
var certStore = deps.certStore;
//
// Challenge Handler
//
function acmeResponder(req, res) {
if (0 !== req.url.indexOf(LeCore.acmeChallengePrefix)) {
res.end('Hello World!');
return;
}
var key = req.url.slice(LeCore.acmeChallengePrefix.length);
challengeStore.get(req.hostname, key, function (err, val) {
res.end(val || 'Error');
});
}
//
// Server
//
https.createServer(httpsOptions, acmeResponder).listen(5001, function () {
console.log('Listening https on', this.address());
});
http.createServer(acmeResponder).listen(80, function () {
console.log('Listening http on', this.address());
});
But wait, there's more! See example/serve.js
Put some storage in place
Finally, you need an implementation of challengeStore:
var challengeCache = {};
var challengeStore = {
set: function (hostname, key, value, cb) {
challengeCache[key] = value;
cb(null);
}
, get: function (hostname, key, cb) {
cb(null, challengeCache[key]);
}
, remove: function (hostname, key, cb) {
delete challengeCache[key];
cb(null);
}
};
var certCache = {};
var certStore = {
set: function (hostname, certs, cb) {
certCache[hostname] = certs;
cb(null);
}
, get: function (hostname, cb) {
cb(null, certCache[hostname]);
}
, remove: function (hostname, cb) {
delete certCache[hostname];
cb(null);
}
};
But wait, there's more! See
Authors
- ISRG
- Anatol Sommer (https://github.com/anatolsommer)
- AJ ONeal aj@daplie.com (https://daplie.com)
Licence
MPL 2.0
All of the code is available under the MPL-2.0.
Some of the files are original work not modified from letiny
and are made available under MIT as well (check file headers).