The existing website application already had in excess of 10 million users and there was no way that these users would be moved into the CMS repository. Fortunately Hippo can be configured with a custom AuthenticationProvider to use a database or LDAP service rather than the CMS repository for authenticating login credentials.
As part of the redevelopment of the website, the login UI was also redesigned. The default form based authentication uses the Hippo UI templates to render the login form. Again this was quite easy to replace with a custom login form template by following the online documentation .
At this point the development was looking good, the show and tell at the end of the first sprint demonstrated the new login story and the home page with integration to internal services for authentication and customer transactional data.
The next sprint required some changes to the login functionality based on insights gathered from user testing and UI/UX designers. Due to the business requirements, the login functionality was required to display a number of different messages depending on the cause of authentication failure. This may involve a simple error message, or asking the user that they need to activate their account or to contact the call centre if their account had been locked.
Using the default login mechanism proved to be difficult in propagating different error messages from the custom AuthenticationProvider back through the Hippo JAAS LoginModule and to the Hippo LoginServlet to render the login form. This was due to the Hippo LoginModule catching any exceptions from the AuthenticationProvider and throwing a new JAAS LoginException with a default error message thereby losing the error code and message from the original exception. There were also other issues with CSS when the login form was redisplayed after an authentication failure.
Furthermore, there was also a lurking requirement that the new mobile apps would be required to integrate with Hippo CMS for authentication and content. This would require developing a RESTful API to expose the content for the mobile apps to use. The mobile apps would not use http form based authentication for a RESTful API. Consequently the new website would need to provide a different authentication method depending on the access channel (web browser or mobile app).
The above issues and the complexity involved in customising the JAAS implementation were the main deciding factor to adopt Spring Security. Fortunately, we were not the first team that needed to do this and the Hippo community provides a project that details the integration of Spring Security with HST based website applications.
The configuration is pretty simple and requires configuring the Spring Security filter within the web.xml file.
|Spring Security Configuration in web.xml|
Thereafter, to integrate Spring Security within the HST based web application, it is simply a matter of adding the SpringSecurityValve into the HST request processing pipeline. As the HST pipeline employs the 'chain of responsibilty' pattern , by adding the SpringSecurityValve into the pipeline, HST will ensure the SpringSecurityValve has the opportunity to handle the request and establish a javax.security.auth.Subject if it finds a spring security Authentication instance.
The Hippo SpringSecurityValve allows securing the HST based website by configuring 'hst:sitemapitem' or 'hst:mount' nodes with security settings.