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Version status: 0.4.3 stable and 0.3.1 stable for T5.2.x and 0.2.2 for T5.1.x


0.4.x is compatible with T5.2 and 5.3 and is recommended for any green field projects

tapestry-security module is based on and depends on Apache Shiro. 0.4.1 depends on Apache Shiro 1.2.0, earlier versions depend on 1.1.0
0.3.x and 0.2.x are currently functionally the same but 0.3.x uses 5.2.x apis. Critical issues will be fixed, feature development only for 0.4.x versions.
0.4.0 introduced fully Tapestry-style configuration and performance improvements.


Enforcing security by implementing security checks in your application code is labor-intensive and a potentially dangerous practice as you can very easily miss a check and leave a big security hole open. Standard container-managed authentication and authorization was created to address this issue, but it's based purely on roles and URLs, and as such, is typically too constricting for modern web applications. With Tapestry 5, it's relatively easy to get started with securing your application by creating custom filters and dispatchers, but really, every user of Tapestry shouldn't need to create their own security framework. Developing comprehensive, proven bullet-proof security framework is difficult and time consuming. Tynamo's tapestry-security is a comprehensive security module that provides tight integration with Apache Shiro, an established, high-performing and easy-to-use security framework for Tapestry applications.

Using security

There are several aspects to providing security. Technically you can either hide functionality from user's view, visibly disable or lock certain functionality or display errors when user tries accessing unpermitted resources or operations. Security can be enforced at different integration points: for example, you may restrict users' access to certain URLs, secure access to the data itself or make specific checks in an operation of the controlling page class before executing certain functionality. Tapestry-security module supports all these different types of authorization mechanisms.

To use the feature, you need to add the following dependency to your pom.xml:

Apache Shiro, the security framework that tapestry-security is based on, is modular and extensible, but to get started, you need to understand just three key Shiro concepts: realms, filters and security configuration. A realm is responsible for authenticating and authorizing users, so you at least need to configure a ready-made realm, or, if you are authenticating users against your own custom database, likely need to implement your own custom realm. Typically, in your AppModule you provide a realm configuration such as:

Obviously, if your Realm needs to use other Tapestry services, you could let Tapestry build your Realm implementation with @Autobuild and inject it as a argument to your WebSecurityManager contribution method. If you create a first-class Tapestry IoC service out of your realm (you can but there should be very little need), make sure you identify your realm to the Tapestry with the right super interface. For example, if your realm is authorizing users, the interface to use is AuthorizingRealm  - if you claimed that the service implements Realm interface only, your realm wouldn't be allowed to participate in authorization, but only in authentication process. See an example of a simple, custom Hibernate-based entity realm (service). Shiro provides an extensive set of interfaces, often providing different functionalities depending on which features are available.

Storing password


Apache Shiro is persistence agnostic so you need to decide yourself how to store the passwords and compare their equality. Shiro comes with several built-in matchers to make this simple. The User entity used by the realm sample referred to above also shows an example of storing an SHA-1 hash with per user salt.

Shiro is based on multiple filter chains which is a natural fit with tapestry's (filter) pipeline pattern. In the typical case, you don't have to implement new filters but merely configure them to process desired urls of your application. Refer to the Shiro configuration for more information, but tapestry-security makes the default Shiro filters available so you can refer to them by name.

Shiro supports url-based permission checking out of the box. Tapestry-security also comes with several security annotations and some security components that you can use in your page classes and templates to secure specific operations or access to the page.


Shiro's default configuration model uses an INI file (a property file with sections). However, Tapestry-security 0.4.0 introduced a Tapestry-style configuration through contributions and completely removed support for ini-style configuration. Tapestry-style all-in-Java configuration has many benefits, including type checking, run-time filter re-configuration (should you ever need it...) and better performance (indirectly - 0.4.0 supplies its own "Shiro" filters - this feature enhancement may be pushed upstream in Shiro 2.0 - see configuration per filter instance in Version+2+Brainstorming if interested).

For 0.3.x and earlier versions, you can use a standard Shiro INI configuration file (see Shiro's documentation for more info) with tapestry-security. All versions support annotation-based security. The simplest and most typical security models are based on url and role permissions, see the following version-specific sections for examples on them.

Configuration through contributions for 0.4.0 versions and up

Contributing security configuration

Note that above, a call to factory.<filtername>() gives you a new instance of the filter each time. In fact, you get a runtime error if you try to contribute the same filter instance to a different chain with a different configuration.

(Example taken from the AppModule of a security test application)

0.4.1 also introduced a dependency to tapestry-exceptionpage. The security exceptions thrown from the filters annotation handlers are all handled by the same exception handler assistant. You can also handle other generic exceptions in your application the same way, read more about it at tapestry-exceptionpage guide.

Configuration via shiro.ini for versions < 0.4.0

Here's a simple example of configuring url/role permissions with shiro.ini

Use lowercase throughout the shiro.ini file configuration. If you prefer using a shiro.ini configuration file, place it at the root of your classpath and set SecuritySymbols.SHOULD_LOAD_INI_FROM_CONFIG_PATH to true in your ApplicationDefaults.

anon and authc above refer to the Shiro filter names. See all Shiro filters available by default. Note that if you want to declare new filters or configure the built-in ones, you currently have to do it with the ini file. See shiro.ini used for integration testing tynamo-federatedaccounts as an example of declaring and configuring filters.

You don't actually need an INI file - you can do the same in code, for example:


T5.1.0.5 users


Beware that because of TAP5-1018 "Request to Application Root path ignores ComponentRequestFilter's (fixed in unreleased T5.1.0.8 and T5.2.x), annotations don't work correctly on Start page. Use Index pages instead.

To declaratively secure your pages, you can use the following annotations:

For example, to restrict access to users with roles "admin" only, you would add a following annotation to a page class:

You can also secure access to services and service operations, for example:

Permissions are another interesting aspect of Shiro. Shiro's default WildCardPermission supports a syntax that allows representing different parts and subparts in a permission string. For example:

In your realm, you allocate individual permission strings to each user that are then matched against the permission strings from the annotations. For more information, read Shiro's documentation on permissions. While the permission concept is powerful, it's easy to make incorrect assumptions on how it actually works and annotation-based permissions still don't allow declaring subject-instance security rules. For example when all users can modify profile data, but only for their own profiles. If you are using JPA, you are in luck as the still-in-development module tapestry-security-jpa allows securing your entities with simple annotations @RequiresAssociation and @RequiresRole, check out tapestry-security-jpa!

Security components

There are often cases where it's not enough to simply secure the urls or the pages. If a user doesn't have a permission to invoke a particular action, it's a good practice to also hide it from his view. Tapestry-security module contains several built-in conditional components to make conditional rendering of your page templates and more fine-grained permission control easier.

The names of following components should give you a pretty good hint of their purpose, can you guess what all of them do?

Some simple examples below:

Overriding login, success and unauthorized URLs

tapestry-security comes with two very simple login and unauthorized pages, and also by default the success url will be /index
Most likely, you will want to change these URLs to point to your own customized pages. To do that use SecuritySymbols

More examples

For more extensive examples, take a look at our full-featured integration test web app. See for example the Index page template and class and the AlphaService. Also, check out tynamo-federatedaccounts, an add-on module to tapestry-security for remote & merged authentication use cases, such as Oauth. We have a live example available for federatedaccounts but the example application also demonstrates other useful capabilities of tapestry-security, such as realm as a service, contributing multiple realms, interoperability between them, creating and using a CurrentUser application state object and using permissions. In the example, one realm is responsible for only authenticating users while another one is responsible for authorizing them. Check out the source from or browse the sources, starting from AppModule

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