Integration development guidelines
This page provides development guidelines for implementing GitLab integrations, which are part of our main Rails project.
Also see our direction page for an overview of our strategy around integrations.
This guide is a work in progress. You're welcome to ping @gitlab-org/foundations/import-and-integrate
if you need clarification or spot any outdated information.
Add a new integration
Define the integration
-
Add a new model in
app/models/integrations
extending fromIntegration
.- For example,
Integrations::FooBar
inapp/models/integrations/foo_bar.rb
. - For certain types of integrations, you can also build on these base classes:
Integrations::BaseChatNotification
Integrations::BaseCi
Integrations::BaseIssueTracker
Integrations::BaseMonitoring
Integrations::BaseSlashCommands
Integrations::BaseThirdPartyWiki
- For integrations that primarily trigger HTTP calls to external services, you can
also use the
Integrations::HasWebHook
concern. This reuses the webhook functionality in GitLab through an associatedServiceHook
model, and automatically records request logs which can be viewed in the integration settings.
- For example,
-
Add the integration's underscored name (
'foo_bar'
) toIntegration::INTEGRATION_NAMES
. -
Add the integration as an association on
Project
:has_one :foo_bar_integration, class_name: 'Integrations::FooBar'
Define fields
Integrations can define arbitrary fields to store their configuration with the class method Integration.field
.
The values are stored as an encrypted JSON hash in the integrations.encrypted_properties
column.
For example:
module Integrations
class FooBar < Integration
field :url
field :tags
end
end
Integration.field
installs accessor methods on the class.
Here we would have #url
, #url=
, and #url_changed?
to manage the url
field.
These accessors should access the fields stored in Integration#properties
directly on the model, just like other ActiveRecord
attributes.
You should always access the fields through their getters
and not interact with the properties
hash directly.
You must not write to the properties
hash, you must use the generated setter method instead. Direct writes to this
hash are not persisted.
To see how these fields are exposed in the frontend form for the integration, see Customize the frontend form.
Other approaches include using Integration.prop_accessor
or Integration.data_field
, which you might see in earlier versions of integrations.
You should not use these approaches for new integrations.
Define validations
You should define Rails validations for all of your fields.
Validations should only apply when the integration is enabled, by testing the #activated?
method.
Any field with the required:
property should have a
corresponding validation for presence
, as the required:
field property is only for the frontend.
For example:
module Integrations
class FooBar < Integration
with_options if: :activated? do
validates :key, presence: true, format: { with: KEY_REGEX }
validates :bar, inclusion: [true, false]
end
field :key, required: true
field :bar, type: :checkbox
end
end
Define trigger events
Integrations are triggered by calling their #execute
method in response to events in GitLab,
which gets passed a payload hash with details about the event.
The supported events have some overlap with webhook events,
and receive the same payload. You can specify the events you're interested in by overriding
the class method Integration.supported_events
in your model.
The following events are supported for integrations:
Event type | Default | Value | Trigger |
---|---|---|---|
Alert event | alert |
A new, unique alert is recorded. | |
Commit event | ✓ | commit |
A commit is created or updated. |
Deployment event | deployment |
A deployment starts or finishes. | |
Work item event | ✓ | issue |
An issue is created, updated, or closed. |
Confidential issue event | ✓ | confidential_issue |
A confidential issue is created, updated, or closed. |
Job event | job |
||
Merge request event | ✓ | merge_request |
A merge request is created, updated, or merged. |
Comment event | comment |
A new comment is added. | |
Confidential comment event | confidential_note |
A new comment on a confidential issue is added. | |
Pipeline event | pipeline |
A pipeline status changes. | |
Push event | ✓ | push |
A push is made to the repository. |
Tag push event | ✓ | tag_push |
New tags are pushed to the repository. |
Vulnerability event | vulnerability |
A new, unique vulnerability is recorded. Ultimate only. | |
Wiki page event | ✓ | wiki_page |
A wiki page is created or updated. |
Event examples
This example defines an integration that responds to commit
and merge_request
events:
module Integrations
class FooBar < Integration
def self.supported_events
%w[commit merge_request]
end
end
end
An integration can also not respond to events, and implement custom functionality some other way:
module Integrations
class FooBar < Integration
def self.supported_events
[]
end
end
end
Security enhancement features
Masking channel values
Integrations that inherit from Integrations::BaseChatNotification
can hide the
values of their channel input fields. Integrations should hide these values whenever the
fields contain sensitive information such as auth tokens.
By default, #mask_configurable_channels?
returns false
. To mask the channel values, override the #mask_configurable_channels?
method in the integration to return true
:
override :mask_configurable_channels?
def mask_configurable_channels?
true
end
Define configuration test
Optionally, you can define a configuration test of an integration's settings. The test is executed from the integration form's Test button, and results are returned to the user.
A good configuration test:
- Does not change data on the service. For example, it should not trigger a CI build. Sending a message is okay.
- Is meaningful and as thorough as possible.
If it's not possible to follow the above guidelines, consider not adding a configuration test.
To add a configuration test, define a #test
method for the integration model.
The method receives data
, which is a test push event payload.
It should return a hash, containing the keys:
-
success
(required): a boolean to indicate if the configuration test has passed. -
result
(optional): a message returned to the user if the configuration test has failed.
For example:
module Integrations
class FooBar < Integration
def test(data)
success = test_api_key(data)
{ success: success, result: 'API key is invalid' }
end
end
end
Customize the frontend form
The frontend form is generated dynamically based on metadata defined in the model.
By default, the integration form provides:
- A checkbox to enable or disable the integration.
- Checkboxes for each of the trigger events returned from
Integration#configurable_events
.
You can also add help text at the top of the form by either overriding Integration#help
,
or providing a template in app/views/shared/integrations/$INTEGRATION_NAME/_help.html.haml
.
To add your custom properties to the form, you can define the metadata for them in Integration#fields
.
This method should return an array of hashes for each field, where the keys can be:
Key | Type | Required | Default | Description |
---|---|---|---|---|
type: |
symbol | true | :text |
The type of the form field. Can be :text , :textarea , :password , :checkbox , or :select . |
section: |
symbol | false | Specify which section the field belongs to. | |
name: |
string | true | The property name for the form field. | |
required: |
boolean | false | false |
Specify if the form field is required or optional. Note backend validations for presence are still needed. |
title: |
string | false | Capitalized value of name:
|
The label for the form field. |
placeholder: |
string | false | A placeholder for the form field. | |
help: |
string | false | A help text that displays below the form field. | |
api_only: |
boolean | false | false |
Specify if the field should only be available through the API, and excluded from the frontend form. |
description |
string | false | Description of the API field. | |
if: |
boolean or lambda | false | true |
Specify if the field should be available. The value can be a boolean or a lambda. |
type: :checkbox
Additional keys for Key | Type | Required | Default | Description |
---|---|---|---|---|
checkbox_label: |
string | false | Value of title:
|
A custom label that displays next to the checkbox. |
type: :select
Additional keys for Key | Type | Required | Default | Description |
---|---|---|---|---|
choices: |
array | true | A nested array of [label, value] tuples. |
type: :password
Additional keys for Key | Type | Required | Default | Description |
---|---|---|---|---|
non_empty_password_title: |
string | false | Value of title:
|
An alternative label that displays when a value is already stored. |
non_empty_password_help: |
string | false | Value of help:
|
An alternative help text that displays when a value is already stored. |
Define sections
All integrations should define Integration#sections
which split the form into smaller sections,
making it easier for users to set up the integration.
The most commonly used sections are pre-defined and already include some UI:
-
SECTION_TYPE_CONNECTION
: Contains basic fields likeurl
,username
,password
that are required to connect to and authenticate with the integration. -
SECTION_TYPE_CONFIGURATION
: Contains more advanced configuration and optional settings around how the integration works. -
SECTION_TYPE_TRIGGER
: Contains a list of events which will trigger an integration.
SECTION_TYPE_CONNECTION
& SECTION_TYPE_CONFIGURATION
internally renders the dynamic-field
component. The dynamic-field
component renders either a checkbox
, input
, select
or textarea
based on integration type
.
For example:
module Integrations
class FooBar < Integration
def sections
[
{
type: SECTION_TYPE_CONNECTION,
title: s_('Integrations|Connection details'),
description: help
},
{
type: SECTION_TYPE_CONFIGURATION,
title: _('Configuration'),
description: s_('Advanced configuration for integration')
}
]
end
end
end
To add fields to a specific section, you can add the section:
key to the field metadata.
New custom sections
If the existing sections do not meet your requirements for UI customization, you can create new custom sections:
-
Add a new section by adding a new constant
SECTION_TYPE_*
and add it to the#sections
method:module Integrations class FooBar < Integration SECTION_TYPE_SUPER = :my_custom_section def sections [ { type: SECTION_TYPE_SUPER, title: s_('Integrations|Custom section'), description: s_('Integrations|Help') } ] end end end
-
Update the frontend constants
integrationFormSections
andintegrationFormSectionComponents
in~/integrations/constants.js
. -
Add your new section component in
app/assets/javascripts/integrations/edit/components/sections/*
. -
Include and render the new section in
app/assets/javascripts/integrations/edit/components/integration_forms/section.vue
.
Frontend form examples
This example defines a required url
field, and optional username
and password
fields, all under the Connection details
section:
module Integrations
class FooBar < Integration
field :url,
section: SECTION_TYPE_CONNECTION,
type: :text,
title: s_('FooBarIntegration|Server URL'),
placeholder: 'https://example.com/',
required: true
field :username,
section: SECTION_TYPE_CONNECTION,
type: :text,
title: s_('FooBarIntegration|Username')
field :password,
section: SECTION_TYPE_CONNECTION,
type: 'password',
title: s_('FoobarIntegration|Password'),
non_empty_password_title: s_('FooBarIntegration|Enter new password')
def sections
[
{
type: SECTION_TYPE_CONNECTION,
title: s_('Integrations|Connection details'),
description: s_('Integrations|Help')
}
]
end
end
end
Expose the integration in the REST API
To expose the integration in the REST API:
-
Add the integration's class (
::Integrations::FooBar
) toAPI::Helpers::IntegrationsHelpers.integration_classes
. -
Add the integration's API arguments to
API::Helpers::IntegrationsHelpers.integrations
, for example:'foo-bar' => ::Integrations::FooBar.api_arguments
-
Update the reference documentation in
doc/api/integrations.md
, add a new section for your integration, and document all properties.
You can also refer to our REST API style guide.
Sensitive fields are not exposed over the API. Sensitive fields are those fields that contain any of the following in their name:
key
passphrase
password
secret
token
webhook
Availability of integrations
By default, integrations can apply to a specific project or group, or to an entire instance. Most integrations only act in a project context, but can be still configured for the group and instance.
For some integrations it can make sense to only make it available on certain levels (project, group, or instance).
To do that, the integration must be removed from Integration::INTEGRATION_NAMES
and instead added to:
-
Integration::PROJECT_LEVEL_ONLY_INTEGRATION_NAMES
to only allow enabling on the project level. -
Integration::INSTANCE_LEVEL_ONLY_INTEGRATION_NAMES
to only allow enabling on the instance level. -
Integration::PROJECT_AND_GROUP_LEVEL_ONLY_INTEGRATION_NAMES
to prevent enabling on the instance level.
When developing a new integration, we also recommend you gate the availability behind a
feature flag in Integration.available_integration_names
.
Documentation
Add documentation for the integration:
- Add a page in
doc/user/project/integrations
. - Link it from the Integrations overview.
- After the documentation has merged, add an entry to the documentation navigation under the Integrations category title.
You can also refer to our general documentation guidelines.
You can provide help text in the integration form, including links to off-site documentation, as described above in Customize the frontend form. Refer to our usability guidelines for help text.
Testing
Testing should not be confused with defining configuration tests.
It is often sufficient to add tests for the integration model in spec/models/integrations
,
and a factory with example settings in spec/factories/integrations.rb
.
Each integration is also tested as part of generalized tests. For example, there are feature specs that verify that the settings form is rendering correctly for all integrations.
If your integration implements any custom behavior, especially in the frontend, this should be covered by additional tests.
You can also refer to our general testing guidelines.
Internationalization
All UI strings should be prepared for translation by following our internationalization guidelines.
The strings should use the integration name as namespace, for example, s_('FooBarIntegration|My string')
.
Deprecate and remove an integration
To remove an integration, you must first deprecate the integration. For more information, see the feature deprecation guidelines.
Deprecate an integration
You must announce any deprecation no later than the third milestone preceding intended removal. To deprecate an integration:
- Add a deprecation entry.
- Mark the integration documentation as deprecated.
- Optional. To prevent any new project-level records from
being created, add the integration to
Project#disabled_integrations
(see example merge request).
Remove an integration
To safely remove an integration, you must stage the removal across two milestones.
In the major milestone of intended removal (M.0), disable the integration and delete the records from the database:
- Remove the integration from
Integration::INTEGRATION_NAMES
. - Delete the integration model's
#execute
and#test
methods (if defined), but keep the model. - Add a post-migration to delete the integration records from PostgreSQL (see example merge request).
- Mark the integration documentation as removed.
- Update the integration API documentation.
In the next minor release (M.1):
- Remove the integration's model and any remaining code.
- Close any issues, merge requests, and epics that have the integration's label (
~Integration::<name>
). - Delete the integration's label (
~Integration::<name>
) fromgitlab-org
.
Ongoing migrations and refactorings
Developers should be aware that the Integrations team is in the process of unifying the way integration properties are defined.
Integration examples
You can refer to these issues for examples of adding new integrations:
- Datadog: Metrics collector, similar to the Prometheus integration.
- EWM/RTC: External issue tracker.
- Webex Teams: Chat notifications.
- ZenTao: External issue tracker with custom issue views, similar to the Jira issues integration.