Rack::OAuth2::Server
OAuth 2.0 Authorization Server as a Rack module. Because you don't allow strangers into your app, and OAuth 2.0 is the new awesome.
rack-oauth2-server currently implements version 10 of the OAuth 2.0 spec http://tools.ietf.org/html/draft-ietf-oauth-v2-10.
For more background, check out the presentation slides.
Adding OAuth 2.0 To Your Application
Step 1: Setup Your Database
The authorization server needs to keep track of clients, authorization requests, access grants and access tokens. That could only mean one thing: a database.
The current release uses MongoDB. You're going to need a running server and open connection in
the form of a Mongo::DB
object. Because MongoDB is schema-less, there's no need to run migrations.
If MongoDB is not your flavor, you can easily change the models to support a different database engine. All the
persistence logic is located in lib/rack/oauth2/models
and kept simple by design. And if you did the work to support a
different database engine, send us a pull request.
Step 2: Use The Server
For Rails 2.3/3.0, Rack::OAuth2::Server
automatically adds itself as middleware when required, but you do need to
configure it from within config/environment.rb
(or one of the specific environment files). For example:
Rails::Initializer.run do |config|
. . .
config.after_initialize do
config.oauth.database = Mongo::Connection.new["my_db"]
config.oauth.authenticator = lambda do |username, password|
user = User.find(username)
user.id if user && user.authenticated?(password)
end
end
end
For Sinatra and Padrino, first require rack/oauth2/sinatra
and register Rack::OAuth2::Sinatra
into your application.
For example:
require "rack/oauth2/sinatra"
class MyApp < Sinatra::Base
register Rack::OAuth2::Sinatra
oauth.database = Mongo::Connection.new["my_db"]
oauth.authenticator = lambda do |username, password|
user = User.find(username)
user if user && user.authenticated?(password)
end
. . .
end
With any other Rack server, you can use Rack::OAuth2::Server
and pass your own Rack::OAuth2::Server::Options
object.
The configuration options are:
-
:access_token_path
- Path for requesting access token. By convention defaults to/oauth/access_token
. -
:authenticator
- For username/password authorization. A block that receives the credentials and returns identity string (e.g. user ID) or nil. -
:authorization_types
- Array of supported authorization types. Defaults to `["code", "token"]``, and you can change it to just one of these names. -
:authorize_path
- Path for requesting end-user authorization. By convention defaults to/oauth/authorize
. -
:database
-Mongo::DB
instance (this is a global setting). -
:expires_in
- Number of seconds an auth token will live. Ifnil
or zero, access token never expires. -
:host
- Only check requests sent to this host. -
:path
- Only check requests for resources under this path. -
:param_authentication
- If true, supports authentication using query/form parameters. -
:realm
- Authorization realm that will show up in 401 responses. Defaults to use the request host name. -
:logger
- The logger to use. Under Rails, defaults to use the Rails logger. Will useRack::Logger
if available. -
:collection_prefix
- Prefix to use for MongoDB collections created by rack-oauth2-server. Defaults tooauth2
.
Authenticator
If you only intend to use the UI authorization flow, you don't need to worry about the authenticator. If you want to allow client applications to create access tokens by passing the end-user's username/password, then you need an authenticator. This feature is necessary for some client applications, and quite handy during development/testing.
The authenticator is a block that receives either two or four parameters. The first two are username and password. The other two are the client identifier and scope. It authenticated, it returns an identity, otherwise it can return nil or false. For example:
oauth.authenticator = lambda do |username, password|
user = User.find_by_username(username)
user.id if user && user.authenticated?(password)
end
Assertion Handler
The gem will automatically handle JWT assertions. If you want to be able to configure your own function to handle custom assertion types, you can follow this example for "facebook.com" that will allow the following use case:
- Mobile device authenticates with Facebook, receives access_token.
- Mobile device sends access_token to the server as an assertion
- If the server recognizes that Facebook access_token as belonging to an existing user, return our oauth access_token as a normal access_token request; if it doesn't return unauthorized 401.
In application.rb or other initializer with scope to config.oauth:
config.oauth.assertion_handler['facebook.com'] = lambda do |client, assertion, scope|
Rails.logger.debug("Assertion: #{assertion}")
graph = Koala::Facebook::GraphAPI.new(assertion)
begin
user_data = graph.get_object('me')
Rails.logger.debug("FB User Data: #{user_data}")
user = User.find_by_facebook_auth({ :uid => user_data['id']})
rescue Exception => e
# fall through
Rails.logger.debug("Could not find/load Facebook user: #{assertion} / #{e}")
end
if user
Rails.logger.debug('Valid Facebook Assertion')
user.id.to_s # Requires a string or integer
else
Rails.logger.debug('Invalid Facebook Assertion')
nil
end
end
If you want this to be called, then your client needs to send its assertion like this (JSON format here):
{
client_id: <apiClientId>,
client_secret: <apiClientSecret>,
grant_type: 'assertion',
assertion_type: 'facebook.com',
assertion: <fb access token>
}
Step 3: Let Users Authorize
Authorization requests go to /oauth/authorize
. Rack::OAuth2::Server intercepts these requests and validates the client
ID, redirect URI, authorization type and scope. If the request fails validation, the user is redirected back to the
client application with a suitable error code.
If the request passes validation, Rack::OAuth2::Server
sets the request header oauth.authorization
to the
authorization handle, and passes control to your application. Your application will ask the user to grant or deny the
authorization request.
Once granted, your application signals the grant by setting the response header oauth.authorization
to the
authorization handle it got before, and setting the response header oauth.identity
to the authorized identity. This is
typicaly the user ID or account ID, but can be anything you want, as long as it's a string. Rack::OAuth2::Server
intercepts this response and redirects the user back to the client application with an authorization code or access
token.
To signal that the user denied the authorization requests your application sets the response header
oauth.authorization
as before, and returns the status code 403 (Forbidden). Rack::OAuth2::Server will then redirect
the user back to the client application with a suitable error code.
In Rails, the entire flow would look something like this:
class OauthController < ApplicationController
def authorize
if current_user
render :action=>"authorize"
else
redirect_to :action=>"login", :authorization=>oauth.authorization
end
end
def grant
head oauth.grant!(current_user.id)
end
def deny
head oauth.deny!
end
end
Rails actions must render something. The oauth method returns a helper object (Rack::OAuth2::Server::Helper
) that
cannot render anything, but can set the right response headers and return a status code, which we then pass on to the
head
method.
In Sinatra/Padrino, it would look something like this:
get "/oauth/authorize" do
if current_user
render "oauth/authorize"
else
redirect "/oauth/login?authorization=#{oauth.authorization}"
end
end
post "/oauth/grant" do
oauth.grant! "Superman"
end
post "/oauth/deny" do
oauth.deny!
end
The view would look something like this:
<h2>The application <% link_to h(oauth.client.display_name), oauth.client.link %>
is requesting to <%= oauth.scope.to_sentence %> your account.</h2>
<form action="/oauth/grant">
<button>Grant</button>
<input type="hidden" name="authorization" value="<%= oauth.authorization %>">
</form>
<form action="/oauth/deny">
<button>Deny</button>
<input type="hidden" name="authorization" value="<%= oauth.authorization %>">
</form>
Step 4: Protect Your Path
Rack::OAuth2::Server intercepts all incoming requests and looks for an Authorization header that uses OAuth
authentication scheme, like so:
Authorization: OAuth e57807eb99f8c29f60a27a75a80fec6e
It can also support the oauth_token
query parameter or form field, if you set param_authentication
to true. This
option is off by default to prevent conflict with OAuth 1.0 callback.
If Rack::OAuth2::Server finds a valid access token in the request, it sets the request header oauth.identity
to the
value you supplied during authorization (step 3). You can use oauth.identity
to resolve the access token back to user,
account or whatever you put there.
If the access token is invalid or revoked, it returns 401 (Unauthorized) to the client. However, if there's no access token, the request goes through. You might want to protect some URLs but not others, or allow authenticated and unauthenticated access, the former returning more data or having higher rate limit, etc.
It is up to you to reject requests that must be authenticated but are not. You can always just return status code 401,
but it's better to include a proper WWW-Authenticate
header, which you can do by setting the response header
oauth.no_access
to true, or using oauth_required
to setup a filter.
You may also want to reject requests that don't have the proper scope. You can return status code 403, but again it's
better to include a proper WWW-Authenticate
header with the required scope. You can do that by setting the response
header oauth.no_scope
to the scope name, or using oauth_required
with the scope option.
In Rails, it would look something like this:
class MyController < ApplicationController
before_filter :set_current_user
oauth_required :only=>:private
oauth_required :only=>:calc, :scope=>"math"
# Authenticated/un-authenticated get different responses.
def public
if oauth.authenticated?
render :action=>"more-details"
else
render :action=>"less-details"
end
end
# Must authenticate to retrieve this.
def private
render
end
# Must authenticate with scope math to do this.
def calc
render :text=>"2+2=4"
end
protected
def set_current_user
@current_user = User.find(oauth.identity) if oauth.authenticated?
end
end
In Sinatra/Padrino, it would look something like this:
before do
@current_user = User.find(oauth.identity) if oauth.authenticated?
end
oauth_required "/private"
oauth_required "/calc", :scope=>"math"
# Authenticated/un-authenticated get different responses.
get "/public" do
if oauth.authenticated?
render "more-details"
else
render "less-details"
end
end
# Must authenticate to retrieve this.
get "/private" do
render "secrets"
end
# Must authenticate with scope math to do this.
get "/calc" do
render "2 + 2 = 4"
end
Step 5: Register Some Clients
Before a client application can request access, there must be a client record in the database. Registration provides the client application with a client ID and secret. The client uses these to authenticate itself.
The client provides its display name, site URL and image URL. These should be shown to the end-user to let them know which client application they're granting access to.
Clients can also register a redirect URL. This is optional but highly recommended for better security, preventing other applications from hijacking the client's ID/secret.
You can register clients using the command line tool oauth2-server
:
$ oauth2-server register --db my_db
Or you can register clients using the Web-based OAuth console, see below.
Programatically, registering a new client is as simple as:
$ ./script/console
Loading development environment (Rails 2.3.8)
> client = Rack::OAuth2::Server.register(:display_name=>"UberClient",
:link=>"http://example.com/",
:image_url=>"http://farm5.static.flickr.com/4122/4890273282_58f7c345f4.jpg",
:scope=>%{read write},
:redirect_uri=>"http://example.com/oauth/callback")
> puts "Your client identifier: #{client.id}"
> puts "Your client secret: #{client.secret}"
You may want your application to register its own client application, always with the same client ID and secret, which
are also stored in a configuration file. For example, your db/seed.rb
may contain:
oauth2 = YAML.load_file(Rails.root + "config/oauth2.yml")
Rack::OAuth2::Server.register(id: oauth2["client_id"], secret: oauth2["client_secret"],
display_name: "UberClient", link: "http://example.com",
redirect_uri: "http://example.com/oauth/callback", scope: oauth2["scope"].split)
When you call register
with id
and secret
parameters it either registers a new client with these specific ID and
sceret, or if a client already exists, updates its other properties.
Step 6: Pimp Your API
I'll let you figure that one for yourself.
Two-legged OAuth flow
Rack::OAuth2::Server also supports the so-called "two-legged" OAuth flow, which does not require the end user authorization process. This is typically used in server to server scenarios where no user is involved. To utilize the two-legged flow, send the grant_type of "none" along with the client_id and client_secret to the access token path, and a new access token will be generated (assuming the client_id and client_secret check out).
Assertions
Rack::OAuth2::Server supports the use of assertions (in the form of the assertion
grant_type)
to obtain access tokens. Currently JSON Web Tokens (JWT) are the only supported assertion_type.
http://tools.ietf.org/html/draft-ietf-oauth-v2-10#section-4.1.3
http://tools.ietf.org/html/draft-jones-oauth-jwt-bearer-03
In order to verify the signatures of assertions, you will need to create assertion Issuers.
You can register assertion Issuers using the command line tool oauth2-server
:
$ oauth2-server register_issuer --db my_db
Programatically, registering a new Issuer is as simple as:
$ ./script/console
Loading development environment (Rails 2.3.8)
> issuer = Rack::OAuth2::Server.register_issuer(:identifier => "http://www.someidp.com",
:hmac_secret => "foo",
:public_key => "-----BEGIN RSA PUBLIC KEY-----\n....\n...=\n-----END RSA PUBLIC KEY-----\n")
When you call register_issuer
it either registers a new issuer with these specific values, or if an issuer already exists with the given
identifier it will update it's properties.
Depending on the algorithm used for signing the assertion (HMAC SHA or RSA), you pass either :hmac_secret
or :public_key
to Rack::OAuth2::Server.register_issuer
(or both if you will use both with a single issuer). The value of :public_key
can be either a PEM or DER encoded public key (as supported by OpenSSL::PKey::RSA.new
).
Rack::OAuth2::Server validates that the issuer (iss
), principal (prn
), audience (aud
) and expiration (exp
) claims are present. It also validates that the expiration
claim has not passed (with a 10 minute padding added to account for server clock skew).
OAuth Web Admin
We haz it, and it's pretty rad!
To get the Web admin running, you'll need to do the following. First, you'll need to register a new client application
that can access the OAuth Web admin, with the scope oauth-scope
and redirect_uri that points to where you plan the Web
admin to live. This URL must end with /admin
, for example, http://example.com/oauth/admin
.
The easiest way to do this is to run the oauth2-sever
command line tool:
$ oauth2-server setup --db my_db
Next, in your application, make sure to ONLY AUTHORIZE ADMINISTRATORS to access the Web admin, by granting them access
to the oauth-admin
scope. For example:
def grant
# Only admins allowed to authorize the scope oauth-admin
if oauth.scope.include?("oauth-admin") && !current_user.admin?
head oauth.deny!
else
head oauth.grant!(current_user.id)
end
end
Make sure you do that, or you'll allow anyone access to the OAuth Web admin.
After this, remember to include the server admin module in your initializer (environemnt.rb or application.rb), because this is an optional feature:
require "rack/oauth2/server/admin"
Next, mount the OAuth Web admin as part of your application, and feed it the client ID/secret. For example, for Rails
2.3.x add this to config/environment.rb
:
Rails::Initializer.run do |config|
. . .
config.after_initialize do
config.middleware.use Rack::OAuth2::Server::Admin.mount
Rack::OAuth2::Server::Admin.set :client_id, "4dca20453e4859cb000007"
Rack::OAuth2::Server::Admin.set :client_secret, "981fa734e110496fcf667cbf52fbaf03"
Rack::OAuth2::Server::Admin.set :scope, %w{read write}
end
end
For Rails 3.0.x, add this to you config/application.rb
:
module MyApp
class Application < Rails::Application
config.after_initialize do
Rack::OAuth2::Server::Admin.set :client_id, "4dca20453e4859cb000007"
Rack::OAuth2::Server::Admin.set :client_secret, "981fa734e110496fcf667cbf52fbaf03"
Rack::OAuth2::Server::Admin.set :scope, %w{read write}
end
end
end
And add the follownig to config/routes.rb
:
mount Rack::OAuth2::Server::Admin=>"/oauth/admin"
For Sinatra, Padrino and other Rack-based applications, you'll want to mount like so (e.g. in config.ru
):
Rack::Builder.new do
map("/oauth/admin") { run Rack::OAuth2::Server::Admin }
map("/") { run MyApp }
end
Rack::OAuth2::Server::Admin.set :client_id, "4dca20453e4859cb000007"
Rack::OAuth2::Server::Admin.set :client_secret, "981fa734e110496fcf667cbf52fbaf03"
Rack::OAuth2::Server::Admin.set :scope, %w{read write}
Next, open your browser to http://example.com/oauth/admin
, or wherever you mounted the Web admin.
Web Admin Options
You can set the following options:
-
client_id
- Client application identified, require to authenticate. -
client_secret
- Client application secret, required to authenticate. -
authorize
- Endpoint for requesing authorization, defaults to/oauth/admin
. -
template_url
- Will map an access token identity into a URL in your application, using the substitution value{id}
, e.g.http://example.com/users/#{id}
) -
force_ssl
- Forces all requests to use HTTPS (true by default except in development mode). -
scope
- Common scope shown and added by default to new clients (array of names, e.g. `["read", "write"]``).
Web Admin API
The OAuth Web admin is a single-page client application that operates by accessing the OAuth API. The API is mounted at
/oauth/admin/api
(basically /api relative to the UI), you can access it yourself if you have an access token with the
scope oauth-admin
.
The API is undocumented, but between the very simple Sinatra code that provides he API, and just as simple Sammy.js code that consumes it, it should be easy to piece together.
OAuth 2.0 With Curl
The premise of OAuth 2.0 is that you can use it straight from the command line. Let's start by creating an access token. Aside from the UI authorization flow, OAuth 2.0 allows you to authenticate with username/password. You'll need to register an authenticator, see step 2 above for details.
Now make a request using the client credentials and your account username/password, e.g.:
$ curl -i http://localhost:3000/oauth/access_token \
-F grant_type=password \
-F client_id=4dca20453e4859cb000007 \
-F client_secret=981fa734e110496fcf667cbf52fbaf03 \
-F "scope=read write" \
-F username=assaf@labnotes.org \
-F password=not.telling
This will spit out a JSON document, something like this:
{ "scope":"import discover contacts lists",
"access_token":"e57807eb99f8c29f60a27a75a80fec6e" }
Grab the access_token
value and use it. The access token is good until you delete it from the database. Making a
request using the access token:
$ curl -i http://localhost:3000/api/read -H "Authorization: OAuth e57807eb99f8c29f60a27a75a80fec6e"
Although not recommended, you can also pass the token as a query parameter, or when making POST request, as a form field:
$ curl -i http://localhost:3000/api/read?oauth_token=e57807eb99f8c29f60a27a75a80fec6e
$ curl -i http://localhost:3000/api/update -F name=Superman -F oauth_token=e57807eb99f8c29f60a27a75a80fec6e
You'll need to set the option param_authentication
to true. Watch out, since this query parameter could conflict with
OAuth 1.0 authorization responses that also use oauth_token
for a different purpose.
Here's a neat trick. You can create a .curlrc
file and load it using the -K
option:
$ cat .curlrc
header = "Authorization: OAuth e57807eb99f8c29f60a27a75a80fec6e"
$ curl -i http://localhost:3000/api/read -K .curlrc
If you create .curlrc
in your home directory, curl
will automatically load it. Convenient, but dangerous, you might
end up sending the access token to any server you curl
. Useful for development, testing, just don't use it with any
production access tokens.
Example using the assertion
grant_type:
$ curl -i http://localhost:3000/oauth/access_token \
-F client_id=4dca20453e4859cb000007 \
-F client_secret=981fa734e110496fcf667cbf52fbaf03 \
-F grant_type=assertion \
-F assertion_type=urn%3Aietf%3Aparams%3Aoauth%3Agrant-type%3Ajwt-bearer \
-F assertion=eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzI1NiJ9.eyJpc3MiOiJodHRwOi8vd3d3LnNvbWVjb21wYW55LmNvbSIsImF1ZCI6Imh0dHA6Ly93d3cubXljb21wYW55LmNvbSIsInBybiI6IjEyMzQ1Njc4OTAifQ.bDrcogybtJ9n5d2a971Q72ye7GN64u7WXmr2OLxSeyc
Methods You'll Want To Use From Your App
You can use the Server module to create, fetch and otherwise work with access tokens and grants. Available methods include:
-
access_grant
- Creates and returns a new access grant. You can use that for one-time token, e.g. users who forgot their password and need to login using an email message. -
token_for
-- Returns access token for particular identity. You can use that to give access tokens to clients other than through the OAuth 2.0 protocol, e.g. if you let users authenticate using Facebook Connect or Twitter OAuth. -
get_access_token
-- Resolves access token (string) into access token (AccessToken
object). -
list_access_tokens
-- Returns all access tokens for a given identity, which you'll need if you offer a UI for uses to review and revoke access tokens they previously granted. -
get_client -- Resolves client identifier into a
Client` object. -
register
-- Registers a new client application. Can also be used to change existing registration (if you know the client's ID and secret). Idempotent, so perfect for running during setup and migration. -
get_auth_request
-- Resolves authorization request handle into anAuthRequest
object. Could be useful during the authorization flow. -
register_issuer
-- Registers a new assertion issuer. Can also be used to change existing issuers. Idempotent, so perfect for running during setup and migration. -
get_issuer
-- Resolves an issuer identifier into an Issuer object.
Mandatory ASCII Diagram
This is briefly what the authorization flow looks like, how the workload is split between Rack::OAuth2::Server and your application, and the protocol the two use to control the authorization flow:
Rack::OAuth2::Server
----------------------- -----------------------
Client app | /oauth/authorize | | Set request.env |
redirect -> | | -> | | ->
| authenticate client | | oauth.authorization |
----------------------- -----------------------
Your code
-------------------- ---------------------- -----------------------
| Authenticate user | | Ask user to grant/ | | Set response |
-> | | -> | deny client access | -> | | ->
| | | to their account | | oauth.authorization |
| | | | | oauth.identity |
-------------------- ---------------------- -----------------------
Rack::OAuth2::Server
-----------------------
| Create access grant |
-> | or access token for | -> Redirect back
| oauth.identity | to client app
-----------------------
Understanding the Models
Client
The Rack::OAuth2::Server::Client
model represents the credentials of a client application. There are two pairs: the
client identifier and secret, which the client uses to identify itself to the authorization server, and the display name
and URL, which the client uses to identify itself to the end user.
The client application is not tied to a single Client
record. Specifically, if the client credentials are compromised,
you'll want to revoke it and create a new Client
with new pair of identifier/secret. You can leave the revoked
instance around.
Calling revoke!
on the client revokes access using these credential pair, and also revokes any outstanding
authorization requests, access grants and access tokens created using these credentials.
You may also want to register a redirect URI. If registered, the client is only able to request authorization that redirect back to that redirect URI.
Authorization Request
The authorization process may involve multiple requests, and the application must maintain the authorization request details from beginning to end.
To keep the application simple, all the necessary information for a single authorization request is stored in the
Rack::OAuth2::Server::AuthRequest
model. The application only needs to keep track of the authorization request
identifier.
Granting an authorization request (by calling grant!
) creates an access grant or access token, depending on the
requested response type, and associates it with the identity.
Access Grant
An access grant (Rack::OAuth2::Server::AccessGrant
) is a nonce use to generate access token. This model keeps track of
the nonce (the "authorization code") and all the data it needs to create an access token.
Access Token
An access token allows the client to access the resource with the given scope on behalf of a given identity. It keeps track of the account identifier (supplied by the application), client identifier and scope (both supplied by the client).
An Rack::OAuth2::Server::AccessToken
is created by copying values from an AuthRequest
or AccessGrant
, and remains
in effect until revoked. OAuth 2.0 access tokens can also expire, Rack::OAuth2::Server::AccessToken
has expires_at
field.
Issuer
An issuer is a identity provider which issues assertions that may be used to obtain an access token.
Tests
Start tests for Rails
bundle install
bundle exec rake test
Credits
Rack::OAuth2::Server was written to provide authorization/authentication for the Flowtown API. Thanks to Flowtown for making it happen and allowing it to be open sourced.
Rack::OAuth2::Server is available under the MIT license.