This package provides a very simple OAuth 2.0 endpoint for the Restify framework. In particular, it implements the Client Credentials and Resource Owner Password Credentials flows only.
This package is a modification of restify-oauth2 to be included in the OAuth Daemon (oauthd) project. The main modification is to reply a 403 instead of 401/WWW-Authenticate to avoid basic auth popup in browsers in some cases. We advise to use the original restify-oauth2 if you want to use it in your projects, since the description below may be inexact.
If you provide Restify–OAuth2–oauthd with the appropriate hooks, it will:
- Set up a token endpoint, which returns access token responses or correctly-formatted error responses.
- For all other resources, when an access token is sent via the
Authorization
header, it will validate it:- If the token fails validation, it will send an appropriate 400 or 401 error response, with a
WWW-Authenticate
header and aLink
rel="oauth2-token"
header pointing to the token endpoint. - Otherwise, you can use your
authenticateToken
andgrantScopes
hooks to set properties on the request object for your routes to check later.
- If the token fails validation, it will send an appropriate 400 or 401 error response, with a
- If no access token is sent, it ensures that
req.username
is set tonull
; furthermore, none of your hooks are called, so you can be sure that no properties that they set are present.- You can then check for these conditions whenever there is a resource you want to protect.
- If the user tries to access a protected resource, you can use Restify–OAuth2–oauthd's
res.sendUnauthenticated()
to send appropriate 401 errors with helpfulWWW-Authenticate
andLink
headers, or itsres.sendUnauthorized()
to send appropriate 403 errors with similar headers.
To use Restify–OAuth2–oauthd, you'll need to pass it your server plus some options, including the hooks discussed below.
Restify–OAuth2–oauthd also depends on the built-in authorizationParser
and bodyParser
plugins, the latter with mapParams
set to false
. So in short, it looks like this:
var restify = require("restify");
var restifyOAuth2 = require("restify-oauth2-oauthd");
var server = restify.createServer({ name: "My cool server", version: "1.0.0" });
server.use(restify.authorizationParser());
server.use(restify.bodyParser({ mapParams: false }));
restifyOAuth2.cc(server, options);
// or
restifyOAuth2.ropc(server, options);
Unfortunately, Restify–OAuth2–oauthd can't be a simple Restify plugin. It needs to install a route for the token endpoint, whereas plugins simply run on every request and don't modify the server's routing table.
The options you pass to Restify–OAuth2–oauthd depend heavily on which of the two flows you are choosing. There are some
options common to both flows, but the options.hooks
hash will vary depending on the flow. Once you provide the
appropriate hooks, you get an OAuth 2 implementation for free.
The idea behind this very simple OAuth 2 flow is that your API clients identify themselves with client IDs and secrets, and if those values authenticate, you grant them an access token they can use for further requests. The advantage of this over simply requiring basic access authentication headers on every request is that now you can set those tokens to expire, or revoke them if they fall in to the wrong hands.
To install Restify–OAuth2–oauthd's client credentials flow into your infrastructure, you will need to provide it with the
following hooks in the options.hooks
hash. You can see some example CC hooks in the demo application.
Checks that the API client is authorized to use your API, and has the correct secret. It should call back with a new
token for that client if so, or false
if the credentials are incorrect. It can also call back with an error if there
was some internal server error while validating the credentials.
Checks that a token is valid, i.e. that it was granted in the past by grantClientToken
. It should call back with
true
if so, or false
if the token is invalid. It can also call back with an error if there was some internal
server error while looking up the token. If the token is valid, it is likely useful to set a property on the request
object indicating that so that your routes can check it later, e.g. req.authenticated = true
or
req.clientId = lookupClientIdFrom(token)
.
The idea behind this OAuth 2 flow is that your API clients will prompt the user for their username and password, and send those to your API in exchange for an access token. This has some advantages over simply sending the user's credentials to the server directly. For example, it obviates the need for the client to store the credentials, and allows expiration and revocation of tokens. However, it does imply that you trust your API clients, since they will have at least one-time access to the user's credentials.
To install Restify–OAuth2–oauthd's resource owner password credentials flow into your infrastructure, you will need to
provide it with the following hooks in the options.hooks
hash. You can see some example ROPC hooks in the demo
application.
Checks that the API client is authorized to use your API, and has the correct secret. It should call back with true
or false
depending on the result of the check. It can also call back with an error if there was some internal server
error while doing the check.
Checks that the API client is authenticating on behalf of a real user with correct credentials. It should call back
with a new token for that user if so, or false
if the credentials are incorrect. It can also call back with an error
if there was some internal server error while validating the credentials.
Checks that a token is valid, i.e. that it was granted in the past by grantUserToken
. It should call back with
true
if so, or false
if the token is invalid. It can also call back with an error if there was some internal
server error while looking up the token. If the token is valid, it is likely useful to set a property on the request
object indicating that so that your routes can check it later, e.g. req.authenticated = true
or
req.username = lookupUsernameFrom(token)
.
Optionally, it is possible to limit the scope of the issued tokens, so that you can implement an authorization system in your application in addition to simple authentication.
This hook is called after the token has been granted by authenticateToken
. In the client credentials flow,
credentials
will be { clientId, clientSecret, token }
; in the resource owner password credentials flow, it will be
{ clientId, clientSecret, username, password, token }
. In both cases, scopesRequested
will be an array of the
requested scopes.
This hook can respond in several ways:
- It can call back with
true
to grant all of the requested scopes. - It can call back with
false
to indicate that the requested scopes are invalid, unknown, or exceed the set of scopes that should be granted to the given credentials. - It can call back with an array to grant a different set of scopes.
- It can call back with an error if there was some internal server error while granting scopes.
In the cases of false
or an internal server error, you should probably revoke the token before calling back, as the
server will send the user an error response, instead of a successful token grant.
The hooks
hash is the only required option, but the following are also available for tweaking:
tokenEndpoint
: the location at which the token endpoint should be created. Defaults to"/token"
.wwwAuthenticateRealm
: the value of the "Realm" challenge in theWWW-Authenticate
header. Defaults to"Who goes there?"
.tokenExpirationTime
: the value returned for theexpires_in
component of the response from the token endpoint. Note that this is only the value reported; you are responsible for keeping track of token expiration yourself and calling back withfalse
fromauthenticateToken
when the token expires. Defaults toInfinity
.
OK, let's try something a bit more concrete. If you check out the example servers used in the integration tests, you'll see our setup. Here we'll walk you through the more complicated resource owner password credentials example, but the idea for the client credentials example is very similar.
The initial resource, at which people enter the server.
- If a valid token is supplied in the
Authorization
header,req.username
is truthy, and the app responds with links to/public
and/secret
. - If no token is supplied, the app responds with links to
/token
and/public
. - If an invalid token is supplied, Restify–OAuth2–oauthd intercepts the request before it gets to the application, and sends an appropriate 400 or 401 error.
The token endpoint, managed entirely by Restify–OAuth2–oauthd. It generates tokens for a given client ID/client secret/username/password combination.
The client validation and token-generation logic is provided by the application, but none of the ceremony necessary for OAuth 2 conformance, error handling, etc. is present in the application code: Restify–OAuth2–oauthd takes care of all of that.
A public resource anyone can access.
- If a valid token is supplied in the Authorization header,
req.username
contains the username, and the app uses that to send a personalized response. - If no token is supplied,
req.username
isnull
. The app still sends a response, just without personalizing. - If an invalid token is supplied, Restify–OAuth2–oauthd intercepts the request before it gets to the application, and sends an appropriate 400 or 401 error.
A secret resource that only authenticated users can access.
- If a valid token is supplied in the Authorization header,
req.username
is truthy, and the app sends the secret data. - If no token is supplied,
req.username
isnull
, so the application usesres.sendUnauthenticated()
to send a nice 401 error withWWW-Authenticate
andLink
headers. - If an invalid token is supplied, Restify–OAuth2–oauthd intercepts the request before it gets to the application, and sends an appropriate 400 or 401 error.