Camel OAuth Tutorial
Goal of this tutorial is to demonstrate how to implement an OAuth consumer with Apache Camel. In this tutorial, the OAuth consumer is a simple web application running on Google App Engine. It reads data from a user's Google Calendar i.e. it displays the names of the user's public and private calendars. The OAuth-based authorization process that allows the application to access a user's calendars is implemented using Camel's gauth component. The application was accessible online at (later, it will be explained how to build and deploy the application yourself). Play with it by following these steps:
- Goto the application's main page at http://gauthcloud.appspot.com/oauth/calendar (no longer online). If you haven't used the application before, you'll see a message that no OAuth access token is available.
- Follow the link next to this message to start the OAuth authorization process. You will be redirected to Google Accounts. A message is shown that a third party application is requesting access permissions. In order to grant (or deny) access, login to your Google account. This step may be skipped by Google if you already logged into Google Accounts before.
- After login, Google displays a message that
gauthcloud.appspot.comwants to access your Google Calendar. Press the
Grant accessbutton to continue. No worries, the sample application will only read the names of your public and private Google calendars. No further reads or updates are made to your calendars. If you don't want
gauthcloud.appspot.comto access your calendar, press
- If you presses
Grant access, Google redirects you back to the application that now displays the names of your public and private calendars. The following screenshot shows the list of my calendars (some of them have German names). Using OAUth, the web application gained access to your calendar data without ever having seen your Google username and password. These have been entered at a Google site directly.
- The result of a successful OAuth authorization process is an OAuth access token that is issued to the web application. The application stores this token for the duration of one hour. However, you can invalidate the access token at any time by either following the link below the calendar list or by going directly to https://www.google.com/accounts/IssuedAuthSubTokens. This will display a list of applications for which you granted access to your Google account. Among these, there's also an entry for
Revoke Accessto invalidate the access token immediately.
- If you go back to the application or reload the page with the calendar list, a message is shown that the OAuth access token is invalid. Follow the OAuth authorization process again to renew the token.
Standalone web applications
Camel's OAuth support is not limited to web applications running on Google App Engine. It works for standalone web applications as well as long as they are accessible from the internet so that Google can make OAuth callbacks.
The following figure sketches the architcture of the distributed web application and an example sequence of interactions.
OAuth demo application
A Spring MVC-based web application with a single controller (
OAuth integration layer
A Camel-based integration layer for doing all the OAuth-specific interactions with Google Accounts.
The Google Accounts service.
The Google Calendar service.
Sequence of actions
The user navigates to the main page of the demo application. The
The user triggers the authorization process by following that link.
The integration layer obtains an unauthorized request token from the Google Accounts API
It then redirects the user to a Google Accounts web page for login.
The user logs in and grants
Google redirects the user back to the OAUth integration layer together with an authorized request token.
The integration layer upgrades the token to an OAuth access token and stores this token in a cookie. The cookie expiration time is set to one hour.
The user is redirected to the
After having obtained the calendar data, the
Storage of access tokens
In production systems it is not recommended to store access tokens in cookies. The recommended approach is to store them in a database. The demo application is only doing that to keep the example as simple as possible. However, an attacker could not use an access token alone to get access to a user's calendar data because the application's consumer secret is necessary for that as well. The consumer secret never leaves the demo application.
This section explains how to build and deploy the web application yourself.
- Sign up for a Google App Engine account if you don't have one.
- Create a new application via the admin console or reuse an existing one for uploading the example.
- Optional: register the application for use with Google's OAuth. After registration you should have access to a consumer key and a consumer secret. If you decide not to register your application, use
anonymousfor the consumer key and the consumer secret. In this case Google will display a warning message on the authorization page which is acceptable for testing-purposes.
- Install the Google App Engine SDK for Java. This tutorial has been tested with version 1.3.6.
Build from sources
Checkout the sources with
camel-example-gauth/pom.xml file and define values for the application properties e.g.
if you don't want to register your application. Then go to the
camel-example-gauth directory and enter
This will create the application
war file in the target directory.
Deploy to Appengine
Finally use the
appcfg command-line tool of the App Engine SDK to deploy the application.
version needs to be replaced with the version of Camel you're using. You will be prompted for the email address and password of your Google App Engine account. After deployment the example application is ready to use.
Potential issue when using appcfg from the GAE SDK
It is important that you run
appcfg with a
java executable that is part of a JDK. If it is part of a JRE only then JSP compilation won't work. This is explained on the appengine-java mailing list. Editing
appcfg.cmd and pointing to an appropriate
java executable should do the trick.
Entry point to the demo application is the
TutorialController. It tries to obtain an OAuth access token from a cookie and interacts with the
TutorialService for getting a user's calendar data from the Google Calendar API. Error messages (authentication failures) are displayed to the user by selecting the
authorize.jsp view. This view also contains a link for starting the OAuth authorization process as shown above. A list of calendar names is displayed to the user by selecting the
Access to the Google Calendar API is encapsulated in the
TutorialService class. It uses Google's GData client library for abstracting from low-level protocol details. The
getCalendarNames method is paramterized with an OAuth access token and access token secret. If the access token is invalid then an
AuthenticationException is thrown by the GData client. The exception is handled by the
The integration layer uses Camel's gauth component to implement the consumer part of the OAuth authorization process. It cleanly separates OAuth integration logic from other parts of the application and is implemented by the
This class implements two routes:
- The first route obtains an unauthorized access token from Google Accounts and redirects the user to an authorization page provided by Google.
- The second route handles OAuth callbacks from Google and upgrades an authorized request tokens to access tokens.
The last step in the second route is an application-specific processor (
TutorialTokenProcessor) that stores the access token in a cookie and redirects the user to the main page of the demo application (which is served by the
For further details about implementing OAuth integration layers in web application refer to the gauth component documentation.
TutorialService are set up in their own Spring application context. The
TutorialController is scanned from the classpath using Spring's
<ctx:component-scan> element. It is an annotation-based Spring MVC controller.
The integration layer and its
CamelContext is configured in
context-camel.xml. This application context also configures the gauth component with an application specific consumer key and consumer secret. These are read from a
Both application contexts are referenced in the application's