"""Application startup helpers. This module contains shared startup logic extracted from ``app.main`` so that initialisation is easier to reason about and unit test. The lifespan handler in ``app.main`` delegates resource creation and task registration here. The startup process is orchestrated by StartupDAG, which ensures all resources are initialized in the correct order with explicit dependency tracking, and cleanly rolls back on failure. Startup Stages (in order): 1. WORKER_MODE: Verify single-worker mode (no multi-worker scheduler conflicts) 2. DATABASE: Initialize database schema and cache setup completion state 3. GEO_CACHE: Load and configure IP geolocation cache 4. HTTP_SESSION: Create shared aiohttp session with timeouts 5. SCHEDULER: Create APScheduler instance and register background tasks 6. TASKS: Verify all tasks are registered See StartupDAG in app.startup_dag for full dependency graph and rollback logic. """ from __future__ import annotations import os from pathlib import Path from typing import TYPE_CHECKING, Any import aiohttp import structlog from apscheduler.schedulers.asyncio import AsyncIOScheduler # type: ignore[import-untyped] from app.db import init_db, open_db from app.services import setup_service from app.services.dns_validated_connector import create_dns_validated_socket_factory from app.services.geo_cache import GeoCache from app.startup_dag import StartupDAG, StartupStage from app.tasks import ( blocklist_import, geo_cache_cleanup, geo_cache_flush, geo_re_resolve, health_check, history_sync, rate_limiter_cleanup, scheduler_lock_heartbeat, session_cleanup, ) from app.utils.async_utils import run_blocking from app.utils.fail2ban_db_utils import ensure_fail2ban_indexes from app.utils.jail_config import ensure_jail_configs from app.utils.runtime_state import set_runtime_settings from app.utils.scheduler_lock import ( acquire_scheduler_lock, ) from app.utils.setup_state import set_setup_complete_cache if TYPE_CHECKING: from fastapi import FastAPI from app.config import Settings log: structlog.stdlib.BoundLogger = structlog.get_logger() def _check_single_worker_mode() -> None: """Fast check: verify BANGUI_WORKERS environment variable if set. This is the first-line guard: if BANGUI_WORKERS is explicitly set to a value > 1, reject immediately without requiring database access. This catches obvious misconfiguration early. The authoritative check is the database-backed lock acquired in _stage_check_worker_mode_and_acquire_lock(), which handles the general case where multiple instances start without proper environment setup. Raises: RuntimeError: If BANGUI_WORKERS is explicitly set to > 1. """ workers_env = os.environ.get("BANGUI_WORKERS") if workers_env is not None: try: worker_count = int(workers_env) if worker_count > 1: raise RuntimeError( "BanGUI background scheduler cannot run with multiple workers.\n" f"BANGUI_WORKERS is set to {worker_count}. Set it to 1 or remove it.\n" "\n" "Why this matters:\n" " - Session cache is process-local; users may be randomly logged out\n" " - Background jobs (blocklist imports, history sync) would run N times\n" " - Database lock contention will cause timeouts\n" "\n" "To fix:\n" " 1. Remove BANGUI_WORKERS=N from your environment\n" " 2. Don't pass --workers to uvicorn or -w to gunicorn\n" " 3. Deploy as a single process (use container orchestration for HA)\n" "\n" "See Docs/Architekture.md § Deployment Constraints for details." ) except ValueError as e: raise RuntimeError( f"BANGUI_WORKERS environment variable must be an integer, got: {workers_env}" ) from e async def _ensure_database_schema(database_path: str) -> None: """Create the configured runtime database if it does not already exist.""" db = await open_db(database_path) try: await init_db(db) finally: await db.close() def _create_http_session(settings: Settings) -> aiohttp.ClientSession: """Build a shared aiohttp session with DNS-rebinding protection and reasonable limits. Uses a custom socket factory that validates all resolved IPs at connection time, preventing DNS-rebinding attacks where a blocklist URL initially resolves to a public IP but later resolves to a private IP during the actual connection. """ timeout = aiohttp.ClientTimeout( total=settings.http_request_timeout_seconds, connect=settings.http_connect_timeout_seconds, sock_read=settings.http_request_timeout_seconds, ) connector = aiohttp.TCPConnector( limit=settings.http_max_connections, limit_per_host=settings.http_max_connections, keepalive_timeout=settings.http_keepalive_timeout_seconds, enable_cleanup_closed=True, socket_factory=create_dns_validated_socket_factory(), ) return aiohttp.ClientSession(timeout=timeout, connector=connector) async def startup_shared_resources( app: FastAPI, settings: Settings, ) -> tuple[aiohttp.ClientSession, AsyncIOScheduler, Any]: """Create shared resources needed during the application lifespan. This function orchestrates the entire startup sequence through a StartupDAG, ensuring all resources are initialized in the correct order with explicit dependency tracking. If any stage fails, all completed resources are cleanly rolled back. The startup stages are: 1. DATABASE: Initialize database and load setup state 2. WORKER_MODE: Validate single-worker configuration and acquire scheduler lock 3. GEO_CACHE: Load IP geolocation cache 4. HTTP_SESSION: Create shared aiohttp session 5. SCHEDULER: Create and start APScheduler 6. TASKS: Register all background jobs Args: app: The FastAPI application instance. settings: Resolved application settings. Returns: A tuple of ``(http_session, scheduler, startup_db)``. Raises: RuntimeError: If any startup stage fails or prerequisites are not met. """ dag = StartupDAG() # Register all startup stages with their dependencies. # NOTE: DATABASE stage must come before WORKER_MODE for lock acquisition dag.register_stage( StartupStage.DATABASE, "Initialize database schema and load setup state", prerequisites=frozenset(), ) dag.register_stage( StartupStage.WORKER_MODE, "Verify single-worker mode and acquire scheduler lock", prerequisites=frozenset([StartupStage.DATABASE]), ) dag.register_stage( StartupStage.GEO_CACHE, "Load IP geolocation cache from database", prerequisites=frozenset([StartupStage.WORKER_MODE]), ) dag.register_stage( StartupStage.HTTP_SESSION, "Create shared aiohttp session with configured timeouts", prerequisites=frozenset([StartupStage.GEO_CACHE]), ) dag.register_stage( StartupStage.SCHEDULER, "Create and start APScheduler for background jobs", prerequisites=frozenset([StartupStage.HTTP_SESSION]), ) dag.register_stage( StartupStage.TASKS, "Register all background jobs (import, cleanup, health checks)", prerequisites=frozenset([StartupStage.SCHEDULER]), ) try: # Stage 1: Initialize database (must come first for lock acquisition) startup_db = await dag.execute_stage( StartupStage.DATABASE, lambda: _stage_init_database(app, settings), ) # Stage 2: Validate single-worker mode and acquire scheduler lock await dag.execute_stage( StartupStage.WORKER_MODE, lambda: _stage_check_worker_mode_and_acquire_lock(startup_db), ) # Stage 3: Load GeoCache geo_cache = await dag.execute_stage( StartupStage.GEO_CACHE, lambda: _stage_init_geo_cache(settings, startup_db), ) # Stage 4: Create HTTP session http_session = await dag.execute_stage( StartupStage.HTTP_SESSION, lambda: _stage_create_http_session(settings), ) # Stage 5: Create and start scheduler scheduler = await dag.execute_stage( StartupStage.SCHEDULER, lambda: _stage_create_scheduler(), ) # Stage 6: Register tasks await dag.execute_stage( StartupStage.TASKS, lambda: _stage_register_tasks(app, scheduler), ) # Verify all resources are healthy if not await dag.health_check(): raise RuntimeError("Startup health check failed") # Store the geo_cache on app state for dependency injection app.state.geo_cache = geo_cache log.info( "startup_completed_successfully", stages=len(dag.context.completed_stages), ) return http_session, scheduler, startup_db except Exception: # Clean up on failure log.error("startup_failed_rolling_back_resources") await dag.rollback() # Ensure database is closed if it was initialized if StartupStage.DATABASE in dag.context.completed_stages: startup_db = dag.context.get_resource(StartupStage.DATABASE) await startup_db.close() raise async def _stage_check_worker_mode_and_acquire_lock(startup_db: Any) -> None: """Check single-worker mode and acquire the scheduler lock. This is stage 1 of the startup DAG. It performs two checks: 1. Fast check: Verify BANGUI_WORKERS env var if explicitly set 2. Authoritative check: Acquire database-backed scheduler lock The database lock ensures that only one instance runs the scheduler, even in container orchestration scenarios where multiple instances may start simultaneously. This prevents duplicate background jobs, duplicate history entries, and SQLite lock contention. Args: startup_db: The initialized database connection. Raises: RuntimeError: If the env var check fails or the scheduler lock cannot be acquired (another instance is running the scheduler). """ # Fast check: verify BANGUI_WORKERS if explicitly set _check_single_worker_mode() # Authoritative check: acquire the database-backed lock if not await acquire_scheduler_lock(startup_db): raise RuntimeError( "Could not acquire scheduler lock. Another BanGUI instance is already running the scheduler.\n" "\n" "This prevents duplicate background jobs (blocklist imports, history sync, etc.).\n" "\n" "IMPORTANT: This also indicates a possible multi-worker misconfiguration:\n" " - If BANGUI_WORKERS > 1, multiple workers are trying to acquire the lock\n" " - If --workers or -w was passed to uvicorn/gunicorn, remove it\n" " - BanGUI must run with exactly 1 worker process (use HA at container level)\n" "\n" "To recover from a stale lock (e.g., after a crash):\n" " 1. Verify no other BanGUI instances are running\n" " 2. Inspect the lock: sqlite3 bangui.db 'SELECT * FROM scheduler_lock;'\n" " 3. If stale, clean it: sqlite3 bangui.db 'DELETE FROM scheduler_lock;'\n" "\n" "See Docs/Architekture.md § Deployment Constraints for details." ) async def _stage_init_database(app: FastAPI, settings: Settings) -> Any: """Initialize database schema and load setup state. This is stage 2 of the startup DAG. It: 1. Creates database directory if needed 2. Opens the database connection 3. Initializes schema 4. Caches setup completion state 5. Loads persisted runtime settings Returns: The database connection object. """ db_path: Path = Path(settings.database_path) await run_blocking(db_path.parent.mkdir, parents=True, exist_ok=True) log.debug("database_directory_ensured", directory=str(db_path.parent)) original_db_path = db_path.resolve() startup_db = await open_db(settings.database_path) try: await init_db(startup_db) setup_complete = await setup_service.is_setup_complete(startup_db) set_setup_complete_cache(app, setup_complete) log.debug("setup_completion_cached", completed=setup_complete) if setup_complete: runtime_database_path = await setup_service.get_runtime_database_path(startup_db) if runtime_database_path: if Path(runtime_database_path).resolve() != original_db_path: await _ensure_database_schema(runtime_database_path) runtime_db = await open_db(runtime_database_path) try: # Ensure fail2ban bans table has performance indexes # before any ban query runs against it. This is called on every # startup so the index check is cheap (read-only probe). f2b_db_path = await setup_service.get_fail2ban_db_path(runtime_db) if f2b_db_path: await run_blocking(ensure_fail2ban_indexes, f2b_db_path) persisted_runtime_settings = ( await setup_service.get_persisted_runtime_settings(runtime_db) ) finally: await runtime_db.close() if persisted_runtime_settings: updated_settings = settings.model_copy(update=persisted_runtime_settings) set_runtime_settings(app, updated_settings) log.info( "runtime_settings_overridden_from_setup", overrides=persisted_runtime_settings, ) except Exception: await startup_db.close() raise return startup_db async def _stage_init_geo_cache(settings: Settings, startup_db: Any) -> GeoCache: """Load IP geolocation cache. This is stage 3 of the startup DAG. It: 1. Creates GeoCache instance with configured settings 2. Loads cache from database 3. Counts unresolved IPs 4. Initializes GeoIP database 5. Logs warnings if necessary Returns: The GeoCache instance. """ geo_cache = GeoCache(allow_http_fallback=settings.geoip_allow_http_fallback) db_path: Path = Path(settings.database_path) original_db_path = db_path.resolve() if db_path.resolve() != original_db_path: runtime_db = await open_db(settings.database_path) try: await geo_cache.load_cache_from_db(runtime_db) unresolved_count = await geo_cache.count_unresolved(runtime_db) finally: await runtime_db.close() else: await geo_cache.load_cache_from_db(startup_db) unresolved_count = await geo_cache.count_unresolved(startup_db) await run_blocking(ensure_jail_configs, Path(settings.fail2ban_config_dir) / "jail.d") if unresolved_count > 0: log.warning("geo_cache_unresolved_ips", unresolved=unresolved_count) geo_cache.init_geoip(settings.geoip_db_path) if settings.geoip_allow_http_fallback: log.warning( "geoip_http_fallback_enabled", message=( "WARNING: IP geolocation HTTP fallback is enabled. " "IP addresses will be sent unencrypted to ip-api.com if the MaxMind database is unavailable. " "This is a security and privacy risk. Disable BANGUI_GEOIP_ALLOW_HTTP_FALLBACK in production." ), ) return geo_cache async def _stage_create_http_session(settings: Settings) -> aiohttp.ClientSession: """Create shared aiohttp session with configured timeouts. This is stage 4 of the startup DAG. Returns: The aiohttp ClientSession instance. """ return _create_http_session(settings) async def _stage_create_scheduler() -> AsyncIOScheduler: """Create and start APScheduler. This is stage 5 of the startup DAG. Returns: The AsyncIOScheduler instance. Raises: RuntimeError: If scheduler creation or startup fails. """ scheduler: AsyncIOScheduler = AsyncIOScheduler(timezone="UTC") scheduler.start() return scheduler async def _stage_register_tasks(app: FastAPI, scheduler: AsyncIOScheduler) -> None: """Register all background jobs. This is stage 6 of the startup DAG. It registers: - scheduler_lock_heartbeat: Periodic update of scheduler lock (keeps it alive) - health_check: Periodic fail2ban connectivity probe - blocklist_import: Scheduled blocklist download and application - geo_cache_cleanup: Periodic purge of stale geo cache entries - geo_cache_flush: Periodic geo cache persistence - geo_re_resolve: Periodic re-resolution of stale records - history_sync: Periodic synchronization of ban history - session_cleanup: Periodic cleanup of expired sessions - rate_limiter_cleanup: Periodic cleanup of expired rate-limiter entries Args: app: The FastAPI application instance. scheduler: The APScheduler scheduler to register tasks with. """ scheduler_lock_heartbeat.register(app) health_check.register(app) await blocklist_import.register(app) geo_cache_cleanup.register(app) geo_cache_flush.register(app) geo_re_resolve.register(app) history_sync.register(app) session_cleanup.register(app) rate_limiter_cleanup.register(app) log.info("startup_tasks_registered", count=9)