CLAUDE.mdpython

Bantu-Os CLAUDE.md

This file provides guidance to Claude Code (claude.ai/code) when working with code in this repository.

View Source

CLAUDE.md

This file provides guidance to Claude Code (claude.ai/code) when working with code in this repository.

KEY NOTES

  • If you run into any missing python dependency errors, try running your command with source backend/.venv/bin/activate
    to assume the python venv.
  • To make tests work, check the .env file at the root of the project to find an OpenAI key.
  • If using playwright to explore the frontend, you can usually log in with username a@test.com and password a. The app can be accessed at http://localhost:3000.
  • You should assume that all Onyx services are running. To verify, you can check the backend/log directory to make sure we see logs coming out from the relevant service.
  • To connect to the Postgres database, use: docker exec -it onyx-relational_db-1 psql -U postgres -c "<SQL>"
  • When making calls to the backend, always go through the frontend. E.g. make a call to http://localhost:3000/api/persona not http://localhost:8080/api/persona
  • Put ALL db operations under the backend/onyx/db / backend/ee/onyx/db directories. Don't run queries outside of those directories.

Project Overview

Onyx (formerly Danswer) is an open-source Gen-AI and Enterprise Search platform that connects to company documents, apps, and people. It features a modular architecture with both Community Edition (MIT licensed) and Enterprise Edition offerings.

Background Workers (Celery)

Onyx uses Celery for asynchronous task processing with multiple specialized workers:

Worker Types

  1. Primary Worker (celery_app.py)

    • Coordinates core background tasks and system-wide operations
    • Handles connector management, document sync, pruning, and periodic checks
    • Runs with 4 threads concurrency
    • Tasks: connector deletion, vespa sync, pruning, LLM model updates, user file sync

  2. Docfetching Worker (docfetching)

    • Fetches documents from external data sources (connectors)
    • Spawns docprocessing tasks for each document batch
    • Implements watchdog monitoring for stuck connectors
    • Configurable concurrency (default from env)

  3. Docprocessing Worker (docprocessing)

    • Processes fetched documents through the indexing pipeline:
      • Upserts documents to PostgreSQL
      • Chunks documents and adds contextual information
      • Embeds chunks via model server
      • Writes chunks to Vespa vector database
      • Updates document metadata
    • Configurable concurrency (default from env)

  4. Light Worker (light)

    • Handles lightweight, fast operations
    • Tasks: vespa operations, document permissions sync, external group sync
    • Higher concurrency for quick tasks

  5. Heavy Worker (heavy)

    • Handles resource-intensive operations
    • Primary task: document pruning operations
    • Runs with 4 threads concurrency

  6. KG Processing Worker (kg_processing)

    • Handles Knowledge Graph processing and clustering
    • Builds relationships between documents
    • Runs clustering algorithms
    • Configurable concurrency

  7. Monitoring Worker (monitoring)

    • System health monitoring and metrics collection
    • Monitors Celery queues, process memory, and system status
    • Single thread (monitoring doesn't need parallelism)
    • Cloud-specific monitoring tasks

  8. Beat Worker (beat)

    • Celery's scheduler for periodic tasks
    • Uses DynamicTenantScheduler for multi-tenant support
    • Schedules tasks like:
      • Indexing checks (every 15 seconds)
      • Connector deletion checks (every 20 seconds)
      • Vespa sync checks (every 20 seconds)
      • Pruning checks (every 20 seconds)
      • KG processing (every 60 seconds)
      • Monitoring tasks (every 5 minutes)
      • Cleanup tasks (hourly)

Key Features

  • Thread-based Workers: All workers use thread pools (not processes) for stability
  • Tenant Awareness: Multi-tenant support with per-tenant task isolation. There is a middleware layer that automatically finds the appropriate tenant ID when sending tasks via Celery Beat.
  • Task Prioritization: High, Medium, Low priority queues
  • Monitoring: Built-in heartbeat and liveness checking
  • Failure Handling: Automatic retry and failure recovery mechanisms
  • Redis Coordination: Inter-process communication via Redis
  • PostgreSQL State: Task state and metadata stored in PostgreSQL

Important Notes

Defining Tasks:

  • Always use @shared_task rather than @celery_app
  • Put tasks under background/celery/tasks/ or ee/background/celery/tasks

Defining APIs: When creating new FastAPI APIs, do NOT use the response_model field. Instead, just type the function.

Testing Updates: If you make any updates to a celery worker and you want to test these changes, you will need to ask me to restart the celery worker. There is no auto-restart on code-change mechanism.

Code Quality

# Install and run pre-commit hooks
pre-commit install
pre-commit run --all-files

NOTE: Always make sure everything is strictly typed (both in Python and Typescript).

Architecture Overview

Technology Stack

  • Backend: Python 3.11, FastAPI, SQLAlchemy, Alembic, Celery
  • Frontend: Next.js 15+, React 18, TypeScript, Tailwind CSS
  • Database: PostgreSQL with Redis caching
  • Search: Vespa vector database
  • Auth: OAuth2, SAML, multi-provider support
  • AI/ML: LangChain, LiteLLM, multiple embedding models

Directory Structure

backend/
├── onyx/
│   ├── auth/                    # Authentication & authorization
│   ├── chat/                    # Chat functionality & LLM interactions
│   ├── connectors/              # Data source connectors
│   ├── db/                      # Database models & operations
│   ├── document_index/          # Vespa integration
│   ├── federated_connectors/    # External search connectors
│   ├── llm/                     # LLM provider integrations
│   └── server/                  # API endpoints & routers
├── ee/                          # Enterprise Edition features
├── alembic/                     # Database migrations
└── tests/                       # Test suites

web/
├── src/app/                     # Next.js app router pages
├── src/components/              # Reusable React components
└── src/lib/                     # Utilities & business logic

Database & Migrations

Running Migrations

# Standard migrations
alembic upgrade head

# Multi-tenant (Enterprise)
alembic -n schema_private upgrade head

Creating Migrations

# Auto-generate migration
alembic revision --autogenerate -m "description"

# Multi-tenant migration
alembic -n schema_private revision --autogenerate -m "description"

Testing Strategy

There are 4 main types of tests within Onyx:

Unit Tests

These should not assume any Onyx/external services are available to be called. Interactions with the outside world should be mocked using unittest.mock. Generally, only write these for complex, isolated modules e.g. citation_processing.py.

To run them:

python -m dotenv -f .vscode/.env run -- pytest -xv backend/tests/unit

External Dependency Unit Tests

These tests assume that all external dependencies of Onyx are available and callable (e.g. Postgres, Redis, MinIO/S3, Vespa are running + OpenAI can be called + any request to the internet is fine + etc.).

However, the actual Onyx containers are not running and with these tests we call the function to test directly. We can also mock components/calls at will.

The goal with these tests are to minimize mocking while giving some flexibility to mock things that are flakey, need strictly controlled behavior, or need to have their internal behavior validated (e.g. verify a function is called with certain args, something that would be impossible with proper integration tests).

A great example of this type of test is backend/tests/external_dependency_unit/connectors/confluence/test_confluence_group_sync.py.

To run them:

python -m dotenv -f .vscode/.env run -- pytest backend/tests/external_dependency_unit

Integration Tests

Standard integration tests. Every test in backend/tests/integration runs against a real Onyx deployment. We cannot mock anything in these tests. Prefer writing integration tests (or External Dependency Unit Tests if mocking/internal verification is necessary) over any other type of test.

Tests are parallelized at a directory level.

When writing integration tests, make sure to check the root conftest.py for useful fixtures + the backend/tests/integration/common_utils directory for utilities. Prefer (if one exists), calling the appropriate Manager class in the utils over directly calling the APIs with a library like requests. Prefer using fixtures rather than calling the utilities directly (e.g. do NOT create admin users with admin_user = UserManager.create(name="admin_user"), instead use the admin_user fixture).

A great example of this type of test is backend/tests/integration/dev_apis/test_simple_chat_api.py.

To run them:

python -m dotenv -f .vscode/.env run -- pytest backend/tests/integration

Playwright (E2E) Tests

These tests are an even more complete version of the Integration Tests mentioned above. Has all services of Onyx running, including the Web Server.

Use these tests for anything that requires significant frontend <-> backend coordination.

Tests are located at web/tests/e2e. Tests are written in TypeScript.

To run them:

npx playwright test <TEST_NAME>

Logs

When (1) writing integration tests or (2) doing live tests (e.g. curl / playwright) you can get access to logs via the backend/log/<service_name>_debug.log file. All Onyx services (api_server, web_server, celery_X) will be tailing their logs to this file.

Security Considerations

  • Never commit API keys or secrets to repository
  • Use encrypted credential storage for connector credentials
  • Follow RBAC patterns for new features
  • Implement proper input validation with Pydantic models
  • Use parameterized queries to prevent SQL injection

AI/LLM Integration

  • Multiple LLM providers supported via LiteLLM
  • Configurable models per feature (chat, search, embeddings)
  • Streaming support for real-time responses
  • Token management and rate limiting
  • Custom prompts and agent actions

UI/UX Patterns

  • Tailwind CSS with design system in web/src/components/ui/
  • Radix UI and Headless UI for accessible components
  • SWR for data fetching and caching
  • Form validation with react-hook-form
  • Error handling with popup notifications

Creating a Plan

When creating a plan in the plans directory, make sure to include at least these elements:

Issues to Address What the change is meant to do.

Important Notes Things you come across in your research that are important to the implementation.

Implementation strategy How you are going to make the changes happen. High level approach.

Tests What unit (use rarely), external dependency unit, integration, and playwright tests you plan to write to verify the correct behavior. Don't overtest. Usually, a given change only needs one type of test.

Do NOT include these: Timeline, Rollback plan

This is a minimal list - feel free to include more. Do NOT write code as part of your plan. Keep it high level. You can reference certain files or functions though.

Before writing your plan, make sure to do research. Explore the relevant sections in the codebase.