making headway

This commit is contained in:
AJ ONeal 2019-04-18 01:56:32 -06:00
parent bfc4ab6795
commit 692301e37d
7 changed files with 1111 additions and 67 deletions

2
app.js
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@ -41,7 +41,7 @@ function run() {
, namedCurve: $('input[name="ec-crv"]:checked').value , namedCurve: $('input[name="ec-crv"]:checked').value
, modulusLength: $('input[name="rsa-len"]:checked').value , modulusLength: $('input[name="rsa-len"]:checked').value
}; };
console.log(opts); console.log('opts', opts);
Keypairs.generate(opts).then(function (results) { Keypairs.generate(opts).then(function (results) {
$('.js-jwk').innerText = JSON.stringify(results, null, 2); $('.js-jwk').innerText = JSON.stringify(results, null, 2);
// //

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@ -48,6 +48,8 @@
<div class="js-loading" hidden>Loading</div> <div class="js-loading" hidden>Loading</div>
<pre><code class="js-jwk">&nbsp;</code></pre> <pre><code class="js-jwk">&nbsp;</code></pre>
<script src="./lib/ecdsa.js"></script>
<script src="./lib/rsa.js"></script>
<script src="./lib/keypairs.js"></script> <script src="./lib/keypairs.js"></script>
<script src="./app.js"></script> <script src="./app.js"></script>
</body> </body>

699
lib/acme.js Normal file
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@ -0,0 +1,699 @@
/*global CSR*/
// CSR takes a while to load after the page load
(function (exports) {
'use strict';
var BACME = exports.ACME = {};
var webFetch = exports.fetch;
var Keypairs = exports.Keypairs;
var Promise = exports.Promise;
var directoryUrl = 'https://acme-staging-v02.api.letsencrypt.org/directory';
var directory;
var nonceUrl;
var nonce;
var accountKeypair;
var accountJwk;
var accountUrl;
BACME.challengePrefixes = {
'http-01': '/.well-known/acme-challenge'
, 'dns-01': '_acme-challenge'
};
BACME._logHeaders = function (resp) {
console.log('Headers:');
Array.from(resp.headers.entries()).forEach(function (h) { console.log(h[0] + ': ' + h[1]); });
};
BACME._logBody = function (body) {
console.log('Body:');
console.log(JSON.stringify(body, null, 2));
console.log('');
};
BACME.directory = function (opts) {
return webFetch(opts.directoryUrl || directoryUrl, { mode: 'cors' }).then(function (resp) {
BACME._logHeaders(resp);
return resp.json().then(function (reply) {
if (/error/.test(reply.type)) {
return Promise.reject(new Error(reply.detail || reply.type));
}
directory = reply;
nonceUrl = directory.newNonce || 'https://acme-staging-v02.api.letsencrypt.org/acme/new-nonce';
accountUrl = directory.newAccount || 'https://acme-staging-v02.api.letsencrypt.org/acme/new-account';
orderUrl = directory.newOrder || "https://acme-staging-v02.api.letsencrypt.org/acme/new-order";
BACME._logBody(reply);
return reply;
});
});
};
BACME.nonce = function () {
return webFetch(nonceUrl, { mode: 'cors' }).then(function (resp) {
BACME._logHeaders(resp);
nonce = resp.headers.get('replay-nonce');
console.log('Nonce:', nonce);
// resp.body is empty
return resp.headers.get('replay-nonce');
});
};
BACME.accounts = {};
// type = ECDSA
// bitlength = 256
BACME.accounts.generateKeypair = function (opts) {
return BACME.generateKeypair(opts).then(function (result) {
accountKeypair = result;
return webCrypto.subtle.exportKey(
"jwk"
, result.privateKey
).then(function (privJwk) {
accountJwk = privJwk;
console.log('private jwk:');
console.log(JSON.stringify(privJwk, null, 2));
return privJwk;
/*
return webCrypto.subtle.exportKey(
"pkcs8"
, result.privateKey
).then(function (keydata) {
console.log('pkcs8:');
console.log(Array.from(new Uint8Array(keydata)));
return privJwk;
//return accountKeypair;
});
*/
});
});
};
// json to url-safe base64
BACME._jsto64 = function (json) {
return btoa(JSON.stringify(json)).replace(/\+/g, '-').replace(/\//g, '_').replace(/=+$/g, '');
};
var textEncoder = new TextEncoder();
BACME._importKey = function (jwk) {
var alg; // I think the 256 refers to the hash
var wcOpts = {};
var extractable = true; // TODO make optionally false?
var priv = jwk;
var pub;
// ECDSA
if (/^EC/i.test(jwk.kty)) {
wcOpts.name = 'ECDSA';
wcOpts.namedCurve = jwk.crv;
alg = 'ES256';
pub = {
crv: priv.crv
, kty: priv.kty
, x: priv.x
, y: priv.y
};
if (!priv.d) {
priv = null;
}
}
// RSA
if (/^RS/i.test(jwk.kty)) {
wcOpts.name = 'RSASSA-PKCS1-v1_5';
wcOpts.hash = { name: "SHA-256" };
alg = 'RS256';
pub = {
e: priv.e
, kty: priv.kty
, n: priv.n
};
if (!priv.p) {
priv = null;
}
}
return window.crypto.subtle.importKey(
"jwk"
, pub
, wcOpts
, extractable
, [ "verify" ]
).then(function (publicKey) {
function give(privateKey) {
return {
wcPub: publicKey
, wcKey: privateKey
, wcKeypair: { publicKey: publicKey, privateKey: privateKey }
, meta: {
alg: alg
, name: wcOpts.name
, hash: wcOpts.hash
}
, jwk: jwk
};
}
if (!priv) {
return give();
}
return window.crypto.subtle.importKey(
"jwk"
, priv
, wcOpts
, extractable
, [ "sign"/*, "verify"*/ ]
).then(give);
});
};
BACME._sign = function (opts) {
var wcPrivKey = opts.abstractKey.wcKeypair.privateKey;
var wcOpts = opts.abstractKey.meta;
var alg = opts.abstractKey.meta.alg; // I think the 256 refers to the hash
var signHash;
console.log('kty', opts.abstractKey.jwk.kty);
signHash = { name: "SHA-" + alg.replace(/[a-z]+/ig, '') };
var msg = textEncoder.encode(opts.protected64 + '.' + opts.payload64);
console.log('msg:', msg);
return window.crypto.subtle.sign(
{ name: wcOpts.name, hash: signHash }
, wcPrivKey
, msg
).then(function (signature) {
//console.log('sig1:', signature);
//console.log('sig2:', new Uint8Array(signature));
//console.log('sig3:', Array.prototype.slice.call(new Uint8Array(signature)));
// convert buffer to urlsafe base64
var sig64 = btoa(Array.prototype.map.call(new Uint8Array(signature), function (ch) {
return String.fromCharCode(ch);
}).join('')).replace(/\+/g, '-').replace(/\//g, '_').replace(/=+$/g, '');
console.log('[1] URL-safe Base64 Signature:');
console.log(sig64);
var signedMsg = {
protected: opts.protected64
, payload: opts.payload64
, signature: sig64
};
console.log('Signed Base64 Msg:');
console.log(JSON.stringify(signedMsg, null, 2));
return signedMsg;
});
};
// email = john.doe@gmail.com
// jwk = { ... }
// agree = true
BACME.accounts.sign = function (opts) {
return BACME._importKey(opts.jwk).then(function (abstractKey) {
var payloadJson =
{ termsOfServiceAgreed: opts.agree
, onlyReturnExisting: false
, contact: opts.contacts || [ 'mailto:' + opts.email ]
};
console.log('payload:');
console.log(payloadJson);
var payload64 = BACME._jsto64(
payloadJson
);
var protectedJson =
{ nonce: opts.nonce
, url: accountUrl
, alg: abstractKey.meta.alg
, jwk: null
};
if (/EC/i.test(opts.jwk.kty)) {
protectedJson.jwk = {
crv: opts.jwk.crv
, kty: opts.jwk.kty
, x: opts.jwk.x
, y: opts.jwk.y
};
} else if (/RS/i.test(opts.jwk.kty)) {
protectedJson.jwk = {
e: opts.jwk.e
, kty: opts.jwk.kty
, n: opts.jwk.n
};
} else {
return Promise.reject(new Error("[acme.accounts.sign] unsupported key type '" + opts.jwk.kty + "'"));
}
console.log('protected:');
console.log(protectedJson);
var protected64 = BACME._jsto64(
protectedJson
);
// Note: this function hashes before signing so send data, not the hash
return BACME._sign({
abstractKey: abstractKey
, payload64: payload64
, protected64: protected64
});
});
};
var accountId;
BACME.accounts.set = function (opts) {
nonce = null;
return window.fetch(accountUrl, {
mode: 'cors'
, method: 'POST'
, headers: { 'Content-Type': 'application/jose+json' }
, body: JSON.stringify(opts.signedAccount)
}).then(function (resp) {
BACME._logHeaders(resp);
nonce = resp.headers.get('replay-nonce');
accountId = resp.headers.get('location');
console.log('Next nonce:', nonce);
console.log('Location/kid:', accountId);
if (!resp.headers.get('content-type')) {
console.log('Body: <none>');
return { kid: accountId };
}
return resp.json().then(function (result) {
if (/^Error/i.test(result.detail)) {
return Promise.reject(new Error(result.detail));
}
result.kid = accountId;
BACME._logBody(result);
return result;
});
});
};
var orderUrl;
BACME.orders = {};
// identifiers = [ { type: 'dns', value: 'example.com' }, { type: 'dns', value: '*.example.com' } ]
// signedAccount
BACME.orders.sign = function (opts) {
var payload64 = BACME._jsto64({ identifiers: opts.identifiers });
return BACME._importKey(opts.jwk).then(function (abstractKey) {
var protected64 = BACME._jsto64(
{ nonce: nonce, alg: abstractKey.meta.alg/*'ES256'*/, url: orderUrl, kid: opts.kid }
);
console.log('abstractKey:');
console.log(abstractKey);
return BACME._sign({
abstractKey: abstractKey
, payload64: payload64
, protected64: protected64
}).then(function (sig) {
if (!sig) {
throw new Error('sig is undefined... nonsense!');
}
console.log('newsig', sig);
return sig;
});
});
};
var currentOrderUrl;
var authorizationUrls;
var finalizeUrl;
BACME.orders.create = function (opts) {
nonce = null;
return window.fetch(orderUrl, {
mode: 'cors'
, method: 'POST'
, headers: { 'Content-Type': 'application/jose+json' }
, body: JSON.stringify(opts.signedOrder)
}).then(function (resp) {
BACME._logHeaders(resp);
currentOrderUrl = resp.headers.get('location');
nonce = resp.headers.get('replay-nonce');
console.log('Next nonce:', nonce);
return resp.json().then(function (result) {
if (/^Error/i.test(result.detail)) {
return Promise.reject(new Error(result.detail));
}
authorizationUrls = result.authorizations;
finalizeUrl = result.finalize;
BACME._logBody(result);
result.url = currentOrderUrl;
return result;
});
});
};
BACME.challenges = {};
BACME.challenges.all = function () {
var challenges = [];
function next() {
if (!authorizationUrls.length) {
return challenges;
}
return BACME.challenges.view().then(function (challenge) {
challenges.push(challenge);
return next();
});
}
return next();
};
BACME.challenges.view = function () {
var authzUrl = authorizationUrls.pop();
var token;
var challengeDomain;
var challengeUrl;
return window.fetch(authzUrl, {
mode: 'cors'
}).then(function (resp) {
BACME._logHeaders(resp);
return resp.json().then(function (result) {
// Note: select the challenge you wish to use
var challenge = result.challenges.slice(0).pop();
token = challenge.token;
challengeUrl = challenge.url;
challengeDomain = result.identifier.value;
BACME._logBody(result);
return {
challenges: result.challenges
, expires: result.expires
, identifier: result.identifier
, status: result.status
, wildcard: result.wildcard
//, token: challenge.token
//, url: challenge.url
//, domain: result.identifier.value,
};
});
});
};
var thumbprint;
var keyAuth;
var httpPath;
var dnsAuth;
var dnsRecord;
BACME.thumbprint = function (opts) {
// https://stackoverflow.com/questions/42588786/how-to-fingerprint-a-jwk
var accountJwk = opts.jwk;
var keys;
if (/^EC/i.test(opts.jwk.kty)) {
keys = [ 'crv', 'kty', 'x', 'y' ];
} else if (/^RS/i.test(opts.jwk.kty)) {
keys = [ 'e', 'kty', 'n' ];
}
var accountPublicStr = '{' + keys.map(function (key) {
return '"' + key + '":"' + accountJwk[key] + '"';
}).join(',') + '}';
return window.crypto.subtle.digest(
{ name: "SHA-256" } // SHA-256 is spec'd, non-optional
, textEncoder.encode(accountPublicStr)
).then(function (hash) {
thumbprint = btoa(Array.prototype.map.call(new Uint8Array(hash), function (ch) {
return String.fromCharCode(ch);
}).join('')).replace(/\+/g, '-').replace(/\//g, '_').replace(/=+$/g, '');
console.log('Thumbprint:');
console.log(opts);
console.log(accountPublicStr);
console.log(thumbprint);
return thumbprint;
});
};
// { token, thumbprint, challengeDomain }
BACME.challenges['http-01'] = function (opts) {
// The contents of the key authorization file
keyAuth = opts.token + '.' + opts.thumbprint;
// Where the key authorization file goes
httpPath = 'http://' + opts.challengeDomain + '/.well-known/acme-challenge/' + opts.token;
console.log("echo '" + keyAuth + "' > '" + httpPath + "'");
return {
path: httpPath
, value: keyAuth
};
};
// { keyAuth }
BACME.challenges['dns-01'] = function (opts) {
console.log('opts.keyAuth for DNS:');
console.log(opts.keyAuth);
return window.crypto.subtle.digest(
{ name: "SHA-256", }
, textEncoder.encode(opts.keyAuth)
).then(function (hash) {
dnsAuth = btoa(Array.prototype.map.call(new Uint8Array(hash), function (ch) {
return String.fromCharCode(ch);
}).join('')).replace(/\+/g, '-').replace(/\//g, '_').replace(/=+$/g, '');
dnsRecord = '_acme-challenge.' + opts.challengeDomain;
console.log('DNS TXT Auth:');
// The name of the record
console.log(dnsRecord);
// The TXT record value
console.log(dnsAuth);
return {
type: 'TXT'
, host: dnsRecord
, answer: dnsAuth
};
});
};
var challengePollUrl;
// { jwk, challengeUrl, accountId (kid) }
BACME.challenges.accept = function (opts) {
var payload64 = BACME._jsto64({});
return BACME._importKey(opts.jwk).then(function (abstractKey) {
var protected64 = BACME._jsto64(
{ nonce: nonce, alg: abstractKey.meta.alg/*'ES256'*/, url: opts.challengeUrl, kid: opts.accountId }
);
return BACME._sign({
abstractKey: abstractKey
, payload64: payload64
, protected64: protected64
});
}).then(function (signedAccept) {
nonce = null;
return window.fetch(
opts.challengeUrl
, { mode: 'cors'
, method: 'POST'
, headers: { 'Content-Type': 'application/jose+json' }
, body: JSON.stringify(signedAccept)
}
).then(function (resp) {
BACME._logHeaders(resp);
nonce = resp.headers.get('replay-nonce');
console.log("ACCEPT NONCE:", nonce);
return resp.json().then(function (reply) {
challengePollUrl = reply.url;
console.log('Challenge ACK:');
console.log(JSON.stringify(reply));
return reply;
});
});
});
};
BACME.challenges.check = function (opts) {
return window.fetch(opts.challengePollUrl, { mode: 'cors' }).then(function (resp) {
BACME._logHeaders(resp);
return resp.json().then(function (reply) {
if (/error/.test(reply.type)) {
return Promise.reject(new Error(reply.detail || reply.type));
}
challengePollUrl = reply.url;
BACME._logBody(reply);
return reply;
});
});
};
var domainKeypair;
var domainJwk;
BACME.generateKeypair = function (opts) {
var wcOpts = {};
// ECDSA has only the P curves and an associated bitlength
if (/^EC/i.test(opts.type)) {
wcOpts.name = 'ECDSA';
if (/256/.test(opts.bitlength)) {
wcOpts.namedCurve = 'P-256';
}
}
// RSA-PSS is another option, but I don't think it's used for Let's Encrypt
// I think the hash is only necessary for signing, not generation or import
if (/^RS/i.test(opts.type)) {
wcOpts.name = 'RSASSA-PKCS1-v1_5';
wcOpts.modulusLength = opts.bitlength;
if (opts.bitlength < 2048) {
wcOpts.modulusLength = opts.bitlength * 8;
}
wcOpts.publicExponent = new Uint8Array([0x01, 0x00, 0x01]);
wcOpts.hash = { name: "SHA-256" };
}
var extractable = true;
return window.crypto.subtle.generateKey(
wcOpts
, extractable
, [ 'sign', 'verify' ]
);
};
BACME.domains = {};
// TODO factor out from BACME.accounts.generateKeypair even more
BACME.domains.generateKeypair = function (opts) {
return BACME.generateKeypair(opts).then(function (result) {
domainKeypair = result;
return window.crypto.subtle.exportKey(
"jwk"
, result.privateKey
).then(function (privJwk) {
domainJwk = privJwk;
console.log('private jwk:');
console.log(JSON.stringify(privJwk, null, 2));
return privJwk;
});
});
};
// { serverJwk, domains }
BACME.orders.generateCsr = function (opts) {
return BACME._importKey(opts.serverJwk).then(function (abstractKey) {
return Promise.resolve(CSR.generate({ keypair: abstractKey.wcKeypair, domains: opts.domains }));
});
};
var certificateUrl;
// { csr, jwk, finalizeUrl, accountId }
BACME.orders.finalize = function (opts) {
var payload64 = BACME._jsto64(
{ csr: opts.csr }
);
return BACME._importKey(opts.jwk).then(function (abstractKey) {
var protected64 = BACME._jsto64(
{ nonce: nonce, alg: abstractKey.meta.alg/*'ES256'*/, url: opts.finalizeUrl, kid: opts.accountId }
);
return BACME._sign({
abstractKey: abstractKey
, payload64: payload64
, protected64: protected64
});
}).then(function (signedFinal) {
nonce = null;
return window.fetch(
opts.finalizeUrl
, { mode: 'cors'
, method: 'POST'
, headers: { 'Content-Type': 'application/jose+json' }
, body: JSON.stringify(signedFinal)
}
).then(function (resp) {
BACME._logHeaders(resp);
nonce = resp.headers.get('replay-nonce');
return resp.json().then(function (reply) {
if (/error/.test(reply.type)) {
return Promise.reject(new Error(reply.detail || reply.type));
}
certificateUrl = reply.certificate;
BACME._logBody(reply);
return reply;
});
});
});
};
BACME.orders.receive = function (opts) {
return window.fetch(
opts.certificateUrl
, { mode: 'cors'
, method: 'GET'
}
).then(function (resp) {
BACME._logHeaders(resp);
nonce = resp.headers.get('replay-nonce');
return resp.text().then(function (reply) {
BACME._logBody(reply);
return reply;
});
});
};
BACME.orders.check = function (opts) {
return window.fetch(
opts.orderUrl
, { mode: 'cors'
, method: 'GET'
}
).then(function (resp) {
BACME._logHeaders(resp);
return resp.json().then(function (reply) {
if (/error/.test(reply.type)) {
return Promise.reject(new Error(reply.detail || reply.type));
}
BACME._logBody(reply);
return reply;
});
});
};
}(window));

112
lib/ecdsa.js Normal file
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@ -0,0 +1,112 @@
/*global Promise*/
(function (exports) {
'use strict';
var EC = exports.Eckles = {};
if ('undefined' !== typeof module) { module.exports = EC; }
var Enc = {};
var textEncoder = new TextEncoder();
EC._stance = "We take the stance that if you're knowledgeable enough to"
+ " properly and securely use non-standard crypto then you shouldn't need Bluecrypt anyway.";
EC._universal = "Bluecrypt only supports crypto with standard cross-browser and cross-platform support.";
EC.generate = function (opts) {
var wcOpts = {};
if (!opts) { opts = {}; }
if (!opts.kty) { opts.kty = 'EC'; }
// ECDSA has only the P curves and an associated bitlength
wcOpts.name = 'ECDSA';
if (!opts.namedCurve) {
opts.namedCurve = 'P-256';
}
wcOpts.namedCurve = opts.namedCurve; // true for supported curves
if (/256/.test(wcOpts.namedCurve)) {
wcOpts.namedCurve = 'P-256';
wcOpts.hash = { name: "SHA-256" };
} else if (/384/.test(wcOpts.namedCurve)) {
wcOpts.namedCurve = 'P-384';
wcOpts.hash = { name: "SHA-384" };
} else {
return Promise.Reject(new Error("'" + wcOpts.namedCurve + "' is not an NIST approved ECDSA namedCurve. "
+ " Please choose either 'P-256' or 'P-384'. "
+ EC._stance));
}
var extractable = true;
return window.crypto.subtle.generateKey(
wcOpts
, extractable
, [ 'sign', 'verify' ]
).then(function (result) {
return window.crypto.subtle.exportKey(
"jwk"
, result.privateKey
).then(function (privJwk) {
return {
private: privJwk
, public: EC.neuter({ jwk: privJwk })
};
});
});
};
// Chopping off the private parts is now part of the public API.
// I thought it sounded a little too crude at first, but it really is the best name in every possible way.
EC.neuter = function (opts) {
// trying to find the best balance of an immutable copy with custom attributes
var jwk = {};
Object.keys(opts.jwk).forEach(function (k) {
if ('undefined' === typeof opts.jwk[k]) { return; }
// ignore EC private parts
if ('d' === k) { return; }
jwk[k] = JSON.parse(JSON.stringify(opts.jwk[k]));
});
return jwk;
};
// https://stackoverflow.com/questions/42588786/how-to-fingerprint-a-jwk
EC.__thumbprint = function (jwk) {
// Use the same entropy for SHA as for key
var alg = 'SHA-256';
if (/384/.test(jwk.crv)) {
alg = 'SHA-384';
}
return window.crypto.subtle.digest(
{ name: alg }
, textEncoder.encode('{"crv":"' + jwk.crv + '","kty":"EC","x":"' + jwk.x + '","y":"' + jwk.y + '"}')
).then(function (hash) {
return Enc.bufToUrlBase64(new Uint8Array(hash));
});
};
EC.thumbprint = function (opts) {
return Promise.resolve().then(function () {
var jwk;
if ('EC' === opts.kty) {
jwk = opts;
} else if (opts.jwk) {
jwk = opts.jwk;
} else {
return EC.import(opts).then(function (jwk) {
return EC.__thumbprint(jwk);
});
}
return EC.__thumbprint(jwk);
});
};
Enc.bufToUrlBase64 = function (u8) {
return Enc.bufToBase64(u8)
.replace(/\+/g, '-').replace(/\//g, '_').replace(/=/g, '');
};
Enc.bufToBase64 = function (u8) {
var bin = '';
u8.forEach(function (i) {
bin += String.fromCharCode(i);
});
return btoa(bin);
};
}('undefined' !== typeof module ? module.exports : window));

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@ -3,84 +3,107 @@
'use strict'; 'use strict';
var Keypairs = exports.Keypairs = {}; var Keypairs = exports.Keypairs = {};
var Rasha = exports.Rasha || require('rasha');
var Eckles = exports.Eckles || require('eckles');
Keypairs._stance = "We take the stance that if you're knowledgeable enough to" Keypairs._stance = "We take the stance that if you're knowledgeable enough to"
+ " properly and securely use non-standard crypto then you shouldn't need Bluecrypt anyway."; + " properly and securely use non-standard crypto then you shouldn't need Bluecrypt anyway.";
Keypairs._universal = "Bluecrypt only supports crypto with standard cross-browser and cross-platform support."; Keypairs._universal = "Bluecrypt only supports crypto with standard cross-browser and cross-platform support.";
Keypairs.generate = function (opts) { Keypairs.generate = function (opts) {
var wcOpts = {}; opts = opts || {};
if (!opts) { var p;
opts = {}; if (!opts.kty) { opts.kty = opts.type; }
} if (!opts.kty) { opts.kty = 'EC'; }
if (!opts.kty) {
opts.kty = 'EC';
}
// ECDSA has only the P curves and an associated bitlength
if (/^EC/i.test(opts.kty)) { if (/^EC/i.test(opts.kty)) {
wcOpts.name = 'ECDSA'; p = Eckles.generate(opts);
if (!opts.namedCurve) {
opts.namedCurve = 'P-256';
}
wcOpts.namedCurve = opts.namedCurve; // true for supported curves
if (/256/.test(wcOpts.namedCurve)) {
wcOpts.namedCurve = 'P-256';
wcOpts.hash = { name: "SHA-256" };
} else if (/384/.test(wcOpts.namedCurve)) {
wcOpts.namedCurve = 'P-384';
wcOpts.hash = { name: "SHA-384" };
} else {
return Promise.Reject(new Error("'" + wcOpts.namedCurve + "' is not an NIST approved ECDSA namedCurve. "
+ " Please choose either 'P-256' or 'P-384'. "
+ Keypairs._stance));
}
} else if (/^RSA$/i.test(opts.kty)) { } else if (/^RSA$/i.test(opts.kty)) {
// Support PSS? I don't think it's used for Let's Encrypt p = Rasha.generate(opts);
wcOpts.name = 'RSASSA-PKCS1-v1_5';
if (!opts.modulusLength) {
opts.modulusLength = 2048;
}
wcOpts.modulusLength = opts.modulusLength;
if (wcOpts.modulusLength >= 2048 && wcOpts.modulusLength < 3072) {
// erring on the small side... for no good reason
wcOpts.hash = { name: "SHA-256" };
} else if (wcOpts.modulusLength >= 3072 && wcOpts.modulusLength < 4096) {
wcOpts.hash = { name: "SHA-384" };
} else if (wcOpts.modulusLength < 4097) {
wcOpts.hash = { name: "SHA-512" };
} else {
// Public key thumbprints should be paired with a hash of similar length,
// so anything above SHA-512's keyspace would be left under-represented anyway.
return Promise.Reject(new Error("'" + wcOpts.modulusLength + "' is not within the safe and universally"
+ " acceptable range of 2048-4096. Typically you should pick 2048, 3072, or 4096, though other values"
+ " divisible by 8 are allowed. " + Keypairs._stance));
}
// TODO maybe allow this to be set to any of the standard values?
wcOpts.publicExponent = new Uint8Array([0x01, 0x00, 0x01]);
} else { } else {
return Promise.Reject(new Error("'" + opts.kty + "' is not a well-supported key type." return Promise.Reject(new Error("'" + opts.kty + "' is not a well-supported key type."
+ Keypairs._universal + Keypairs._universal
+ " Please choose either 'EC' or 'RSA' keys.")); + " Please choose 'EC', or 'RSA' if you have good reason to."));
} }
return p.then(function (pair) {
var extractable = true; return Keypairs.thumbprint({ jwk: pair.public }).then(function (thumb) {
return window.crypto.subtle.generateKey( pair.private.kid = thumb; // maybe not the same id on the private key?
wcOpts pair.public.kid = thumb;
, extractable return pair;
, [ 'sign', 'verify' ]
).then(function (result) {
return window.crypto.subtle.exportKey(
"jwk"
, result.privateKey
).then(function (privJwk) {
// TODO remove
console.log('private jwk:');
console.log(JSON.stringify(privJwk, null, 2));
return {
privateKey: privJwk
};
}); });
}); });
}; };
}(window));
// Chopping off the private parts is now part of the public API.
// I thought it sounded a little too crude at first, but it really is the best name in every possible way.
Keypairs.neuter = Keypairs._neuter = function (opts) {
// trying to find the best balance of an immutable copy with custom attributes
var jwk = {};
Object.keys(opts.jwk).forEach(function (k) {
if ('undefined' === typeof opts.jwk[k]) { return; }
// ignore RSA and EC private parts
if (-1 !== ['d', 'p', 'q', 'dp', 'dq', 'qi'].indexOf(k)) { return; }
jwk[k] = JSON.parse(JSON.stringify(opts.jwk[k]));
});
return jwk;
};
Keypairs.thumbprint = function (opts) {
return Promise.resolve().then(function () {
if (/EC/i.test(opts.jwk.kty)) {
return Eckles.thumbprint(opts);
} else {
return Rasha.thumbprint(opts);
}
});
};
Keypairs.publish = function (opts) {
if ('object' !== typeof opts.jwk || !opts.jwk.kty) { throw new Error("invalid jwk: " + JSON.stringify(opts.jwk)); }
// returns a copy
var jwk = Keypairs.neuter(opts);
if (jwk.exp) {
jwk.exp = setTime(jwk.exp);
} else {
if (opts.exp) { jwk.exp = setTime(opts.exp); }
else if (opts.expiresIn) { jwk.exp = Math.round(Date.now()/1000) + opts.expiresIn; }
else if (opts.expiresAt) { jwk.exp = opts.expiresAt; }
}
if (!jwk.use && false !== jwk.use) { jwk.use = "sig"; }
if (jwk.kid) { return Promise.resolve(jwk); }
return Keypairs.thumbprint({ jwk: jwk }).then(function (thumb) { jwk.kid = thumb; return jwk; });
};
function setTime(time) {
if ('number' === typeof time) { return time; }
var t = time.match(/^(\-?\d+)([dhms])$/i);
if (!t || !t[0]) {
throw new Error("'" + time + "' should be datetime in seconds or human-readable format (i.e. 3d, 1h, 15m, 30s");
}
var now = Math.round(Date.now()/1000);
var num = parseInt(t[1], 10);
var unit = t[2];
var mult = 1;
switch(unit) {
// fancy fallthrough, what fun!
case 'd':
mult *= 24;
/*falls through*/
case 'h':
mult *= 60;
/*falls through*/
case 'm':
mult *= 60;
/*falls through*/
case 's':
mult *= 1;
}
return now + (mult * num);
}
}('undefined' !== typeof module ? module.exports : window));

86
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/*global Promise*/
(function (exports) {
'use strict';
var Keypairs = exports.Keypairs = {};
Keypairs._stance = "We take the stance that if you're knowledgeable enough to"
+ " properly and securely use non-standard crypto then you shouldn't need Bluecrypt anyway.";
Keypairs._universal = "Bluecrypt only supports crypto with standard cross-browser and cross-platform support.";
Keypairs.generate = function (opts) {
var wcOpts = {};
if (!opts) {
opts = {};
}
if (!opts.kty) {
opts.kty = 'EC';
}
// ECDSA has only the P curves and an associated bitlength
if (/^EC/i.test(opts.kty)) {
wcOpts.name = 'ECDSA';
if (!opts.namedCurve) {
opts.namedCurve = 'P-256';
}
wcOpts.namedCurve = opts.namedCurve; // true for supported curves
if (/256/.test(wcOpts.namedCurve)) {
wcOpts.namedCurve = 'P-256';
wcOpts.hash = { name: "SHA-256" };
} else if (/384/.test(wcOpts.namedCurve)) {
wcOpts.namedCurve = 'P-384';
wcOpts.hash = { name: "SHA-384" };
} else {
return Promise.Reject(new Error("'" + wcOpts.namedCurve + "' is not an NIST approved ECDSA namedCurve. "
+ " Please choose either 'P-256' or 'P-384'. "
+ Keypairs._stance));
}
} else if (/^RSA$/i.test(opts.kty)) {
// Support PSS? I don't think it's used for Let's Encrypt
wcOpts.name = 'RSASSA-PKCS1-v1_5';
if (!opts.modulusLength) {
opts.modulusLength = 2048;
}
wcOpts.modulusLength = opts.modulusLength;
if (wcOpts.modulusLength >= 2048 && wcOpts.modulusLength < 3072) {
// erring on the small side... for no good reason
wcOpts.hash = { name: "SHA-256" };
} else if (wcOpts.modulusLength >= 3072 && wcOpts.modulusLength < 4096) {
wcOpts.hash = { name: "SHA-384" };
} else if (wcOpts.modulusLength < 4097) {
wcOpts.hash = { name: "SHA-512" };
} else {
// Public key thumbprints should be paired with a hash of similar length,
// so anything above SHA-512's keyspace would be left under-represented anyway.
return Promise.Reject(new Error("'" + wcOpts.modulusLength + "' is not within the safe and universally"
+ " acceptable range of 2048-4096. Typically you should pick 2048, 3072, or 4096, though other values"
+ " divisible by 8 are allowed. " + Keypairs._stance));
}
// TODO maybe allow this to be set to any of the standard values?
wcOpts.publicExponent = new Uint8Array([0x01, 0x00, 0x01]);
} else {
return Promise.Reject(new Error("'" + opts.kty + "' is not a well-supported key type."
+ Keypairs._universal
+ " Please choose either 'EC' or 'RSA' keys."));
}
var extractable = true;
return window.crypto.subtle.generateKey(
wcOpts
, extractable
, [ 'sign', 'verify' ]
).then(function (result) {
return window.crypto.subtle.exportKey(
"jwk"
, result.privateKey
).then(function (privJwk) {
// TODO remove
console.log('private jwk:');
console.log(JSON.stringify(privJwk, null, 2));
return {
privateKey: privJwk
};
});
});
};
}(window));

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/*global Promise*/
(function (exports) {
'use strict';
var RSA = exports.Rasha = {};
if ('undefined' !== typeof module) { module.exports = RSA; }
var Enc = {};
var textEncoder = new TextEncoder();
RSA._stance = "We take the stance that if you're knowledgeable enough to"
+ " properly and securely use non-standard crypto then you shouldn't need Bluecrypt anyway.";
RSA._universal = "Bluecrypt only supports crypto with standard cross-browser and cross-platform support.";
RSA.generate = function (opts) {
var wcOpts = {};
if (!opts) { opts = {}; }
if (!opts.kty) { opts.kty = 'RSA'; }
// Support PSS? I don't think it's used for Let's Encrypt
wcOpts.name = 'RSASSA-PKCS1-v1_5';
if (!opts.modulusLength) {
opts.modulusLength = 2048;
}
wcOpts.modulusLength = opts.modulusLength;
if (wcOpts.modulusLength >= 2048 && wcOpts.modulusLength < 3072) {
// erring on the small side... for no good reason
wcOpts.hash = { name: "SHA-256" };
} else if (wcOpts.modulusLength >= 3072 && wcOpts.modulusLength < 4096) {
wcOpts.hash = { name: "SHA-384" };
} else if (wcOpts.modulusLength < 4097) {
wcOpts.hash = { name: "SHA-512" };
} else {
// Public key thumbprints should be paired with a hash of similar length,
// so anything above SHA-512's keyspace would be left under-represented anyway.
return Promise.Reject(new Error("'" + wcOpts.modulusLength + "' is not within the safe and universally"
+ " acceptable range of 2048-4096. Typically you should pick 2048, 3072, or 4096, though other values"
+ " divisible by 8 are allowed. " + RSA._stance));
}
// TODO maybe allow this to be set to any of the standard values?
wcOpts.publicExponent = new Uint8Array([0x01, 0x00, 0x01]);
var extractable = true;
return window.crypto.subtle.generateKey(
wcOpts
, extractable
, [ 'sign', 'verify' ]
).then(function (result) {
return window.crypto.subtle.exportKey(
"jwk"
, result.privateKey
).then(function (privJwk) {
return {
private: privJwk
, public: RSA.neuter({ jwk: privJwk })
};
});
});
};
// Chopping off the private parts is now part of the public API.
// I thought it sounded a little too crude at first, but it really is the best name in every possible way.
RSA.neuter = function (opts) {
// trying to find the best balance of an immutable copy with custom attributes
var jwk = {};
Object.keys(opts.jwk).forEach(function (k) {
if ('undefined' === typeof opts.jwk[k]) { return; }
// ignore RSA private parts
if (-1 !== ['d', 'p', 'q', 'dp', 'dq', 'qi'].indexOf(k)) { return; }
jwk[k] = JSON.parse(JSON.stringify(opts.jwk[k]));
});
return jwk;
};
// https://stackoverflow.com/questions/42588786/how-to-fingerprint-a-jwk
RSA.__thumbprint = function (jwk) {
// Use the same entropy for SHA as for key
var len = Math.floor(jwk.n.length * 0.75);
var alg = 'SHA-256';
// TODO this may be a bug
// need to confirm that the padding is no more or less than 1 byte
if (len >= 511) {
alg = 'SHA-512';
} else if (len >= 383) {
alg = 'SHA-384';
}
return window.crypto.subtle.digest(
{ name: alg }
, textEncoder.encode('{"e":"' + jwk.e + '","kty":"RSA","n":"' + jwk.n + '"}')
).then(function (hash) {
return Enc.bufToUrlBase64(new Uint8Array(hash));
});
};
RSA.thumbprint = function (opts) {
return Promise.resolve().then(function () {
var jwk;
if ('EC' === opts.kty) {
jwk = opts;
} else if (opts.jwk) {
jwk = opts.jwk;
} else {
return RSA.import(opts).then(function (jwk) {
return RSA.__thumbprint(jwk);
});
}
return RSA.__thumbprint(jwk);
});
};
Enc.bufToUrlBase64 = function (u8) {
return Enc.bufToBase64(u8)
.replace(/\+/g, '-').replace(/\//g, '_').replace(/=/g, '');
};
Enc.bufToBase64 = function (u8) {
var bin = '';
u8.forEach(function (i) {
bin += String.fromCharCode(i);
});
return btoa(bin);
};
}('undefined' !== typeof module ? module.exports : window));