The declarative authorization plugin offers an authorization mechanism inspired by RBAC. The most notable distinction to existing authorization plugins is the declarative authorization approach. That is, authorization rules are not programmatically in between business logic but in an authorization configuration.
Currently, Rails authorization plugins only provide for programmatic authorization rules. That is, the developer needs to specify which roles are allowed to access a specific controller action or a part of a view, which is not DRY. With a growing application code base and functions, as it happens especially in agile development processes, it may be decided to introduce new roles. Then, at several places of the source code the new group needs to be added, possibly leading to omissions and thus hard to test errors. Another aspect are changing authorization requirements in development or even after taking the application into production. Then, privileges of certain roles need to be easily adjusted when the original assumptions concerning access control prove unrealistic. In these situations, a declarative approach as offered by this plugin increases the development and maintenance efficiency.
Plugin features
-
Authorization at controller action level
-
Authorization helpers for Views
-
Authorization at model level
-
Authorize CRUD (Create, Read, Update, Delete) activities
-
Query rewriting to automatically only fetch authorized records
-
-
DSL for specifying Authorization rules in an authorization configuration
Requirements
-
An authentication mechanism
-
User object in Controller#current_user
-
-
User object needs to respond to a method :role_symbols that returns an array of role symbols
See below for installation instructions.
----- App domain ----|-------- Authorization conf ---------|------- App domain ------ includes includes .--. .---. | v | v .------. can_play .------. has_permission .------------. requires .----------. | User |----------->| Role |----------------->| Permission |<-----------| Activity | '------' * * '------' * * '------------' 1 * '----------' | .-------+------. 1 / | 1 \ * .-----------. .---------. .-----------. | Privilege | | Context | | Attribute | '-----------' '---------' '-----------'
In the application domain, each User may be assigned to Roles that should define the users’ job in the application, such as Administrator. On the right-hand side of this diagram, application developers specify which Permissions are necessary for users to perform activities, such as calling a controller action, viewing parts of a View or acting on records in the database. Note that Permissions consist of an Privilege that is to be performed, such as read, and a Context in that the Operation takes place, such as companies.
In the authorization configuration, Permissions are assigned to Roles and Role and Permission hierarchies are defined. Attributes may be employed to allow authorization according to dynamic information about the context and the current user, e.g. “only allow access on employees that belong to the current user’s branch.”
A fully functional example application can be found at github.com/stffn/decl_auth_demo_app
If authentication is in place, enabling user-specific access control may be as simple as one call to filter_access_to :all which simply requires the according privileges for present actions. E.g. the privilege index_users is required for action index. This works as a first default configuration for RESTful controllers, with these privileges easily handled in the authorization configuration, which will be described below.
class EmployeesController < ApplicationController filter_access_to :all def index ... end ... end
When custom actions are added to such a controller, it helps to define more clearly which privileges are the respective requirements. That is when the filter_access_to call may become more verbose:
class EmployeesController < ApplicationController filter_access_to :all # this one would be included in :all, but :read seems to be # a more suitable privilege than :auto_complete_for_user_name filter_access_to :auto_complete_for_employee_name, :require => :read def auto_complete_for_employee_name ... end ... end
For some actions it might be necessary to check certain attributes of the object the action is to be acting on. Then, the object needs to be loaded before the action’s access control is evaluated. On the other hand, some actions might prefer the authorization to ignore specific attribute checks as the object is unknown at checking time, so attribute checks and thus automatic loading of objects needs to be enabled explicitly.
class EmployeesController < ApplicationController filter_access_to :update, :attribute_check => true def update # @employee is already loaded from param[:id] because of :attribute_check end end
You can provide the needed object through before_filters. This way, you have full control over the object that the conditions are checked against. Just make sure, your before_filters occur before any of the filter_access_to calls.
class EmployeesController < ApplicationController before_filter :new_employee_from_params, :only => :create before_filter :new_employee, :only => [:index, :new] filter_access_to :all, :attribute_check => true def create @employee.save! end protected def new_employee_from_params @employee = Employee.new(params[:employee]) end end
If the access is denied, a permission_denied
method is called on the current_controller, if defined, and the issue is logged. For further customization of the filters and object loading, have a look at the complete API documentation of filter_access_to in Authorization::AuthorizationInController::ClassMethods.
In views, a simple permitted_to? helper makes showing blocks according to the current user’s privileges easy:
<% permitted_to? :create, :employees do %> <%= link_to 'New', new_employee_path %> <% end %>
Only giving a symbol :employees as context prevents any checks of attributes as there is no object to check against. For example, in case of nested resources a new object may come in handy:
<% permitted_to? :create, Branch.new(:company => @company) do # or @company.branches.new # or even @company.branches %> <%= link_to 'New', new_company_branch_path(@company) %> <% end %>
Lists are straight-forward:
<% for employee in @employees %> <%= link_to 'Edit', edit_employee_path(employee) if permitted_to? :update, employee %> <% end %>
See also Authorization::AuthorizationHelper.
There are two destinct features for model security built into this plugin: authorizing CRUD operations on objects as well as query rewriting to limit results according to certain privileges.
See also Authorization::AuthorizationInModel.
To activate model security, all it takes is an explicit enabling for each model that model security should be enforced on, i.e.
class Employee < ActiveRecord::Base using_access_control ... end
Thus,
Employee.create(...)
fails, if the current user is not allowed to :create :employees according to the authorization rules. For the application to find out about what happened if an operation is denied, the filters throw Authorization::NotAuthorized exceptions.
As access control on read are costly, with possibly lots of objects being loaded at a time in one query, checks on read need to be actived explicitly by adding the :include_read option.
When retrieving large sets of records from databases, any authorization needs to be integrated into the query in order to prevent inefficient filtering afterwards and to use LIMIT and OFFSET in SQL statements. To keep authorization rules out of the source code, this plugin offers query rewriting mechanisms through named scopes. Thus,
Employee.with_permissions_to(:read)
returns all employee records that the current user is authorized to read. In addition, just like normal named scopes, query rewriting may be chained with the usual find method:
Employee.with_permissions_to(:read).find(:all, :conditions => ...)
If the current user is completely missing the permissions, an Authorization::NotAuthorized exception is raised. Through Model.obligation_conditions, application developers may retrieve the conditions for manual rewrites.
Authorization rules are defined in config/authorization_rules.rb. E.g.
authorization do role :admin do has_permission_on :employees, :to => [:create, :read, :update, :delete] end end
There is a default role :guest
that is used if a request is not associated with any user or with a user without any roles. So, if your application has public pages, :guest
can be used to allow access for users that are not logged in. All other roles are application defined and need to be associated with users by the application.
Privileges, such as :create, may be put into hierarchies to simplify maintenance. So the example above has the same meaning as
authorization do role :admin do has_permission_on :employees, :to => :manage end end privileges do privilege :manage do includes :create, :read, :update, :delete end end
Privilege hierarchies may be context-specific, e.g. applicable to :employees.
privileges do privilege :manage, :employees, :includes => :increase_salary end
For more complex use cases, authorizations need to be based on attributes. E.g. if a branch admin should manage only employees of his branch (see Authorization::Reader in the API docs for a full list of available operators):
authorization do role :branch_admin do has_permission_on :employees do to :manage # user refers to the current_user when evaluating if_attribute :branch => is {user.branch} end end end
To reduce redundancy in has_permission_on blocks, a rule may depend on permissions on associated objects:
authorization do role :branch_admin do has_permission_on :branches, :to => :manage do if_attribute :managers => contains {user} end has_permission_on :employees, :to => :manage do if_permitted_to :manage, :branch # instead of #if_attribute :branch => {:managers => contains {user}} end end end
Lastly, not only privileges may be organized in a hierarchy but roles as well. Here, project manager inherit the permissions of employees.
role :project_manager do includes :employee end
See also Authorization::Reader.
declarative_authorization provides a few helpers to ease the testing with authorization in mind.
In your test_helper.rb, to enable the helpers add
require File.expand_path(File.dirname(__FILE__) + "/../vendor/plugins/declarative_authorization/lib/maintenance") class Test::Unit::TestCase include Authorization::TestHelper ... end
Now, in unit tests, you may deactivate authorization if needed e.g. for test setup and assume certain identities for tests:
class EmployeeTest < ActiveSupport::TestCase def test_should_read without_access_control do Employee.create(...) end assert_nothing_raised do with_user(admin) do Employee.find(:first) end end end end
In functional tests, get, posts, etc. may be tested in the name of certain users:
get_with admin, :index post_with admin, :update, :employee => {...}
See Authorization::TestHelper for more information.
To install simply execute in your applications root directory
cd vendor/plugins && git clone git://github.com/stffn/declarative_authorization.git
Then,
-
provide the requirements as noted below,
-
create a basic config/authorization_rules.rb–you might want to take the provided example authorization_rules.dist.rb in the plugin root as a starting point,
-
add
filter_access_to
,permitted_to
? and model security as needed.
The requirements are
-
Rails >= 2.1 and Ruby >= 1.8.6, including 1.9
-
An authentication mechanism
-
A user object returned by controller.current_user
-
An array of role symbols returned by user.role_symbols
Of the various ways to provide these requirements, here is one way employing restful_authentication.
-
Install restful_authentication
cd vendor/plugins && git clone git://github.com/technoweenie/restful-authentication.git restful_authentication cd ../.. && ruby script/generate authenticated user sessions
-
Move “include AuthenticatedSystem” to ApplicationController
-
Add
filter_access_to
calls as described above. -
If you’d like to use model security, add a before_filter that sets the user globally to your ApplicationController. This is thread-safe.
before_filter :set_current_user protected def set_current_user Authorization.current_user = current_user end
-
Add roles field to the User model through a :
has_many
association (this is just one possible approach; you could just as easily use :has_many
:through
or a serialized roles array):-
create a migration for table roles
class CreateRoles < ActiveRecord::Migration def self.up create_table "roles" do |t| t.column :title, :string t.references :user end end def self.down drop_table "roles" end end
-
create a model Role,
class Role < ActiveRecord::Base belongs_to :user end
-
add
has_many
:roles
to the User model and a roles method that returns the roles as an Array of Symbols, e.g.class User < ActiveRecord::Base has_many :roles def role_symbols (roles || []).map {|r| r.title.to_sym} end end
-
add roles to your User objects using e.g.
user.roles.create(:title => "admin")
-
Note: If you choose to generate an Account model for restful_authentication instead of a User model as described below, you have to customize the examples and create a ApplicationController#current_user method.
Currently, the main means of debugging authorization decisions is logging and exceptions. Denied access to actions is logged to warn
or info
, including some hints about what went wrong.
All bang methods throw exceptions which may be used to retrieve more information about a denied access than a Boolean value.
If your authorization rules become more complex, you might be glad to use the authorization rules browser that comes with declarative_authorization. It has a syntax-highlighted and a graphical view with filtering of the current authorization rules.
By default, it will only be available in development mode. To use it, add the following lines to your authorization_rules.rb for the appropriate role:
has_permission_on :authorization_rules, :to => :read
Then, point your browser to
http://localhost/authorization_rules
The browser needs Rails 2.3 (for Engine support). The graphical view requires Graphviz (which e.g. can be installed through the graphviz package under Debian and Ubuntu) and is only tested under Linux.
We have an issue tracker for bugs and feature requests as well as a Google Group for discussions on the usage of the plugin. You are very welcome to contribute. Just fork the git repository and create a new issue, send a pull request or contact me personally.
Maintained by
Steffen Bartsch TZI, Universität Bremen, Germany sbartsch at tzi.org
Thanks to
-
Brian Langenfeld
-
Mark Mansour
-
Mike Vincent
Copyright © 2008 Steffen Bartsch, TZI, Universität Bremen, Germany released under the MIT license