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AI features based on 3rd-party integrations
Introduced in GitLab 15.11.
Features
- Async execution of the long running API requests
- GraphQL Action starts the request
- Background workers execute
- GraphQL subscriptions deliver results back in real time
- Abstraction for
- OpenAI
- Google Vertex AI
- Rate Limiting
- Circuit Breaker
- Multi-Level feature flags
- License checks on group level
- Snowplow execution tracking
- Tracking of Token Spent on Prometheus
- Configuration for Moderation check of inputs
- Automatic Markdown Rendering of responses
- Centralised Group Level settings for experiment and 3rd party
- Experimental API endpoints for exploration of AI API’s by GitLab team members without the need for credentials
- OpenAI
- Google Vertex AI
Feature flags
Apply the following two feature flags to any AI feature work:
- A general that applies to all AI features.
- A flag specific to that feature. The feature flag name must be different than the licensed feature name.
See the feature flag tracker for the list of all feature flags and how to use them.
Implement a new AI action
To implement a new AI action, connect to the OpenAI API. You can connect to this API using either the:
- Experimental REST API.
- Abstraction layer.
All AI features are experimental.
Test AI features locally
-
Enable the required general feature flags:
Feature.enable(:ai_related_settings) Feature.enable(:openai_experimentation) Feature.enable(:tofa_experimentation_main_flag) Feature.enable(:anthropic_experimentation)
-
Simulate the GDK to simulate SaaS and ensure the group you want to test has an Ultimate license
-
Enable
Experimental features
andThird-party AI services
- Go to the group with the Ultimate license
- Group Settings > General -> Permissions and group features
- Enable Experiment features
- Enable Third-party AI services
-
Enable the specific feature flag for the feature you want to test
-
Set either the required access token
OpenAi
orVertex
. Ask in#ai_enablement_team
to receive an access token.
Set up the embedding database
For features that use the embedding database, additional setup is needed.
-
Enable pgvector in GDK
-
Enable the embedding database in GDK
gdk config set gitlab.rails.databases.embedding.enabled true
-
Run
gdk reconfigure
-
Run database migrations to create the embedding database
Setup for GitLab chat
To populate the embedding database for GitLab chat:
- Open a rails console
- Run this script to populate the embedding database
Configure GCP Vertex access
In order to obtain a GCP service key for local development, please follow the steps below:
- Create a sandbox GCP environment by visiting this page and following the instructions
- In the GCP console, go to
IAM & Admin
>Service Accounts
and click on the "Create new service account" button - Name the service account something specific to what you're using it for. Select Create and Continue. Under
Grant this service account access to project
, select the roleVertex AI User
. SelectContinue
thenDone
- Select your new service account and
Manage keys
>Add Key
>Create new key
. This will download the private JSON credentials for your service account. Your full settings should then be:
Gitlab::CurrentSettings.update(tofa_credentials: File.read('/YOUR_FILE.json'))
# Note: These credential examples will not work locally for all models
Gitlab::CurrentSettings.update(tofa_host: "<root-domain>") # Example: us-central1-aiplatform.googleapis.com
Gitlab::CurrentSettings.update(tofa_url: "<full-api-endpoint>") # Example: https://ROOT-DOMAIN/v1/projects/MY-COOL-PROJECT/locations/us-central1/publishers/google/models/MY-SPECIAL-MODEL:predict
Internal team members can use this snippet for help configuring these endpoints.
Configure OpenAI access
Gitlab::CurrentSettings.update(openai_api_key: "<open-ai-key>")
Configure Anthropic access
Feature.enable(:anthropic_experimentation)
Gitlab::CurrentSettings.update!(anthropic_api_key: <insert API key>)
Experimental REST API
Use the experimental REST API endpoints to quickly experiment and prototype AI features.
The endpoints are:
https://gitlab.example.com/api/v4/ai/experimentation/openai/completions
https://gitlab.example.com/api/v4/ai/experimentation/openai/embeddings
https://gitlab.example.com/api/v4/ai/experimentation/openai/chat/completions
https://gitlab.example.com/api/v4/ai/experimentation/anthropic/complete
https://gitlab.example.com/api/v4/ai/experimentation/tofa/chat
These endpoints are only for prototyping, not for rolling features out to customers. The experimental endpoint is only available to GitLab team members on production. Use the GitLab API token to authenticate.
Abstraction layer
GraphQL API
To connect to the OpenAI API using the Abstraction Layer, use an extendable GraphQL API called
aiAction
.
The input
accepts key/value pairs, where the key
is the action that needs to be performed.
We only allow one AI action per mutation request.
Example of a mutation:
mutation {
aiAction(input: {summarizeComments: {resourceId: "gid://gitlab/Issue/52"}}) {
clientMutationId
}
}
As an example, assume we want to build an "explain code" action. To do this, we extend the input
with a new key,
explainCode
. The mutation would look like this:
mutation {
aiAction(input: {explainCode: {resourceId: "gid://gitlab/MergeRequest/52", code: "foo() { console.log()" }}) {
clientMutationId
}
}
The GraphQL API then uses the OpenAI Client to send the response.
How to receive a response
As the OpenAI API requests are handled in a background job, we do not keep the request alive and
the response is sent through the aiCompletionResponse
subscription:
subscription aiCompletionResponse($userId: UserID, $resourceId: AiModelID!) {
aiCompletionResponse(userId: $userId, resourceId: $resourceId) {
responseBody
errors
}
}
WARNING:
You should only subscribe to the subscription once the mutation is sent. If multiple subscriptions are active on the same page, they currently all receive updates as our identifier is the user and the resource. To mitigate this, you should only subscribe when the mutation is sent. You can use [skip()
](You can use skip()
) for this case. To prevent this problem in the future, we implement a request identifier.
Current abstraction layer flow
flowchart TD
A[GitLab frontend] -->B[AiAction GraphQL mutation]
B --> C[Llm::ExecuteMethodService]
C --> D[One of services, for example: Llm::GenerateSummaryService]
D -->|scheduled| E[AI worker:Llm::CompletionWorker]
E -->F[::Gitlab::Llm::Completions::Factory]
F -->G[`::Gitlab::Llm::OpenAi::Completions::...` class using `::Gitlab::Llm::OpenAi::Templates::...` class]
G -->|calling| H[Gitlab::Llm::OpenAi::Client]
H --> |response| I[::Gitlab::Llm::OpenAi::ResponseService]
I --> J[GraphqlTriggers.ai_completion_response]
J --> K[::GitlabSchema.subscriptions.trigger]
CircuitBreaker
The CircuitBreaker concern is a reusable module that you can include in any class that needs to run code with circuit breaker protection. The concern provides a run_with_circuit
method that wraps a code block with circuit breaker functionality, which helps prevent cascading failures and improves system resilience. For more information about the circuit breaker pattern, see:
Use CircuitBreaker
To use the CircuitBreaker concern, you need to include it in a class. For example:
class MyService
include Gitlab::Llm::Concerns::CircuitBreaker
def call_external_service
run_with_circuit do
# Code that interacts with external service goes here
raise InternalServerError
end
end
end
The call_external_service
method is an example method that interacts with an external service.
By wrapping the code that interacts with the external service with run_with_circuit
, the method is executed within the circuit breaker.
The circuit breaker is created and configured by the circuit
method, which is called automatically when the CircuitBreaker
module is included.
The method should raise InternalServerError
error which will be counted towards the error threshold if raised during the execution of the code block.
The circuit breaker tracks the number of errors and the rate of requests, and opens the circuit if it reaches the configured error threshold or volume threshold. If the circuit is open, subsequent requests fail fast without executing the code block, and the circuit breaker periodically allows a small number of requests through to test the service's availability before closing the circuit again.
Configuration
The circuit breaker is configured with two constants which control the number of errors and requests at which the circuit will open:
ERROR_THRESHOLD
VOLUME_THRESHOLD
You can adjust these values as needed for the specific service and usage pattern.
The InternalServerError
is the exception class counted towards the error threshold if raised during the execution of the code block.
This is the exception class that triggers the circuit breaker when raised by the code that interacts with the external service.
NOTE:
The CircuitBreaker
module depends on the Circuitbox
gem to provide the circuit breaker implementation. By default, the service name is inferred from the class name where the concern module is included. Override the service_name
method if the name needs to be different.
Testing
To test code that uses the CircuitBreaker
concern, you can use RSpec
shared examples and pass the service
and subject
variables:
it_behaves_like 'has circuit breaker' do
let(:service) { dummy_class.new }
let(:subject) { service.dummy_method }
end
How to implement a new action
Register a new method
Go to the Llm::ExecuteMethodService
and add a new method with the new service class you will create.
class ExecuteMethodService < BaseService
METHODS = {
# ...
amazing_new_ai_feature: Llm::AmazingNewAiFeatureService
}.freeze
Create a Service
- Create a new service under
ee/app/services/llm/
and inherit it from theBaseService
. - The
resource
is the object we want to act on. It can be any object that includes theAi::Model
concern. For example it could be aProject
,MergeRequest
, orIssue
.
# ee/app/services/llm/amazing_new_ai_feature_service.rb
module Llm
class AmazingNewAiFeatureService < BaseService
private
def perform
::Llm::CompletionWorker.perform_async(user.id, resource.id, resource.class.name, :amazing_new_ai_feature)
success
end
def valid?
super && Ability.allowed?(user, :amazing_new_ai_feature, resource)
end
end
end
Authorization
We recommend to use policies to deal with authorization for a feature. Currently we need to make sure to cover the following checks:
- General AI feature flag is enabled
- Feature specific feature flag is enabled
- The namespace has the required license for the feature
- User is a member of the group/project
- Resource is allowed to be sent (see
send_to_ai?
method) experiment_features_enabled
andthird_party_ai_features_enabled
flags are set on theNamespace
For our example, we need to implement the allowed?(:amazing_new_ai_feature)
call. As an example, you can look at the Issue Policy for the summarize comments feature. In our example case, we want to implement the feature for Issues as well:
# ee/app/policies/ee/issue_policy.rb
module EE
module IssuePolicy
extend ActiveSupport::Concern
prepended do
with_scope :subject
condition(:ai_available) do
::Feature.enabled?(:openai_experimentation) &&
@subject.send_to_ai?
end
with_scope :subject
condition(:amazing_new_ai_feature_enabled) do
::Feature.enabled?(:amazing_new_ai_feature, subject_container) &&
subject_container.licensed_feature_available?(:amazing_new_ai_feature)
end
rule do
ai_available & amazing_new_ai_feature_enabled & is_project_member
end.enable :amazing_new_ai_feature
end
end
end
Implement send_to_ai?
To make sure we only send data that is allowed to be sent, we have the send_to_ai?
method. It checks if the resource is not confidential and public data.
Some resources already implement send_to_ai?
. Make sure yours does as well. In our case, Issue
is already covered with the Issuable
concern. This is an example how it could look like:
# ee/app/models/concerns/ee
def send_to_ai?
!try(:confidential) && resource_parent.public?
end
Check if feature is allowed for this resource based on namespace settings
There are two settings allowed on root namespace level that restrict the use of AI features:
experiment_features_enabled
third_party_ai_features_enabled
.
To check if that feature is allowed for a given namespace, call:
Gitlab::Llm::StageCheck.available?(namespace, :name_of_the_feature)
Add the name of the feature to the Gitlab::Llm::StageCheck
class. There are arrays there that differentiate
between experimental and beta features.
This way we are ready for the following different cases:
- If the feature is not in any array, the check will return
true
. For example, the feature was moved to GA and does not use a third-party setting. - If feature is in GA, but uses a third-party setting, the class will return a proper answer based on the namespace third-party setting.
To move the feature from the experimental phase to the beta phase, move the name of the feature from the EXPERIMENTAL_FEATURES
array to the BETA_FEATURES
array.
Implement calls to AI APIs and the prompts
The CompletionWorker
will call the Completions::Factory
which will initialize the Service and execute the actual call to the API.
In our example, we will use OpenAI and implement two new classes:
# /ee/lib/gitlab/llm/open_ai/completions/amazing_new_ai_feature.rb
module Gitlab
module Llm
module OpenAi
module Completions
class AmazingNewAiFeature
def initialize(ai_prompt_class)
@ai_prompt_class = ai_prompt_class
end
def execute(user, issue, options)
options = ai_prompt_class.get_options(options[:messages])
ai_response = Gitlab::Llm::OpenAi::Client.new(user).chat(content: nil, **options)
::Gitlab::Llm::OpenAi::ResponseService.new(user, issue, ai_response, options: {}).execute(
Gitlab::Llm::OpenAi::ResponseModifiers::Chat.new
)
end
private
attr_reader :ai_prompt_class
end
end
end
end
end
# /ee/lib/gitlab/llm/open_ai/templates/amazing_new_ai_feature.rb
module Gitlab
module Llm
module OpenAi
module Templates
class AmazingNewAiFeature
TEMPERATURE = 0.3
def self.get_options(messages)
system_content = <<-TEMPLATE
You are an assistant that writes code for the following input:
"""
TEMPLATE
{
messages: [
{ role: "system", content: system_content },
{ role: "user", content: messages },
],
temperature: TEMPERATURE
}
end
end
end
end
end
end
Add Ai Action to GraphQL
TODO
Security
Refer to the secure coding guidelines for Artificial Intelligence (AI) features.