200 lines
8.6 KiB
Markdown
200 lines
8.6 KiB
Markdown
---
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stage: Manage
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group: Authentication and Authorization
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments
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---
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# Implementing permissions
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There are multiple types of permissions across GitLab, and when implementing
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anything that deals with permissions, all of them should be considered.
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## Instance
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### User types
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Each user can be one of the following types:
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- Regular.
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- External - access to groups and projects only if direct member.
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- [Internal users](internal_users.md) - system created.
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- [Auditor](https://gitlab.com/gitlab-org/gitlab/-/blob/master/ee/app/policies/ee/base_policy.rb#L9):
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- No access to projects or groups settings menu.
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- No access to Admin Area.
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- Read-only access to everything else.
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- [Administrator](https://gitlab.com/gitlab-org/gitlab/-/blob/master/app/policies/base_policy.rb#L6) - read-write access.
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See the [permissions page](../user/permissions.md) for details on how each user type is used.
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## Groups and Projects
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### General permissions
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Groups and projects can have the following visibility levels:
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- public (`20`) - an entity is visible to everyone
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- internal (`10`) - an entity is visible to logged in users
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- private (`0`) - an entity is visible only to the approved members of the entity
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By default, subgroups can **not** have higher visibility levels.
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For example, if you create a new private group, it can not include a public subgroup.
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The visibility level of a group can be changed only if all subgroups and
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sub-projects have the same or lower visibility level. For example, a group can be set
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to internal only if all subgroups and projects are internal or private.
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WARNING:
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If you migrate an existing group to a lower visibility level, that action does not migrate subgroups
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in the same way. This is a [known issue](https://gitlab.com/gitlab-org/gitlab/-/issues/22406).
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Visibility levels can be found in the `Gitlab::VisibilityLevel` module.
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### Feature specific permissions
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Additionally, the following project features can have different visibility levels:
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- Issues
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- Repository
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- Merge request
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- Forks
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- Pipelines
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- Analytics
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- Requirements
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- Security & Compliance
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- Wiki
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- Snippets
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- Pages
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- Operations
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- Metrics Dashboard
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These features can be set to "Everyone with Access" or "Only Project Members".
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They make sense only for public or internal projects because private projects
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can be accessed only by project members by default.
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### Members
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Users can be members of multiple groups and projects. The following access
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levels are available (defined in the
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[`Gitlab::Access`](https://gitlab.com/gitlab-org/gitlab/-/blob/master/lib/gitlab/access.rb)
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module):
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- No access (`0`)
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- [Minimal access](../user/permissions.md#users-with-minimal-access) (`5`)
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- Guest (`10`)
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- Reporter (`20`)
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- Developer (`30`)
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- Maintainer (`40`)
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- Owner (`50`)
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If a user is the member of both a project and the project parent groups, the
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highest permission is the applied access level for the project.
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If a user is the member of a project, but not the parent groups, they
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can still view the groups and their entities (like epics).
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Project membership (where the group membership is already taken into account)
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is stored in the `project_authorizations` table.
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NOTE:
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In [GitLab 14.9](https://gitlab.com/gitlab-org/gitlab/-/issues/351211) and later, projects in personal namespaces have a maximum role of Owner.
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Because of a [known issue](https://gitlab.com/gitlab-org/gitlab/-/issues/219299) in GitLab 14.8 and earlier, projects in personal namespaces have a maximum role of Maintainer.
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### Confidential issues
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[Confidential issues](../user/project/issues/confidential_issues.md) can be accessed
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only by project members who are at least
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reporters (they can't be accessed by guests). Additionally they can be accessed
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by their authors and assignees.
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### Licensed features
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Some features can be accessed only if the user has the correct license plan.
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## Permission dependencies
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Feature policies can be quite complex and consist of multiple rules.
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Quite often, one permission can be based on another.
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Designing good permissions means reusing existing permissions as much as possible
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and making access to features granular.
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In the case of a complex resource, it should be broken into smaller pieces of information
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and each piece should be granted a different permission.
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A good example in this case is the _Merge Request widget_ and the _Security reports_.
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Depending on the visibility level of the _Pipelines_, the _Security reports_ are either visible
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in the widget or not. So, the _Merge Request widget_, the _Pipelines_, and the _Security reports_,
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have separate permissions. Moreover, the permissions for the _Merge Request widget_
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and the _Pipelines_ are dependencies of the _Security reports_.
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### Permission dependencies of Secure features
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Secure features have complex permissions since these features are integrated
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into different features like Merge Requests and CI flow.
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Here is a list of some permission dependencies.
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| Activity level | Resource | Locations |Permission dependency|
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|----------------|----------|-----------|-----|
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| View | License information | Dependency list, License Compliance | Can view repository |
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| View | Dependency information | Dependency list, License Compliance | Can view repository |
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| View | Vulnerabilities information | Dependency list | Can view security findings |
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| View | Black/Whitelisted licenses for the project | License Compliance, merge request | Can view repository |
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| View | Security findings | merge request, CI job page, Pipeline security tab | Can read the project and CI jobs |
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| View | Vulnerability feedback | merge request | Can read security findings |
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| View | Dependency List page | Project | Can access Dependency information |
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| View | License Compliance page | Project | Can access License information|
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## Where should permissions be checked?
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We should typically apply defense-in-depth (implementing multiple checks at
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various layers) starting with low-level layers, such as finders and services,
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followed by high-level layers, such as GraphQL, public REST API, and controllers.
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See [Guidelines for reusing abstractions](reusing_abstractions.md).
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Protecting the same resources at many points means that if one layer of defense is compromised
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or missing, customer data is still protected by the additional layers.
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See the permissions section in the [Secure Coding Guidelines](secure_coding_guidelines.md#permissions).
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### Considerations
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Services or finders are appropriate locations because:
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- Multiple endpoints share services or finders so downstream logic is more likely to be re-used.
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- Sometimes authorization logic must be incorporated in DB queries to filter records.
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- Permission checks at the display layer should be avoided except to provide better UX
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and not as a security check. For example, showing and hiding non-data elements like buttons.
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The downsides to defense-in-depth are:
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- `DeclarativePolicy` rules are relatively performant, but conditions may perform database calls.
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- Higher maintenance costs.
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### Exceptions
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Developers can choose to do authorization in only a single area after weighing
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the risks and drawbacks for their specific case.
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Prefer domain logic (services or finders) as the source of truth when making exceptions.
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Logic, like backend worker logic, might not need authorization based on the current user.
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If the service or finder's constructor does not expect `current_user`, then it typically won't
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check permissions.
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### Tips
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If a class accepts `current_user`, then it may be responsible for authorization.
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### Example: Adding a new API endpoint
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By default, we authorize at the endpoint. Checking an existing ability may make sense; if not, then we probably need to add one.
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As an aside, most endpoints can be cleanly categorized as a CRUD (create, read, update, destroy) action on a resource. The services and abilities follow suit, which is why many are named like `Projects::CreateService` or `:read_project`.
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Say, for example, we extract the whole endpoint into a service. The `can?` check will now be in the service. Say the service reuses an existing finder, which we are modifying for our purposes. Should we make the finder check an ability?
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- If the finder doesn't accept `current_user`, and therefore doesn't check permissions, then probably no.
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- If the finder accepts `current_user`, and doesn't check permissions, then it would be a good idea to double check other usages of the finder, and we might consider adding authorization.
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- If the finder accepts `current_user`, and already checks permissions, then either we need to add our case, or the existing checks are appropriate.
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