- Which use cases lend themselves most to contributing to Chat?
- Set up GitLab Duo Chat
- Working with GitLab Duo Chat
- Contributing to GitLab Duo Chat
- Debugging
- Tracing with LangSmith
- Testing GitLab Duo Chat
- Testing locally
- Testing with CI
- GraphQL Subscription
- Testing GitLab Duo Chat in production-like environments
- Product Analysis
-
How
access_duo_chat
policy works - Running GitLab Duo Chat prompt experiments
- How a Chat prompt is constructed
- Interpreting GitLab Duo Chat error codes
GitLab Duo Chat
GitLab Duo Chat aims to assist users with AI in ideation and creation tasks as well as in learning tasks across the entire Software Development Lifecycle (SDLC) to make them faster and more efficient.
Chat is a part of the GitLab Duo offering.
Chat can answer different questions and perform certain tasks. It’s done with the help of prompts and tools.
To answer a user’s question asked in the Chat interface, GitLab sends a GraphQL request to the Rails backend. Rails backend sends then instructions to the Large Language Model (LLM) through the AI Gateway.
Which use cases lend themselves most to contributing to Chat?
We aim to employ the Chat for all use cases and workflows that can benefit from a conversational interaction between a user and an AI that is driven by a large language model (LLM). Typically, these are:
- Creation and ideation task as well as Learning tasks that are more effectively and more efficiently solved through iteration than through a one-shot interaction.
- Tasks that are typically satisfiable with one-shot interactions but that might need refinement or could turn into a conversation.
- Among the latter are tasks where the AI may not get it right the first time but where users can easily course correct by telling the AI more precisely what they need. For instance, “Explain this code” is a common question that most of the time would result in a satisfying answer, but sometimes the user may have additional questions.
- Tasks that benefit from the history of a conversation, so neither the user nor the AI need to repeat themselves.
Chat aims to be context aware and ultimately have access to all the resources in GitLab that the user has access to. Initially, this context was limited to the content of individual issues and epics, as well as GitLab documentation. Since then additional contexts have been added, such as code selection and code files. Currently, work is underway contributing vulnerability context and pipeline job context, so that users can ask questions about these contexts.
To scale the context awareness and hence to scale creation, ideation, and learning use cases across the entire DevSecOps domain, the Duo Chat team welcomes contributions to the Chat platform from other GitLab teams and the wider community. They are the experts for the use cases and workflows to accelerate.
Which use cases are better implemented as stand-alone AI features?
Which use cases are better implemented as stand-alone AI features, or at least also as stand-alone AI features?
- Narrowly scoped tasks that be can accelerated by deeply integrating AI into an existing workflow.
- That can’t benefit from conversations with AI.
To make this more tangible, here is an example.
Generating a commit message based on the changes is best implemented into the commit message writing workflow.
- Without AI, commit message writing may take ten seconds.
- When autopopulating an AI-generated commit message in the Commit message field in the IDE, this brings the task down to one second.
Using Chat for commit message writing would probably take longer than writing the message oneself. The user would have to switch to the Chat window, type the request and then copy the result into the commit message field.
That said, it does not mean that Chat can’t write commit messages, nor that it would be prevented from doing so. If Chat has the commit context (which may be added at some point for reasons other than commit message writing), the user can certainly ask to do anything with this commit content, including writing a commit message. But users are certainly unlikely to do that with Chat as they would only loose time. Note: the resulting commit messages may be different if created from Chat with a prompt written by the user vs. a static prompt behind a purpose-built commit message creation.
Set up GitLab Duo Chat
To set up Duo Chat locally, go through the general setup instructions for AI features.
Working with GitLab Duo Chat
Prompts are the most vital part of GitLab Duo Chat system. Prompts are the instructions sent to the LLM to perform certain tasks.
The state of the prompts is the result of weeks of iteration. If you want to change any prompt in the current tool, you must put it behind a feature flag.
If you have any new or updated prompts, ask members of Duo Chat team to review, because they have significant experience with them.
Troubleshooting
When working with Chat locally, you might run into an error. Most commons problems are documented in this section. If you find an undocumented issue, you should document it in this section after you find a solution.
Problem | Solution |
---|---|
There is no Chat button in the GitLab UI. | Make sure your user is a part of a group with Premium or Ultimate license and enabled Chat. |
Chat replies with “Forbidden by auth provider” error. | Backend can’t access LLMs. Make sure your AI Gateway is set up correctly. |
Requests take too long to appear in UI | Consider restarting Sidekiq by running gdk restart rails-background-jobs . If that doesn’t work, try gdk kill and then gdk start . Alternatively, you can bypass Sidekiq entirely. To do that temporary alter Llm::CompletionWorker.perform_async statements with Llm::CompletionWorker.perform_inline
|
There is no Chat button in GitLab UI when GDK is running on non-SaaS mode | You do not have cloud connector access token record or seat assigned. To create cloud connector access record, in rails console put following code: CloudConnector::Access.new(data: { available_services: [{ name: "duo_chat", serviceStartTime: ":date_in_the_future" }] }).save .
|
Please, see also the section on error codes where you can read about codes that Chat sends to assist troubleshooting.
Contributing to GitLab Duo Chat
From the code perspective, Chat is implemented in the similar fashion as other AI features. Read more about GitLab AI Abstraction layer.
The Chat feature uses a zero-shot agent that includes a system prompt explaining how the large language model should interpret the question and provide an answer. The system prompt defines available tools that can be used to gather information to answer the user’s question.
The zero-shot agent receives the user’s question and decides which tools to use to gather information to answer it. It then makes a request to the large language model, which decides if it can answer directly or if it needs to use one of the defined tools.
The tools each have their own prompt that provides instructions to the large language model on how to use that tool to gather information. The tools are designed to be self-sufficient and avoid multiple requests back and forth to the large language model.
After the tools have gathered the required information, it is returned to the zero-shot agent, which asks the large language model if enough information has been gathered to provide the final answer to the user’s question.
Customizing interaction with GitLab Duo Chat
You can customize user interaction with GitLab Duo Chat in several ways.
Programmatically open GitLab Duo Chat
To provide users with a more dynamic way to access GitLab Duo Chat, you can integrate functionality directly into their applications to open the GitLab Duo Chat interface. The following example shows how to open the GitLab Duo Chat drawer by using an event listener and the GitLab Duo Chat global state:
import { duoChatGlobalState } from '~/super_sidebar/constants';
myFancyToggleToOpenChat.addEventListener('click', () => {
duoChatGlobalState.isShown = true;
});
Initiating GitLab Duo Chat with a pre-defined prompt
In some scenarios, you may want to direct users towards a specific topic or query when they open GitLab Duo Chat. We have a utility function that will open DuoChat drawer and send a command in a queue for DuoChat to execute on. This should trigger the loading state and the streaming with the given prompt.
import { sendDuoChatCommand } from 'ee/ai/utils';
[...]
methods: {
openChatWithPrompt() {
sendDuoChatCommand(
{
question: '/feedback' // This is your prompt
resourceId: 'gid:://gitlab/WorkItem/1', // A unique ID to identify the action for streaming
variables: {} // Any additional graphql variables you want to pass to ee/app/assets/javascripts/ai/graphql/chat.mutation.graphql when executing the query
}
)
}
}
Note that sendDuoChatCommand
cannot be chained, meaning that you can send one command to DuoChat and have to wait until this action is done before sending a different command or the previous command might not work as expected.
This enhancement allows for a more tailored user experience by guiding the conversation in GitLab Duo Chat towards predefined areas of interest or concern.
Adding a new tool
To add a new tool you need to add changes both to AI Gateway and Rails Monolith. The main chat prompt is stored and assembled on AI Gateway. Rails side is responsible for assembling required parameters of the prompt and sending them to AI Gateway. AI Gateway is responsible for assembling Chat prompt and selecting Chat tools that are available for user based on their subscription and addon.
When LLM selects the tool to use, this tool is executed on the Rails side. Tools use different endpoint to make a request to AI Gateway. When you add a new tool, please take into account that AI Gateway works with different clients and GitLab applications that have different versions. That means that old versions of GitLab won’t know about a new tool, please contact Duo Chat team if you want to add a new tool. We’re working on long-term solution for this problem.
Changes in AI Gateway
-
Create a new class for a tool in
ai_gateway/chat/tools/gitlab.py
. This class should include next properties:-
name
of the tool - GitLab
resource
that tool works with -
description
of what the tool does -
example
of question and desired answer
-
-
Add tool to
__all__
list of tools inai_gateway/chat/tools/gitlab.py
. -
Add tool class to the
DuoChatToolsRegistry
inai_gateway/chat/toolset.py
with an appropriate Unit Primitive. -
Add test for your changes.
Changes in Rails Monolith
-
Create files for the tool in the
ee/lib/gitlab/llm/chain/tools/
folder. Use existing tools likeissue_reader
orepic_reader
as a template. -
Write a class for the tool that includes instructions for the large language model on how to use the tool to gather information - the main prompts that this tool is using.
-
Implement code in the tool to parse the response from the large language model and return it to the chat agent.
-
Add the new tool name to the
tools
array inee/lib/gitlab/llm/completions/chat.rb
so the agent knows about it.
Testing all together
Test and iterate on the prompt using RSpec tests that make real requests to the large language model.
- Prompts require trial and error, the non-deterministic nature of working with LLM can be surprising.
- Anthropic provides good guide on working on prompts.
- GitLab guide on working with prompts.
The key things to keep in mind are properly instructing the large language model through prompts and tool descriptions, keeping tools self-sufficient, and returning responses to the zero-shot agent. With some trial and error on prompts, adding new tools can expand the capabilities of the Chat feature.
There are available short videos covering this topic.
Debugging
To gather more insights about the full request, use the Gitlab::Llm::Logger
file to debug logs.
The default logging level on production is INFO
and must not be used to log any data that could contain personal identifying information.
To follow the debugging messages related to the AI requests on the abstraction layer, you can use:
export LLM_DEBUG=1
gdk start
tail -f log/llm.log
Debugging in production environment
All information related to debugging and troubleshooting in production environment is collected in the Duo Chat On-Call Runbook.
Tracing with LangSmith
Tracing is a powerful tool for understanding the behavior of your LLM application. LangSmith has best-in-class tracing capabilities, and it’s integrated with GitLab Duo Chat. Tracing can help you track down issues like:
- I’m new to GitLab Duo Chat and would like to understand what’s going on under the hood.
- Where exactly the process failed when you got an unexpected answer.
- Which process was a bottle neck of the latency.
- What tool was used for an ambiguous question.
Tracing is especially useful for evaluation that runs GitLab Duo Chat against large dataset. LangSmith integration works with any tools, including Prompt Library and RSpec tests.
Use tracing with LangSmith
- Access to LangSmith site and create an account (You can also be added to GitLab organization).
- Create an API key (be careful where you create API key - they can be created in personal namespace or in GL namespace).
-
Set the following environment variables in GDK. You can define it in
env.runit
or directlyexport
in the terminal.export LANGCHAIN_TRACING_V2=true export LANGCHAIN_API_KEY='<your-api-key>' export LANGCHAIN_PROJECT='<your-project-name>' export LANGCHAIN_ENDPOINT='https://api.smith.langchain.com' export GITLAB_RAILS_RACK_TIMEOUT=180 # Extending puma timeout for using LangSmith with Prompt Library as the evaluation tool.
Project name is the existing project in LangSmith or new one. It’s enough to put new name in the environment variable - project will be created during request.
- Restart GDK.
- Ask any question to Chat.
- Observe project in the LangSmith page > Projects > [Project name]. ‘Runs’ tab should contain your last requests.
Testing GitLab Duo Chat
Because the success of answers to user questions in GitLab Duo Chat heavily depends on toolchain and prompts of each tool, it’s common that even a minor change in a prompt or a tool impacts processing of some questions.
To make sure that a change in the toolchain doesn’t break existing functionality, you can use the following RSpec tests to validate answers to some predefined questions when using real LLMs:
-
ee/spec/lib/gitlab/llm/completions/chat_real_requests_spec.rb
This test validates that the zero-shot agent is selecting the correct tools for a set of Chat questions. It checks on the tool selection but does not evaluate the quality of the Chat response. -
ee/spec/lib/gitlab/llm/chain/agents/zero_shot/qa_evaluation_spec.rb
This test evaluates the quality of a Chat response by passing the question asked along with the Chat-provided answer and context to at least two other LLMs for evaluation. This evaluation is limited to questions about issues and epics only. Learn more about the GitLab Duo Chat QA Evaluation Test.
If you are working on any changes to the GitLab Duo Chat logic, be sure to run the GitLab Duo Chat CI jobs the merge request that contains your changes. Some of the CI jobs must be manually triggered.
Testing locally
To run the QA Evaluation test locally, the following environment variables must be exported:
ANTHROPIC_API_KEY='your-key' VERTEX_AI_PROJECT='your-project-id' REAL_AI_REQUEST=1 bundle exec rspec ee/spec/lib/gitlab/llm/completions/chat_real_requests_spec.rb
Testing with CI
The following CI jobs for GitLab project run the tests tagged with real_ai_request
:
-
rspec-ee unit gitlab-duo-chat-zeroshot
: the job runsee/spec/lib/gitlab/llm/completions/chat_real_requests_spec.rb
. The job must be manually triggered and is allowed to fail. -
rspec-ee unit gitlab-duo-chat-qa
: The job runs the QA evaluation tests inee/spec/lib/gitlab/llm/chain/agents/zero_shot/qa_evaluation_spec.rb
. The job must be manually triggered and is allowed to fail. Read about GitLab Duo Chat QA Evaluation Test. -
rspec-ee unit gitlab-duo-chat-qa-fast
: The job runs a single QA evaluation test fromee/spec/lib/gitlab/llm/chain/agents/zero_shot/qa_evaluation_spec.rb
. The job is always run and not allowed to fail. Although there’s a chance that the QA test still might fail, it is cheap and fast to run and intended to prevent a regression in the QA test helpers. -
rspec-ee unit gitlab-duo pg14
: This job runs tests to ensure that the GitLab Duo features are functional without running into system errors. The job is always run and not allowed to fail. This job does NOT conduct evaluations. The quality of the feature is tested in the other jobs such as QA jobs.
Management of credentials and API keys for CI jobs
All API keys required to run the rspecs should be masked
The exception is GCP credentials as they contain characters that prevent them from being masked. Because the CI jobs need to run on MR branches, GCP credentials cannot be added as a protected variable and must be added as a regular CI variable. For security, the GCP credentials and the associated project added to GitLab project’s CI must not be able to access any production infrastructure and sandboxed.
GitLab Duo Chat QA Evaluation Test
Evaluation of a natural language generation (NLG) system such as GitLab Duo Chat is a rapidly evolving area with many unanswered questions and ambiguities.
A practical working assumption is LLMs can generate a reasonable answer when given a clear question and a context. With the assumption, we are exploring using LLMs as evaluators to determine the correctness of a sample of questions to track the overall accuracy of GitLab Duo Chat’s responses and detect regressions in the feature.
For the discussions related to the topic, see the merge request and the issue.
The current QA evaluation test consists of the following components.
Epic and issue fixtures
The fixtures are the replicas of the public issues and epics from projects and groups owned by GitLab.
The internal notes were excluded when they were sampled. The fixtures have been commited into the canonical gitlab
repository.
See the snippet used to create the fixtures.
RSpec and helpers
-
The RSpec file and the included helpers invoke the Chat service, an internal interface with the question.
-
After collecting the Chat service’s answer, the answer is injected into a prompt, also known as an “evaluation prompt”, that instructs a LLM to grade the correctness of the answer based on the question and a context. The context is simply a JSON serialization of the issue or epic being asked about in each question.
-
The evaluation prompt is sent to two LLMs, Claude and Vertex.
-
The evaluation responses of the LLMs are saved as JSON files.
-
For each question, RSpec will regex-match for
CORRECT
orINCORRECT
.
Collection and tracking of QA evaluation with CI/CD automation
The gitlab
project’s CI configurations have been setup to run the RSpec,
collect the evaluation response as artifacts and execute
a reporter script
that automates collection and tracking of evaluations.
When rspec-ee unit gitlab-duo-chat-qa
job runs in a pipeline for a merge request,
the reporter script uses the evaluations saved as CI artifacts
to generate a Markdown report and posts it as a note in the merge request.
To keep track of and compare QA test results over time, you must manually
run the rspec-ee unit gitlab-duo-chat-qa
on the master
the branch:
- Visit the new pipeline page.
- Select “Run pipeline” to run a pipeline against the
master
branch - When the pipeline first starts, the
rspec-ee unit gitlab-duo-chat-qa
job under the “Test” stage will not be available. Wait a few minutes for other CI jobs to run and then manually kick off this job by selecting the “Play” icon.
When the test runs on master
, the reporter script posts the generated report as an issue,
saves the evaluations artifacts as a snippet, and updates the tracking issue in
GitLab-org/ai-powered/ai-framework/qa-evaluation#1
in the project GitLab-org/ai-powered/ai-framework/qa-evaluation
.
GitLab Duo Chat Self-managed End-to-End Tests
In MRs, the end-to-end tests exercise the Duo Chat functionality of self-managed instances by using an instance of the GitLab Linux package
integrated with the latest
version of AI Gateway. The instance of AI Gateway is configured to return mock responses.
To view the results of these tests, open the e2e:test-on-omnibus-ee
child pipeline and view the ai-gateway
job.
The ai-gateway
job activates a cloud license and then assigns a Duo Pro seat to a test user, before the tests are run.
For further information, please refer to the GitLab QA documentation
GraphQL Subscription
The GraphQL Subscription for Chat behaves slightly different because it’s user-centric. A user could have Chat open on multiple browser tabs, or also on their IDE.
We therefore need to broadcast messages to multiple clients to keep them in sync. The aiAction
mutation with the chat
action behaves the following:
- All complete Chat messages (including messages from the user) are broadcasted with the
userId
,aiAction: "chat"
as identifier. - Chunks from streamed Chat messages are broadcasted with the
clientSubscriptionId
from the mutation as identifier.
Examples of GraphQL Subscriptions in a Vue component:
-
Complete Chat message
import aiResponseSubscription from 'ee/graphql_shared/subscriptions/ai_completion_response.subscription.graphql'; [...] apollo: { $subscribe: { aiCompletionResponse: { query: aiResponseSubscription, variables() { return { userId, // for example "gid://gitlab/User/1" aiAction: 'CHAT', }; }, result({ data }) { // handle data.aiCompletionResponse }, error(err) { // handle error }, }, },
-
Streamed Chat message
import aiResponseSubscription from 'ee/graphql_shared/subscriptions/ai_completion_response.subscription.graphql'; [...] apollo: { $subscribe: { aiCompletionResponseStream: { query: aiResponseSubscription, variables() { return { aiAction: 'CHAT', userId, // for example "gid://gitlab/User/1" clientSubscriptionId // randomly generated identifier for every message htmlResponse: false, // important to bypass HTML processing on every chunk }; }, result({ data }) { // handle data.aiCompletionResponse }, error(err) { // handle error }, }, },
Please keep in mind that the clientSubscriptionId must be unique for every request. Reusing a clientSubscriptionId will cause several unwanted side effects in the subscription responses.
Duo Chat GraphQL queries
- Set up GitLab Duo Chat
- Visit GraphQL explorer.
-
Execute the
aiAction
mutation. Here is an example:mutation { aiAction( input: { chat: { resourceId: "gid://gitlab/User/1", content: "Hello" } } ){ requestId errors } }
-
Execute the following query to fetch the response:
query { aiMessages { nodes { requestId content role timestamp chunkId errors } } }
If you can’t fetch the response, check graphql_json.log
,
sidekiq_json.log
, llm.log
or modelgateway_debug.log
if it contains error
information.
Testing GitLab Duo Chat in production-like environments
GitLab Duo Chat is enabled in the Staging and Staging Ref GitLab environments.
Because GitLab Duo Chat is currently only available to members of groups in the Premium and Ultimate tiers, Staging Ref may be an easier place to test changes as a GitLab team member because you can make yourself an instance Admin in Staging Ref and, as an Admin, easily create licensed groups for testing.
GitLab Duo Chat End-to-End Tests in live environments
Duo Chat end-to-end tests run continuously against Staging and Production GitLab environments.
These tests run in scheduled pipelines and ensure the end-to-end user experiences are functioning correctly.
Results can be viewed in the #e2e-run-staging
and #e2e-run-production
Slack channels. The pipelines can be found below, access can be requested in #test-platform
:
Product Analysis
To better understand how the feature is used, each production user input message is analyzed using LLM and Ruby, and the analysis is tracked as a Snowplow event.
The analysis can contain any of the attributes defined in the latest iglu schema.
- All possible “category” and “detailed_category” are listed here.
- The following is yet to be implemented:
- “is_proper_sentence”
- The following are deprecated:
- “number_of_questions_in_history”
- “length_of_questions_in_history”
- “time_since_first_question”
Dashboards can be created to visualize the collected data.
How access_duo_chat
policy works
This table describes the requirements for the access_duo_chat
policy to
return true
in different contexts.
GitLab.com | Dedicated or Self-managed | All instances | |
---|---|---|---|
for user outside of project or group (user.can?(:access_duo_chat) )
|
User need to belong to at least one group on Premium or Ultimate tier with duo_features_enabled group setting switched on
|
- Instance needs to be on Premium or Ultimate tier - Instance needs to have duo_features_enabled setting switched on
|
|
for user in group context (user.can?(:access_duo_chat, group) )
|
- User needs to belong to at least one group on Premium or Ultimate tier with experiment_and_beta_features group setting switched on- Root ancestor group of the group needs to be on Premium or Ultimate tier and the group must have duo_features_enabled setting switched on
|
- Instance needs to be on Premium or Ultimate tier - Instance needs to have duo_features_enabled setting switched on
|
User must have at least read permissions on the group |
for user in project context (user.can?(:access_duo_chat, project) )
|
- User needs to belong to at least one group on the Premium or Ultimate tier with experiment_and_beta_features group setting enabled- Project root ancestor group needs to be on Premium or Ultimate tier and project must have duo_features_enabled setting switched on
|
- Instance need to be on Ultimate tier - Instance needs to have duo_features_enabled setting switched on
|
User must to have at least read permission on the project |
Running GitLab Duo Chat prompt experiments
Before being merged, all prompt or model changes for GitLab Duo Chat should both:
- Be behind a feature flag and
- Be evaluated locally
The type of local evaluation needed depends on the type of change. GitLab Duo Chat local evaluation using the Prompt Library is an effective way of measuring average correctness of responses to questions about issues and epics.
Follow the Prompt Library guide to evaluate GitLab Duo Chat changes locally. The prompt library documentation is the single source of truth and should be the most up-to-date.
Please, see the video (internal link) that covers the full setup.
Issue and epic experiments
If you would like to use the evaluation framework (as described here) you can import the required groups and projects using this Rake task:
GITLAB_SIMULATE_SAAS=1 bundle exec 'rake gitlab:duo:setup_evaluation[<test-group-name>]'
Since we use the Setup
class (under ee/lib/gitlab/duo/developments/setup.rb
)
that requires “saas” mode to create a group (necessary for importing subgroups),
you need to set GITLAB_SIMULATE_SAAS=1
. This is just to complete the import
successfully, and then you can switch back to GITLAB_SIMULATE_SAAS=0
if
desired.
How a Chat prompt is constructed
All Chat requests are resolved with the GitLab GraphQL API. And, for now, prompts for 3rd party LLMs are hard-coded into the GitLab codebase.
But if you want to make a change to a Chat prompt, it isn’t as obvious as finding the string in a single file. Chat prompt construction is hard to follow because the prompt is put together over the course of many steps. Here is the flow of how we construct a Chat prompt:
- API request is made to the GraphQL AI Mutation; request contains user Chat input. (code)
- GraphQL mutation calls
Llm::ExecuteMethodService#execute
(code) -
Llm::ExecuteMethodService#execute
sees that thechat
method was sent to the GraphQL API and callsLlm::ChatService#execute
(code) -
Llm::ChatService#execute
callsschedule_completion_worker
, which is defined inLlm::BaseService
(the base class forChatService
) (code) -
schedule_completion_worker
callsLlm::CompletionWorker.perform_for
, which asynchronously enqueues the job (code) -
Llm::CompletionWorker#perform
is called when the job runs. It deserializes the user input and other message context and passes that over toLlm::Internal::CompletionService#execute
(code) -
Llm::Internal::CompletionService#execute
callsGitlab::Llm::CompletionsFactory#completion!
, which pulls theai_action
from original GraphQL request and initializes a new instance ofGitlab::Llm::Completions::Chat
and callsexecute
on it (code) -
Gitlab::Llm::Completions::Chat#execute
callsGitlab::Llm::Chain::Agents::SingleActionExecutor
. (code) -
Gitlab::Llm::Chain::Agents::SingleActionExecutor#execute
callsexecute_streamed_request
, which callsrequest
, a method defined in theAiDependent
concern (code) - The
SingleActionExecutor#prompt_options
method assembles all prompt parameters for the AI Gateway request (code) -
ai_request
is defined inLlm::Completions::Chat
and evaluates toAiGateway
(code) -
ai_request.request
routes toLlm::Chain::Requests::AiGateway#request
, which callsai_client.stream
(code) -
ai_client.stream
routes toGitlab::Llm::AiGateway::Client#stream
, which makes an API request to the AI Gateway/v2/chat/agent
endpoint (code) - AI Gateway receives the request (code)
- AI Gateway gets the list of tools available for user (code)
- AI GW gets definitions for each tool (code)
- And they are inserted into prompt template alongside other prompt parameters that come from Rails (code)
- AI Gateway makes request to LLM and return response to Rails. (code)
- We’ve now made our first request to the AI Gateway. If the LLM says that the answer to the first request is a final answer, we parse the answer and stream it (code) and return it (code)
- If the first answer is not final, the “thoughts” and “picked tools” from the first LLM request are parsed and then the relevant tool class is called. (code)
- The tool executor classes also include
Concerns::AiDependent
and use the includedrequest
method similar to how the chat executor does (example). Therequest
method uses the sameai_request
instance that was injected into thecontext
inLlm::Completions::Chat
. For Chat, this isGitlab::Llm::Chain::Requests::AiGateway
. So, essentially the same request to the AI Gateway is put together but with a differentprompt
/PROMPT_TEMPLATE
than for the first request (Example tool prompt template) - If the tool answer is not final, the response is added to
agent_scratchpad
and the loop inSingleActionExecutor
starts again, adding the additional context to the request. It loops to up to 10 times until a final answer is reached.
Interpreting GitLab Duo Chat error codes
GitLab Duo Chat has error codes with specified meanings to assist in debugging.
See the GitLab Duo Chat troubleshooting documentation for a list of all GitLab Duo Chat error codes.
When developing for GitLab Duo Chat, please include these error codes when returning an error and document them, especially for user-facing errors.
Error Code Format
The error codes follow the format: <Layer Identifier><Four-digit Series Number>
.
For example:
-
M1001
: A network communication error in the monolith layer. -
G2005
: A data formatting/processing error in the AI gateway layer. -
A3010
: An authentication or data access permissions error in a third-party API.
Error Code Layer Identifier
Code | Layer |
---|---|
M | Monolith |
G | AI Gateway |
A | Third-party API |
Error Series
Series | Type |
---|---|
1000 | Network communication errors |
2000 | Data formatting/processing errors |
3000 | Authentication and/or data access permission errors |
4000 | Code execution exceptions |
5000 | Bad configuration or bad parameters errors |
6000 | Semantic or inference errors (the model does not understand or hallucinates) |