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21 Commits
v1.1.10 ... main

Author SHA1 Message Date
AJ ONeal
a84e833571 3.0.2 2021-10-21 14:19:26 -06:00
AJ ONeal
076246e4d0 docs: sync error messages to docs 2021-10-21 14:19:23 -06:00
AJ ONeal
4c85fc4009 3.0.1 2021-10-21 13:37:30 -06:00
AJ ONeal
d5647ea905 docs: update errors list 2021-10-21 13:37:21 -06:00
AJ ONeal
2ea44e3a46 bugfix: properly stringify message and pass details 2021-10-21 13:37:12 -06:00
AJ ONeal
5ef53ecb23 3.0.0 2021-10-21 13:28:30 -06:00
AJ ONeal
604b42c7ef chore!: drop really, really old node support 2021-10-21 13:28:20 -06:00
AJ ONeal
c57a08f0cd 2.1.0 2021-10-21 13:22:08 -06:00
AJ ONeal
a3539b0941 feature: add additional (standardized) error messages 2021-10-21 13:21:41 -06:00
AJ ONeal
523a4f0d1a feature: add distinct error codes 2021-10-20 18:12:06 -06:00
AJ ONeal
7d5889b4de chore: add linter config 2021-10-20 18:08:27 -06:00
AJ ONeal
79e6758f9f 2.0.0 2021-06-15 17:22:46 -06:00
AJ ONeal
842807f92b security warning -> issuer error, async/await 2021-06-15 17:22:38 -06:00
AJ ONeal
a648de58d8 1.2.2 2021-06-15 17:05:14 -06:00
AJ ONeal
8ec2d98645 security: obey opts.iss, issue warning by default 2021-06-15 17:03:30 -06:00
AJ ONeal
9141962456 rename .prettierrc.json 2021-06-15 16:15:43 -06:00
AJ ONeal
aba70bf0ff make Prettier 2020-04-08 16:01:06 -04:00
AJ ONeal
a32b942861 typo fix: ecdsaAsn1SigToJwtSig => ecdsaJoseSigToAsn1Sig 2019-05-06 03:06:49 -06:00
AJ ONeal
e274e5368a v1.2.1: better trusted issuer normalization 2019-03-15 13:59:55 -06:00
AJ ONeal
e6de23532b add a few more tests 2019-03-15 13:53:49 -06:00
AJ ONeal
5060c505b6 v1.2.0: add code to check issuers and claims 2019-03-15 13:45:27 -06:00
9 changed files with 1123 additions and 378 deletions
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22
.jshintrc Normal file
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@ -0,0 +1,22 @@
{
"browser": true,
"node": true,
"esversion": 11,
"curly": true,
"sub": true,
"bitwise": true,
"eqeqeq": true,
"forin": true,
"freeze": true,
"immed": true,
"latedef": "nofunc",
"nonbsp": true,
"nonew": true,
"plusplus": true,
"undef": true,
"unused": "vars",
"strict": true,
"maxdepth": 3,
"maxstatements": 100,
"maxcomplexity": 10
}

7
.prettierrc.json Normal file
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@ -0,0 +1,7 @@
{
"bracketSpacing": true,
"printWidth": 120,
"tabWidth": 4,
"trailingComma": "none",
"useTabs": false
}

11
CHANGELOG.md Normal file
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@ -0,0 +1,11 @@
# v3.0.0
**Breaking Change**: Standardize error `message`s (now they're more client-friendly).
# v2.1.0
Feature: Add `code`, `status`, and `details` to errors.
# v2.0.0
**Breaking Change**: require `issuers` array (rather than `["*"]` by default).

239
README.md
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@ -1,4 +1,4 @@
# keyfetch # [keyfetch](https://git.rootprojects.org/root/keyfetch.js)
Lightweight support for fetching JWKs. Lightweight support for fetching JWKs.
@ -9,17 +9,28 @@ Fetches JSON native JWKs and exposes them as PEMs that can be consumed by the `j
Works great for Works great for
* [x] `jsonwebtoken` (Auth0) - [x] `jsonwebtoken` (Auth0)
* [x] OIDC (OpenID Connect) - [x] OIDC (OpenID Connect)
* [x] .well-known/jwks.json (Auth0) - [x] .well-known/jwks.json (Auth0, Okta)
* [x] Other JWKs URLs - [x] Other JWKs URLs
Crypto Support Crypto Support
* [x] JWT verification - [x] JWT verification
* [x] RSA (all variants) - [x] RSA (all variants)
* [x] EC / ECDSA (NIST variants P-256, P-384) - [x] EC / ECDSA (NIST variants P-256, P-384)
* [ ] esoteric variants (excluded to keep the code featherweight and secure) - [x] Sane error codes
- [ ] esoteric variants (excluded to keep the code featherweight and secure)
# Table of Contents
- Install
- Usage
- API
- Auth0 / Okta
- OIDC
- Errors
- Change Log
# Install # Install
@ -32,64 +43,71 @@ npm install --save keyfetch
Retrieve a key list of keys: Retrieve a key list of keys:
```js ```js
var keyfetch = require('keyfetch'); var keyfetch = require("keyfetch");
keyfetch.oidcJwks("https://example.com/").then(function (results) { keyfetch.oidcJwks("https://example.com/").then(function (results) {
results.forEach(function (result) { results.forEach(function (result) {
console.log(result.jwk); console.log(result.jwk);
console.log(result.thumprint); console.log(result.thumprint);
console.log(result.pem); console.log(result.pem);
}); });
}); });
``` ```
Quick JWT verification: Quick JWT verification (for authentication):
```js ```js
var keyfetch = require('keyfetch'); var keyfetch = require("keyfetch");
var jwt = '...'; var jwt = "...";
keyfetch.verify({ jwt: jwt }).then(function (decoded) { keyfetch.jwt.verify(jwt).then(function (decoded) {
console.log(decoded); console.log(decoded);
});
```
JWT verification (for authorization):
```js
var options = { issuers: ["https://example.com/"], claims: { role: "admin" } };
keyfetch.jwt.verify(jwt, options).then(function (decoded) {
console.log(decoded);
}); });
``` ```
Verify a JWT with `jsonwebtoken`: Verify a JWT with `jsonwebtoken`:
```js ```js
var keyfetch = require('keyfetch'); var keyfetch = require("keyfetch");
var jwt = require('jsonwebtoken'); var jwt = require("jsonwebtoken");
var auth = "..."; // some JWT var auth = "..."; // some JWT
var token = jwt.decode(auth, { json: true, complete: true }) var token = jwt.decode(auth, { json: true, complete: true });
if (!isTrustedIssuer(token.payload.iss)) { if (!isTrustedIssuer(token.payload.iss)) {
throw new Error("untrusted issuer"); throw new Error("untrusted issuer");
} }
keyfetch.oidcJwk( keyfetch.oidcJwk(token.header.kid, token.payload.iss).then(function (result) {
token.header.kid console.log(result.jwk);
, token.payload.iss console.log(result.thumprint);
).then(function (result) { console.log(result.pem);
console.log(result.jwk);
console.log(result.thumprint);
console.log(result.pem);
jwt.verify(jwt, pem); jwt.jwt.verify(jwt, { jwk: result.jwk });
}); });
``` ```
*Note*: You might implement `isTrustedIssuer` one of these: _Note_: You might implement `isTrustedIssuer` one of these:
```js ```js
function isTrustedIssuer(iss) { function isTrustedIssuer(iss) {
return -1 !== [ 'https://partner.com/', 'https://auth0.com/'].indexOf(iss); return -1 !== ["https://partner.com/", "https://auth0.com/"].indexOf(iss);
} }
``` ```
```js ```js
function isTrustedIssuer(iss) { function isTrustedIssuer(iss) {
return /^https:/.test(iss) && // must be a secure domain return (
/(\.|^)example\.com$/.test(iss); // can be example.com or any subdomain /^https:/.test(iss) && /(\.|^)example\.com$/.test(iss) // must be a secure domain
); // can be example.com or any subdomain
} }
``` ```
@ -106,12 +124,12 @@ Retrieves keys from a URL such as `https://example.com/jwks/` with the format `{
and returns the array of keys (as well as thumbprint and jwk-to-pem). and returns the array of keys (as well as thumbprint and jwk-to-pem).
```js ```js
keyfetch.jwks(jwksUrl) keyfetch.jwks(jwksUrl);
// Promises [ { jwk, thumbprint, pem } ] or fails // Promises [ { jwk, thumbprint, pem } ] or fails
``` ```
```js ```js
keyfetch.jwk(id, jwksUrl) keyfetch.jwk(id, jwksUrl);
// Promises { jwk, thumbprint, pem } or fails // Promises { jwk, thumbprint, pem } or fails
``` ```
@ -121,12 +139,12 @@ If `https://example.com/` is used as `issuerUrl` it will resolve to
`https://example.com/.well-known/jwks.json` and return the keys. `https://example.com/.well-known/jwks.json` and return the keys.
```js ```js
keyfetch.wellKnownJwks(issuerUrl) keyfetch.wellKnownJwks(issuerUrl);
// Promises [ { jwk, thumbprint, pem } ] or fails // Promises [ { jwk, thumbprint, pem } ] or fails
``` ```
```js ```js
keyfetch.wellKnownJwk(id, issuerUrl) keyfetch.wellKnownJwk(id, issuerUrl);
// Promises { jwk, thumbprint, pem } or fails // Promises { jwk, thumbprint, pem } or fails
``` ```
@ -136,38 +154,155 @@ If `https://example.com/` is used as `issuerUrl` then it will first resolve to
`https://example.com/.well-known/openid-configuration` and then follow `jwks_uri` to return the keys. `https://example.com/.well-known/openid-configuration` and then follow `jwks_uri` to return the keys.
```js ```js
keyfetch.oidcJwks(issuerUrl) keyfetch.oidcJwks(issuerUrl);
// Promises [ { jwk, thumbprint, pem } ] or fails // Promises [ { jwk, thumbprint, pem } ] or fails
``` ```
```js ```js
keyfetch.oidcJwk(id, issuerUrl) keyfetch.oidcJwk(id, issuerUrl);
// Promises { jwk, thumbprint, pem } or fails // Promises { jwk, thumbprint, pem } or fails
``` ```
### Verify JWT ### Verify JWT
This can accept a _JWT string_ (compact JWS) or a _decoded JWT object_ (JWS).
This can be used purely for verifying pure authentication tokens, as well as authorization tokens.
```js ```js
keyfetch.verify({ jwt: jwk, strategy: 'oidc' }) keyfetch.jwt.verify(jwt, { strategy: "oidc" }).then(function (verified) {
// Promises a decoded JWT { headers, payload, signature } or fails /*
{ protected: '...' // base64 header
, payload: '...' // base64 payload
, signature: '...' // base64 signature
, header: {...} // decoded header
, claims: {...} // decoded payload
}
*/
});
``` ```
* `strategy` may be `oidc` (default) , `auth0`, or a direct JWKs url. When used for authorization, it's important to specify a limited set of trusted `issuers`. \
When using for federated authentication you may set `issuers = ["*"]` - but **DO NOT** trust claims such as `email` and `email_verified`.
If your authorization `claims` can be expressed as exact string matches, you can specify those too.
```js
keyfetch.jwt.verify(jwt, {
strategy: 'oidc',
issuers: [ 'https://example.com/' ],
//iss: 'https://example.com/',
claims: { role: 'admin', sub: 'abc', group: 'xyz' }
}).then(function (verified) {
```
- `strategy` may be `oidc` (default) , `auth0`, or a direct JWKs url.
- `issuers` must be a list of https urls (though http is allowed for things like Docker swarm), or '\*'
- `iss` is like `issuers`, but only one
- `claims` is an object with arbitrary keys (i.e. everything except for the standard `iat`, `exp`, `jti`, etc)
- `exp` may be set to `false` if you're validating on your own (i.e. allowing time drift leeway)
- `jwks` can be used to specify a list of allowed public key rather than fetching them (i.e. for offline unit tests)
- `jwk` same as above, but a single key rather than a list
### Decode JWT
```jwt
try {
console.log( keyfetch.jwt.decode(jwt) );
} catch(e) {
console.error(e);
}
```
```js
{ protected: '...' // base64 header
, payload: '...' // base64 payload
, signature: '...' // base64 signature
, header: {...} // decoded header
, claims: {...} // decoded payload
```
It's easier just to show the code than to explain the example.
```js
keyfetch.jwt.decode = function (jwt) {
// Unpack JWS from "compact" form
var parts = jwt.split(".");
var obj = {
protected: parts[0],
payload: parts[1],
signature: parts[2]
};
// Decode JWT properties from JWS as unordered objects
obj.header = JSON.parse(Buffer.from(obj.protected, "base64"));
obj.claims = JSON.parse(Buffer.from(obj.payload, "base64"));
return obj;
};
```
### Cache Settings ### Cache Settings
```js ```js
keyfetch.init({ keyfetch.init({
// set all keys at least 1 hour (regardless of jwk.exp) // set all keys at least 1 hour (regardless of jwk.exp)
mincache: 1 * 60 * 60 mincache: 1 * 60 * 60,
// expire each key after 3 days (regardless of jwk.exp) // expire each key after 3 days (regardless of jwk.exp)
, maxcache: 3 * 24 * 60 * 60 maxcache: 3 * 24 * 60 * 60,
// re-fetch a key up to 15 minutes before it expires (only if used) // re-fetch a key up to 15 minutes before it expires (only if used)
, staletime: 15 * 60 staletime: 15 * 60
}) });
``` ```
There is no background task to cleanup expired keys as of yet. There is no background task to cleanup expired keys as of yet.
For now you can limit the number of keys fetched by having a simple whitelist. For now you can limit the number of keys fetched by having a simple whitelist.
# Errors
`JSON.stringify()`d errors look like this:
```js
{
code: "INVALID_JWT",
status: 401,
details: [ "jwt.claims.exp = 1634804500", "DEBUG: helpful message" ]
message: "token's 'exp' has passed or could not parsed: 1634804500"
}
```
SemVer Compatibility:
- `code` & `status` will remain the same.
- `message` is **NOT** included in the semver compatibility guarantee (we intend to make them more client-friendly), neither is `detail` at this time (but it will be once we decide on what it should be).
- `details` may be added to, but not subtracted from
| Hint | Code | Status | Message (truncated) |
| ----------------- | ------------- | ------ | ------------------------------------------------------ |
| bad gateway | BAD_GATEWAY | 502 | The auth token could not be verified because our se... |
| insecure issuer | MALFORMED_JWT | 400 | The auth token could not be verified because our se... |
| parse error | MALFORMED_JWT | 400 | The auth token could not be verified because it is ... |
| no issuer | MALFORMED_JWT | 400 | The auth token could not be verified because it doe... |
| malformed exp | MALFORMED_JWT | 400 | The auth token could not be verified because it's e... |
| expired | INVALID_JWT | 401 | The auth token is expired. To try again, go to the ... |
| inactive | INVALID_JWT | 401 | The auth token isn't valid yet. It's activation dat... |
| bad signature | INVALID_JWT | 401 | The auth token did not pass verification because it... |
| jwk not found old | INVALID_JWT | 401 | The auth token did not pass verification because ou... |
| jwk not found | INVALID_JWT | 401 | The auth token did not pass verification because ou... |
| no jwkws uri | INVALID_JWT | 401 | The auth token did not pass verification because it... |
| unknown issuer | INVALID_JWT | 401 | The auth token did not pass verification because it... |
| failed claims | INVALID_JWT | 401 | The auth token did not pass verification because it... |
# Change Log
Minor Breaking changes (with a major version bump):
- v3.0.0
- reworked error messages (also available in v2.1.0 as `client_message`)
- started using `let` and template strings (drops _really_ old node compat)
- v2.0.0
- changes from the default `issuers = ["*"]` to requiring that an issuer (or public jwk for verification) is specified
See other changes in [CHANGELOG.md](./CHANGELOG.md).

164
keyfetch-test.js
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@ -1,24 +1,164 @@
'use strict'; "use strict";
var keyfetch = require('./keyfetch.js'); var keyfetch = require("./keyfetch.js");
var testIss = "https://example.auth0.com"; var testIss = "https://example.auth0.com";
keyfetch.init({}); keyfetch.init({});
keyfetch.oidcJwks(testIss).then(function (hits) { keyfetch
keyfetch._clear(); .oidcJwks(testIss)
console.log(hits); .then(function (hits) {
return keyfetch.oidcJwk(hits[0].thumbprint, testIss).then(function () { keyfetch._clear();
return keyfetch.oidcJwk(hits[0].thumbprint, testIss).then(function (jwk) { //console.log(hits);
console.log(jwk); return keyfetch.oidcJwk(hits[0].thumbprint, testIss).then(function () {
return keyfetch.oidcJwk(hits[0].thumbprint, testIss).then(function (/*jwk*/) {
//console.log(jwk);
});
});
})
.then(function () {
console.log("Fetching PASSES");
})
.catch(function (err) {
console.error("NONE SHALL PASS!");
console.error(err);
process.exit(1);
}); });
});
}).catch(function (err) {
console.error(err);
});
/*global Promise*/
var keypairs = require("keypairs");
keypairs.generate().then(function (pair) {
var iss = "https://example.com/";
return Promise.all([
keypairs
.signJwt({
jwk: pair.private,
iss: iss,
sub: "mikey",
exp: "1h"
})
.then(function (jwt) {
return Promise.all([
keyfetch.jwt.verify(jwt, { jwk: pair.public, iss: "*" }).then(function (verified) {
if (!(verified.claims && verified.claims.exp)) {
throw new Error("malformed decoded token");
}
}),
keyfetch.jwt
.verify(keyfetch.jwt.decode(jwt), { jwk: pair.public, iss: iss })
.then(function (verified) {
if (!(verified.claims && verified.claims.exp)) {
throw new Error("malformed decoded token");
}
}),
keyfetch.jwt.verify(jwt, { jwks: [pair.public], issuers: [iss] }),
keyfetch.jwt.verify(jwt, {
jwk: pair.public,
issuers: ["https://example.com/"]
}),
keyfetch.jwt.verify(jwt, {
jwk: pair.public,
issuers: ["https://example.com"]
}),
keyfetch.jwt.verify(jwt, {
jwk: pair.public,
issuers: ["example.com"]
}),
keyfetch.jwt.verify(jwt, {
jwk: pair.public,
issuers: ["example.com/"]
}),
keyfetch.jwt.verify(jwt, {
jwk: pair.public,
issuers: ["*"]
}),
keyfetch.jwt
.verify(jwt, {
jwk: pair.public,
issuers: ["http://example.com"]
})
.then(e("bad scheme"))
.catch(throwIfNotExpected),
keyfetch.jwt
.verify(jwt, {
jwk: pair.public,
issuers: ["https://www.example.com"]
})
.then(e("bad prefix"))
.catch(throwIfNotExpected),
keyfetch.jwt
.verify(jwt, {
jwk: pair.public,
issuers: ["https://wexample.com"]
})
.then(e("bad sld"))
.catch(throwIfNotExpected),
keyfetch.jwt
.verify(jwt, {
jwk: pair.public,
issuers: ["https://example.comm"]
})
.then(e("bad tld"))
.catch(throwIfNotExpected),
keyfetch.jwt.verify(jwt, {
jwk: pair.public,
claims: { iss: "https://example.com/" }
}),
keyfetch.jwt
.verify(jwt, {
jwk: pair.public,
claims: { iss: "https://example.com" }
})
.then(e("inexact claim"))
.catch(throwIfNotExpected)
]);
}),
keypairs
.signJwt({
jwk: pair.private,
iss: false,
sub: "mikey",
exp: "1h"
})
.then(function (jwt) {
return Promise.all([
// test that the old behavior of defaulting to '*' still works
keyfetch.jwt
.verify(jwt, { jwk: pair.public })
.then(e("should have issued security warning about allow all by default"))
.catch(throwIfNotExpected),
keyfetch.jwt.verify(jwt, { jwk: pair.public, issuers: ["*"] }),
keyfetch.jwt.verify(jwt).then(e("should have an issuer")).catch(throwIfNotExpected),
keyfetch.jwt
.verify(jwt, {
jwk: pair.public,
issuers: ["https://example.com/"]
})
.then(e("fail when issuer specified and doesn't exist"))
.catch(throwIfNotExpected)
]);
})
])
.then(function () {
console.log("JWT PASSES");
})
.catch(function (err) {
console.error("NONE SHALL PASS!");
console.error(err);
process.exit(1);
});
});
/* /*
var jwt = '...'; var jwt = '...';
keyfetch.verify({ jwt: jwt }).catch(function (err) { keyfetch.verify({ jwt: jwt }).catch(function (err) {
console.log(err); console.log(err);
}); });
*/ */
function e(msg) {
return new Error("ETEST: " + msg);
}
function throwIfNotExpected(err) {
if ("ETEST" === err.message.slice(0, 5)) {
throw err;
}
}

620
keyfetch.js
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@ -1,160 +1,163 @@
'use strict'; "use strict";
var keyfetch = module.exports; var keyfetch = module.exports;
var promisify = require('util').promisify; var request = require("@root/request").defaults({
var requestAsync = promisify(require('@coolaj86/urequest')); userAgent: "keyfetch/v2.1.0"
var Rasha = require('rasha'); });
var Eckles = require('eckles'); var Rasha = require("rasha");
var Eckles = require("eckles");
var mincache = 1 * 60 * 60; var mincache = 1 * 60 * 60;
var maxcache = 3 * 24 * 60 * 60; var maxcache = 3 * 24 * 60 * 60;
var staletime = 15 * 60; var staletime = 15 * 60;
var keyCache = {}; var keyCache = {};
/*global Promise*/ var Errors = require("./lib/errors.js");
function checkMinDefaultMax(opts, key, n, d, x) {
var i = opts[key]; async function requestAsync(req) {
if (!i && 0 !== i) { return d; } var resp = await request(req).catch(Errors.BAD_GATEWAY);
if (i >= n && i >= x) {
return parseInt(i, 10); // differentiate potentially temporary server errors from 404
} else { if (!resp.ok && (resp.statusCode >= 500 || resp.statusCode < 200)) {
throw new Error("opts." + key + " should be at least " + n + " and at most " + x + ", not " + i); throw Errors.BAD_GATEWAY({ response: resp });
} }
return resp;
} }
function checkMinDefaultMax(opts, key, n, d, x) {
var i = opts[key];
if (!i && 0 !== i) {
return d;
}
if (i >= n && i >= x) {
return parseInt(i, 10);
} else {
throw Errors.DEVELOPER_ERROR("opts." + key + " should be at least " + n + " and at most " + x + ", not " + i);
}
}
keyfetch._errors = Errors;
keyfetch._clear = function () { keyfetch._clear = function () {
keyCache = {}; keyCache = {};
}; };
keyfetch.init = function (opts) { keyfetch.init = function (opts) {
mincache = checkMinDefaultMax(opts, 'mincache', mincache = checkMinDefaultMax(opts, "mincache", 1 * 60, mincache, 31 * 24 * 60 * 60);
1 * 60, maxcache = checkMinDefaultMax(opts, "maxcache", 1 * 60 * 60, maxcache, 31 * 24 * 60 * 60);
mincache, staletime = checkMinDefaultMax(opts, "staletime", 1 * 60, staletime, 31 * 24 * 60 * 60);
31 * 24 * 60 * 60
);
maxcache = checkMinDefaultMax(opts, 'maxcache',
1 * 60 * 60,
maxcache,
31 * 24 * 60 * 60
);
staletime = checkMinDefaultMax(opts, 'staletime',
1 * 60,
staletime,
31 * 24 * 60 * 60
);
}; };
keyfetch._oidc = function (iss) { keyfetch._oidc = async function (iss) {
return Promise.resolve().then(function () { var url = normalizeIss(iss) + "/.well-known/openid-configuration";
return requestAsync({ var resp = await requestAsync({
url: normalizeIss(iss) + '/.well-known/openid-configuration' url: url,
, json: true json: true
}).then(function (resp) {
var oidcConf = resp.body;
if (!oidcConf.jwks_uri) {
throw new Error("Failed to retrieve openid configuration");
}
return oidcConf;
}); });
});
var oidcConf = resp.body;
if (!oidcConf.jwks_uri) {
throw Errors.NO_JWKS_URI(url);
}
return oidcConf;
}; };
keyfetch._wellKnownJwks = function (iss) { keyfetch._wellKnownJwks = async function (iss) {
return Promise.resolve().then(function () { return keyfetch._jwks(normalizeIss(iss) + "/.well-known/jwks.json");
return keyfetch._jwks(normalizeIss(iss) + '/.well-known/jwks.json');
});
}; };
keyfetch._jwks = function (iss) { keyfetch._jwks = async function (iss) {
return requestAsync({ url: iss, json: true }).then(function (resp) { var resp = await requestAsync({ url: iss, json: true });
return Promise.all(resp.body.keys.map(function (jwk) {
// EC keys have an x values, whereas RSA keys do not return Promise.all(
var Keypairs = jwk.x ? Eckles : Rasha; resp.body.keys.map(async function (jwk) {
return Keypairs.thumbprint({ jwk: jwk }).then(function (thumbprint) { // EC keys have an x values, whereas RSA keys do not
return Keypairs.export({ jwk: jwk }).then(function (pem) { var Keypairs = jwk.x ? Eckles : Rasha;
var cacheable = { var thumbprint = await Keypairs.thumbprint({ jwk: jwk });
jwk: jwk var pem = await Keypairs.export({ jwk: jwk });
, thumbprint: thumbprint var cacheable = {
, pem: pem jwk: jwk,
}; thumbprint: thumbprint,
return cacheable; pem: pem
}); };
}); return cacheable;
})); })
}); );
}; };
keyfetch.jwks = function (jwkUrl) { keyfetch.jwks = async function (jwkUrl) {
// TODO DRY up a bit
return keyfetch._jwks(jwkUrl).then(function (results) {
return Promise.all(results.map(function (result) {
return keyfetch._setCache(result.jwk.iss || jwkUrl, result);
})).then(function () {
// cacheable -> hit (keep original externally immutable)
return JSON.parse(JSON.stringify(results));
});
});
};
keyfetch.wellKnownJwks = function (iss) {
// TODO DRY up a bit
return keyfetch._wellKnownJwks(iss).then(function (results) {
return Promise.all(results.map(function (result) {
return keyfetch._setCache(result.jwk.iss || iss, result);
})).then(function () {
// result -> hit (keep original externally immutable)
return JSON.parse(JSON.stringify(results));
});
});
};
keyfetch.oidcJwks = function (iss) {
return keyfetch._oidc(iss).then(function (oidcConf) {
// TODO DRY up a bit // TODO DRY up a bit
return keyfetch._jwks(oidcConf.jwks_uri).then(function (results) { var results = await keyfetch._jwks(jwkUrl);
return Promise.all(results.map(function (result) { await Promise.all(
return keyfetch._setCache(result.jwk.iss || iss, result); results.map(async function (result) {
})).then(function () { return keyfetch._setCache(result.jwk.iss || jwkUrl, result);
// result -> hit (keep original externally immutable) })
return JSON.parse(JSON.stringify(results)); );
}); // cacheable -> hit (keep original externally immutable)
}); return JSON.parse(JSON.stringify(results));
}); };
keyfetch.wellKnownJwks = async function (iss) {
// TODO DRY up a bit
var results = await keyfetch._wellKnownJwks(iss);
await Promise.all(
results.map(async function (result) {
return keyfetch._setCache(result.jwk.iss || iss, result);
})
);
// result -> hit (keep original externally immutable)
return JSON.parse(JSON.stringify(results));
};
keyfetch.oidcJwks = async function (iss) {
var oidcConf = await keyfetch._oidc(iss);
// TODO DRY up a bit
var results = await keyfetch._jwks(oidcConf.jwks_uri);
await Promise.all(
results.map(async function (result) {
return keyfetch._setCache(result.jwk.iss || iss, result);
})
);
// result -> hit (keep original externally immutable)
return JSON.parse(JSON.stringify(results));
}; };
function checkId(id) { function checkId(id) {
return function (results) { return function (results) {
var result = results.filter(function (result) { var result = results.filter(function (result) {
// we already checked iss above // we already checked iss above
return result.jwk.kid === id || result.thumbprint === id; return result.jwk.kid === id || result.thumbprint === id;
})[0]; })[0];
if (!result) { if (!result) {
throw new Error("No JWK found by kid or thumbprint '" + id + "'"); throw Errors.JWK_NOT_FOUND(id);
} }
return result; return result;
}; };
} }
keyfetch.oidcJwk = function (id, iss) { keyfetch.oidcJwk = async function (id, iss) {
return keyfetch._checkCache(id, iss).then(function (hit) { var hit = await keyfetch._checkCache(id, iss);
if (hit) { return hit; } if (hit) {
return hit;
}
return keyfetch.oidcJwks(iss).then(checkId(id)); return keyfetch.oidcJwks(iss).then(checkId(id));
});
}; };
keyfetch.wellKnownJwk = function (id, iss) { keyfetch.wellKnownJwk = async function (id, iss) {
return keyfetch._checkCache(id, iss).then(function (hit) { var hit = await keyfetch._checkCache(id, iss);
if (hit) { return hit; } if (hit) {
return hit;
}
return keyfetch.wellKnownJwks(iss).then(checkId(id)); return keyfetch.wellKnownJwks(iss).then(checkId(id));
});
}; };
keyfetch.jwk = function (id, jwksUrl) { keyfetch.jwk = async function (id, jwksUrl) {
return keyfetch._checkCache(id, jwksUrl).then(function (hit) { var hit = await keyfetch._checkCache(id, jwksUrl);
if (hit) { return hit; } if (hit) {
return hit;
}
return keyfetch.jwks(jwksUrl).then(checkId(id)); return keyfetch.jwks(jwksUrl).then(checkId(id));
});
}; };
keyfetch._checkCache = function (id, iss) { keyfetch._checkCache = async function (id, iss) {
return Promise.resolve().then(function () {
// We cache by thumbprint and (kid + '@' + iss), // We cache by thumbprint and (kid + '@' + iss),
// so it's safe to check without appending the issuer // so it's safe to check without appending the issuer
var hit = keyCache[id]; var hit = keyCache[id];
if (!hit) { if (!hit) {
hit = keyCache[id + '@' + normalizeIss(iss)]; hit = keyCache[id + "@" + normalizeIss(iss)];
} }
if (!hit) { if (!hit) {
return null; return null;
} }
var now = Math.round(Date.now() / 1000); var now = Math.round(Date.now() / 1000);
@ -162,187 +165,282 @@ keyfetch._checkCache = function (id, iss) {
// not guarding number checks since we know that we // not guarding number checks since we know that we
// set 'now' and 'expiresAt' correctly elsewhere // set 'now' and 'expiresAt' correctly elsewhere
if (left > staletime) { if (left > staletime) {
return JSON.parse(JSON.stringify(hit)); return JSON.parse(JSON.stringify(hit));
} }
if (left > 0) { if (left > 0) {
return JSON.parse(JSON.stringify(hit)); return JSON.parse(JSON.stringify(hit));
} }
return null; return null;
});
}; };
keyfetch._setCache = function (iss, cacheable) { keyfetch._setCache = function (iss, cacheable) {
// force into a number // force into a number
var expiresAt = parseInt(cacheable.jwk.exp, 10) || 0; var expiresAt = parseInt(cacheable.jwk.exp, 10) || 0;
var now = Date.now() / 1000; var now = Date.now() / 1000;
var left = expiresAt - now; var left = expiresAt - now;
// TODO maybe log out when any of these non-ideal cases happen? // TODO maybe log out when any of these non-ideal cases happen?
if (!left) { if (!left) {
expiresAt = now + maxcache; expiresAt = now + maxcache;
} else if (left < mincache) { } else if (left < mincache) {
expiresAt = now + mincache; expiresAt = now + mincache;
} else if (left > maxcache) { } else if (left > maxcache) {
expiresAt = now + maxcache; expiresAt = now + maxcache;
} }
// cacheable = { jwk, thumprint, pem } // cacheable = { jwk, thumprint, pem }
cacheable.createdAt = now; cacheable.createdAt = now;
cacheable.expiresAt = expiresAt; cacheable.expiresAt = expiresAt;
keyCache[cacheable.thumbprint] = cacheable; keyCache[cacheable.thumbprint] = cacheable;
keyCache[cacheable.jwk.kid + '@' + normalizeIss(iss)] = cacheable; keyCache[cacheable.jwk.kid + "@" + normalizeIss(iss)] = cacheable;
}; };
function normalizeIss(iss) { function normalizeIss(iss) {
// We definitely don't want false negatives stemming if (!iss) {
// from https://example.com vs https://example.com/ throw Errors.NO_ISSUER();
// We also don't want to allow insecure issuers }
if (/^http:/.test(iss) && !process.env.KEYFETCH_ALLOW_INSECURE_HTTP) {
// note, we wrap some things in promises just so we can throw here // We definitely don't want false negatives stemming
throw new Error("'" + iss + "' is NOT secure. Set env 'KEYFETCH_ALLOW_INSECURE_HTTP=true' to allow for testing."); // from https://example.com vs https://example.com/
} // We also don't want to allow insecure issuers
return iss.replace(/\/$/, ''); if (/^http:/.test(iss) && !process.env.KEYFETCH_ALLOW_INSECURE_HTTP) {
// note, we wrap some things in promises just so we can throw here
throw Errors.INSECURE_ISSUER(iss);
}
return iss.replace(/\/$/, "");
} }
keyfetch._decode = function (jwt) {
var parts = jwt.split('.'); keyfetch.jwt = {};
return { keyfetch.jwt.decode = function (jwt) {
header: JSON.parse(Buffer.from(parts[0], 'base64')) try {
, payload: JSON.parse(Buffer.from(parts[1], 'base64')) var parts = jwt.split(".");
, signature: parts[2] //Buffer.from(parts[2], 'base64') // JWS
}; var obj = { protected: parts[0], payload: parts[1], signature: parts[2] };
// JWT
obj.header = JSON.parse(Buffer.from(obj.protected, "base64"));
obj.claims = JSON.parse(Buffer.from(obj.payload, "base64"));
return obj;
} catch (e) {
var err = Errors.PARSE_ERROR(jwt);
err.details = e.message;
throw err;
}
}; };
keyfetch.verify = function (opts) { keyfetch.jwt.verify = async function (jwt, opts) {
var jwt = opts.jwt; if (!opts) {
return Promise.resolve().then(function () { opts = {};
var decoded; }
var jws;
var exp; var exp;
var nbf; var nbf;
var valid; var active;
try { var now;
decoded = keyfetch._decode(jwt); var then;
exp = decoded.payload.exp; var issuers = opts.issuers || [];
nbf = decoded.payload.nbf; if (opts.iss) {
} catch (e) { issuers.push(opts.iss);
throw new Error("could not parse opts.jwt: '" + jwt + "'");
} }
if (exp) { if (opts.claims && opts.claims.iss) {
valid = (parseInt(exp, 10) - (Date.now()/1000) > 0); issuers.push(opts.claims.iss);
if (!valid) {
throw new Error("token's 'exp' has passed or could not parsed: '" + exp + "'");
}
} }
if (nbf) { if (!issuers.length) {
valid = (parseInt(nbf, 10) - (Date.now()/1000) <= 0); if (!(opts.jwk || opts.jwks)) {
if (!valid) { throw Errors.DEVELOPER_ERROR(
throw new Error("token's 'nbf' has not been reached or could not parsed: '" + nbf + "'"); "[keyfetch.js] Security Error: Neither of opts.issuers nor opts.iss were provided. If you would like to bypass issuer verification (i.e. for federated authn) you must explicitly set opts.issuers = ['*']. Otherwise set a value such as https://accounts.google.com/"
} );
}
}
var claims = opts.claims || {};
if (!jwt || "string" === typeof jwt) {
jws = keyfetch.jwt.decode(jwt);
} else {
jws = jwt;
} }
if (opts.jwks || opts.jwk) { if (!jws.claims.iss || !issuers.some(isTrustedIssuer(jws.claims.iss))) {
return overrideLookup(opts.jwks || [opts.jwk]); if (!(opts.jwk || opts.jwks)) {
throw Errors.UNKNOWN_ISSUER(jws.claims.iss || "");
}
} }
// Note claims.iss validates more strictly than opts.issuers (requires exact match)
function overrideLookup(jwks) { var failedClaims = Object.keys(claims)
return Promise.all(jwks.map(function (jwk) { .filter(function (key) {
var Keypairs = jwk.x ? Eckles : Rasha; if (claims[key] !== jws.claims[key]) {
return Keypairs.export({ jwk: jwk }).then(function (pem) { return true;
return Keypairs.thumbprint({ jwk: jwk }).then(function (thumb) { }
return { jwk: jwk, pem: pem, thumbprint: thumb }; })
}); .map(function (key) {
return "jwt.claims." + key + " = " + JSON.stringify(jws.claims[key]);
}); });
})).then(verifyAny); if (failedClaims.length) {
throw Errors.FAILED_CLAIMS(failedClaims, Object.keys(claims));
} }
var kid = decoded.header.kid; exp = jws.claims.exp;
if (exp && false !== opts.exp) {
now = Date.now();
// TODO document that opts.exp can be used as leeway? Or introduce opts.leeway?
// fair, but not necessary
exp = parseInt(exp, 10);
if (isNaN(exp)) {
throw Errors.MALFORMED_EXP(JSON.stringify(jws.claims.exp));
}
then = (opts.exp || 0) + parseInt(exp, 10);
active = then - now / 1000 > 0;
// expiration was on the token or, if not, such a token is not allowed
if (!active) {
throw Errors.EXPIRED(exp);
}
}
nbf = jws.claims.nbf;
if (nbf) {
active = parseInt(nbf, 10) - Date.now() / 1000 <= 0;
if (!active) {
throw Errors.INACTIVE(nbf);
}
}
if (opts.jwks || opts.jwk) {
return overrideLookup(opts.jwks || [opts.jwk]);
}
var kid = jws.header.kid;
var iss; var iss;
var fetcher; var fetcher;
var fetchOne; var fetchOne;
if (!opts.strategy || 'oidc' === opts.strategy) { if (!opts.strategy || "oidc" === opts.strategy) {
iss = decoded.payload.iss; iss = jws.claims.iss;
fetcher = keyfetch.oidcJwks; fetcher = keyfetch.oidcJwks;
fetchOne = keyfetch.oidcJwk; fetchOne = keyfetch.oidcJwk;
} else if ('auth0' === opts.strategy || 'well-known' === opts.strategy) { } else if ("auth0" === opts.strategy || "well-known" === opts.strategy) {
iss = decoded.payload.iss; iss = jws.claims.iss;
fetcher = keyfetch.wellKnownJwks; fetcher = keyfetch.wellKnownJwks;
fetchOne = keyfetch.wellKnownJwk; fetchOne = keyfetch.wellKnownJwk;
} else { } else {
iss = opts.strategy; iss = opts.strategy;
fetcher = keyfetch.jwks; fetcher = keyfetch.jwks;
fetchOne = keyfetch.jwk; fetchOne = keyfetch.jwk;
} }
var payload = jwt.split('.')[1]; // as string, as it was signed
if (kid) { if (kid) {
return fetchOne(kid, iss).then(verifyOne); //.catch(fetchAny); return fetchOne(kid, iss).then(verifyOne); //.catch(fetchAny);
} else {
return fetcher(iss).then(verifyAny);
}
function verify(hit, payload) {
var alg = 'SHA' + decoded.header.alg.replace(/[^\d]+/i, '');
var sig = ecdsaAsn1SigToJwtSig(decoded.header, decoded.signature);
return require('crypto')
.createVerify(alg)
.update(jwt.split('.')[0] + '.' + payload)
.verify(hit.pem, sig, 'base64')
;
} }
return fetcher(iss).then(verifyAny);
function verifyOne(hit) { function verifyOne(hit) {
if (true === verify(hit, payload)) { if (true === keyfetch.jws.verify(jws, hit)) {
return decoded; return jws;
} }
throw new Error('token signature verification was unsuccessful'); throw Errors.BAD_SIGNATURE(jws.protected + "." + jws.payload + "." + jws.signature);
} }
function verifyAny(hits) { function verifyAny(hits) {
if (hits.some(function (hit) { if (
if (kid) { hits.some(function (hit) {
if (kid !== hit.jwk.kid && kid !== hit.thumbprint) { return; } if (kid) {
if (true === verify(hit, payload)) { return true; } if (kid !== hit.jwk.kid && kid !== hit.thumbprint) {
throw new Error('token signature verification was unsuccessful'); return;
} else { }
if (true === verify(hit, payload)) { return true; } if (true === keyfetch.jws.verify(jws, hit)) {
return true;
}
throw Errors.BAD_SIGNATURE();
}
if (true === keyfetch.jws.verify(jws, hit)) {
return true;
}
})
) {
return jws;
} }
})) { throw Errors.JWK_NOT_FOUND_OLD(kid);
return decoded;
}
throw new Error("Retrieved a list of keys, but none of them matched the 'kid' (key id) of the token.");
} }
});
function overrideLookup(jwks) {
return Promise.all(
jwks.map(async function (jwk) {
var Keypairs = jwk.x ? Eckles : Rasha;
var pem = await Keypairs.export({ jwk: jwk });
var thumb = await Keypairs.thumbprint({ jwk: jwk });
return { jwk: jwk, pem: pem, thumbprint: thumb };
})
).then(verifyAny);
}
};
keyfetch.jws = {};
keyfetch.jws.verify = function (jws, pub) {
var alg = "SHA" + jws.header.alg.replace(/[^\d]+/i, "");
var sig = ecdsaJoseSigToAsn1Sig(jws.header, jws.signature);
return require("crypto")
.createVerify(alg)
.update(jws.protected + "." + jws.payload)
.verify(pub.pem, sig, "base64");
}; };
function ecdsaAsn1SigToJwtSig(header, b64sig) { // old, gotta make sure nothing else uses this
// ECDSA JWT signatures differ from "normal" ECDSA signatures keyfetch._decode = function (jwt) {
// https://tools.ietf.org/html/rfc7518#section-3.4 var obj = keyfetch.jwt.decode(jwt);
if (!/^ES/i.test(header.alg)) { return b64sig; } return { header: obj.header, payload: obj.claims, signature: obj.signature };
};
keyfetch.verify = async function (opts) {
var jwt = opts.jwt;
var obj = await keyfetch.jwt.verify(jwt, opts);
return { header: obj.header, payload: obj.claims, signature: obj.signature };
};
var bufsig = Buffer.from(b64sig, 'base64'); function ecdsaJoseSigToAsn1Sig(header, b64sig) {
var hlen = bufsig.byteLength / 2; // should be even // ECDSA JWT signatures differ from "normal" ECDSA signatures
var r = bufsig.slice(0, hlen); // https://tools.ietf.org/html/rfc7518#section-3.4
var s = bufsig.slice(hlen); if (!/^ES/i.test(header.alg)) {
// unpad positive ints less than 32 bytes wide return b64sig;
while (!r[0]) { r = r.slice(1); } }
while (!s[0]) { s = s.slice(1); }
// pad (or re-pad) ambiguously non-negative BigInts to 33 bytes wide
if (0x80 & r[0]) { r = Buffer.concat([Buffer.from([0]), r]); }
if (0x80 & s[0]) { s = Buffer.concat([Buffer.from([0]), s]); }
var len = 2 + r.byteLength + 2 + s.byteLength; var bufsig = Buffer.from(b64sig, "base64");
var head = [0x30]; var hlen = bufsig.byteLength / 2; // should be even
// hard code 0x80 + 1 because it won't be longer than var r = bufsig.slice(0, hlen);
// two SHA512 plus two pad bytes (130 bytes <= 256) var s = bufsig.slice(hlen);
if (len >= 0x80) { head.push(0x81); } // unpad positive ints less than 32 bytes wide
head.push(len); while (!r[0]) {
r = r.slice(1);
}
while (!s[0]) {
s = s.slice(1);
}
// pad (or re-pad) ambiguously non-negative BigInts to 33 bytes wide
if (0x80 & r[0]) {
r = Buffer.concat([Buffer.from([0]), r]);
}
if (0x80 & s[0]) {
s = Buffer.concat([Buffer.from([0]), s]);
}
var buf = Buffer.concat([ var len = 2 + r.byteLength + 2 + s.byteLength;
Buffer.from(head) var head = [0x30];
, Buffer.from([0x02, r.byteLength]), r // hard code 0x80 + 1 because it won't be longer than
, Buffer.from([0x02, s.byteLength]), s // two SHA512 plus two pad bytes (130 bytes <= 256)
]); if (len >= 0x80) {
head.push(0x81);
}
head.push(len);
return buf.toString('base64') var buf = Buffer.concat([
.replace(/-/g, '+') Buffer.from(head),
.replace(/_/g, '/') Buffer.from([0x02, r.byteLength]),
.replace(/=/g, '') r,
; Buffer.from([0x02, s.byteLength]),
s
]);
return buf.toString("base64").replace(/-/g, "+").replace(/_/g, "/").replace(/=/g, "");
}
function isTrustedIssuer(issuer) {
return function (trusted) {
if ("*" === trusted) {
return true;
}
// TODO account for '*.example.com'
trusted = /^http(s?):\/\//.test(trusted) ? trusted : "https://" + trusted;
return issuer.replace(/\/$/, "") === trusted.replace(/\/$/, "") && trusted;
};
} }

270
lib/errors.js Normal file
View File

@ -0,0 +1,270 @@
"use strict";
// Possible User Errors
/**
* @typedef AuthError
* @property {string} message
* @property {number} status
* @property {string} code
* @property {any} [details]
*/
/**
* @param {string} msg
* @param {{
* status: number,
* code: string,
* details?: any,
* }} opts
* @returns {AuthError}
*/
function create(old, msg, code, status, details) {
/** @type AuthError */
//@ts-ignore
let err = new Error(msg);
err.message = msg;
err._old_message = old;
err.code = code;
err.status = status;
if (details) {
err.details = details;
}
err.source = "keyfetch";
err.toJSON = toJSON;
err.toString = toString;
return err;
}
function toJSON() {
/*jshint validthis:true*/
return {
message: this.message,
status: this.status,
code: this.code,
details: this.details
};
}
function toString() {
/*jshint validthis:true*/
return this.stack + "\n" + JSON.stringify(this);
}
// DEVELOPER_ERROR - a good token won't make a difference
var E_DEVELOPER = "DEVELOPER_ERROR";
// BAD_GATEWAY - there may be a temporary error fetching the public or or whatever
var E_BAD_GATEWAY = "BAD_GATEWAY";
// MALFORMED_JWT - the token could not be verified - not parsable, missing claims, etc
var E_MALFORMED = "MALFORMED_JWT";
// INVALID_JWT - the token's properties don't meet requirements - iss, claims, sig, exp
var E_INVALID = "INVALID_JWT";
module.exports = {
//
// DEVELOPER_ERROR (dev / server)
//
/**
* @param {string} msg
* @returns {AuthError}
*/
DEVELOPER_ERROR: function (old, msg, details) {
return create(old, msg || old, E_DEVELOPER, 500, details);
},
BAD_GATEWAY: function (err) {
var msg =
"The auth token could not be verified because our server encountered a network error (or a bad gateway) when connecting to its issuing server.";
var details = [];
if (err.message) {
details.push("error.message = " + err.message);
}
if (err.response && err.response.statusCode) {
details.push("response.statusCode = " + err.response.statusCode);
}
return create(msg, msg, E_BAD_GATEWAY, 502, details);
},
//
// MALFORMED_TOKEN (dev / client)
//
/**
* @param {string} iss
* @returns {AuthError}
*/
INSECURE_ISSUER: function (iss) {
var old =
"'" + iss + "' is NOT secure. Set env 'KEYFETCH_ALLOW_INSECURE_HTTP=true' to allow for testing. (iss)";
var details = [
"jwt.claims.iss = " + JSON.stringify(iss),
"DEBUG: Set ENV 'KEYFETCH_ALLOW_INSECURE_HTTP=true' to allow insecure issuers (for testing)."
];
var msg =
'The auth token could not be verified because our server could connect to its issuing server ("iss") securely.';
return create(old, msg, E_MALFORMED, 400, details);
},
/**
* @param {string} jwt
* @returns {AuthError}
*/
PARSE_ERROR: function (jwt) {
var old = "could not parse jwt: '" + jwt + "'";
var msg = "The auth token could not be verified because it is malformed.";
var details = ["jwt = " + JSON.stringify(jwt)];
return create(old, msg, E_MALFORMED, 400, details);
},
/**
* @param {string} iss
* @returns {AuthError}
*/
NO_ISSUER: function (iss) {
var old = "'iss' is not defined";
var msg = 'The auth token could not be verified because it doesn\'t specify an issuer ("iss").';
var details = ["jwt.claims.iss = " + JSON.stringify(iss)];
return create(old, msg, E_MALFORMED, 400, details);
},
/**
* @param {string} iss
* @returns {AuthError}
*/
MALFORMED_EXP: function (exp) {
var old = "token's 'exp' has passed or could not parsed: '" + exp + "'";
var msg = 'The auth token could not be verified because it\'s expiration date ("exp") could not be read';
var details = ["jwt.claims.exp = " + JSON.stringify(exp)];
return create(old, msg, E_MALFORMED, 400, details);
},
//
// INVALID_TOKEN (dev / client)
//
/**
* @param {number} exp
* @returns {AuthError}
*/
EXPIRED: function (exp) {
var old = "token's 'exp' has passed or could not parsed: '" + exp + "'";
// var msg = "The auth token did not pass verification because it is expired.not properly signed.";
var msg = "The auth token is expired. To try again, go to the main page and sign in.";
var details = ["jwt.claims.exp = " + JSON.stringify(exp)];
return create(old, msg, E_INVALID, 401, details);
},
/**
* @param {number} nbf
* @returns {AuthError}
*/
INACTIVE: function (nbf) {
var old = "token's 'nbf' has not been reached or could not parsed: '" + nbf + "'";
var msg = "The auth token isn't valid yet. It's activation date (\"nbf\") is in the future.";
var details = ["jwt.claims.nbf = " + JSON.stringify(nbf)];
return create(old, msg, E_INVALID, 401, details);
},
/** @returns {AuthError} */
BAD_SIGNATURE: function (jwt) {
var old = "token signature verification was unsuccessful";
var msg = "The auth token did not pass verification because it is not properly signed.";
var details = ["jwt = " + JSON.stringify(jwt)];
return create(old, msg, E_INVALID, 401, details);
},
/**
* @param {string} kid
* @returns {AuthError}
*/
JWK_NOT_FOUND_OLD: function (kid) {
var old = "Retrieved a list of keys, but none of them matched the 'kid' (key id) of the token.";
var msg =
'The auth token did not pass verification because our server couldn\'t find a mutually trusted verification key ("jwk").';
var details = ["jws.header.kid = " + JSON.stringify(kid)];
return create(old, msg, E_INVALID, 401, details);
},
/**
* @param {string} id
* @returns {AuthError}
*/
JWK_NOT_FOUND: function (id) {
// TODO Distinguish between when it's a kid vs thumbprint.
var old = "No JWK found by kid or thumbprint '" + id + "'";
var msg =
'The auth token did not pass verification because our server couldn\'t find a mutually trusted verification key ("jwk").';
var details = ["jws.header.kid = " + JSON.stringify(id)];
return create(old, msg, E_INVALID, 401, details);
},
/** @returns {AuthError} */
NO_JWKWS_URI: function (url) {
var old = "Failed to retrieve openid configuration";
var msg =
'The auth token did not pass verification because its issuing server did not list any verification keys ("jwks").';
var details = ["OpenID Provider Configuration: " + JSON.stringify(url)];
return create(old, msg, E_INVALID, 401, details);
},
/**
* @param {string} iss
* @returns {AuthError}
*/
UNKNOWN_ISSUER: function (iss) {
var old = "token was issued by an untrusted issuer: '" + iss + "'";
var msg = "The auth token did not pass verification because it wasn't issued by a server that we trust.";
var details = ["jwt.claims.iss = " + JSON.stringify(iss)];
return create(old, msg, E_INVALID, 401, details);
},
/**
* @param {Array<string>} details
* @returns {AuthError}
*/
FAILED_CLAIMS: function (details, claimNames) {
var old = "token did not match on one or more authorization claims: '" + claimNames + "'";
var msg =
'The auth token did not pass verification because it failed some of the verification criteria ("claims").';
return create(old, msg, E_INVALID, 401, details);
}
};
var Errors = module.exports;
// for README
if (require.main === module) {
let maxWidth = 54;
let header = ["Hint", "Code", "Status", "Message (truncated)"];
let widths = header.map(function (v) {
return Math.min(maxWidth, String(v).length);
});
let rows = [];
Object.keys(module.exports).forEach(function (k) {
//@ts-ignore
var E = module.exports[k];
var e = E("test");
var code = e.code;
var msg = e.message;
var hint = k.toLowerCase().replace(/_/g, " ");
widths[0] = Math.max(widths[0], String(hint).length);
widths[1] = Math.max(widths[1], String(code).length);
widths[2] = Math.max(widths[2], String(e.status).length);
widths[3] = Math.min(maxWidth, Math.max(widths[3], String(msg).length));
rows.push([hint, code, e.status, msg]);
});
rows.forEach(function (cols, i) {
let cells = cols.map(function (col, i) {
if (col.length > maxWidth) {
col = col.slice(0, maxWidth - 3);
col += "...";
}
return String(col).padEnd(widths[i], " ");
});
let out = `| ${cells[0]} | ${cells[1]} | ${cells[2]} | ${cells[3].slice(0, widths[3])} |`;
//out = out.replace(/\| /g, " ").replace(/\|/g, "");
console.info(out);
if (i === 0) {
cells = cols.map(function (col, i) {
return "-".padEnd(widths[i], "-");
});
console.info(`| ${cells[0]} | ${cells[1]} | ${cells[2]} | ${cells[3]} |`);
}
});
console.log();
console.log(Errors.MALFORMED_EXP());
console.log();
console.log(JSON.stringify(Errors.MALFORMED_EXP(), null, 2));
}

97
package-lock.json generated
View File

@ -1,23 +1,82 @@
{ {
"name": "keyfetch", "name": "keyfetch",
"version": "1.1.8", "version": "3.0.2",
"lockfileVersion": 1, "lockfileVersion": 2,
"requires": true, "requires": true,
"dependencies": { "packages": {
"@coolaj86/urequest": { "": {
"version": "1.3.7", "name": "keyfetch",
"resolved": "https://registry.npmjs.org/@coolaj86/urequest/-/urequest-1.3.7.tgz", "version": "3.0.2",
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"dependencies": {
"@root/request": "^1.8.0",
"eckles": "^1.4.1",
"rasha": "^1.2.4"
},
"devDependencies": {
"keypairs": "^1.2.14"
}
},
"node_modules/@root/request": {
"version": "1.8.0",
"resolved": "https://registry.npmjs.org/@root/request/-/request-1.8.0.tgz",
"integrity": "sha512-HufCvoTwqR30OyKSjwg28W5QCUpypSJZpOYcJbC9PME5kI6cOYsccYs/6bXfsuEoarz8+YwBDrsuM1UdBMxMLw=="
},
"node_modules/eckles": {
"version": "1.4.1",
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"bin": {
"eckles": "bin/eckles.js"
}
},
"node_modules/keypairs": {
"version": "1.2.14",
"resolved": "https://registry.npmjs.org/keypairs/-/keypairs-1.2.14.tgz",
"integrity": "sha512-ZoZfZMygyB0QcjSlz7Rh6wT2CJasYEHBPETtmHZEfxuJd7bnsOG5AdtPZqHZBT+hoHvuWCp/4y8VmvTvH0Y9uA==",
"dev": true,
"dependencies": {
"eckles": "^1.4.1",
"rasha": "^1.2.4"
},
"bin": {
"keypairs-install": "bin/keypairs.js"
}
},
"node_modules/rasha": {
"version": "1.2.4",
"resolved": "https://registry.npmjs.org/rasha/-/rasha-1.2.4.tgz",
"integrity": "sha512-GsIwKv+hYSumJyK9wkTDaERLwvWaGYh1WuI7JMTBISfYt13TkKFU/HFzlY4n72p8VfXZRUYm0AqaYhkZVxOC3Q==",
"bin": {
"rasha": "bin/rasha.js"
}
}
}, },
"eckles": { "dependencies": {
"version": "1.4.1", "@root/request": {
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"rasha": { },
"version": "1.2.4", "eckles": {
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"integrity": "sha512-GsIwKv+hYSumJyK9wkTDaERLwvWaGYh1WuI7JMTBISfYt13TkKFU/HFzlY4n72p8VfXZRUYm0AqaYhkZVxOC3Q==" "resolved": "https://registry.npmjs.org/eckles/-/eckles-1.4.1.tgz",
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"keypairs": {
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"dev": true,
"requires": {
"eckles": "^1.4.1",
"rasha": "^1.2.4"
}
},
"rasha": {
"version": "1.2.4",
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}
} }
}
} }

71
package.json
View File

@ -1,36 +1,39 @@
{ {
"name": "keyfetch", "name": "keyfetch",
"version": "1.1.10", "version": "3.0.2",
"description": "Lightweight support for fetching JWKs.", "description": "Lightweight support for fetching JWKs.",
"homepage": "https://git.coolaj86.com/coolaj86/keyfetch.js", "homepage": "https://git.rootprojects.org/root/keyfetch.js",
"main": "keyfetch.js", "main": "keyfetch.js",
"files": [], "files": [
"dependencies": { "lib"
"@coolaj86/urequest": "^1.3.7", ],
"eckles": "^1.4.1", "dependencies": {
"rasha": "^1.2.4" "@root/request": "^1.8.0",
}, "eckles": "^1.4.1",
"devDependencies": {}, "rasha": "^1.2.4"
"scripts": { },
"test": "node keyfetch-test.js" "devDependencies": {
}, "keypairs": "^1.2.14"
"repository": { },
"type": "git", "scripts": {
"url": "https://git.coolaj86.com/coolaj86/keyfetch.js.git" "test": "node keyfetch-test.js"
}, },
"keywords": [ "repository": {
"jwks", "type": "git",
"jwk", "url": "https://git.rootprojects.org/root/keyfetch.js.git"
"jwt", },
"auth0", "keywords": [
"pem", "jwks",
"RSA", "jwk",
"EC", "jwt",
"ECDSA", "auth0",
"OIDC", "pem",
"well-known" "RSA",
], "EC",
"author": "AJ ONeal <solderjs@gmail.com> (https://coolaj86.com/)", "ECDSA",
"license": "MPL-2.0" "OIDC",
"well-known"
],
"author": "AJ ONeal <coolaj86@gmail.com> (https://coolaj86.com/)",
"license": "MPL-2.0"
} }