# Borealis Engine Overview

The Engine is an additive server stack that will ultimately replace the legacy Flask app under `Data/Server`.  It is safe to run the Engine entrypoint (`Data/Engine/bootstrapper.py`) side-by-side with the legacy server while we migrate functionality feature-by-feature.

## Environment configuration

The Engine mirrors the legacy defaults so it can boot without additional configuration.  These environment variables are read by `Data/Engine/config/environment.py`:

| Variable | Purpose | Default |
| --- | --- | --- |
| `BOREALIS_ROOT` | Overrides automatic project root detection.  Useful when running from a packaged location. | Directory two levels above `Data/Engine/` |
| `BOREALIS_DATABASE_PATH` | Path to the SQLite database. | `<project_root>/database.db` |
| `BOREALIS_ENGINE_AUTO_MIGRATE` | Run Engine-managed schema migrations during bootstrap (`true`/`false`). | `true` |
| `BOREALIS_STATIC_ROOT` | Directory that serves static assets for the SPA. | First existing path among `Data/Server/web-interface/build`, `Data/Server/WebUI/build`, `Data/WebUI/build` |
| `BOREALIS_CORS_ALLOWED_ORIGINS` | Comma-delimited list of origins granted CORS access. Use `*` for all origins. | `*` |
| `BOREALIS_FLASK_SECRET_KEY` | Secret key for Flask session signing. | `change-me` |
| `BOREALIS_DEBUG` | Enables debug logging, disables secure-cookie requirements, and allows Werkzeug debug mode. | `false` |
| `BOREALIS_HOST` | Bind address for the HTTP/Socket.IO server. | `127.0.0.1` |
| `BOREALIS_PORT` | Bind port for the HTTP/Socket.IO server. | `5000` |
| `BOREALIS_REPO` | Default GitHub repository (`owner/name`) for artifact lookups. | `bunny-lab-io/Borealis` |
| `BOREALIS_REPO_BRANCH` | Default branch tracked by the Engine GitHub integration. | `main` |
| `BOREALIS_REPO_HASH_REFRESH` | Seconds between default repository head refresh attempts (clamped 30-3600). | `60` |
| `BOREALIS_CACHE_DIR` | Directory used to persist Engine cache files (GitHub repo head cache). | `<project_root>/Data/Engine/cache` |

## Logging expectations

`Data/Engine/config/logging.py` configures a timed rotating file handler that writes to `Logs/Server/engine.log`.  Each entry follows the `<timestamp>-engine-<message>` format required by the project logging policy.  The handler is attached to both the Engine logger (`borealis.engine`) and the root logger so that third-party frameworks share the same log destination.

## Bootstrapping flow

1. `Data/Engine/bootstrapper.py` loads the environment, configures logging, prepares the SQLite connection factory, optionally applies schema migrations, and builds the Flask application via `Data/Engine/server.py`.
2. A service container is assembled (`Data/Engine/services/container.py`) that wires repositories, JWT/DPoP helpers, and Engine services (device auth, token refresh, enrollment). The container is stored on the Flask app for interface modules to consume.
3. HTTP and Socket.IO interfaces register against the new service container.  The resulting runtime object exposes the Flask app, resolved settings, optional Socket.IO server, and the configured database connection factory.  `bootstrapper.main()` runs the appropriate server based on whether Socket.IO is present.

As migration continues, services, repositories, interfaces, and integrations will live under their respective subpackages while maintaining isolation from the legacy server.

## HTTP interfaces

The Engine now exposes working HTTP routes alongside the remaining scaffolding:

- `Data/Engine/interfaces/http/health.py` implements `GET /health` for liveness probes.
- `Data/Engine/interfaces/http/tokens.py` ports the refresh-token endpoint (`POST /api/agent/token/refresh`) using the Engine `TokenService` and request builders.
- `Data/Engine/interfaces/http/enrollment.py` handles the enrollment handshake (`/api/agent/enroll/request` and `/api/agent/enroll/poll`) with rate limiting, nonce protection, and repository-backed approvals.
- The admin and agent blueprints remain placeholders until their services migrate.

## WebSocket interfaces

Step 9 introduces real-time handlers backed by the new service container:

- `Data/Engine/services/realtime/agent_registry.py` manages connected-agent state, last-seen persistence, collector updates, and screenshot caches without sharing globals with the legacy server.
- `Data/Engine/interfaces/ws/agents/events.py` ports the agent namespace, handling connect/disconnect logging, heartbeat reconciliation, screenshot relays, macro status broadcasts, and provisioning lookups through the realtime service.
- `Data/Engine/interfaces/ws/job_management/events.py` now forwards scheduler updates and responds to job status requests, keeping WebSocket clients informed as new runs are simulated.

The WebSocket factory (`Data/Engine/interfaces/ws/__init__.py`) now accepts the Engine service container so namespaces can resolve dependencies just like their HTTP counterparts.

## Authentication services

Step 6 introduces the first real Engine services:

- `Data/Engine/builders/device_auth.py` normalizes headers for access-token authentication and token refresh payloads.
- `Data/Engine/builders/device_enrollment.py` prepares enrollment payloads and nonce proof challenges for future migration steps.
- `Data/Engine/services/auth/device_auth_service.py` ports the legacy `DeviceAuthManager` into a repository-driven service that emits `DeviceAuthContext` instances from the new domain layer.
- `Data/Engine/services/auth/token_service.py` issues refreshed access tokens while enforcing DPoP bindings and repository lookups.

Interfaces now consume these services via the shared container, keeping business logic inside the Engine service layer while HTTP modules remain thin request/response translators.

## SQLite repositories

Step 7 ports the first persistence adapters into the Engine:

- `Data/Engine/repositories/sqlite/device_repository.py` exposes `SQLiteDeviceRepository`, mirroring the legacy device lookups and automatic record recovery used during authentication.
- `Data/Engine/repositories/sqlite/token_repository.py` provides `SQLiteRefreshTokenRepository` for refresh-token validation, DPoP binding management, and usage timestamps.
- `Data/Engine/repositories/sqlite/enrollment_repository.py` surfaces enrollment install-code counters and device approval records so future services can operate without touching raw SQL.

Each repository accepts the shared `SQLiteConnectionFactory`, keeping all SQL execution confined to the Engine layer while services depend only on protocol interfaces.

## Job scheduling services

Step 10 migrates the foundational job scheduler into the Engine:

- `Data/Engine/builders/job_fabricator.py` transforms stored job definitions into immutable manifests, decoding scripts, resolving environment variables, and preparing execution metadata.
- `Data/Engine/repositories/sqlite/job_repository.py` encapsulates scheduled job persistence, run history, and status tracking in SQLite.
- `Data/Engine/services/jobs/scheduler_service.py` runs the background evaluation loop, emits Socket.IO lifecycle events, and exposes CRUD helpers for the HTTP and WebSocket interfaces.
- `Data/Engine/interfaces/http/job_management.py` mirrors the legacy REST surface for creating, updating, toggling, and inspecting scheduled jobs and their run history.

The scheduler service starts automatically from `Data/Engine/bootstrapper.py` once the Engine runtime builds the service container, ensuring a no-op scheduling loop executes independently of the legacy server.

## GitHub integration

Step 11 migrates the GitHub artifact provider into the Engine:

- `Data/Engine/integrations/github/artifact_provider.py` caches branch head lookups, verifies API tokens, and optionally refreshes the default repository in the background.
- `Data/Engine/repositories/sqlite/github_repository.py` persists the GitHub API token so HTTP handlers do not speak to SQLite directly.
- `Data/Engine/services/github/github_service.py` coordinates token caching, verification, and repo head lookups for both HTTP and background refresh flows.
- `Data/Engine/interfaces/http/github.py` exposes `/api/repo/current_hash` and `/api/github/token` through the Engine stack while keeping business logic in the service layer.

The service container now wires `github_service`, giving other interfaces and background jobs a clean entry point for GitHub functionality.