#!/usr/bin/env python3 # Moonraker - HTTP/Websocket API Server for Klipper # # Copyright (C) 2020 Eric Callahan # # This file may be distributed under the terms of the GNU GPLv3 license from __future__ import annotations import argparse import sys import importlib import os import io import time import socket import logging import json import getpass import signal import confighelper import utils import asyncio from tornado.httpclient import AsyncHTTPClient from eventloop import EventLoop from app import MoonrakerApp from utils import ServerError, SentinelClass # Annotation imports from typing import ( TYPE_CHECKING, Any, Optional, Callable, Coroutine, Dict, List, Union, TypeVar, ) if TYPE_CHECKING: from websockets import WebRequest, Subscribable, WebsocketManager from components.data_store import DataStore from components.klippy_apis import KlippyAPI from components.file_manager.file_manager import FileManager FlexCallback = Callable[..., Optional[Coroutine]] _T = TypeVar("_T") INIT_TIME = .25 LOG_ATTEMPT_INTERVAL = int(2. / INIT_TIME + .5) MAX_LOG_ATTEMPTS = 10 * LOG_ATTEMPT_INTERVAL UNIX_BUFFER_LIMIT = 2 * 1024 * 1024 CORE_COMPONENTS = [ 'dbus_manager', 'database', 'file_manager', 'klippy_apis', 'machine', 'data_store', 'shell_command', 'proc_stats', 'job_state', 'job_queue' ] SENTINEL = SentinelClass.get_instance() # Configure the http client to use the pycurl based implementation AsyncHTTPClient.configure( "tornado.curl_httpclient.CurlAsyncHTTPClient", defaults=dict(user_agent="Moonraker")) class Server: error = ServerError def __init__(self, args: Dict[str, Any], file_logger: Optional[utils.MoonrakerLoggingHandler], event_loop: EventLoop ) -> None: self.event_loop = event_loop self.file_logger = file_logger self.app_args = args self.config = config = self._parse_config() self.host: str = config.get('host', "0.0.0.0") self.port: int = config.getint('port', 7125) self.ssl_port: int = config.getint('ssl_port', 7130) self.exit_reason: str = "" # Configure Debug Logging self.debug = config.getboolean('enable_debug_logging', False) asyncio_debug = config.getboolean('enable_asyncio_debug', False) log_level = logging.DEBUG if self.debug else logging.INFO logging.getLogger().setLevel(log_level) self.event_loop.set_debug(asyncio_debug) # Event initialization self.events: Dict[str, List[FlexCallback]] = {} # Klippy Connection Handling self.klippy_address: str = config.get( 'klippy_uds_address', "/tmp/klippy_uds") self.klippy_connection = KlippyConnection( self.process_command, self.on_connection_closed, event_loop) self.klippy_info: Dict[str, Any] = {} self.init_list: List[str] = [] self.init_handle: Optional[asyncio.Handle] = None self.init_attempts: int = 0 self.klippy_state: str = "disconnected" self.klippy_disconnect_evt: Optional[asyncio.Event] = None self.connection_init_lock: asyncio.Lock = asyncio.Lock() self.components: Dict[str, Any] = {} self.subscriptions: Dict[Subscribable, Dict[str, Any]] = {} self.failed_components: List[str] = [] self.warnings: List[str] = [] # Tornado Application/Server self.server_running: bool = False self.moonraker_app = app = MoonrakerApp(config) self.register_endpoint = app.register_local_handler self.register_static_file_handler = app.register_static_file_handler self.register_upload_handler = app.register_upload_handler self.register_api_transport = app.register_api_transport log_warn = args.get('log_warning', "") if log_warn: self.add_warning(log_warn) cfg_warn = args.get("config_warning", "") if cfg_warn: self.add_warning(cfg_warn) self.register_endpoint( "/server/info", ['GET'], self._handle_info_request) self.register_endpoint( "/server/config", ['GET'], self._handle_config_request) self.register_endpoint( "/server/restart", ['POST'], self._handle_server_restart) self.register_notification("server:klippy_ready") self.register_notification("server:klippy_shutdown") self.register_notification("server:klippy_disconnect", "klippy_disconnected") self.register_notification("server:gcode_response") # Setup remote methods accessable to Klippy. Note that all # registered remote methods should be of the notification type, # they do not return a response to Klippy after execution self.pending_requests: Dict[int, BaseRequest] = {} self.remote_methods: Dict[str, FlexCallback] = {} self.klippy_reg_methods: List[str] = [] self.register_remote_method( 'process_gcode_response', self._process_gcode_response, need_klippy_reg=False) self.register_remote_method( 'process_status_update', self._process_status_update, need_klippy_reg=False) @property def klippy_apis(self) -> KlippyAPI: return self.components['klippy_apis'] def get_app_args(self) -> Dict[str, Any]: return dict(self.app_args) def get_event_loop(self) -> EventLoop: return self.event_loop def is_running(self) -> bool: return self.server_running def is_debug_enabled(self) -> bool: return self.debug def _parse_config(self) -> confighelper.ConfigHelper: config = confighelper.get_configuration(self, self.app_args) # log config file strio = io.StringIO() config.write_config(strio) cfg_item = f"\n{'#'*20} Moonraker Configuration {'#'*20}\n\n" cfg_item += strio.getvalue() cfg_item += "#"*65 strio.close() self.add_log_rollover_item('config', cfg_item) return config async def server_init(self, start_server: bool = True) -> None: self.event_loop.add_signal_handler( signal.SIGTERM, self._handle_term_signal) # Perform asynchronous init after the event loop starts optional_comps: List[Coroutine] = [] for name, component in self.components.items(): if not hasattr(component, "component_init"): continue if name in CORE_COMPONENTS: # Process core components in order synchronously await self._initialize_component(name, component) else: optional_comps.append( self._initialize_component(name, component)) # Asynchronous Optional Component Initialization if optional_comps: await asyncio.gather(*optional_comps) if not self.warnings: cfg_file = self.app_args['config_file'] await self.event_loop.run_in_thread( confighelper.backup_config, cfg_file) if start_server: await self.start_server() async def start_server(self, connect_to_klippy: bool = True) -> None: # Start HTTP Server logging.info( f"Starting Moonraker on ({self.host}, {self.port}), " f"Hostname: {socket.gethostname()}") self.moonraker_app.listen(self.host, self.port, self.ssl_port) self.server_running = True if connect_to_klippy: await self.connect_klippy() async def wait_connection_initialized(self) -> None: async with self.connection_init_lock: return def add_log_rollover_item(self, name: str, item: str, log: bool = True) -> None: if self.file_logger is not None: self.file_logger.set_rollover_info(name, item) if log and item is not None: logging.info(item) def add_warning(self, warning: str, log: bool = True) -> None: self.warnings.append(warning) if log: logging.warning(warning) # ***** Component Management ***** async def _initialize_component(self, name: str, component: Any) -> None: logging.info(f"Performing Component Post Init: [{name}]") try: ret = component.component_init() if ret is not None: await ret except Exception as e: logging.exception(f"Component [{name}] failed post init") self.add_warning(f"Component '{name}' failed to load with " f"error: {e}") self.set_failed_component(name) def load_components(self) -> None: config = self.config cfg_sections = [s.split()[0] for s in config.sections()] cfg_sections.remove('server') # load core components for component in CORE_COMPONENTS: self.load_component(config, component) if component in cfg_sections: cfg_sections.remove(component) # load remaining optional components for section in cfg_sections: self.load_component(config, section, None) config.validate_config() def load_component(self, config: confighelper.ConfigHelper, component_name: str, default: Union[SentinelClass, _T] = SENTINEL ) -> Union[_T, Any]: if component_name in self.components: return self.components[component_name] try: module = importlib.import_module("components." + component_name) if component_name in config: config = config[component_name] load_func = getattr(module, "load_component") component = load_func(config) except Exception: msg = f"Unable to load component: ({component_name})" logging.exception(msg) if component_name not in self.failed_components: self.failed_components.append(component_name) if isinstance(default, SentinelClass): raise ServerError(msg) return default self.components[component_name] = component logging.info(f"Component ({component_name}) loaded") return component def lookup_component(self, component_name: str, default: Union[SentinelClass, _T] = SENTINEL ) -> Union[_T, Any]: component = self.components.get(component_name, default) if isinstance(component, SentinelClass): raise ServerError(f"Component ({component_name}) not found") return component def set_failed_component(self, component_name: str) -> None: if component_name not in self.failed_components: self.failed_components.append(component_name) def register_component(self, component_name: str, component: Any) -> None: if component_name in self.components: raise self.error( f"Component '{component_name}' already registered") self.components[component_name] = component def register_notification(self, event_name: str, notify_name: Optional[str] = None ) -> None: wsm: WebsocketManager = self.lookup_component("websockets") wsm.register_notification(event_name, notify_name) def register_event_handler(self, event: str, callback: FlexCallback ) -> None: self.events.setdefault(event, []).append(callback) def send_event(self, event: str, *args) -> asyncio.Future: fut = self.event_loop.create_future() self.event_loop.register_callback( self._process_event, fut, event, *args) return fut async def _process_event(self, fut: asyncio.Future, event: str, *args ) -> None: events = self.events.get(event, []) coroutines: List[Coroutine] = [] for func in events: ret = func(*args) if ret is not None: coroutines.append(ret) if coroutines: await asyncio.gather(*coroutines) fut.set_result(None) def register_remote_method(self, method_name: str, cb: FlexCallback, need_klippy_reg: bool = True ) -> None: if method_name in self.remote_methods: raise self.error( f"Remote method ({method_name}) already registered") if self.server_running: raise self.error( f"Failed to register remote method {method_name}, " "methods must be registered during initialization") self.remote_methods[method_name] = cb if need_klippy_reg: # These methods need to be registered with Klippy self.klippy_reg_methods.append(method_name) def get_host_info(self) -> Dict[str, Any]: return { 'hostname': socket.gethostname(), 'address': self.host, 'port': self.port, 'ssl_port': self.ssl_port } def get_klippy_info(self) -> Dict[str, Any]: return dict(self.klippy_info) def get_klippy_state(self) -> str: return self.klippy_state # ***** Klippy Connection ***** async def connect_klippy(self) -> None: if not self.server_running: return if self.klippy_connection.is_connected(): return ret = await self.klippy_connection.connect(self.klippy_address) if not ret: self.event_loop.delay_callback(.25, self.connect_klippy) return self.init_handle = self.event_loop.delay_callback( 0.01, self._init_klippy_connection) def process_command(self, cmd: Dict[str, Any]) -> None: method = cmd.get('method', None) if method is not None: # This is a remote method called from klippy if method in self.remote_methods: params = cmd.get('params', {}) self.event_loop.register_callback( self._execute_method, method, **params) else: logging.info(f"Unknown method received: {method}") return # This is a response to a request, process req_id = cmd.get('id', None) request: Optional[BaseRequest] request = self.pending_requests.pop(req_id, None) if request is None: logging.info( f"No request matching request ID: {req_id}, " f"response: {cmd}") return if 'result' in cmd: result = cmd['result'] if not result: result = "ok" else: err = cmd.get('error', "Malformed Klippy Response") result = ServerError(err, 400) request.notify(result) async def _execute_method(self, method_name: str, **kwargs) -> None: try: ret = self.remote_methods[method_name](**kwargs) if ret is not None: await ret except Exception: logging.exception(f"Error running remote method: {method_name}") def on_connection_closed(self) -> None: self.init_list = [] self.klippy_state = "disconnected" for request in self.pending_requests.values(): request.notify(ServerError("Klippy Disconnected", 503)) self.pending_requests = {} self.subscriptions = {} logging.info("Klippy Connection Removed") self.send_event("server:klippy_disconnect") if self.init_handle is not None: self.init_handle.cancel() self.init_handle = None if self.server_running: self.event_loop.delay_callback(.25, self.connect_klippy) if self.klippy_disconnect_evt is not None: self.klippy_disconnect_evt.set() async def _init_klippy_connection(self) -> None: if not self.server_running: return async with self.connection_init_lock: await self._check_ready() await self._request_endpoints() # Subscribe to "webhooks" # Register "webhooks" subscription if "webhooks_sub" not in self.init_list: try: await self.klippy_apis.subscribe_objects( {'webhooks': None}) except ServerError as e: logging.info( f"{e}\nUnable to subscribe to webhooks object") else: logging.info("Webhooks Subscribed") self.init_list.append("webhooks_sub") # Subscribe to Gcode Output if "gcode_output_sub" not in self.init_list: try: await self.klippy_apis.subscribe_gcode_output() except ServerError as e: logging.info( f"{e}\nUnable to register gcode output subscription") else: logging.info("GCode Output Subscribed") self.init_list.append("gcode_output_sub") if ( "startup_complete" in self.init_list or not self.klippy_connection.is_connected() ): # Either Klippy is ready or the connection dropped # during initialization. Exit initialization self.init_attempts = 0 self.init_handle = None else: self.init_attempts += 1 self.init_handle = self.event_loop.delay_callback( INIT_TIME, self._init_klippy_connection) async def _request_endpoints(self) -> None: result = await self.klippy_apis.list_endpoints(default=None) if result is None: return endpoints = result.get('endpoints', []) for ep in endpoints: self.moonraker_app.register_remote_handler(ep) async def _check_ready(self) -> None: send_id = "identified" not in self.init_list result: Dict[str, Any] try: result = await self.klippy_apis.get_klippy_info(send_id) except ServerError as e: if self.init_attempts % LOG_ATTEMPT_INTERVAL == 0 and \ self.init_attempts <= MAX_LOG_ATTEMPTS: logging.info( f"{e}\nKlippy info request error. This indicates that\n" f"Klippy may have experienced an error during startup.\n" f"Please check klippy.log for more information") return self.klippy_info = dict(result) self.klippy_state = result.get('state', "unknown") if send_id: self.init_list.append("identified") await self.send_event("server:klippy_identified") if self.klippy_state != "startup": self.init_list.append('startup_complete') await self.send_event("server:klippy_started", self.klippy_state) if self.klippy_state != "ready": msg = result.get('state_message', "Klippy Not Ready") logging.info("\n" + msg) else: await self._verify_klippy_requirements() # register methods with klippy for method in self.klippy_reg_methods: try: await self.klippy_apis.register_method(method) except ServerError: logging.exception( f"Unable to register method '{method}'") logging.info("Klippy ready") await self.send_event("server:klippy_ready") async def _verify_klippy_requirements(self) -> None: result = await self.klippy_apis.get_object_list(default=None) if result is None: logging.info( f"Unable to retrieve Klipper Object List") return req_objs = set(["virtual_sdcard", "display_status", "pause_resume"]) missing_objs = req_objs - set(result) if missing_objs: err_str = ", ".join([f"[{o}]" for o in missing_objs]) logging.info( f"\nWarning, unable to detect the following printer " f"objects:\n{err_str}\nPlease add the the above sections " f"to printer.cfg for full Moonraker functionality.") if "virtual_sdcard" not in missing_objs: # Update the gcode path query_res = await self.klippy_apis.query_objects( {'configfile': None}, default=None) if query_res is None: logging.info(f"Unable to set SD Card path") else: config = query_res.get('configfile', {}).get('config', {}) vsd_config = config.get('virtual_sdcard', {}) vsd_path = vsd_config.get('path', None) if vsd_path is not None: file_manager: FileManager = self.lookup_component( 'file_manager') file_manager.register_directory('gcodes', vsd_path, full_access=True) else: logging.info( "Configuration for [virtual_sdcard] not found," " unable to set SD Card path") def _process_gcode_response(self, response: str) -> None: self.send_event("server:gcode_response", response) def _process_status_update(self, eventtime: float, status: Dict[str, Any] ) -> None: if 'webhooks' in status: # XXX - process other states (startup, ready, error, etc)? state: Optional[str] = status['webhooks'].get('state', None) if state is not None: if state == "shutdown": logging.info("Klippy has shutdown") self.send_event("server:klippy_shutdown") self.klippy_state = state for conn, sub in self.subscriptions.items(): conn_status: Dict[str, Any] = {} for name, fields in sub.items(): if name in status: val: Dict[str, Any] = dict(status[name]) if fields is not None: val = {k: v for k, v in val.items() if k in fields} if val: conn_status[name] = val conn.send_status(conn_status, eventtime) async def make_request(self, web_request: WebRequest) -> Any: rpc_method = web_request.get_endpoint() if rpc_method == "objects/subscribe": return await self._request_subscripton(web_request) else: if rpc_method == "gcode/script": script = web_request.get_str('script', "") data_store: DataStore = self.lookup_component('data_store') data_store.store_gcode_command(script) return await self._request_standard(web_request) async def _request_subscripton(self, web_request: WebRequest ) -> Dict[str, Any]: args = web_request.get_args() conn = web_request.get_connection() # Build the subscription request from a superset of all client # subscriptions sub = args.get('objects', {}) if conn is None: raise self.error( "No connection associated with subscription request") self.subscriptions[conn] = sub all_subs: Dict[str, Any] = {} # request superset of all client subscriptions for sub in self.subscriptions.values(): for obj, items in sub.items(): if obj in all_subs: pi = all_subs[obj] if items is None or pi is None: all_subs[obj] = None else: uitems = list(set(pi) | set(items)) all_subs[obj] = uitems else: all_subs[obj] = items args['objects'] = all_subs args['response_template'] = {'method': "process_status_update"} result = await self._request_standard(web_request) # prune the status response pruned_status = {} all_status = result['status'] sub = self.subscriptions.get(conn, {}) for obj, fields in all_status.items(): if obj in sub: valid_fields = sub[obj] if valid_fields is None: pruned_status[obj] = fields else: pruned_status[obj] = {k: v for k, v in fields.items() if k in valid_fields} result['status'] = pruned_status return result async def _request_standard(self, web_request: WebRequest) -> Any: rpc_method = web_request.get_endpoint() args = web_request.get_args() # Create a base klippy request base_request = BaseRequest(rpc_method, args) self.pending_requests[base_request.id] = base_request self.event_loop.register_callback( self.klippy_connection.send_request, base_request) return await base_request.wait() def remove_subscription(self, conn: Subscribable) -> None: self.subscriptions.pop(conn, None) def _handle_term_signal(self) -> None: logging.info(f"Exiting with signal SIGTERM") self.event_loop.register_callback(self._stop_server, "terminate") async def _stop_server(self, exit_reason: str = "restart") -> None: self.server_running = False # Call each component's "on_exit" method for name, component in self.components.items(): if hasattr(component, "on_exit"): func: FlexCallback = getattr(component, "on_exit") try: ret = func() if ret is not None: await ret except Exception: logging.exception( f"Error executing 'on_exit()' for component: {name}") # Sleep for 100ms to allow connected websockets to write out # remaining data await asyncio.sleep(.1) try: await self.moonraker_app.close() except Exception: logging.exception("Error Closing App") # Disconnect from Klippy try: if self.klippy_connection.is_connected(): self.klippy_disconnect_evt = asyncio.Event() await self.klippy_connection.close() await asyncio.wait_for( self.klippy_disconnect_evt.wait(), 2.) self.klippy_disconnect_evt = None except Exception: logging.exception("Klippy Disconnect Error") # Close all components for name, component in self.components.items(): if hasattr(component, "close"): func = getattr(component, "close") try: ret = func() if ret is not None: await ret except Exception: logging.exception( f"Error executing 'close()' for component: {name}") self.exit_reason = exit_reason self.event_loop.remove_signal_handler(signal.SIGTERM) self.event_loop.stop() async def _handle_server_restart(self, web_request: WebRequest) -> str: self.event_loop.register_callback(self._stop_server) return "ok" async def _handle_info_request(self, web_request: WebRequest ) -> Dict[str, Any]: file_manager: Optional[FileManager] = self.lookup_component( 'file_manager', None) reg_dirs = [] if file_manager is not None: reg_dirs = file_manager.get_registered_dirs() wsm: WebsocketManager = self.lookup_component('websockets') return { 'klippy_connected': self.klippy_connection.is_connected(), 'klippy_state': self.klippy_state, 'components': list(self.components.keys()), 'failed_components': self.failed_components, 'registered_directories': reg_dirs, 'warnings': self.warnings, 'websocket_count': wsm.get_count(), 'moonraker_version': self.app_args['software_version'] } async def _handle_config_request(self, web_request: WebRequest ) -> Dict[str, Any]: return { 'config': self.config.get_parsed_config() } class KlippyConnection: def __init__(self, on_recd: Callable[[dict], None], on_close: Callable[[], None], event_loop: EventLoop ) -> None: self.writer: Optional[asyncio.StreamWriter] = None self.connection_mutex: asyncio.Lock = asyncio.Lock() self.on_recd = on_recd self.on_close = on_close self.event_loop = event_loop self.log_no_access = True async def connect(self, address: str) -> bool: if self.is_connected(): await self.close() async with self.connection_mutex: if not os.path.exists(address): return False if not os.access(address, os.R_OK | os.W_OK): if self.log_no_access: user = getpass.getuser() logging.info( f"Cannot connect to Klippy, Linux user '{user}' lacks " f"permission to open Unix Domain Socket: {address}") self.log_no_access = False return False self.log_no_access = True try: reader, writer = await asyncio.open_unix_connection( address, limit=UNIX_BUFFER_LIMIT) except Exception: return False logging.info("Klippy Connection Established") self.writer = writer self.event_loop.register_callback(self._read_stream, reader) return True async def _read_stream(self, reader: asyncio.StreamReader) -> None: errors_remaining: int = 10 while not reader.at_eof() and errors_remaining: try: data = await reader.readuntil(b'\x03') except (ConnectionError, asyncio.IncompleteReadError): break except Exception: logging.exception("Klippy Stream Read Error") errors_remaining -= 1 continue errors_remaining = 10 try: decoded_cmd = json.loads(data[:-1]) self.on_recd(decoded_cmd) except Exception: logging.exception( f"Error processing Klippy Host Response: {data.decode()}") await self.close() async def send_request(self, request: BaseRequest) -> None: if self.writer is None: request.notify(ServerError("Klippy Host not connected", 503)) return data = json.dumps(request.to_dict()).encode() + b"\x03" try: self.writer.write(data) await self.writer.drain() except Exception: request.notify(ServerError("Klippy Host not connected", 503)) await self.close() def is_connected(self) -> bool: return self.writer is not None async def close(self) -> None: if ( self.connection_mutex.locked() or self.writer is None ): return async with self.connection_mutex: try: self.writer.close() await self.writer.wait_closed() except Exception: logging.exception("Error closing Klippy Unix Socket") self.writer = None self.on_close() # Basic WebRequest class, easily converted to dict for json encoding class BaseRequest: def __init__(self, rpc_method: str, params: Dict[str, Any]) -> None: self.id = id(self) self.rpc_method = rpc_method self.params = params self._event = asyncio.Event() self.response: Any = None async def wait(self) -> Any: # Log pending requests every 60 seconds start_time = time.time() while True: try: await asyncio.wait_for(self._event.wait(), 60.) except asyncio.TimeoutError: pending_time = time.time() - start_time logging.info( f"Request '{self.rpc_method}' pending: " f"{pending_time:.2f} seconds") self._event.clear() continue break if isinstance(self.response, ServerError): raise self.response return self.response def notify(self, response: Any) -> None: self.response = response self._event.set() def to_dict(self) -> Dict[str, Any]: return {'id': self.id, 'method': self.rpc_method, 'params': self.params} def main() -> None: # Parse start arguments parser = argparse.ArgumentParser( description="Moonraker - Klipper API Server") parser.add_argument( "-c", "--configfile", default="~/moonraker.conf", metavar='', help="Location of moonraker configuration file") parser.add_argument( "-l", "--logfile", default="/tmp/moonraker.log", metavar='', help="log file name and location") parser.add_argument( "-n", "--nologfile", action='store_true', help="disable logging to a file") cmd_line_args = parser.parse_args() cfg_file = cmd_line_args.configfile app_args = {'config_file': cfg_file} # Setup Logging version = utils.get_software_version() if cmd_line_args.nologfile: app_args['log_file'] = "" else: app_args['log_file'] = os.path.normpath( os.path.expanduser(cmd_line_args.logfile)) app_args['software_version'] = version ql, file_logger, warning = utils.setup_logging(app_args) if warning is not None: app_args['log_warning'] = warning if sys.version_info < (3, 7): msg = f"Moonraker requires Python 3.7 or above. " \ f"Detected Version: {sys.version}" logging.info(msg) print(msg) ql.stop() exit(1) # Start asyncio event loop and server event_loop = EventLoop() alt_config_loaded = False estatus = 0 while True: try: server = Server(app_args, file_logger, event_loop) server.load_components() except confighelper.ConfigError as e: backup_cfg = confighelper.find_config_backup(cfg_file) if alt_config_loaded or backup_cfg is None: logging.exception("Server Config Error") estatus = 1 break app_args['config_file'] = backup_cfg app_args['config_warning'] = ( f"Server configuration error: {e}\n" f"Loaded server from most recent working configuration:" f" '{app_args['config_file']}'\n" f"Please fix the issue in moonraker.conf and restart " f"the server." ) alt_config_loaded = True continue except Exception: logging.exception("Moonraker Error") estatus = 1 break try: event_loop.register_callback(server.server_init) event_loop.start() except Exception: logging.exception("Server Running Error") estatus = 1 break if server.exit_reason == "terminate": break # Restore the original config and clear the warning # before the server restarts if alt_config_loaded: app_args['config_file'] = cfg_file app_args.pop('config_warning', None) alt_config_loaded = False event_loop.close() # Since we are running outside of the the server # it is ok to use a blocking sleep here time.sleep(.5) logging.info("Attempting Server Restart...") for _ in range(5): # Sometimes the new loop does not properly instantiate. # Give 5 attempts before raising an exception new_loop = asyncio.new_event_loop() if not new_loop.is_closed(): break logging.info("Failed to create open eventloop, " "retyring in .5 seconds...") time.sleep(.5) else: raise RuntimeError("Unable to create new open eventloop") asyncio.set_event_loop(new_loop) event_loop.reset() event_loop.close() logging.info("Server Shutdown") ql.stop() exit(estatus) if __name__ == '__main__': main()