In this section, we're going to focus on the basics of authentication. Specifically, we're going to create a Ruby server (using Sinatra) that implements the web flow of an application in several different ways.
You can download the complete source code for this project from the platform-samples repo.
Registering your app
First, you'll need to register your application. Every registered OAuth application is assigned a unique Client ID and Client Secret. The Client Secret should not be shared! That includes checking the string into your repository.
You can fill out every piece of information however you like, except the Authorization callback URL. This is easily the most important piece to setting up your application. It's the callback URL that GitHub Enterprise Server returns the user to after successful authentication.
Since we're running a regular Sinatra server, the location of the local instance
is set to http://127.0.0.1:4567
. Let's fill in the callback URL as http://127.0.0.1:4567/callback
.
Accepting user authorization
Deprecation Notice: GitHub will discontinue authentication to the API using query parameters. Authenticating to the API should be done with HTTP basic authentication. For more information, including scheduled brownouts, see the blog post.
Authentication to the API using query parameters while available is no longer supported due to security concerns. Instead we recommend integrators move their access token, client_id
, or client_secret
in the header. GitHub will announce the removal of authentication by query parameters with advanced notice.
Now, let's start filling out our simple server. Create a file called server.rb and paste this into it:
require 'sinatra'
require 'rest-client'
require 'json'
CLIENT_ID = ENV['GH_BASIC_CLIENT_ID']
CLIENT_SECRET = ENV['GH_BASIC_SECRET_ID']
get '/' do
erb :index, :locals => {:client_id => CLIENT_ID}
end
Your client ID and client secret keys come from your application's configuration page. We recommend storing them as environment variables--which is exactly what we've done here.
Next, in views/index.erb, paste this content:
<html>
<head>
</head>
<body>
<p>
Well, hello there!
</p>
<p>
We're going to now talk to the GitHub API. Ready?
<a href="https://github.com/login/oauth/authorize?scope=user:email&client_id=<%= client_id %>">Click here</a> to begin!
</p>
<p>
If that link doesn't work, remember to provide your own <a href="/apps/building-oauth-apps/authorizing-oauth-apps/">Client ID</a>!
</p>
</body>
</html>
(If you're unfamiliar with how Sinatra works, we recommend reading the Sinatra guide.)
Also, notice that the URL uses the scope
query parameter to define the
scopes requested by the application. For our application, we're
requesting user:email
scope for reading private email addresses.
Navigate your browser to http://127.0.0.1:4567
. After clicking on the link, you
should be taken to GitHub Enterprise Server, and presented with a dialog that looks something like this:
If you trust yourself, click Authorize App. Wuh-oh! Sinatra spits out a
404
error. What gives?!
Well, remember when we specified a Callback URL to be callback
? We didn't provide
a route for it, so GitHub Enterprise Server doesn't know where to drop the user after they authorize
the app. Let's fix that now!
Providing a callback
In server.rb, add a route to specify what the callback should do:
get '/callback' do
# get temporary GitHub code...
session_code = request.env['rack.request.query_hash']['code']
# ... and POST it back to GitHub
result = RestClient.post('https://github.com/login/oauth/access_token',
{:client_id => CLIENT_ID,
:client_secret => CLIENT_SECRET,
:code => session_code},
:accept => :json)
# extract the token and granted scopes
access_token = JSON.parse(result)['access_token']
end
After a successful app authentication, GitHub Enterprise Server provides a temporary code
value.
You'll need to POST
this code back to GitHub Enterprise Server in exchange for an access_token
.
To simplify our GET and POST HTTP requests, we're using the rest-client.
Note that you'll probably never access the API through REST. For a more serious
application, you should probably use a library written in the language of your choice.
Checking granted scopes
Users can edit the scopes you requested by directly changing the URL. This can grant your application less access than you originally asked for. Before making any requests with the token, check the scopes that were granted for the token by the user. For more information about requested and granted scopes, see "Scopes for OAuth Apps."
The scopes that were granted are returned as a part of the response from exchanging a token.
get '/callback' do
# ...
# Get the access_token using the code sample above
# ...
# check if we were granted user:email scope
scopes = JSON.parse(result)['scope'].split(',')
has_user_email_scope = scopes.include? 'user:email'
end
In our application, we're using scopes.include?
to check if we were granted
the user:email
scope needed for fetching the authenticated user's private
email addresses. Had the application asked for other scopes, we would have
checked for those as well.
Also, since there's a hierarchical relationship between scopes, you should
check that you were granted the lowest level of required scopes. For example,
if the application had asked for user
scope, it might have been granted only
user:email
scope. In that case, the application wouldn't have been granted
what it asked for, but the granted scopes would have still been sufficient.
Checking for scopes only before making requests is not enough since it's possible
that users will change the scopes in between your check and the actual request.
In case that happens, API calls you expected to succeed might fail with a 404
or 401
status, or return a different subset of information.
To help you gracefully handle these situations, all API responses for requests
made with valid tokens also contain an X-OAuth-Scopes
header.
This header contains the list of scopes of the token that was used to make the
request. In addition to that, the OAuth Applications API provides an endpoint to
check a token for validity.
Use this information to detect changes in token scopes, and inform your users of
changes in available application functionality.
Making authenticated requests
At last, with this access token, you'll be able to make authenticated requests as the logged in user:
# fetch user information
auth_result = JSON.parse(RestClient.get('http(s)://HOSTNAME/api/v3/user',
{:params => {:access_token => access_token}}))
# if the user authorized it, fetch private emails
if has_user_email_scope
auth_result['private_emails'] =
JSON.parse(RestClient.get('http(s)://HOSTNAME/api/v3/user/emails',
{:params => {:access_token => access_token}}))
end
erb :basic, :locals => auth_result
We can do whatever we want with our results. In this case, we'll just dump them straight into basic.erb:
<p>Hello, <%= login %>!</p>
<p>
<% if !email.nil? && !email.empty? %> It looks like your public email address is <%= email %>.
<% else %> It looks like you don't have a public email. That's cool.
<% end %>
</p>
<p>
<% if defined? private_emails %>
With your permission, we were also able to dig up your private email addresses:
<%= private_emails.map{ |private_email_address| private_email_address["email"] }.join(', ') %>
<% else %>
Also, you're a bit secretive about your private email addresses.
<% end %>
</p>
Implementing "persistent" authentication
It'd be a pretty bad model if we required users to log into the app every single
time they needed to access the web page. For example, try navigating directly to
http://127.0.0.1:4567/basic
. You'll get an error.
What if we could circumvent the entire "click here" process, and just remember that, as long as the user's logged into GitHub Enterprise Server, they should be able to access this application? Hold on to your hat, because that's exactly what we're going to do.
Our little server above is rather simple. In order to wedge in some intelligent authentication, we're going to switch over to using sessions for storing tokens. This will make authentication transparent to the user.
Also, since we're persisting scopes within the session, we'll need to
handle cases when the user updates the scopes after we checked them, or revokes
the token. To do that, we'll use a rescue
block and check that the first API
call succeeded, which verifies that the token is still valid. After that, we'll
check the X-OAuth-Scopes
response header to verify that the user hasn't revoked
the user:email
scope.
Create a file called advanced_server.rb, and paste these lines into it:
require 'sinatra'
require 'rest_client'
require 'json'
# !!! DO NOT EVER USE HARD-CODED VALUES IN A REAL APP !!!
# Instead, set and test environment variables, like below
# if ENV['GITHUB_CLIENT_ID'] && ENV['GITHUB_CLIENT_SECRET']
# CLIENT_ID = ENV['GITHUB_CLIENT_ID']
# CLIENT_SECRET = ENV['GITHUB_CLIENT_SECRET']
# end
CLIENT_ID = ENV['GH_BASIC_CLIENT_ID']
CLIENT_SECRET = ENV['GH_BASIC_SECRET_ID']
use Rack::Session::Pool, :cookie_only => false
def authenticated?
session[:access_token]
end
def authenticate!
erb :index, :locals => {:client_id => CLIENT_ID}
end
get '/' do
if !authenticated?
authenticate!
else
access_token = session[:access_token]
scopes = []
begin
auth_result = RestClient.get('http(s)://HOSTNAME/api/v3/user',
{:params => {:access_token => access_token},
:accept => :json})
rescue => e
# request didn't succeed because the token was revoked so we
# invalidate the token stored in the session and render the
# index page so that the user can start the OAuth flow again
session[:access_token] = nil
return authenticate!
end
# the request succeeded, so we check the list of current scopes
if auth_result.headers.include? :x_oauth_scopes
scopes = auth_result.headers[:x_oauth_scopes].split(', ')
end
auth_result = JSON.parse(auth_result)
if scopes.include? 'user:email'
auth_result['private_emails'] =
JSON.parse(RestClient.get('http(s)://HOSTNAME/api/v3/user/emails',
{:params => {:access_token => access_token},
:accept => :json}))
end
erb :advanced, :locals => auth_result
end
end
get '/callback' do
session_code = request.env['rack.request.query_hash']['code']
result = RestClient.post('https://github.com/login/oauth/access_token',
{:client_id => CLIENT_ID,
:client_secret => CLIENT_SECRET,
:code => session_code},
:accept => :json)
session[:access_token] = JSON.parse(result)['access_token']
redirect '/'
end
Much of the code should look familiar. For example, we're still using RestClient.get
to call out to the GitHub Enterprise Server API, and we're still passing our results to be rendered
in an ERB template (this time, it's called advanced.erb
).
Also, we now have the authenticated?
method which checks if the user is already
authenticated. If not, the authenticate!
method is called, which performs the
OAuth flow and updates the session with the granted token and scopes.
Next, create a file in views called advanced.erb, and paste this markup into it:
<html>
<head>
</head>
<body>
<p>Well, well, well, <%= login %>!</p>
<p>
<% if !email.empty? %> It looks like your public email address is <%= email %>.
<% else %> It looks like you don't have a public email. That's cool.
<% end %>
</p>
<p>
<% if defined? private_emails %>
With your permission, we were also able to dig up your private email addresses:
<%= private_emails.map{ |private_email_address| private_email_address["email"] }.join(', ') %>
<% else %>
Also, you're a bit secretive about your private email addresses.
<% end %>
</p>
</body>
</html>
From the command line, call ruby advanced_server.rb
, which starts up your
server on port 4567
-- the same port we used when we had a simple Sinatra app.
When you navigate to http://127.0.0.1:4567
, the app calls authenticate!
which redirects you to /callback
. /callback
then sends us back to /
,
and since we've been authenticated, renders advanced.erb.
We could completely simplify this roundtrip routing by simply changing our callback
URL in GitHub Enterprise Server to /
. But, since both server.rb and advanced.rb are relying on
the same callback URL, we've got to do a little bit of wonkiness to make it work.
Also, if we had never authorized this application to access our GitHub Enterprise Server data, we would've seen the same confirmation dialog from earlier pop-up and warn us.