gitlab-org--gitlab-foss/doc/development/geo/framework.md

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Geo self-service framework

NOTE: This document is subject to change as we continue to implement and iterate on the framework. Follow the progress in the epic. If you need to replicate a new data type, reach out to the Geo team to discuss the options. You can contact them in #g_geo on Slack or mention @geo-team in the issue or merge request.

Geo provides an API to make it possible to easily replicate data types across Geo nodes. This API is presented as a Ruby Domain-Specific Language (DSL) and aims to make it possible to replicate data with minimal effort of the engineer who created a data type.

Nomenclature

Before digging into the API, developers need to know some Geo-specific naming conventions:

• Model: A model is an Active Model, which is how it is known in the entire Rails codebase. It usually is tied to a database table. From Geo perspective, a model can have one or more resources.

• Resource: A resource is a piece of data that belongs to a model and is produced by a GitLab feature. It is persisted using a storage mechanism. By default, a resource is not a Geo replicable.

• Data type: Data type is how a resource is stored. Each resource should fit in one of the data types Geo supports:

  • Git repository
  • Blob
  • Database

  For more detail, see Data types.

• Geo Replicable: A Replicable is a resource Geo wants to sync across Geo nodes. There is a limited set of supported data types of replicables. The effort required to implement replication of a resource that belongs to one of the known data types is minimal.

• Geo Replicator: A Geo Replicator is the object that knows how to replicate a replicable. It's responsible for:

  • Firing events (producer)
  • Consuming events (consumer)

  It's tied to the Geo Replicable data type. All replicators have a common interface that can be used to process (that is, produce and consume) events. It takes care of the communication between the primary node (where events are produced) and the secondary node (where events are consumed). The engineer who wants to incorporate Geo in their feature will use the API of replicators to make this happen.

• Geo Domain-Specific Language: The syntactic sugar that allows engineers to easily specify which resources should be replicated and how.

Geo Domain-Specific Language

The replicator

First of all, you need to write a replicator. The replicators live in ee/app/replicators/geo. For each resource that needs to be replicated, there should be a separate replicator specified, even if multiple resources are tied to the same model.

For example, the following replicator replicates a package file:

module Geo
  class PackageFileReplicator < Gitlab::Geo::Replicator
    # Include one of the strategies your resource needs
    include ::Geo::BlobReplicatorStrategy

    # Specify the CarrierWave uploader needed by the used strategy
    def carrierwave_uploader
      model_record.file
    end

    # Specify the model this replicator belongs to
    def self.model
      ::Packages::PackageFile
    end

    # The feature flag follows the format `geo_#{replicable_name}_replication`,
    # so here it would be `geo_package_file_replication`
    def self.replication_enabled_by_default?
      false
    end
  end
end

The class name should be unique. It also is tightly coupled to the table name for the registry, so for this example the registry table will be package_file_registry.

For the different data types Geo supports there are different strategies to include. Pick one that fits your needs.

Linking to a model

To tie this replicator to the model, you need to add the following to the model code:

class Packages::PackageFile < ApplicationRecord
  include ::Gitlab::Geo::ReplicableModel

  with_replicator Geo::PackageFileReplicator
end

API

When this is set in place, it's easy to access the replicator through the model:

package_file = Packages::PackageFile.find(4) # just a random ID as example
replicator = package_file.replicator

Or get the model back from the replicator:

replicator.model_record
=> <Packages::PackageFile id:4>

The replicator can be used to generate events, for example in ActiveRecord hooks:

  after_create_commit -> { replicator.publish_created_event }

Library

The framework behind all this is located in ee/lib/gitlab/geo/.

Existing Replicator Strategies

Before writing a new kind of Replicator Strategy, check below to see if your resource can already be handled by one of the existing strategies. Consult with the Geo team if you are unsure.

Blob Replicator Strategy

Models that use CarrierWave's Uploader::Base can be easily supported by Geo with the Geo::BlobReplicatorStrategy module.

First, each file should have its own primary ID and model. Geo strongly recommends treating every single file as a first-class citizen, because in our experience this greatly simplifies tracking replication and verification state.

For example, to add support for files referenced by a Widget model with a widgets table, you would perform the following steps:

Replication

1. Include Gitlab::Geo::ReplicableModel in the Widget class, and specify the Replicator class with_replicator Geo::WidgetReplicator.

   At this point the Widget class should look like this:

   # frozen_string_literal: true
   
   class Widget < ApplicationRecord
     include ::Gitlab::Geo::ReplicableModel
   
     with_replicator Geo::WidgetReplicator
   
     mount_uploader :file, WidgetUploader
   
     def local?
       # Must to be implemented, Check the uploader's storage types
       file_store == ObjectStorage::Store::LOCAL
     end
   
     # @param primary_key_in [Range, Widget] arg to pass to primary_key_in scope
     # @return [ActiveRecord::Relation<Widget>] everything that should be synced to this node, restricted by primary key
     def self.replicables_for_current_secondary(primary_key_in)
       # Should be implemented. The idea of the method is to restrict
       # the set of synced items depending on synchronization settings
     end
     ...
   end
   

   If there is a common constraint for records to be available for replication, make sure to also overwrite the available_replicables scope.

2. Create ee/app/replicators/geo/widget_replicator.rb. Implement the #carrierwave_uploader method which should return a CarrierWave::Uploader, and implement the class method .model to return the Widget class:

   # frozen_string_literal: true
   
   module Geo
     class WidgetReplicator < Gitlab::Geo::Replicator
       include ::Geo::BlobReplicatorStrategy
   
       def self.model
         ::Widget
       end
   
       def carrierwave_uploader
         model_record.file
       end
   
       # The feature flag follows the format `geo_#{replicable_name}_replication`,
       # so here it would be `geo_widget_replication`
       def self.replication_enabled_by_default?
         false
       end
     end
   end
   

3. Add this replicator class to the method replicator_classes in ee/lib/gitlab/geo.rb:

   REPLICATOR_CLASSES = [
      ::Geo::PackageFileReplicator,
      ::Geo::WidgetReplicator
   ]
   end
   

4. Create ee/spec/replicators/geo/widget_replicator_spec.rb and perform the necessary setup to define the model_record variable for the shared examples:

   # frozen_string_literal: true
   
   require 'spec_helper'
   
   RSpec.describe Geo::WidgetReplicator do
     let(:model_record) { build(:widget) }
   
     it_behaves_like 'a blob replicator'
   end
   

5. Create the widget_registry table, with columns ordered according to our guidelines so Geo secondaries can track the sync and verification state of each Widget's file. This migration belongs in ee/db/geo/migrate:

   # frozen_string_literal: true
   
   class CreateWidgetRegistry < ActiveRecord::Migration[6.0]
     include Gitlab::Database::MigrationHelpers
   
     DOWNTIME = false
   
     disable_ddl_transaction!
   
     def up
       unless table_exists?(:widget_registry)
         ActiveRecord::Base.transaction do
           create_table :widget_registry, id: :bigserial, force: :cascade do |t|
             t.bigint :widget_id, null: false
             t.datetime_with_timezone :created_at, null: false
             t.datetime_with_timezone :last_synced_at
             t.datetime_with_timezone :retry_at
             t.datetime_with_timezone :verified_at
             t.datetime_with_timezone :verification_started_at
             t.datetime_with_timezone :verification_retry_at
             t.integer :state, default: 0, null: false, limit: 2
             t.integer :verification_state, default: 0, null: false, limit: 2
             t.integer :retry_count, default: 0, limit: 2
             t.integer :verification_retry_count, default: 0, limit: 2
             t.boolean :checksum_mismatch
             t.binary :verification_checksum
             t.binary :verification_checksum_mismatched
             t.string :verification_failure, limit: 255
             t.text :last_sync_failure
   
             t.index :widget_id, name: :index_widget_registry_on_widget_id, unique: true
             t.index :retry_at
             t.index :state
             # To optimize performance of WidgetRegistry.verification_failed_batch
             t.index :verification_retry_at, name:  :widget_registry_failed_verification, order: "NULLS FIRST",  where: "((state = 2) AND (verification_state = 3))"
             # To optimize performance of WidgetRegistry.needs_verification_count
             t.index :verification_state, name:  :widget_registry_needs_verification, where: "((state = 2)  AND (verification_state = ANY (ARRAY[0, 3])))"
             # To optimize performance of WidgetRegistry.verification_pending_batch
             t.index :verified_at, name: :widget_registry_pending_verification, order: "NULLS FIRST", where: "((state = 2) AND (verification_state = 0))"
           end
         end
       end
   
       add_text_limit :widget_registry, :last_sync_failure, 255
     end
   
     def down
       drop_table :widget_registry
     end
   end
   

6. Create ee/app/models/geo/widget_registry.rb:

   # frozen_string_literal: true
   
   class Geo::WidgetRegistry < Geo::BaseRegistry
     include Geo::ReplicableRegistry
     # TODO: Include VerificationState in VerifiableRegistry
     # https://gitlab.com/gitlab-org/gitlab/-/issues/298811
     include ::Gitlab::Geo::VerificationState
     include ::Geo::VerifiableRegistry
   
     MODEL_CLASS = ::Widget
     MODEL_FOREIGN_KEY = :widget_id
   
     belongs_to :widget, class_name: 'Widget'
   end
   

7. Update REGISTRY_CLASSES in ee/app/workers/geo/secondary/registry_consistency_worker.rb.

8. Add widget_registry to ActiveSupport::Inflector.inflections in config/initializers_before_autoloader/000_inflections.rb.

9. Create ee/spec/factories/geo/widget_registry.rb:

   # frozen_string_literal: true
   
   FactoryBot.define do
     factory :geo_widget_registry, class: 'Geo::WidgetRegistry' do
       widget
       state { Geo::WidgetRegistry.state_value(:pending) }
   
       trait :synced do
         state { Geo::WidgetRegistry.state_value(:synced) }
         last_synced_at { 5.days.ago }
       end
   
       trait :failed do
         state { Geo::WidgetRegistry.state_value(:failed) }
         last_synced_at { 1.day.ago }
         retry_count { 2 }
         last_sync_failure { 'Random error' }
       end
   
       trait :started do
         state { Geo::WidgetRegistry.state_value(:started) }
         last_synced_at { 1.day.ago }
         retry_count { 0 }
       end
     end
   end
   

10. Create ee/spec/models/geo/widget_registry_spec.rb:

    # frozen_string_literal: true
    
    require 'spec_helper'
    
    RSpec.describe Geo::WidgetRegistry, :geo, type: :model do
      let_it_be(:registry) { create(:geo_widget_registry) }
    
      specify 'factory is valid' do
        expect(registry).to be_valid
      end
    
      include_examples 'a Geo framework registry'
      include_examples 'a Geo verifiable registry'
    
      describe '.find_registry_differences' do
        ... # To be implemented
      end
    end
    

Widgets should now be replicated by Geo.

Verification

There are two ways to add verification related fields so that the Geo primary can track verification state.

Option 1: Add verification state fields to the existing widgets table itself

1. Add a migration to add columns ordered according to our guidelines for verification state to the widgets table:

   # frozen_string_literal: true
   
   class AddVerificationStateToWidgets < ActiveRecord::Migration[6.0]
     DOWNTIME = false
   
     def change
       change_table(:widgets) do |t|
         t.integer :verification_state, default: 0, limit: 2, null: false
         t.column :verification_started_at, :datetime_with_timezone
         t.integer :verification_retry_count, limit: 2
         t.column :verification_retry_at, :datetime_with_timezone
         t.column :verified_at, :datetime_with_timezone
         t.binary :verification_checksum, using: 'verification_checksum::bytea'
   
         # rubocop:disable Migration/AddLimitToTextColumns
         t.text :verification_failure
         # rubocop:enable Migration/AddLimitToTextColumns
       end
     end
   end
   

2. Adding a text column also requires setting a limit:

   # frozen_string_literal: true
   
   class AddVerificationFailureLimitToWidgets < ActiveRecord::Migration[6.0]
     include Gitlab::Database::MigrationHelpers
   
     DOWNTIME = false
   
     disable_ddl_transaction!
   
     CONSTRAINT_NAME = 'widget_verification_failure_text_limit'
   
     def up
       add_text_limit :widget, :verification_failure, 255, constraint_name: CONSTRAINT_NAME
     end
   
     def down
       remove_check_constraint(:widget, CONSTRAINT_NAME)
     end
   end
   

3. Add indexes on verification fields to ensure verification can be performed efficiently:

   Some or all of these indexes can be omitted if the table is guaranteed to be small. Ask a database expert if you are unsure.

   # frozen_string_literal: true
   
   class AddVerificationIndexesToWidgets < ActiveRecord::Migration[6.0]
     include Gitlab::Database::MigrationHelpers
   
     DOWNTIME = false
     VERIFICATION_STATE_INDEX_NAME = "index_widgets_verification_state"
     PENDING_VERIFICATION_INDEX_NAME = "index_widgets_pending_verification"
     FAILED_VERIFICATION_INDEX_NAME = "index_widgets_failed_verification"
     NEEDS_VERIFICATION_INDEX_NAME = "index_widgets_needs_verification"
   
     disable_ddl_transaction!
   
     def up
       add_concurrent_index :widgets, :verification_state, name: VERIFICATION_STATE_INDEX_NAME
       add_concurrent_index :widgets, :verified_at, where: "(verification_state = 0)", order: { verified_at: 'ASC NULLS FIRST' }, name: PENDING_VERIFICATION_INDEX_NAME
       add_concurrent_index :widgets, :verification_retry_at, where: "(verification_state = 3)", order: { verification_retry_at: 'ASC NULLS FIRST' }, name: FAILED_VERIFICATION_INDEX_NAME
       add_concurrent_index :widgets, :verification_state, where: "(verification_state = 0 OR verification_state = 3)", name: NEEDS_VERIFICATION_INDEX_NAME
     end
   
     def down
       remove_concurrent_index_by_name :widgets, VERIFICATION_STATE_INDEX_NAME
       remove_concurrent_index_by_name :widgets, PENDING_VERIFICATION_INDEX_NAME
       remove_concurrent_index_by_name :widgets, FAILED_VERIFICATION_INDEX_NAME
       remove_concurrent_index_by_name :widgets, NEEDS_VERIFICATION_INDEX_NAME
     end
   end
   

4. Add the Gitlab::Geo::VerificationState concern to the widget model if it is not already included in Gitlab::Geo::ReplicableModel:

   class Widget < ApplicationRecord
     ...
     include ::Gitlab::Geo::VerificationState
     ...
   end
   

Option 2: Create a separate widget_states table with verification state fields

1. Create a widget_states table and add an index on verification_state to ensure verification can be performed efficiently. Order the columns according to the guidelines:

   # frozen_string_literal: true
   
   class CreateWidgetStates < ActiveRecord::Migration[6.0]
     include Gitlab::Database::MigrationHelpers
   
     DOWNTIME = false
   
     disable_ddl_transaction!
   
     def up
       unless table_exists?(:widget_states)
         with_lock_retries do
           create_table :widget_states, id: false do |t|
             t.references :widget, primary_key: true, null: false, foreign_key: { on_delete: :cascade }
             t.integer :verification_state, default: 0, limit: 2, null: false
             t.column :verification_started_at, :datetime_with_timezone
             t.datetime_with_timezone :verification_retry_at
             t.datetime_with_timezone :verified_at
             t.integer :verification_retry_count, limit: 2
             t.binary :verification_checksum, using: 'verification_checksum::bytea'
             t.text :verification_failure
   
             t.index :verification_state, name: "index_widget_states_on_verification_state"
           end
         end
       end
   
       add_text_limit :widget_states, :verification_failure, 255
     end
   
     def down
       drop_table :widget_states
     end
   end
   

2. Add the following lines to the widget_state.rb model:

   class WidgetState < ApplicationRecord
     ...
     self.primary_key = :widget_id
   
     include ::Gitlab::Geo::VerificationState
   
     belongs_to :widget, inverse_of: :widget_state
     ...
   end
   

3. Add the following lines to the widget model:

   class Widget < ApplicationRecord
     ...
     has_one :widget_state, inverse_of: :widget
   
     delegate :verification_retry_at, :verification_retry_at=,
              :verified_at, :verified_at=,
              :verification_checksum, :verification_checksum=,
              :verification_failure, :verification_failure=,
              :verification_retry_count, :verification_retry_count=,
              to: :widget_state
     ...
   end
   

To do: Add verification on secondaries. This should be done as part of Geo: Self Service Framework - First Implementation for Package File verification

Widgets should now be verified by Geo.

Metrics

Metrics are gathered by Geo::MetricsUpdateWorker, persisted in GeoNodeStatus for display in the UI, and sent to Prometheus:

1. Add fields widgets_count, widgets_checksummed_count, widgets_checksum_failed_count, widgets_synced_count, widgets_failed_count, and widgets_registry_count to GET /geo_nodes/status example response in doc/api/geo_nodes.md.

2. Add the same fields to GET /geo_nodes/status example response in ee/spec/fixtures/api/schemas/public_api/v4/geo_node_status.json.

3. Add fields geo_widgets, geo_widgets_checksummed, geo_widgets_checksum_failed, geo_widgets_synced, geo_widgets_failed, and geo_widgets_registry to Sidekiq metrics table in doc/administration/monitoring/prometheus/gitlab_metrics.md.

4. Add the following to the parameterized table in ee/spec/models/geo_node_status_spec.rb:

   Geo::WidgetReplicator | :widget | :geo_widget_registry
   

5. Add the following to spec/factories/widgets.rb:

   trait(:verification_succeeded) do
     with_file
     verification_checksum { 'abc' }
     verification_state { Widget.verification_state_value(:verification_succeeded) }
   end
   
   trait(:verification_failed) do
     with_file
     verification_failure { 'Could not calculate the checksum' }
     verification_state { Widget.verification_state_value(:verification_failed) }
   end
   

6. Make sure the factory also allows setting a project attribute. If the model does not have a direct relation to a project, you can use a transient attribute. Check out spec/factories/merge_request_diffs.rb for an example.

Widget replication and verification metrics should now be available in the API, the Admin Area UI, and Prometheus.

GraphQL API

1. Add a new field to GeoNodeType in ee/app/graphql/types/geo/geo_node_type.rb:

   field :widget_registries, ::Types::Geo::WidgetRegistryType.connection_type,
         null: true,
         resolver: ::Resolvers::Geo::WidgetRegistriesResolver,
         description: 'Find widget registries on this Geo node',
         feature_flag: :geo_widget_replication
   

2. Add the new widget_registries field name to the expected_fields array in ee/spec/graphql/types/geo/geo_node_type_spec.rb.

3. Create ee/app/graphql/resolvers/geo/widget_registries_resolver.rb:

   # frozen_string_literal: true
   
   module Resolvers
     module Geo
       class WidgetRegistriesResolver < BaseResolver
         include RegistriesResolver
       end
     end
   end
   

4. Create ee/spec/graphql/resolvers/geo/widget_registries_resolver_spec.rb:

   # frozen_string_literal: true
   
   require 'spec_helper'
   
   RSpec.describe Resolvers::Geo::WidgetRegistriesResolver do
     it_behaves_like 'a Geo registries resolver', :geo_widget_registry
   end
   

5. Create ee/app/finders/geo/widget_registry_finder.rb:

   # frozen_string_literal: true
   
   module Geo
     class WidgetRegistryFinder
       include FrameworkRegistryFinder
     end
   end
   

6. Create ee/spec/finders/geo/widget_registry_finder_spec.rb:

   # frozen_string_literal: true
   
   require 'spec_helper'
   
   RSpec.describe Geo::WidgetRegistryFinder do
     it_behaves_like 'a framework registry finder', :geo_widget_registry
   end
   

7. Create ee/app/graphql/types/geo/widget_registry_type.rb:

   # frozen_string_literal: true
   
   module Types
     module Geo
       # rubocop:disable Graphql/AuthorizeTypes because it is included
       class WidgetRegistryType < BaseObject
         include ::Types::Geo::RegistryType
   
         graphql_name 'WidgetRegistry'
         description 'Represents the Geo sync and verification state of a widget'
   
         field :widget_id, GraphQL::ID_TYPE, null: false, description: 'ID of the Widget'
       end
     end
   end
   

8. Create ee/spec/graphql/types/geo/widget_registry_type_spec.rb:

   # frozen_string_literal: true
   
   require 'spec_helper'
   
   RSpec.describe GitlabSchema.types['WidgetRegistry'] do
     it_behaves_like 'a Geo registry type'
   
     it 'has the expected fields (other than those included in RegistryType)' do
       expected_fields = %i[widget_id]
   
       expect(described_class).to have_graphql_fields(*expected_fields).at_least
     end
   end
   

9. Add integration tests for providing Widget registry data to the frontend via the GraphQL API, by duplicating and modifying the following shared examples in ee/spec/requests/api/graphql/geo/registries_spec.rb:

   it_behaves_like 'gets registries for', {
     field_name: 'widgetRegistries',
     registry_class_name: 'WidgetRegistry',
     registry_factory: :geo_widget_registry,
     registry_foreign_key_field_name: 'widgetId'
   }
   

10. Update the GraphQL reference documentation:

    bundle exec rake gitlab:graphql:compile_docs
    

Individual widget synchronization and verification data should now be available via the GraphQL API.

Make sure to replicate the "update" events. Geo Framework does not currently support replicating "update" events because all entities added to the framework, by this time, are immutable. If this is the case for the entity you're going to add, follow https://gitlab.com/gitlab-org/gitlab/-/issues/118743 and https://gitlab.com/gitlab-org/gitlab/-/issues/118745 as examples to add the new event type. Also, remove this notice when you've added it.

Admin UI

To do: This should be done as part of Geo: Implement frontend for Self-Service Framework replicables

Widget sync and verification data (aggregate and individual) should now be available in the Admin UI.

Releasing the feature

1. In ee/config/feature_flags/development/geo_widget_replication.yml, set default_enabled: true

2. In ee/app/replicators/geo/widget_replicator.rb, delete the self.replication_enabled_by_default? method:

   module Geo
     class WidgetReplicator < Gitlab::Geo::Replicator
       ...
   
       # REMOVE THIS METHOD
       def self.replication_enabled_by_default?
         false
       end
       # REMOVE THIS METHOD
   
       ...
     end
   end
   

3. In ee/app/graphql/types/geo/geo_node_type.rb, remove the feature_flag option for the released type:

   field :widget_registries, ::Types::Geo::WidgetRegistryType.connection_type,
         null: true,
         resolver: ::Resolvers::Geo::WidgetRegistriesResolver,
         description: 'Find widget registries on this Geo node',
         feature_flag: :geo_widget_replication # REMOVE THIS LINE
   

Repository Replicator Strategy

Models that refer to any repository on the disk can be easily supported by Geo with the Geo::RepositoryReplicatorStrategy module.

For example, to add support for files referenced by a Gizmos model with a gizmos table, you would perform the following steps.

Replication

1. Include Gitlab::Geo::ReplicableModel in the Gizmo class, and specify the Replicator class with_replicator Geo::GizmoReplicator.

   At this point the Gizmo class should look like this:

   # frozen_string_literal: true
   
   class Gizmo < ApplicationRecord
     include ::Gitlab::Geo::ReplicableModel
   
     with_replicator Geo::GizmoReplicator
   
     # @param primary_key_in [Range, Gizmo] arg to pass to primary_key_in scope
     # @return [ActiveRecord::Relation<Gizmo>] everything that should be synced to this node, restricted by primary key
     def self.replicables_for_current_secondary(primary_key_in)
       # Should be implemented. The idea of the method is to restrict
       # the set of synced items depending on synchronization settings
     end
   
     # Geo checks this method in FrameworkRepositorySyncService to avoid
     # snapshotting repositories using object pools
     def pool_repository
       nil
     end
     ...
   end
   

   Pay some attention to method pool_repository. Not every repository type uses repository pooling. As Geo prefers to use repository snapshotting, it can lead to data loss. Make sure to overwrite pool_repository so it returns nil for repositories that do not have pools.

   If there is a common constraint for records to be available for replication, make sure to also overwrite the available_replicables scope.

2. Create ee/app/replicators/geo/gizmo_replicator.rb. Implement the #repository method which should return a <Repository> instance, and implement the class method .model to return the Gizmo class:

   # frozen_string_literal: true
   
   module Geo
     class GizmoReplicator < Gitlab::Geo::Replicator
       include ::Geo::RepositoryReplicatorStrategy
   
       def self.model
         ::Gizmo
       end
   
       def repository
         model_record.repository
       end
   
       def self.git_access_class
         ::Gitlab::GitAccessGizmo
       end
   
       # The feature flag follows the format `geo_#{replicable_name}_replication`,
       # so here it would be `geo_gizmo_replication`
       def self.replication_enabled_by_default?
         false
       end
     end
   end
   

3. Generate the feature flag definition file by running the feature flag command and running through the steps:

   bin/feature-flag --ee geo_gizmo_replication --type development --group 'group::geo'
   

4. Make sure Geo push events are created. Usually it needs some change in the app/workers/post_receive.rb file. Example:

   def replicate_gizmo_changes(gizmo)
     if ::Gitlab::Geo.primary?
       gizmo.replicator.handle_after_update if gizmo
     end
   end
   

   See app/workers/post_receive.rb for more examples.

5. Make sure the repository removal is also handled. You may need to add something like the following in the destroy service of the repository:

   gizmo.replicator.handle_after_destroy if gizmo.repository
   

6. Add this replicator class to the method replicator_classes in ee/lib/gitlab/geo.rb:

   REPLICATOR_CLASSES = [
      ...
      ::Geo::PackageFileReplicator,
      ::Geo::GizmoReplicator
   ]
   end
   

7. Create ee/spec/replicators/geo/gizmo_replicator_spec.rb and perform the necessary setup to define the model_record variable for the shared examples:

   # frozen_string_literal: true
   
   require 'spec_helper'
   
   RSpec.describe Geo::GizmoReplicator do
     let(:model_record) { build(:gizmo) }
   
     include_examples 'a repository replicator'
   end
   

8. Create the gizmo_registry table, with columns ordered according to our guidelines so Geo secondaries can track the sync and verification state of each Gizmo. This migration belongs in ee/db/geo/migrate:

   # frozen_string_literal: true
   
   class CreateGizmoRegistry < ActiveRecord::Migration[6.0]
     include Gitlab::Database::MigrationHelpers
   
     DOWNTIME = false
   
     disable_ddl_transaction!
   
     def up
       create_table :gizmo_registry, id: :bigserial, force: :cascade do |t|
         t.datetime_with_timezone :retry_at
         t.datetime_with_timezone :last_synced_at
         t.datetime_with_timezone :created_at, null: false
         t.bigint :gizmo_id, null: false
         t.integer :state, default: 0, null: false, limit: 2
         t.integer :retry_count, default: 0, limit: 2
         t.text :last_sync_failure
         t.boolean :force_to_redownload
         t.boolean :missing_on_primary
   
         t.index :gizmo_id, name: :index_gizmo_registry_on_gizmo_id, unique: true
         t.index :retry_at
         t.index :state
        end
   
        add_text_limit :gizmo_registry, :last_sync_failure, 255
      end
   
      def down
        drop_table :gizmo_registry
      end
   end
   

9. Create ee/app/models/geo/gizmo_registry.rb:

   # frozen_string_literal: true
   
   class Geo::GizmoRegistry < Geo::BaseRegistry
     include Geo::ReplicableRegistry
   
     MODEL_CLASS = ::Gizmo
     MODEL_FOREIGN_KEY = :gizmo_id
   
     belongs_to :gizmo, class_name: 'Gizmo'
   end
   

10. Update REGISTRY_CLASSES in ee/app/workers/geo/secondary/registry_consistency_worker.rb.

11. Add gizmo_registry to ActiveSupport::Inflector.inflections in config/initializers_before_autoloader/000_inflections.rb.

12. Create ee/spec/factories/geo/gizmo_registry.rb:

    # frozen_string_literal: true
    
    FactoryBot.define do
      factory :geo_gizmo_registry, class: 'Geo::GizmoRegistry' do
        gizmo
        state { Geo::GizmoRegistry.state_value(:pending) }
    
        trait :synced do
          state { Geo::GizmoRegistry.state_value(:synced) }
          last_synced_at { 5.days.ago }
        end
    
        trait :failed do
          state { Geo::GizmoRegistry.state_value(:failed) }
          last_synced_at { 1.day.ago }
          retry_count { 2 }
          last_sync_failure { 'Random error' }
        end
    
        trait :started do
          state { Geo::GizmoRegistry.state_value(:started) }
          last_synced_at { 1.day.ago }
          retry_count { 0 }
        end
      end
    end
    

13. Create ee/spec/models/geo/gizmo_registry_spec.rb:

    # frozen_string_literal: true
    
    require 'spec_helper'
    
    RSpec.describe Geo::GizmoRegistry, :geo, type: :model do
      let_it_be(:registry) { create(:geo_gizmo_registry) }
    
      specify 'factory is valid' do
        expect(registry).to be_valid
      end
    
      include_examples 'a Geo framework registry'
    end
    

14. Make sure the newly added repository type can be accessed by a secondary. You may need to make some changes to one of the Git access classes.

    Gizmos should now be replicated by Geo.

Metrics

You need to make the same changes as for Blob Replicator Strategy. You need to make the same changes for the metrics as in the Blob Replicator Strategy.

GraphQL API

You need to make the same changes for the GraphQL API as in the Blob Replicator Strategy.

Releasing the feature

You need to make the same changes for releasing the feature as in the Blob Replicator Strategy.