le-acme-core.js/lib/client.js

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2015-12-13 16:50:04 +00:00
/*!
* letiny
* Copyright(c) 2015 Anatol Sommer <anatol@anatol.at>
* Some code used from https://github.com/letsencrypt/boulder/tree/master/test/js
* MPL 2.0
*/
'use strict';
var _DEBUG, NOOP=new Function(), log=NOOP,
mkdirp=require('mkdirp').sync, request=require('request'),
forge=require('node-forge'), pki=forge.pki,
cryptoUtil=require('./crypto-util'), util=require('./acme-util'),
fs=require('fs'), path=require('path');
function Acme(privateKey) {
this.privateKey=privateKey;
this.nonces=[];
}
Acme.prototype.getNonce=function(url, cb) {
var self=this;
request.head({
url:url,
}, function(err, res, body) {
if (err) {
return cb(err);
}
if (res && 'replay-nonce' in res.headers) {
log('Storing nonce: '+res.headers['replay-nonce']);
self.nonces.push(res.headers['replay-nonce']);
cb();
return;
}
cb(new Error('Failed to get nonce for request'));
});
};
Acme.prototype.post=function(url, body, cb) {
var self=this, payload, jws, signed;
if (this.nonces.length===0) {
this.getNonce(url, function(err) {
if (err) {
return cb(err);
}
self.post(url, body, cb);
});
return;
}
log('Using nonce: '+this.nonces[0]);
payload=JSON.stringify(body, null, 2);
jws=cryptoUtil.generateSignature(
this.privateKey, new Buffer(payload), this.nonces.shift()
);
signed=JSON.stringify(jws, null, 2);
log('Posting to '+url);
log(signed.green);
log('Payload:'+payload.blue);
return request.post({
url:url,
body:signed,
encoding:null
}, function(err, res, body) {
var parsed;
if (err) {
console.error(err);
return cb(err);
}
if (res) {
log(('HTTP/1.1 '+res.statusCode).yellow);
}
Object.keys(res.headers).forEach(function(key) {
var value, upcased;
value=res.headers[key];
upcased=key.charAt(0).toUpperCase()+key.slice(1);
log((upcased+': '+value).yellow);
});
if (body && !body.toString().match(/[^\x00-\x7F]/)) {
try {
parsed=JSON.parse(body);
log(JSON.stringify(parsed, null, 2).cyan);
} catch(err) {
log(body.toString().cyan);
}
}
if ('replay-nonce' in res.headers) {
log('Storing nonce: '+res.headers['replay-nonce']);
self.nonces.push(res.headers['replay-nonce']);
}
cb(err, res, body);
});
};
function getCert(options, cb) {
var state={
validatedDomains:[],
validAuthorizationURLs:[]
};
options.newReg=options.newReg || 'https://acme-v01.api.letsencrypt.org/acme/new-reg';
if (!options.email) {
return cb(new Error('No "email" option given!'));
}
if (typeof options.domains==='string') {
state.domains=options.domains.split(/[, ]+/);
} else if (options.domains && options.domains instanceof Array) {
state.domains=options.domains.slice();
} else {
return cb(new Error('No valid "domains" option given!'));
}
if ((_DEBUG=options.debug)) {
if (!''.green) {
require('colors');
}
log=console.log.bind(console);
} else {
log=NOOP;
}
makeAccountKeyPair();
function makeAccountKeyPair() {
var keypair;
log('Generating account keypair...');
keypair=pki.rsa.generateKeyPair(2048);
state.accountKeyPair=cryptoUtil.importPemPrivateKey(pki.privateKeyToPem(keypair.privateKey));
state.acme=new Acme(state.accountKeyPair);
makeKeyPair();
}
function makeKeyPair() {
var keypair;
log('Generating cert keypair...');
keypair=pki.rsa.generateKeyPair(2048);
state.certPrivateKeyPEM=pki.privateKeyToPem(keypair.privateKey);
state.certPrivateKey=cryptoUtil.importPemPrivateKey(state.certPrivateKeyPEM);
register();
}
function register() {
post(options.newReg, {
resource:'new-reg',
contact:['mailto:'+options.email]
}, getTerms);
}
function getTerms(err, res) {
var links;
if (err || Math.floor(res.statusCode/100)!==2) {
return handleErr(err, 'Registration request failed');
}
links=parseLink(res.headers['link']);
if (!links || !('next' in links)) {
return handleErr(err, 'Server didn\'t provide information to proceed (1)');
}
state.registrationURL=res.headers['location'];
state.newAuthorizationURL=links['next'];
state.termsRequired=('terms-of-service' in links);
if (state.termsRequired) {
state.termsURL=links['terms-of-service'];
log(state.termsURL);
request.get(state.termsURL, getAgreement);
} else {
getChallenges();
}
}
function getAgreement(err, res, body) {
if (err) {
return handleErr(err, 'Couldn\'t get agreement');
}
log('The CA requires your agreement to terms:\n'+state.termsURL);
sendAgreement();
}
function sendAgreement() {
if (state.termsRequired && !options.agreeTerms) {
return handleErr(null, 'The CA requires your agreement to terms: '+state.termsURL);
}
log('Posting agreement to: '+state.registrationURL);
post(state.registrationURL, {
resource:'reg',
agreement:state.termsURL
}, function(err, res, body) {
if (err || Math.floor(res.statusCode/100)!==2) {
return handleErr(err, 'Couldn\'t POST agreement back to server', body);
} else {
nextDomain();
}
});
}
function nextDomain() {
if (state.domains.length > 0) {
getChallenges(state.domains.shift());
return;
} else {
getCertificate();
}
}
function getChallenges(domain) {
state.domain=domain;
post(state.newAuthorizationURL, {
resource:'new-authz',
identifier:{
type:'dns',
value:state.domain,
}
}, getReadyToValidate);
}
function getReadyToValidate(err, res, body) {
var links, authz, httpChallenges, challenge, thumbprint, keyAuthorization, challengePath;
if (err || Math.floor(res.statusCode/100)!==2) {
return handleErr(err, 'Authorization request failed with code '+res.statusCode);
}
links=parseLink(res.headers['link']);
if (!links || !('next' in links)) {
return handleErr(err, 'Server didn\'t provide information to proceed (2)');
}
state.authorizationURL=res.headers['location'];
state.newCertificateURL=links['next'];
authz=JSON.parse(body);
httpChallenges=authz.challenges.filter(function(x) {
return x.type==='http-01';
});
if (httpChallenges.length===0) {
return handleErr(null, 'Server didn\'t offer any challenge we can handle.');
}
challenge=httpChallenges[0];
thumbprint=cryptoUtil.thumbprint(state.accountKeyPair.publicKey);
keyAuthorization=challenge.token+'.'+thumbprint;
challengePath='.well-known/acme-challenge/'+challenge.token;
state.responseURL=challenge['uri'];
state.path=challengePath;
if (options.webroot) {
try {
mkdirp(path.dirname(options.webroot+'/'+challengePath));
fs.writeFileSync(path.normalize(options.webroot+'/'+challengePath), keyAuthorization);
challengeDone();
} catch(err) {
handleErr(err, 'Could not write challange file to disk');
}
} else if (typeof options.challenge==='function') {
options.challenge(state.domain, '/'+challengePath, keyAuthorization, challengeDone);
} else {
return handleErr(null, 'No "challenge" function or "webroot" option given.');
}
function challengeDone() {
post(state.responseURL, {
resource:'challenge',
keyAuthorization:keyAuthorization
}, function(err, res, body) {
ensureValidation(err, res, body, function unlink() {
if (options.webroot) {
fs.unlinkSync(path.normalize(options.webroot+'/'+challengePath));
}
});
});
}
}
function ensureValidation(err, res, body, unlink) {
var authz;
if (err || Math.floor(res.statusCode/100)!==2) {
unlink();
return handleErr(err, 'Authorization status request failed ('+res.statusCode+')');
}
authz=JSON.parse(body);
if (authz.status==='pending') {
setTimeout(function() {
request.get(state.authorizationURL, {}, function(err, res, body) {
ensureValidation(err, res, body, unlink);
});
}, 1000);
} else if (authz.status==='valid') {
log('Validating domain ... done');
state.validatedDomains.push(state.domain);
state.validAuthorizationURLs.push(state.authorizationURL);
unlink();
nextDomain();
} else if (authz.status==='invalid') {
unlink();
return handleErr(null, 'The CA was unable to validate the file you provisioned', body);
} else {
unlink();
return handleErr(null, 'CA returned an authorization in an unexpected state', authz);
}
}
function getCertificate() {
var csr=cryptoUtil.generateCSR(state.certPrivateKey, state.validatedDomains);
log('Requesting certificate...');
post(state.newCertificateURL, {
resource:'new-cert',
csr:csr,
authorizations:state.validAuthorizationURLs
}, downloadCertificate);
}
function downloadCertificate(err, res, body) {
var links, certURL;
if (err || Math.floor(res.statusCode/100)!==2) {
log('Certificate request failed with error ', err);
if (body) {
log(body.toString());
}
return handleErr(err, 'Certificate request failed');
}
links=parseLink(res.headers['link']);
if (!links || !('up' in links)) {
return handleErr(err, 'Failed to fetch CA certificate');
}
log('Requesting certificate: done');
state.certificate=body;
certURL=res.headers['location'];
request.get({
url:certURL,
encoding:null
}, function(err, res, body) {
if (err) {
return handleErr(err, 'Failed to fetch cert from '+certURL);
}
if (res.statusCode!==200) {
return handleErr(err, 'Failed to fetch cert from '+certURL, res.body.toString());
}
if (body.toString()!==state.certificate.toString()) {
handleErr(null, 'Cert at '+certURL+' did not match returned cert');
} else {
log('Successfully verified cert at '+certURL);
log('Requesting CA certificate...');
request.get({
url:links['up'],
encoding:null
}, function(err, res, body) {
if (err || res.statusCode!==200) {
return handleErr(err, 'Failed to fetch CA certificate');
}
state.caCert=certBufferToPEM(body);
log('Requesting CA certificate: done');
done();
});
}
});
}
function done() {
var cert, pfx;
try {
cert=certBufferToPEM(state.certificate);
if (options.certFile) {
fs.writeFileSync(options.certFile, cert);
}
if (options.keyFile) {
fs.writeFileSync(options.keyFile, state.certPrivateKeyPEM);
}
if (options.caFile) {
fs.writeFileSync(options.caFile, state.caCert);
}
if (options.pfxFile) {
try {
pfx=forge.pkcs12.toPkcs12Asn1(
pki.privateKeyFromPem(state.certPrivateKeyPEM),
[pki.certificateFromPem(cert), pki.certificateFromPem(state.caCert)],
options.pfxPassword || '',
options.aes ? {} : {algorithm:'3des'}
);
pfx=new Buffer(forge.asn1.toDer(pfx).toHex(), 'hex');
} catch(err) {
handleErr(err, 'Could not convert to PKCS#12');
}
fs.writeFileSync(options.pfxFile, pfx);
}
cb(null, cert, state.certPrivateKeyPEM, state.caCert);
} catch(err) {
handleErr(err, 'Could not write output files');
}
}
function post(url, body, cb) {
return state.acme.post(url, body, cb);
}
function handleErr(err, text, info) {
log(text, err, info);
cb(err || new Error(text));
}
}
function certBufferToPEM(cert) {
cert=util.toStandardB64(cert.toString('base64'));
cert=cert.match(/.{1,64}/g).join('\n');
return '-----BEGIN CERTIFICATE-----\n'+cert+'\n-----END CERTIFICATE-----';
}
function parseLink(link) {
var links;
try {
links=link.split(',').map(function(link) {
var parts, url, info;
parts=link.trim().split(';');
url=parts.shift().replace(/[<>]/g, '');
info=parts.reduce(function(acc, p) {
var m=p.trim().match(/(.+) *= *"(.+)"/);
if (m) {
acc[m[1]]=m[2];
}
return acc;
}, {});
info['url']=url;
return info;
}).reduce(function(acc, link) {
if ('rel' in link) {
acc[link['rel']]=link['url'];
}
return acc;
}, {});
return links;
} catch(err) {
return null;
}
}
exports.getCert=getCert;