14db85f506
translate_bq_error previously mapped BQ's responseTooLarge failure mode
to bq_bad_request (HTTP 400 with the raw upstream message). The user-
facing implication ('your SQL has a syntax error') is wrong -- the root
cause is query shape (BQ refused to return the result inline because
it exceeded the response size limit), and the actionable remediation is
'narrow the WHERE clause, aggregate further, or use a materialized
table'.
Add bq_response_too_large as a first-class BqAccessError kind (also 400)
with a canonical hint message; original BQ message preserved in details
for operator debugging. Detection is substring-based on 'response too
large' and fires before the generic BadRequest path so the dedicated
mapping always wins. Affects every BQ-touching path since they all
share translate_bq_error -- /api/query, /api/v2/{scan,sample,schema},
materialize.
|
||
|---|---|---|
| .github | ||
| app | ||
| cli | ||
| config | ||
| connectors | ||
| dev_docs | ||
| docs | ||
| infra | ||
| scripts | ||
| services | ||
| src | ||
| tests | ||
| .dockerignore | ||
| .gitignore | ||
| .pre-commit-config.yaml | ||
| ARCHITECTURE.md | ||
| Caddyfile | ||
| CHANGELOG.md | ||
| CLAUDE.md | ||
| docker-compose.ci.yml | ||
| docker-compose.dev.yml | ||
| docker-compose.flat-mount.yml | ||
| docker-compose.host-mount.yml | ||
| docker-compose.local-dev.yml | ||
| docker-compose.prod.yml | ||
| docker-compose.test.yml | ||
| docker-compose.tls.yml | ||
| docker-compose.yml | ||
| Dockerfile | ||
| LICENSE | ||
| Makefile | ||
| pyproject.toml | ||
| pytest.ini | ||
| README.md | ||
| uv.lock | ||
Agnes — AI Data Analyst
Agnes is an open-source data distribution platform for AI analytical systems. It extracts data from configured sources into DuckDB, serves it via a FastAPI backend, and distributes Parquet files to analysts who query them locally using Claude Code and DuckDB.
Each data source produces a self-describing extract.duckdb file. The SyncOrchestrator attaches all extract databases into a master analytics.duckdb, making every table available through a unified view layer without copying data unnecessarily.
Architecture: extract.duckdb Contract
Every connector produces the same output structure:
/data/extracts/{source_name}/
├── extract.duckdb ← _meta table + views
└── data/ ← parquet files (local sources only)
The orchestrator scans /data/extracts/*/extract.duckdb, attaches each into analytics.duckdb, and creates master views.
┌──────────────┐ ┌──────────────┐ ┌──────────────┐
│ Keboola │ │ BigQuery │ │ Jira │
│ extractor │ │ extractor │ │ webhooks │
│ (DuckDB ext) │ │ (remote BQ) │ │ (incremental)│
└──────┬───────┘ └──────┬───────┘ └──────┬───────┘
│ │ │
▼ ▼ ▼
extract.duckdb extract.duckdb extract.duckdb
+ data/*.parquet (views → BQ) + data/*.parquet
│ │ │
└─────────────────┼─────────────────┘
▼
SyncOrchestrator.rebuild()
ATTACH → master views in analytics.duckdb
│
┌──────────┼──────────┐
▼ ▼ ▼
FastAPI CLI
(serve) (agnes pull)
Supported Data Sources
| Mode | Distribution | Sources | Use when |
|---|---|---|---|
Batch pull (local) |
Parquet on disk, scheduled | Keboola | Source has a native bulk-export and the table fits on disk |
Materialized SQL (materialized) |
Parquet on disk, scheduled query | BigQuery, Keboola | Source table is too large to mirror as-is; you want a curated subset / aggregate on disk |
Remote attach (remote) |
View only, no download | BigQuery | Table is too large to materialize; latency cost of remote query is acceptable |
| Real-time push | Incremental parquet | Jira | Source is event-driven and you need sub-minute freshness |
The first three modes are what agnes pull distributes to analysts. The fourth is server-side only — analysts query Jira data through the same agnes pull-distributed parquets.
Admins manage per-source registrations through the /admin/tables UI (per-connector tabs for BigQuery / Keboola / Jira) or the agnes admin register-table CLI; per-row "Manage access" deep-links to /admin/access for granting tables to user groups via resource_grants(group, ResourceType.TABLE, table_id).
Analysts get a closed loop with Claude Code: agnes init writes <workspace>/.claude/settings.json with SessionStart (agnes pull --quiet) and SessionEnd (agnes push --quiet) hooks so every Claude Code session starts with fresh RBAC-filtered parquets and ends with the session log uploaded back.
Adding a new source means creating connectors/<name>/extractor.py that produces extract.duckdb with a _meta table (table_name, description, rows, size_bytes, extracted_at, query_mode). The orchestrator attaches it automatically.
Quick Start with Docker
# Clone the repository
git clone https://github.com/keboola/agnes-the-ai-analyst.git
cd agnes-the-ai-analyst
# Copy and edit configuration
cp config/instance.yaml.example config/instance.yaml
cp config/.env.template .env
# Edit both files for your environment
# Start the app and scheduler
docker compose up
# Start with all optional services (Telegram bot, etc.)
docker compose --profile full up
# Start with TLS (Caddy on :443 with corporate-CA certs from /data/state/certs)
docker compose -f docker-compose.yml -f docker-compose.prod.yml -f docker-compose.tls.yml \
--profile tls up -d
Once running, the FastAPI app is available at http://localhost:8000 (or https://$DOMAIN in TLS mode). See docs/DEPLOYMENT.md for cert provisioning + auto-rotation via scripts/ops/agnes-tls-rotate.sh. Trigger a manual sync:
curl -X POST http://localhost:8000/api/sync/trigger
Local sync & auto-update
Analysts run Claude Code against a local DuckDB built from RBAC-filtered parquets pulled from the server. agnes pull is the distribution path:
agnes pull # delta-pull: manifest → MD5 compare → download changed → rebuild views
agnes pull --quiet # same, no progress output (for hooks/cron)
agnes push # push session jsonl + CLAUDE.local.md back to the server
agnes init writes Claude Code lifecycle hooks into <workspace>/.claude/settings.json:
SessionStart→agnes pull --quiet— fresh data on every sessionSessionEnd→agnes push --quiet— uploads notes and session log
Hooks live at workspace level so they only fire in this analyst workspace, not in unrelated Claude Code sessions on the same machine.
Admin: which tables auto-sync to whom
The auto-sync set per analyst is the intersection of:
- Tables with
query_mode IN ('local', 'materialized')— these have parquets on disk and end up in the manifest - Tables granted to one of the analyst's groups via
resource_grants(group, ResourceType.TABLE, table_id)(seedocs/RBAC.md)
To enroll a new table for auto-sync, register it (or update its query_mode) and grant it to the relevant groups in /admin/access. New analysts get the same set on their next agnes pull.
For BigQuery, register a query_mode='materialized' table with a SQL body:
agnes admin register-table orders_90d \
--source-type bigquery \
--query-mode materialized \
--query @docs/queries/orders_90d.sql \
--schedule "every 6h"
The scheduler runs the query through the DuckDB BigQuery extension on each tick that's due, writes the result as a parquet, and the analyst picks it up on the next agnes pull. Cost guardrail: data_source.bigquery.max_bytes_per_materialize (default 10 GiB) — operations exceeding the BQ dry-run estimate are skipped.
Development Setup
# Create and activate virtual environment
python3 -m venv .venv && source .venv/bin/activate
# Install dependencies
uv pip install ".[dev]"
# Run FastAPI locally with hot reload
uvicorn app.main:app --reload
# Run the test suite
pytest tests/ -v
Project Structure
├── src/ # Core engine
│ ├── db.py # DuckDB schema (system.duckdb, analytics.duckdb)
│ ├── orchestrator.py # SyncOrchestrator — ATTACHes extract.duckdb files
│ ├── repositories/ # DuckDB-backed CRUD (sync_state, table_registry, users, etc.)
│ ├── profiler.py # Data profiling
│ └── catalog_export.py # OpenMetadata catalog export
├── app/ # FastAPI application
│ ├── main.py # App setup, router registration
│ ├── api/ # REST API (sync, data, catalog, admin, auth)
│ ├── auth/ # Auth providers (Google OAuth, email magic link, desktop JWT)
│ └── web/ # HTML dashboard routes
├── connectors/ # Data source connectors (extract.duckdb contract)
│ ├── keboola/ # Keboola: extractor.py (DuckDB extension) + client.py (fallback)
│ ├── bigquery/ # BigQuery: extractor.py (remote-only via DuckDB BQ extension)
│ └── jira/ # Jira: webhook + incremental parquet → extract.duckdb
├── cli/ # CLI tool (`agnes pull`, `agnes query`, `agnes admin`)
├── services/ # Standalone services (scheduler, telegram_bot, ws_gateway, etc.)
├── scripts/ # Utility + migration scripts
├── config/ # Configuration templates (instance.yaml.example)
├── docs/ # Documentation + metric YAML definitions
└── tests/ # Test suite (633 tests)
Configuration
| File | Purpose |
|---|---|
config/instance.yaml |
Instance-specific settings: branding, data source type, auth provider, Google domain |
.env |
Secrets and environment variables — never committed |
system.duckdb table_registry table |
Table definitions managed via POST /api/admin/register-table (or PUT /api/admin/registry/{id} to update) or the web UI |
Copy the example to get started:
cp config/instance.yaml.example config/instance.yaml
See config/instance.yaml.example for all available options.
Documentation
- Hackathon TL;DR — condensed deploy + dev playbooks (for both humans and AI agents)
- Onboarding Guide — end-to-end Terraform deployment into a GCP project (recommended for production)
- Deployment Guide — chooses between Terraform and Docker Compose; covers OSS self-host
- Configuration Reference —
instance.yaml, env vars, per-instance options - Architecture — orchestrator, extractors, DB layout
- Quickstart — local development
Contributing
- Fork the repository and create a feature branch.
- Run
pytest tests/ -vto verify all tests pass before opening a pull request. - Keep commits focused and messages concise.
- Open a pull request against
mainwith a clear description of the change.
For bugs and feature requests, open a GitHub issue.
License
This project is licensed under the MIT License.