from __future__ import absolute_import from django.conf import settings from pyrosapp.models import * from celery.task import Task import scheduler.tasks import alert_manager.tasks import observation_manager.tasks import time from common.Telescope import TelescopeObj from common.VISCamera import VISCameraObj from common.NIRCamera import NIRCameraObj import time TIMER_CHECK = 10 # in seconds class monitoring(Task): def run(self): self.configure_instruments() self.connect_to_plc() self.update_software_versions() self.get_night_start_end() self.wait_devices_ready() # TODO: décommenter pour lancer un scheduling # scheduler.tasks.scheduling(first_schedule=True, alert=False, night_start=self.night_start, night_end=self.night_end) alert_manager.tasks.alert_listener.delay() time.sleep(5) print("monitoring") self.timers_loop() def configure_instruments(self): self.tel = TelescopeObj() self.vis_camera = VISCameraObj() self.nir_camera = NIRCameraObj() # TODO: ici, on initialise les connections self.vis_camera.do("TEMPERATURE", 1.0, -150.0) self.nir_camera.do("TEMPERATURE", 1.0, -150.0) self.tel.do("HOMING") self.tel.do("DOORS", True) # Souci : gestion des instruments en global # Cette fonction dépendra du moyen de partager les connections des instruments def connect_to_plc(self): # TODO: initialiser la co avec le plc et stocker les identifiants de la co dans self pass def update_software_versions(self): versions = settings.MODULES_VERSIONS for module, version in versions.items(): same_module_versions = Version.objects.filter(module_name=module) if same_module_versions.count() == 0: Version.objects.create(module_name=module, version=version) elif same_module_versions.order_by("-created")[0].version != version: Version.objects.create(module_name=module, version=version) # TODO: envoyer les versions à l'IC def get_night_start_end(self): # TODO: utiliser un logiciel by AK pour stocker en local le début et la fin de la nuit (on est peut-être dedans) self.night_start = time.time() + 180 / 86400 self.night_end = time.time() + 360 / 86400 pass def wait_devices_ready(self): # TODO: faire une boucle pour attendre que les devices soient prêts pass def timers_loop(self): ''' Infinite loop for the different timers : - Every TIMER_CHECK seconds, check PLC and instruments status (+ analyse them and send them to the IC) - 2 minutes before the night start, make a scheduling - At the end of the night, do calibration files and computes the next night limits + make a scheduling with the new schedule ''' timer_status = TIMER_CHECK ''' Set night start timer to 1 day, then compute the real ones if the current time isn't during the night ''' timer_night_start = 86400 night_start_seconds = self.night_start * 3600 * 24 night_end_seconds = self.night_end * 3600 * 24 if night_start_seconds - 120 > time.time(): timer_night_start = night_start_seconds - 120 - time.time() timer_night_end = night_end_seconds - time.time() timers = {"status": timer_status, "night_start": timer_night_start, "night_end": timer_night_end} while True: minimal_timer = min(timers, key=timers.get) ''' Wait for the nearest timer ''' time.sleep(timers[minimal_timer]) ''' Update the timers ''' timers = {key: value - timers[minimal_timer] for key, value in timers.items()} ''' Then check what timers are <= 0 ''' for timer_name, timer_value in timers.items(): if timer_value <= 0: if timer_name == "status": # TODO: get PLC status status_tel = self.tel.get("STATUS") status_nir = self.nir_camera.get("STATUS") status_vis = self.vis_camera.get("STATUS") # TODO: stocker les statuts & les envoyer à l'IC # TODO: analyser le retour du PLC elif timer_name == "night_start": scheduler.tasks.scheduling.delay(first_schedule=False, alert=False) timers["night_start"] = 86400 elif timer_name == "night_end": observation_manager.tasks.execute_calibrations.delay() self.get_night_start_end() scheduler.tasks.scheduling(first_schedule=True, alert=False, night_start=self.night_start, night_end=self.night_end)