acme.js/acme.js

1398 lines
34 KiB
JavaScript

// Copyright 2018-present AJ ONeal. All rights reserved
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
'use strict';
/* globals Promise */
require('@root/encoding/bytes');
var Enc = require('@root/encoding/base64');
var ACME = module.exports;
var Keypairs = require('@root/keypairs');
var CSR = require('@root/csr');
var sha2 = require('@root/keypairs/lib/node/sha2.js');
var http = require('./lib/node/http.js');
var A = require('./account.js');
var U = require('./utils.js');
var E = require('./errors.js');
var M = require('./maintainers.js');
var native = require('./lib/native.js');
ACME.create = function create(me) {
if (!me) {
me = {};
}
// me.debug = true;
me._nonces = [];
me._canCheck = {};
if (!/.+@.+\..+/.test(me.maintainerEmail)) {
throw new Error(
'you should supply `maintainerEmail` as a contact for security and critical bug notices'
);
}
if (!/\w\/v?\d/.test(me.packageAgent) && false !== me.packageAgent) {
console.error(
"\nyou should supply `packageAgent` as an rfc7231-style User-Agent such as Foo/v1.1\n\n\t// your package agent should be this:\n\tvar pkg = require('./package.json');\n\tvar agent = pkg.name + '/' + pkg.version\n"
);
process.exit(1);
return;
}
if (!me.dns01) {
me.dns01 = function(ch) {
return native._dns01(me, ch);
};
}
if (!me.http01) {
// for browser version only
if (!me._baseUrl) {
me._baseUrl = '';
}
me.http01 = function(ch) {
return native._http01(me, ch);
};
}
if (!me.__request) {
me.__request = http.request;
}
// passed to dependencies
me.request = function(opts) {
return U._request(me, opts);
};
me.init = function(opts) {
M.init(me);
function fin(dir) {
me._directoryUrls = dir;
me._tos = dir.meta.termsOfService;
return dir;
}
if (opts && opts.meta && opts.termsOfService) {
return Promise.resolve(fin(opts));
}
if (!me.directoryUrl) {
me.directoryUrl = opts;
}
if ('string' !== typeof me.directoryUrl) {
throw new Error(
'you must supply either the ACME directory url as a string or an object of the ACME urls'
);
}
var p = Promise.resolve();
if (!me.skipChallengeTest) {
p = native._canCheck(me);
}
return p.then(function() {
return ACME._directory(me).then(function(resp) {
return fin(resp.body);
});
});
};
me.accounts = {
create: function(options) {
try {
return A._registerAccount(me, options);
} catch (e) {
return Promise.reject(e);
}
}
};
/*
me.authorizations = {
// create + get challlenges
get: function(options) {
return A._getAccountKid(me, options).then(function(kid) {
ACME._normalizePresenters(me, options, options.challenges);
return ACME._orderCert(me, options, kid).then(function(order) {
return order.claims;
});
});
},
// set challenges, check challenges, finalize order, return order
present: function(options) {
return A._getAccountKid(me, options).then(function(kid) {
ACME._normalizePresenters(me, options, options.challenges);
return ACME._finalizeOrder(me, options, kid, options.order);
});
}
};
*/
me.certificates = {
create: function(options) {
return A._getAccountKid(me, options).then(function(kid) {
ACME._normalizePresenters(me, options, options.challenges);
return ACME._getCertificate(me, options, kid);
});
}
};
return me;
};
// http-01: GET https://example.org/.well-known/acme-challenge/{{token}} => {{keyAuth}}
// dns-01: TXT _acme-challenge.example.org. => "{{urlSafeBase64(sha256(keyAuth))}}"
ACME.challengePrefixes = {
'http-01': '/.well-known/acme-challenge',
'dns-01': '_acme-challenge'
};
ACME.challengeTests = {
'http-01': function(me, auth) {
var ch = auth.challenge;
return me.http01(ch).then(function(keyAuth) {
var err;
// TODO limit the number of bytes that are allowed to be downloaded
if (ch.keyAuthorization === (keyAuth || '').trim()) {
return true;
}
err = new Error(
'Error: Failed HTTP-01 Pre-Flight / Dry Run.\n' +
"curl '" +
ch.challengeUrl +
"'\n" +
"Expected: '" +
ch.keyAuthorization +
"'\n" +
"Got: '" +
keyAuth +
"'\n" +
'See https://git.rootprojects.org/root/acme.js/issues/4'
);
err.code = 'E_FAIL_DRY_CHALLENGE';
throw err;
});
},
'dns-01': function(me, auth) {
// remove leading *. on wildcard domains
var ch = auth.challenge;
return me.dns01(ch).then(function(ans) {
var err;
if (
ans.answer.some(function(txt) {
return ch.dnsAuthorization === txt.data[0];
})
) {
return true;
}
err = new Error(
'Error: Failed DNS-01 Pre-Flight Dry Run.\n' +
"dig TXT '" +
ch.dnsHost +
"' does not return '" +
ch.dnsAuthorization +
"'\n" +
'See https://git.rootprojects.org/root/acme.js/issues/4'
);
err.code = 'E_FAIL_DRY_CHALLENGE';
throw err;
});
}
};
ACME._directory = function(me) {
// TODO cache the directory URL
// GET-as-GET ok
return U._request(me, { method: 'GET', url: me.directoryUrl, json: true });
};
// registerAccount
// postChallenge
// finalizeOrder
// getCertificate
ACME._getCertificate = function(me, options, kid) {
//#console.debug('[ACME.js] certificates.create');
return ACME._orderCert(me, options, kid).then(function(order) {
return ACME._finalizeOrder(me, options, kid, order);
});
};
ACME._normalizePresenters = function(me, options, presenters) {
// Prefer this order for efficiency:
// * http-01 is the fasest
// * tls-alpn-01 is for networks that don't allow plain traffic
// * dns-01 is the slowest (due to DNS propagation),
// but is required for private networks and wildcards
var presenterTypes = Object.keys(options.challenges || {});
options._presenterTypes = ['http-01', 'tls-alpn-01', 'dns-01'].filter(
function(typ) {
return -1 !== presenterTypes.indexOf(typ);
}
);
if (
presenters['dns-01'] &&
'number' !== typeof presenters['dns-01'].propagationDelay
) {
if (!ACME._propagationDelayWarning) {
var err = new Error(
"dns-01 challenge's `propagationDelay` not set, defaulting to 5000ms"
);
err.code = 'E_NO_DNS_DELAY';
err.description =
"Each dns-01 challenge should specify challenges['dns-01'].propagationDelay as an estimate of how long DNS propagation will take.";
ACME._notify(me, options, 'warning', err);
presenters['dns-01'].propagationDelay = 5000;
ACME._propagationDelayWarning = true;
}
}
Object.keys(presenters || {}).forEach(function(k) {
var ch = presenters[k];
var warned = false;
if (!ch.set || !ch.remove) {
throw new Error('challenge plugin must have set() and remove()');
}
if (!ch.get) {
if ('dns-01' === k) {
console.warn('dns-01 challenge plugin should have get()');
} else {
throw new Error(
'http-01 and tls-alpn-01 challenge plugins must have get()'
);
}
}
if ('dns-01' === k) {
if (!ch.zones) {
console.warn('dns-01 challenge plugin should have zones()');
}
}
function warn() {
if (warned) {
return;
}
warned = true;
console.warn(
"'" +
k +
"' may have incorrect function signatures, or contains deprecated use of callbacks"
);
}
function promisify(fn) {
return function(opts) {
new Promise(function(resolve, reject) {
fn(opts, function(err, result) {
if (err) {
reject(err);
return;
}
resolve(result);
});
});
};
}
// init, zones, set, get, remove
if (ch.init && 2 === ch.init.length) {
warn();
ch._thunk_init = ch.init;
ch.init = promisify(ch._thunk_init);
}
if (ch.zones && 2 === ch.zones.length) {
warn();
ch._thunk_zones = ch.zones;
ch.zones = promisify(ch._thunk_zones);
}
if (2 === ch.set.length) {
warn();
ch._thunk_set = ch.set;
ch.set = promisify(ch._thunk_set);
}
if (2 === ch.remove.length) {
warn();
ch._thunk_remove = ch.remove;
ch.remove = promisify(ch._thunk_remove);
}
if (ch.get && 2 === ch.get.length) {
warn();
ch._thunk_get = ch.get;
ch.get = promisify(ch._thunk_get);
}
return ch;
});
};
/*
POST /acme/new-order HTTP/1.1
Host: example.com
Content-Type: application/jose+json
{
"protected": base64url({
"alg": "ES256",
"kid": "https://example.com/acme/acct/1",
"nonce": "5XJ1L3lEkMG7tR6pA00clA",
"url": "https://example.com/acme/new-order"
}),
"payload": base64url({
"identifiers": [{"type:"dns","value":"example.com"}],
"notBefore": "2016-01-01T00:00:00Z",
"notAfter": "2016-01-08T00:00:00Z"
}),
"signature": "H6ZXtGjTZyUnPeKn...wEA4TklBdh3e454g"
}
*/
ACME._getAuthorization = function(me, options, kid, zonenames, authUrl) {
//#console.debug('\n[DEBUG] getAuthorization\n');
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: authUrl,
protected: { kid: kid },
payload: ''
}).then(function(resp) {
// Pre-emptive rather than lazy for interfaces that need to show the
// challenges to the user first
return ACME._computeAuths(
me,
options,
'',
resp.body,
zonenames,
false
).then(function(auths) {
resp.body._rawChallenges = resp.body.challenges;
resp.body.challenges = auths;
return resp.body;
});
});
};
ACME._testChallengeOptions = function() {
// we want this to be the same for the whole group
var chToken = ACME._prnd(16);
return [
{
type: 'http-01',
status: 'pending',
url: 'https://acme-staging-v02.example.com/0',
token: 'test-' + chToken + '-0'
},
{
type: 'dns-01',
status: 'pending',
url: 'https://acme-staging-v02.example.com/1',
token: 'test-' + chToken + '-1',
_wildcard: true
},
{
type: 'tls-alpn-01',
status: 'pending',
url: 'https://acme-staging-v02.example.com/3',
token: 'test-' + chToken + '-3'
}
];
};
ACME._thumber = function(options, thumb) {
var thumbPromise;
return function(key) {
if (thumb) {
return Promise.resolve(thumb);
}
if (thumbPromise) {
return thumbPromise;
}
if (!key) {
key = options.accountKey || options.accountKeypair;
}
thumbPromise = U._importKeypair(key).then(function(pair) {
return Keypairs.thumbprint({
jwk: pair.public
});
});
return thumbPromise;
};
};
ACME._dryRun = function(me, realOptions, zonenames) {
var noopts = {};
Object.keys(realOptions).forEach(function(key) {
noopts[key] = realOptions[key];
});
noopts.order = {};
// memoized so that it doesn't run until it's first called
var getThumbprint = ACME._thumber(noopts, '');
return Promise.all(
noopts.domains.map(function(identifierValue) {
// TODO we really only need one to pass, not all to pass
var challenges = ACME._testChallengeOptions();
var wild = '*.' === identifierValue.slice(0, 2);
if (wild) {
challenges = challenges.filter(function(ch) {
return ch._wildcard;
});
}
challenges = challenges.filter(function(auth) {
return me._canCheck[auth.type];
});
return getThumbprint().then(function(accountKeyThumb) {
var resp = {
body: {
identifier: {
type: 'dns',
value: identifierValue.replace(/^\*\./, '')
},
challenges: challenges,
expires: new Date(Date.now() + 60 * 1000).toISOString(),
wildcard: identifierValue.includes('*.') || undefined
}
};
// The dry-run comes first in the spirit of "fail fast"
// (and protecting against challenge failure rate limits)
var dryrun = true;
return ACME._computeAuths(
me,
noopts,
accountKeyThumb,
resp.body,
zonenames,
dryrun
).then(function(auths) {
resp.body.challenges = auths;
return resp.body;
});
});
})
).then(function(claims) {
var selected = [];
noopts.order._claims = claims.slice(0);
noopts.notify = function(ev, params) {
if ('challenge_select' === ev) {
selected.push(params.challenge);
}
};
function clear() {
selected.forEach(function(ch) {
ACME._notify(me, noopts, 'challenge_remove', {
altname: ch.altname,
type: ch.type
//challenge: ch
});
noopts.challenges[ch.type]
.remove({ challenge: ch })
.catch(function(err) {
err.action = 'challenge_remove';
err.altname = ch.altname;
err.type = ch.type;
ACME._notify(me, noopts, 'error', err);
});
});
}
return ACME._setChallenges(me, noopts, noopts.order)
.catch(function(err) {
clear();
throw err;
})
.then(clear);
});
};
// Get the list of challenge types we can validate,
// which is already ordered by preference.
// Select the first matching offered challenge type
ACME._chooseChallenge = function(options, results) {
// For each of the challenge types that we support
var challenge;
options._presenterTypes.some(function(chType) {
// And for each of the challenge types that are allowed
return results.challenges.some(function(ch) {
// Check to see if there are any matches
if (ch.type === chType) {
challenge = ch;
return true;
}
});
});
return challenge;
};
ACME._getZones = function(me, challenges, domains) {
var presenter = challenges['dns-01'];
if (!presenter) {
return Promise.resolve([]);
}
if ('function' !== typeof presenter.zones) {
return Promise.resolve([]);
}
// a little bit of random to ensure that getZones()
// actually returns the zones and not the hosts as zones
var dnsHosts = domains.map(function(d) {
var rnd = ACME._prnd(2);
return rnd + '.' + d;
});
var authChallenge = {
type: 'dns-01',
dnsHosts: dnsHosts
};
return presenter.zones({ challenge: authChallenge });
};
ACME._challengesMap = { 'http-01': 0, 'dns-01': 0, 'tls-alpn-01': 0 };
ACME._computeAuths = function(me, options, thumb, authz, zonenames, dryrun) {
// we don't poison the dns cache with our dummy request
var dnsPrefix = ACME.challengePrefixes['dns-01'];
if (dryrun) {
dnsPrefix = dnsPrefix.replace(
'acme-challenge',
'greenlock-dryrun-' + ACME._prnd(4)
);
}
var getThumbprint = ACME._thumber(options, thumb);
return Promise.all(
authz.challenges.map(function(challenge) {
// Don't do extra work for challenges that we can't satisfy
var _types = options._presenterTypes;
if (_types && !_types.includes(challenge.type)) {
return null;
}
var auth = {};
// straight copy from the new order response
// { identifier, status, expires, challenges, wildcard }
Object.keys(authz).forEach(function(key) {
auth[key] = authz[key];
});
// copy from the challenge we've chosen
// { type, status, url, token }
// (note the duplicate status overwrites the one above, but they should be the same)
Object.keys(challenge).forEach(function(key) {
// don't confused devs with the id url
auth[key] = challenge[key];
});
// batteries-included helpers
auth.hostname = auth.identifier.value;
// because I'm not 100% clear if the wildcard identifier does or doesn't
// have the leading *. in all cases
auth.altname = ACME._untame(auth.identifier.value, auth.wildcard);
var zone = pluckZone(zonenames || [], auth.identifier.value);
return ACME.computeChallenge({
accountKey: options.accountKey,
_getThumbprint: getThumbprint,
challenge: auth,
zone: zone,
dnsPrefix: dnsPrefix
}).then(function(resp) {
Object.keys(resp).forEach(function(k) {
auth[k] = resp[k];
});
return auth;
});
})
).then(function(auths) {
return auths.filter(Boolean);
});
};
ACME.computeChallenge = function(opts) {
var auth = opts.challenge;
var hostname = auth.hostname || opts.hostname;
var zone = opts.zone;
var thumb = opts.thumbprint || '';
var accountKey = opts.accountKey;
var getThumbprint = opts._getThumbprint || ACME._thumber(opts, thumb);
var dnsPrefix = opts.dnsPrefix || ACME.challengePrefixes['dns-01'];
return getThumbprint(accountKey).then(function(thumb) {
var resp = {};
resp.thumbprint = thumb;
// keyAuthorization = token + '.' + base64url(JWK_Thumbprint(accountKey))
resp.keyAuthorization = auth.token + '.' + thumb;
if ('http-01' === auth.type) {
// conflicts with ACME challenge id url is already in use,
// so we call this challengeUrl instead
// TODO auth.http01Url ?
resp.challengeUrl =
'http://' +
// `hostname` is an alias of `auth.indentifier.value`
hostname +
ACME.challengePrefixes['http-01'] +
'/' +
auth.token;
}
if ('dns-01' !== auth.type) {
return resp;
}
// Always calculate dnsAuthorization because we
// may need to present to the user for confirmation / instruction
// _as part of_ the decision making process
return sha2
.sum(256, resp.keyAuthorization)
.then(function(hash) {
return Enc.bufToUrlBase64(Uint8Array.from(hash));
})
.then(function(hash64) {
resp.dnsHost = dnsPrefix + '.' + hostname; // .replace('*.', '');
// deprecated
resp.dnsAuthorization = hash64;
// should use this instead
resp.keyAuthorizationDigest = hash64;
if (zone) {
resp.dnsZone = zone;
resp.dnsPrefix = resp.dnsHost
.replace(newZoneRegExp(zone), '')
.replace(/\.$/, '');
}
return resp;
});
});
};
ACME._untame = function(name, wild) {
if (wild) {
name = '*.' + name.replace('*.', '');
}
return name;
};
// https://tools.ietf.org/html/draft-ietf-acme-acme-10#section-7.5.1
ACME._postChallenge = function(me, options, kid, auth) {
var RETRY_INTERVAL = me.retryInterval || 1000;
var DEAUTH_INTERVAL = me.deauthWait || 10 * 1000;
var MAX_POLL = me.retryPoll || 8;
var MAX_PEND = me.retryPending || 4;
var count = 0;
var altname = ACME._untame(auth.identifier.value, auth.wildcard);
/*
POST /acme/authz/1234 HTTP/1.1
Host: example.com
Content-Type: application/jose+json
{
"protected": base64url({
"alg": "ES256",
"kid": "https://example.com/acme/acct/1",
"nonce": "xWCM9lGbIyCgue8di6ueWQ",
"url": "https://example.com/acme/authz/1234"
}),
"payload": base64url({
"status": "deactivated"
}),
"signature": "srX9Ji7Le9bjszhu...WTFdtujObzMtZcx4"
}
*/
function deactivate() {
//#console.debug('[ACME.js] deactivate:');
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: auth.url,
protected: { kid: kid },
payload: Enc.strToBuf(JSON.stringify({ status: 'deactivated' }))
}).then(function(/*#resp*/) {
//#console.debug('deactivate challenge: resp.body:');
//#console.debug(resp.body);
return ACME._wait(DEAUTH_INTERVAL);
});
}
function pollStatus() {
if (count >= MAX_POLL) {
var err = new Error(
"[ACME.js] stuck in bad pending/processing state for '" +
altname +
"'"
);
err.context = 'present_challenge';
return Promise.reject(err);
}
count += 1;
//#console.debug('\n[DEBUG] statusChallenge\n');
// POST-as-GET
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: auth.url,
protected: { kid: kid },
payload: Enc.binToBuf('')
})
.then(checkResult)
.catch(transformError);
}
function checkResult(resp) {
ACME._notify(me, options, 'challenge_status', {
// API-locked
status: resp.body.status,
type: auth.type,
altname: altname
});
if ('processing' === resp.body.status) {
//#console.debug('poll: again', auth.url);
return ACME._wait(RETRY_INTERVAL).then(pollStatus);
}
// This state should never occur
if ('pending' === resp.body.status) {
if (count >= MAX_PEND) {
return ACME._wait(RETRY_INTERVAL)
.then(deactivate)
.then(respondToChallenge);
}
//#console.debug('poll: again', auth.url);
return ACME._wait(RETRY_INTERVAL).then(respondToChallenge);
}
// REMOVE DNS records as soon as the state is non-processing
// (valid or invalid or other)
try {
options.challenges[auth.type].remove({ challenge: auth });
} catch (e) {}
if ('valid' === resp.body.status) {
if (me.debug) {
console.debug('poll: valid');
}
return resp.body;
}
var errmsg;
if (!resp.body.status) {
errmsg =
"[ACME.js] (E_STATE_EMPTY) empty challenge state for '" +
altname +
"':" +
JSON.stringify(resp.body);
} else if ('invalid' === resp.body.status) {
errmsg =
"[ACME.js] (E_STATE_INVALID) challenge state for '" +
altname +
"': '" +
//resp.body.status +
JSON.stringify(resp.body) +
"'";
} else {
errmsg =
"[ACME.js] (E_STATE_UKN) challenge state for '" +
altname +
"': '" +
resp.body.status +
"'";
}
return Promise.reject(new Error(errmsg));
}
function transformError(e) {
var err = e;
if (err.urn) {
err = new Error(
'[acme-v2] ' +
auth.altname +
' status:' +
e.status +
' ' +
e.detail
);
err.auth = auth;
err.altname = auth.altname;
err.type = auth.type;
err.code =
'invalid' === e.status ? 'E_ACME_CHALLENGE' : 'E_ACME_UNKNOWN';
}
throw err;
}
function respondToChallenge() {
//#console.debug('[ACME.js] responding to accept challenge:');
// POST-as-POST (empty JSON object)
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: auth.url,
protected: { kid: kid },
payload: Enc.strToBuf(JSON.stringify({}))
})
.then(checkResult)
.catch(transformError);
}
return respondToChallenge();
};
// options = { domains, claims, challenges }
ACME._setChallenges = function(me, options, order) {
var claims = order._claims.slice(0);
var valids = [];
var auths = [];
var placed = [];
var USE_DNS = false;
var DNS_DELAY = 0;
// Set any challenges, excpting ones that have already been validated
function setNext() {
var claim = claims.shift();
// check false for testing
if (!claim || false === options.challenges) {
return Promise.resolve();
}
return Promise.resolve()
.then(function() {
// For any challenges that are already valid,
// add to the list and skip any checks.
if (
claim.challenges.some(function(ch) {
if ('valid' === ch.status) {
valids.push(ch);
return true;
}
})
) {
return;
}
var selected = ACME._chooseChallenge(options, claim);
if (!selected) {
throw E.NO_SUITABLE_CHALLENGE(
claim.altname,
claim.challenges,
options._presenterTypes
);
}
auths.push(selected);
placed.push(selected);
ACME._notify(me, options, 'challenge_select', {
// API-locked
altname: ACME._untame(
claim.identifier.value,
claim.wildcard
),
type: selected.type,
challenge: selected
});
// Set a delay for nameservers a moment to propagate
if ('dns-01' === selected.type) {
if (options.challenges['dns-01'] && !USE_DNS) {
USE_DNS = true;
DNS_DELAY = parseInt(
options.challenges['dns-01'].propagationDelay,
10
);
}
}
var ch = options.challenges[selected.type] || {};
if (!ch.set) {
throw new Error('no handler for setting challenge');
}
return ch.set({ challenge: selected });
})
.then(setNext);
}
function waitAll() {
//#console.debug('\n[DEBUG] waitChallengeDelay %s\n', DELAY);
if (!DNS_DELAY || DNS_DELAY <= 0) {
DNS_DELAY = 5000;
}
return ACME._wait(DNS_DELAY);
}
function checkNext() {
var auth = auths.shift();
if (!auth) {
return Promise.resolve(valids);
}
// These are not as much "valids" as they are "not invalids"
if (!me._canCheck[auth.type] || me.skipChallengeTest) {
valids.push(auth);
return checkNext();
}
return ACME.challengeTests[auth.type](me, { challenge: auth })
.then(function() {
valids.push(auth);
})
.then(checkNext);
}
function removeAll(ch) {
options.challenges[ch.type]
.remove({ challenge: ch })
.catch(function(err) {
err.action = 'challenge_remove';
err.altname = ch.altname;
err.type = ch.type;
ACME._notify(me, options, 'error', err);
});
}
// The reason we set every challenge in a batch first before checking any
// is so that we don't poison our own DNS cache with misses.
return setNext()
.then(waitAll)
.then(checkNext)
.catch(function(err) {
if (!options.debug) {
placed.forEach(removeAll);
}
throw err;
});
};
ACME._presentChallenges = function(me, options, kid, readyToPresent) {
// Actually sets the challenge via ACME
function challengeNext() {
// First set, First presented
var auth = readyToPresent.shift();
if (!auth) {
return Promise.resolve();
}
return ACME._postChallenge(me, options, kid, auth).then(challengeNext);
}
// BTW, these are done serially rather than parallel on purpose
// (rate limits, propagation delays, etc)
return challengeNext().then(function() {
return readyToPresent;
});
};
ACME._pollOrderStatus = function(me, options, kid, order, verifieds) {
var csr64 = ACME._csrToUrlBase64(options.csr);
var body = { csr: csr64 };
var payload = JSON.stringify(body);
function pollCert() {
//#console.debug('[ACME.js] pollCert:', order._finalizeUrl);
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: order._finalizeUrl,
protected: { kid: kid },
payload: Enc.strToBuf(payload)
}).then(function(resp) {
ACME._notify(me, options, 'certificate_status', {
subject: options.domains[0],
status: resp.body.status
});
// https://tools.ietf.org/html/draft-ietf-acme-acme-12#section-7.1.3
// Possible values are: "pending" => ("invalid" || "ready") => "processing" => "valid"
if ('valid' === resp.body.status) {
var voucher = resp.body;
voucher._certificateUrl = resp.body.certificate;
return voucher;
}
if ('processing' === resp.body.status) {
return ACME._wait().then(pollCert);
}
if (me.debug) {
console.debug(
'Error: bad status:\n' + JSON.stringify(resp.body, null, 2)
);
}
if ('pending' === resp.body.status) {
return Promise.reject(
new Error(
"Did not finalize order: status 'pending'." +
' Best guess: You have not accepted at least one challenge for each domain:\n' +
"Requested: '" +
options.domains.join(', ') +
"'\n" +
"Validated: '" +
verifieds.join(', ') +
"'\n" +
JSON.stringify(resp.body, null, 2)
)
);
}
if ('invalid' === resp.body.status) {
return Promise.reject(
E.ORDER_INVALID(options, verifieds, resp)
);
}
if ('ready' === resp.body.status) {
return Promise.reject(
E.DOUBLE_READY_ORDER(options, verifieds, resp)
);
}
return Promise.reject(
E.UNHANDLED_ORDER_STATUS(options, verifieds, resp)
);
});
}
return pollCert();
};
ACME._redeemCert = function(me, options, kid, voucher) {
//#console.debug('ACME.js: order was finalized');
// POST-as-GET
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: voucher._certificateUrl,
protected: { kid: kid },
payload: Enc.binToBuf(''),
json: true
}).then(function(resp) {
//#console.debug('ACME.js: csr submitted and cert received:');
// https://github.com/certbot/certbot/issues/5721
var certsarr = ACME.splitPemChain(ACME.formatPemChain(resp.body || ''));
// cert, chain, fullchain, privkey, /*TODO, subject, altnames, issuedAt, expiresAt */
var certs = {
expires: voucher.expires,
identifiers: voucher.identifiers,
//, authorizations: order.authorizations
cert: certsarr.shift(),
//, privkey: privkeyPem
chain: certsarr.join('\n')
};
//#console.debug(certs);
return certs;
});
};
ACME._finalizeOrder = function(me, options, kid, order) {
//#console.debug('[ACME.js] finalizeOrder:');
var readyToPresent;
return A._getAccountKid(me, options).then(function(kid) {
return ACME._setChallenges(me, options, order)
.then(function(_readyToPresent) {
readyToPresent = _readyToPresent;
return ACME._presentChallenges(
me,
options,
kid,
readyToPresent
);
})
.then(function() {
return ACME._pollOrderStatus(
me,
options,
kid,
order,
readyToPresent.map(function(ch) {
return ACME._untame(ch.identifier.value, ch.wildcard);
})
);
})
.then(function(voucher) {
return ACME._redeemCert(me, options, kid, voucher);
});
});
};
// Order a certificate request with all domains
ACME._orderCert = function(me, options, kid) {
var certificateRequest = {
// raw wildcard syntax MUST be used here
identifiers: options.domains.map(function(hostname) {
return { type: 'dns', value: hostname };
})
//, "notBefore": "2016-01-01T00:00:00Z"
//, "notAfter": "2016-01-08T00:00:00Z"
};
return ACME._prepRequest(me, options)
.then(function() {
return ACME._getZones(me, options.challenges, options.domains);
})
.then(function(zonenames) {
var p;
// Do a little dry-run / self-test
if (!me.skipDryRun && !options.skipDryRun) {
p = ACME._dryRun(me, options, zonenames);
} else {
p = Promise.resolve(null);
}
return p.then(function() {
return A._getAccountKid(me, options)
.then(function(kid) {
ACME._notify(me, options, 'certificate_order', {
// API-locked
account: { key: { kid: kid } },
subject: options.domains[0],
altnames: options.domains,
challengeTypes: options._presenterTypes
});
var payload = JSON.stringify(certificateRequest);
//#console.debug('\n[DEBUG] newOrder\n');
return U._jwsRequest(me, {
accountKey: options.accountKey,
url: me._directoryUrls.newOrder,
protected: { kid: kid },
payload: Enc.binToBuf(payload)
});
})
.then(function(resp) {
var order = resp.body;
order._orderUrl = resp.headers.location;
order._finalizeUrl = resp.body.finalize;
order._identifiers = certificateRequest.identifiers;
//#console.debug('[ordered]', location); // the account id url
//#console.debug(resp);
if (!order.authorizations) {
return Promise.reject(
E.NO_AUTHORIZATIONS(options, resp)
);
}
return order;
})
.then(function(order) {
return ACME._getAllChallenges(
me,
options,
kid,
zonenames,
order
).then(function(claims) {
order._claims = claims;
return order;
});
});
});
});
};
ACME._prepRequest = function(me, options) {
return Promise.resolve().then(function() {
// TODO check that all presenterTypes are represented in challenges
if (!options._presenterTypes.length) {
return Promise.reject(
new Error('options.challenges must be specified')
);
}
if (!options.csr) {
throw new Error(
'no `csr` option given (should be in DER or PEM format)'
);
}
// TODO validate csr signature?
var _csr = CSR._info(options.csr);
options.domains = options.domains || _csr.altnames;
_csr.altnames = _csr.altnames || [];
if (
options.domains
.slice(0)
.sort()
.join(' ') !==
_csr.altnames
.slice(0)
.sort()
.join(' ')
) {
return Promise.reject(
new Error('certificate altnames do not match requested domains')
);
}
if (_csr.subject !== options.domains[0]) {
return Promise.reject(
new Error(
'certificate subject (commonName) does not match first altname (SAN)'
)
);
}
if (!(options.domains && options.domains.length)) {
return Promise.reject(
new Error(
'options.domains must be a list of string domain names,' +
' with the first being the subject of the certificate'
)
);
}
// a cheap check to see if there are non-ascii characters in any of the domains
var nonAsciiDomains = options.domains.some(function(d) {
// IDN / unicode / utf-8 / punycode
return Enc.strToBin(d) !== d;
});
if (nonAsciiDomains) {
throw new Error(
"please use the 'punycode' module to convert unicode domain names to punycode"
);
}
// TODO Promise.all()?
(options._presenterTypes || []).forEach(function(key) {
var presenter = options.challenges[key];
if (
'function' === typeof presenter.init &&
!presenter._acme_initialized
) {
presenter._acme_initialized = true;
return presenter.init({ type: '*', request: me.request });
}
});
});
};
// Request a challenge for each authorization in the order
ACME._getAllChallenges = function(me, options, kid, zonenames, order) {
var claims = [];
//#console.debug("[acme-v2] POST newOrder has authorizations");
var challengeAuths = order.authorizations.slice(0);
function getNext() {
var authUrl = challengeAuths.shift();
if (!authUrl) {
return claims;
}
return ACME._getAuthorization(
me,
options,
kid,
zonenames,
authUrl
).then(function(claim) {
// var domain = options.domains[i]; // claim.identifier.value
claims.push(claim);
return getNext();
});
}
return getNext().then(function() {
return claims;
});
};
ACME.formatPemChain = function formatPemChain(str) {
return (
str
.trim()
.replace(/[\r\n]+/g, '\n')
.replace(/\-\n\-/g, '-\n\n-') + '\n'
);
};
ACME.splitPemChain = function splitPemChain(str) {
return str
.trim()
.split(/[\r\n]{2,}/g)
.map(function(str) {
return str + '\n';
});
};
ACME._csrToUrlBase64 = function(csr) {
// if der, convert to base64
if ('string' !== typeof csr) {
csr = Enc.bufToUrlBase64(csr);
}
// TODO use PEM.parseBlock()
// nix PEM headers, if any
if ('-' === csr[0]) {
csr = csr
.split(/\n+/)
.slice(1, -1)
.join('');
}
return Enc.base64ToUrlBase64(csr.trim().replace(/\s+/g, ''));
};
// In v8 this is crypto random, but we're just using it for pseudorandom
ACME._prnd = function(n) {
var rnd = '';
while (rnd.length / 2 < n) {
var i = Math.random()
.toString()
.substr(2);
var h = parseInt(i, 10).toString(16);
if (h.length % 2) {
h = '0' + h;
}
rnd += h;
}
return rnd.substr(0, n * 2);
};
ACME._notify = function(me, options, ev, params) {
if (!options.notify && !me.notify) {
//console.info(ev, params);
return;
}
try {
(options.notify || me.notify)(ev, params);
} catch (e) {
console.error('`acme.notify(ev, params)` Error:');
console.error(e);
}
};
ACME._wait = function wait(ms) {
return new Promise(function(resolve) {
setTimeout(resolve, ms || 1100);
});
};
function newZoneRegExp(zonename) {
// (^|\.)example\.com$
// which matches:
// foo.example.com
// example.com
// but not:
// fooexample.com
return new RegExp('(^|\\.)' + zonename.replace(/\./g, '\\.') + '$');
}
function pluckZone(zonenames, dnsHost) {
return zonenames
.filter(function(zonename) {
// the only character that needs to be escaped for regex
// and is allowed in a domain name is '.'
return newZoneRegExp(zonename).test(dnsHost);
})
.sort(function(a, b) {
// longest match first
return b.length - a.length;
})[0];
}