- Custom roles vs default roles
- Technical overview
- Refactoring abilities
- How to add support for an ability to custom roles
Custom Roles
Ultimate customers can create custom roles and define those roles by assigning specific abilities.
For example, a user could create an “Engineer” role with read code
and admin merge requests
abilities, but without abilities like admin issues
.
In this context, the terms “permission” and “ability” are often used interchangeably.
- “Ability” is an action a user can do. These map to Declarative Policy abilities and live in Policy classes in
ee/app/policies/*
. - “Permission” is how we refer to an ability in user-facing documentation. The documentation of permissions is manually generated so there is not necessarily a 1:1 mapping of the permissions listed in documentation and the abilities defined in Policy classes.
Custom roles vs default roles
In GitLab 15.9 and earlier, GitLab only had default roles as a permission system. In this system, there are a few predefined roles that are statically assigned to certain abilities. These default roles are not customizable by customers.
With custom roles, the customers can decide which abilities they want to assign to certain user groups. For example:
- In the default role system, reading of vulnerabilities is limited to a Developer role.
- In the custom role system, a customer can assign this ability to a new custom role based on any default role.
Like default roles, custom roles are inherited within a group hierarchy. If a user has custom role for a group, that user will also have a custom role for any projects or subgroups within the group.
Technical overview
- Individual custom roles are stored in the
member_roles
table (MemberRole
model). - A
member_roles
record is associated with top-level groups (not subgroups) via thenamespace_id
foreign key. - A Group or project membership (
members
record) is associated with a custom role via themember_role_id
foreign key. - A Group or project membership can be associated with any custom role that is defined on the root-level group of the group or project.
- The
member_roles
table includes individual permissions and abase_access_level
value. - The
base_access_level
must be a valid access level. Thebase_access_level
determines which abilities are included in the custom role. For example, if thebase_access_level
is10
, the custom role will include any abilities that a default Guest role would receive, plus any additional abilities that are enabled by themember_roles
record by setting an attribute, such asread_code
, to true. - A custom role can enable additional abilities for a
base_access_level
but it cannot disable a permission. As a result, custom roles are “additive only”. The rationale for this choice is in this comment. - Custom role abilities are supported at project level and group level.
Refactoring abilities
Finding existing abilities checks
Abilities are often checked in multiple locations for a single endpoint or web request. Therefore, it can be difficult to find the list of authorization checks that are run for a given endpoint.
To assist with this, you can locally set GITLAB_DEBUG_POLICIES=true
.
This outputs information about which abilities are checked in the requests made in any specs that you run. The output also includes the line of code where the authorization check was made. Caller information is especially helpful in cases where there is metaprogramming used because those cases are difficult to find by grepping for ability name strings.
For example:
# example spec run
GITLAB_DEBUG_POLICIES=true bundle exec rspec spec/controllers/groups_controller_spec.rb:162
# permissions debug output when spec is run; if multiple policy checks are run they will all be in the debug output.
POLICY CHECK DEBUG -> policy: GlobalPolicy, ability: create_group, called_from: ["/gitlab/app/controllers/application_controller.rb:245:in `can?'", "/gitlab/app/controllers/groups_controller.rb:255:in `authorize_create_group!'"]
Use this setting to learn more about authorization checks while refactoring. You should not keep this setting enabled for any specs on the default branch.
Understanding logic for individual abilities
References to an ability may appear in a DeclarativePolicy
class many times
and depend on conditions and rules which reference other abilities. As a result,
it can be challenging to know exactly which conditions apply to a particular
ability.
DeclarativePolicy
provides a ability_map
for each policy class, which
pulls all rules for an ability into an array.
For example:
> GroupPolicy.ability_map.map.select { |k,v| k == :read_group_member }
=> {:read_group_member=>[[:enable, #<Rule can?(:read_group)>], [:prevent, #<Rule ~can_read_group_member>]]}
> GroupPolicy.ability_map.map.select { |k,v| k == :read_group }
=> {:read_group=>
[[:enable, #<Rule public_group>],
[:enable, #<Rule logged_in_viewable>],
[:enable, #<Rule guest>],
[:enable, #<Rule admin>],
[:enable, #<Rule has_projects>],
[:enable, #<Rule read_package_registry_deploy_token>],
[:enable, #<Rule write_package_registry_deploy_token>],
[:prevent, #<Rule all?(~public_group, ~admin, user_banned_from_group)>],
[:enable, #<Rule auditor>],
[:prevent, #<Rule needs_new_sso_session>],
[:prevent, #<Rule all?(ip_enforcement_prevents_access, ~owner, ~auditor)>]]}
DeclarativePolicy
also provides a debug
method that can be used to
understand the logic tree for a specific object and actor. The output is similar
to the list of rules from ability_map
. But, DeclarativePolicy
stops
evaluating rules after you prevent
an ability, so it is possible that
not all conditions are called.
Example:
policy = GroupPolicy.new(User.last, Group.last)
policy.debug(:read_group)
- [0] enable when public_group ((@custom_guest_user1 : Group/139))
- [0] enable when logged_in_viewable ((@custom_guest_user1 : Group/139))
- [0] enable when admin ((@custom_guest_user1 : Group/139))
- [0] enable when auditor ((@custom_guest_user1 : Group/139))
- [14] prevent when all?(~public_group, ~admin, user_banned_from_group) ((@custom_guest_user1 : Group/139))
- [14] prevent when needs_new_sso_session ((@custom_guest_user1 : Group/139))
- [16] enable when guest ((@custom_guest_user1 : Group/139))
- [16] enable when has_projects ((@custom_guest_user1 : Group/139))
- [16] enable when read_package_registry_deploy_token ((@custom_guest_user1 : Group/139))
- [16] enable when write_package_registry_deploy_token ((@custom_guest_user1 : Group/139))
[21] prevent when all?(ip_enforcement_prevents_access, ~owner, ~auditor) ((@custom_guest_user1 : Group/139))
=> #<DeclarativePolicy::Runner::State:0x000000015c665050
@called_conditions=
#<Set: {
"/dp/condition/GroupPolicy/public_group/Group:139",
"/dp/condition/GroupPolicy/logged_in_viewable/User:83,Group:139",
"/dp/condition/BasePolicy/admin/User:83",
"/dp/condition/BasePolicy/auditor/User:83",
"/dp/condition/GroupPolicy/user_banned_from_group/User:83,Group:139",
"/dp/condition/GroupPolicy/needs_new_sso_session/User:83,Group:139",
"/dp/condition/GroupPolicy/guest/User:83,Group:139",
"/dp/condition/GroupPolicy/has_projects/User:83,Group:139",
"/dp/condition/GroupPolicy/read_package_registry_deploy_token/User:83,Group:139",
"/dp/condition/GroupPolicy/write_package_registry_deploy_token/User:83,Group:139"}>,
@enabled=false,
@prevented=true>
Abilities consolidation
Every feature added to custom roles should have minimal abilities. For most features, having read_*
and admin_*
should be enough. You should consolidate all:
- View-related abilities under
read_*
. For example, viewing a list or detail. - Object updates under
admin_*
. For example, updating an object, adding assignees or closing it that object. Usually, a role that enablesadmin_
has to have alsoread_
abilities enabled. This is defined inrequirement
option in theALL_CUSTOMIZABLE_PERMISSIONS
hash onMemberRole
model.
There might be features that require additional abilities but try to minimize those. You can always ask members of the Authentication and Authorization group for their opinion or help.
This is also where your work should begin. Take all the abilities for the feature you work on, and consolidate those abilities into read_
, admin_
, or additional abilities if necessary.
Many abilities in the GroupPolicy
and ProjectPolicy
classes have many
redundant policies. There is an epic for consolidating these Policy classes.
If you encounter similar permissions in these classes, consider refactoring so
that they have the same name.
For example, you see in GroupPolicy
that there is an ability called
read_group_security_dashboard
and in ProjectPolicy
has an ability called
read_project_security_dashboard
. You’d like to make both customizable. Rather
than adding a row to the member_roles
table for each ability, consider
renaming them to read_security_dashboard
and adding read_security_dashboard
to the member_roles
table. Enabling read_security_dashboard
on
the parent group will allow the custom role to access the group security dashboard and the project security dashboard
for each project in that group. Enabling the same permission on a specific project will allow access to that projects’
security dashboard.
How to add support for an ability to custom roles
If adding an existing ability, consider refactoring & consolidating abilities for the feature before in a separate merge request, before completing the below.
Step 1. Generate a configuration file
- Run
./ee/bin/custom-ability <ABILITY_NAME>
to generate a configuration file for the new ability. - This will generate a YAML file in
ee/config/custom_abilities
which follows the following schema:
Field | Required | Description |
---|---|---|
name
| yes | Unique, lowercase and underscored name describing the custom ability. Must match the filename. |
title
| yes | Human-readable title of the custom ability. |
description
| yes | Human-readable description of the custom ability. |
feature_category
| yes | Name of the feature category. For example, vulnerability_management .
|
introduced_by_issue
| yes | Issue URL that proposed the addition of this custom ability. |
introduced_by_mr
| yes | MR URL that added this custom ability. |
milestone
| yes | Milestone in which this custom ability was added. |
group_ability
| yes | Boolean value to indicate whether this ability is checked on group level. |
project_ability
| yes | Boolean value to whether this ability is checked on project level. |
requirements
| no | The list of custom permissions this ability is dependent on. For instance admin_vulnerability is dependent on read_vulnerability . If none, then enter []
|
available_from_access_level
| no | The access level of the predefined role from which this ability is available, if applicable. See the section on understanding logic for individual abilities for help on determining the base access level for an ability. This is for information only and has no impact on how custom roles operate. |
Step 2: Create a spec file and update validation schema
- Run
bundle exec rails generate gitlab:custom_roles:code --ability <ABILITY_NAME>
which will update the permissions validation schema file and create an empty spec file.
Step 3: Update policies
- If the ability is checked on a group level, add rule(s) to GroupPolicy to enable the ability.
- For example: if the ability we would like to add is
read_dependency
, then an update toee/app/policies/ee/group_policy.rb
would look like as follows:
rule { custom_role_enables_read_dependency }.enable(:read_dependency)
- Similarly, If the ability is checked on a project level, add rule(s) to ProjectPolicy to enable the ability.
- For example: if the ability we would like to add is
read_dependency
, then an update toee/app/policies/ee/project_policy.rb
would look like as follows:
rule { custom_role_enables_read_dependency }.enable(:read_dependency)
- Not all abilities need to be enabled on both levels, for instance
admin_terraform_state
allows users to manage a project’s terraform state. It only needs to be enabled on the project level and not the group level, and thus only needs to be configured inee/app/policies/ee/project_policy.rb
.
Step 4: Verify
- Ensure SaaS mode is enabled with
GITLAB_SIMULATE_SAAS=1
. - Go to any Group that you are an owner of, then go to
Settings -> Roles and permissions
. - Select
New role
and create a custom role with the permission you have just created. - Go to the Group’s
Manage -> Members
page and assign a member to this newly created custom role. - Next, sign in as that member and ensure that you are able to access the page that the custom ability is intended for.
Step 5: Add specs
- Add the ability as a trait in the
MemberRoles
factory,ee/spec/factories/member_roles.rb
. - Add tests to
ee/spec/requests/custom_roles/<ABILITY_NAME>/request_spec.rb
to ensure that once the user has been assigned the custom ability, they can successfully access the controllers, REST API endpoints and GraphQL API endpoints. - Below is an example of the typical setup that is required to test a Rails Controller endpoint.
let_it_be(:user) { create(:user) }
let_it_be(:project) { create(:project, :repository, :in_group) }
let_it_be(:role) { create(:member_role, :guest, namespace: project.group, custom_permission: true) }
let_it_be(:membership) { create(:project_member, :guest, member_role: role, user: user, project: project) }
before do
stub_licensed_features(custom_roles: true)
sign_in(user)
end
describe MyController do
describe '#show' do
it 'allows access' do
get my_controller_path(project)
expect(response).to have_gitlab_http_status(:ok)
expect(response).to render_template(:show)
end
end
end
- Below is an example of the typical setup that is required to test a GraphQL mutation.
let_it_be(:user) { create(:user) }
let_it_be(:project) { create(:project, :repository, :in_group) }
let_it_be(:role) { create(:member_role, :guest, namespace: project.group, custom_permission: true) }
let_it_be(:membership) { create(:project_member, :guest, member_role: role, user: user, project: project) }
before do
stub_licensed_features(custom_roles: true)
sign_in(user)
end
describe MyMutation do
include GraphqlHelpers
describe '#show' do
let(:mutation) { graphql_mutation(:my_mutation) }
it_behaves_like 'a working graphql query'
end
end
- Add tests to
ProjectPolicy
and/orGroupPolicy
. Below is an example for testingProjectPolicy
related changes.
context 'for a member role with read_dependency true' do
let(:member_role_abilities) { { read_dependency: true } }
let(:allowed_abilities) { [:read_dependency] }
it_behaves_like 'custom roles abilities'
end
Step 6: Update documentation
Follow the Contribute to the GitLab documentation page to make the following changes to the documentation:
- Update the list of custom abilities by running
bundle exec rake gitlab:custom_roles:compile_docs
- Update the GraphQL documentation by running
bundle exec rake gitlab:graphql:compile_docs
Privilege escalation consideration
A base role typically has permissions that allow creation or management of artifacts corresponding to the base role when interacting with that artifact. For example, when a Developer
creates an access token for a project, it is created with Developer
access encoded into that credential. It is important to keep in mind that as new custom permissions are created, there might be a risk of elevated privileges when interacting with GitLab artifacts, and appropriate safeguards or base role checks should be added.
Consuming seats
If a new user with a role Guest
is added to a member role that includes enablement of an ability that is not in the CUSTOMIZABLE_PERMISSIONS_EXEMPT_FROM_CONSUMING_SEAT
array, a seat is consumed. We simply want to make sure we are charging Ultimate customers for guest users, who have “elevated” abilities. This only applies to billable users on SaaS (billable users that are counted towards namespace subscription). More details about this topic can be found in this issue.
Modular Policies
In an effort to support the GitLab Modular Monolith design document the Authorization group is collaborating with the Create:IDE group. Once a POC is implemented, the findings will be discussed and the Authorization group will make a decision of what the modular design of policies will be going forward.