#!/usr/bin/env python """ Consumer locator module, that manages the list of consumers. """ import datetime from communicator import Communicator import os from redisconnector import RedisConnector __author__ = "@dscharnitzky" __copyright__ = "Copyright 2020, GoldenPogácsa Team" __module_name__ = "consumerlocator" __version__text__ = "1" KNOWNCONSUMER = os.getenv("PRODUCER_KNOWNCONSUMER", '10.69.42.1') class ConsumerLocator: """ Component responsible for managing the list of consumers. Requires an instance of :class:`communicator.Communicator` """ def __init__(self, uuid: str, communicator: Communicator, redisconnector: RedisConnector): """**Constructor:** Initializes the object. Gets the known consumer's IP address from the PRODUCER_KNOWNCONSUMER envar. :param uuid: Not used :param communicator: the :class:'communicator.Communicator' instance that will be used for the low level communication. """ self.red = redisconnector self.red.consumerlist = [{"Host": KNOWNCONSUMER, "State": True, "LastOk": datetime.datetime.now().timestamp()}] self.red.currentconsumer = self.red.consumerlist[0] self.communicator = communicator def learnconsumerlist(self) -> None: """"Learns the list of consumers from the current consumer. Calls :func:`communicator.Communicator.didiscoveravailableconsumers`, adds the learned consumers to the list if are not present, and then calls :func:`consumerlocator.ConsumerLocator.updateconsumerlist` :returns: None """ recievedconsumerlist = self.communicator.discoveravailableconsumers() if not recievedconsumerlist: return for recconsumer in recievedconsumerlist: contains = False for consumer in self.red.consumerlist: if consumer["Host"] == recconsumer: contains = True if not contains: self.red.consumerlist.append({"Host": recconsumer, "State": True, "LastOk": datetime.datetime.now().timestamp()}) self.updateconsumerlist() def updateconsumerlist(self) -> None: """ Updates the consumer list based on their availability. Marks for each consumer if they are available or not. If a consumer is not available for some time (1 hour), the it will be deleted from the list. :return: None """ removelist = [] for consumer in self.red.consumerlist: if not self.communicator.checkconsumer(consumer["Host"]): consumer["State"] = False if datetime.datetime.now() - datetime.datetime.fromtimestamp(consumer["LastOk"]) > datetime.timedelta(hours=1): removelist.append(consumer) else: consumer["LastOk"] = datetime.datetime.now().timestamp() consumer["State"] = True for rem in removelist: self.red.consumerlist.remove(rem) def updateconsumer(self): """If the current consumer is not available, checks all the consumers in the list and updates the current one. Calls :func:`consumerlocator.ConsumerLocator.checkcurrentconsumer` and if needed :func:`consumerlocator.ConsumerLocator.updateconsumerlist`. Sets the :class:`communicator.Communicator` current instance with :func:`communicator.Communicator.set_currentconsumer`. :return: the current consumer or None if there are no available customers at the moment. """ if not self.checkcurrentconsumer(): self.updateconsumerlist() newcurrentconsumer = None for consumer in self.red.consumerlist: if consumer["State"]: newcurrentconsumer = consumer break self.red.currentconsumer = newcurrentconsumer if self.red.currentconsumer is not None: self.learnconsumerlist() if self.red.currentconsumer is not None: self.communicator.set_currentconsumer(self.red.currentconsumer["Host"]) return self.red.currentconsumer["Host"] else: return None def getcurrentconsumer(self) -> str: """Returns the currently selected consumer's IP address. :return: the current consumer """ return self.red.currentconsumer["Host"] def checkcurrentconsumer(self) -> bool: """Check the current consumer's health. :return: True if OK, False if fail """ if self.red.currentconsumer is None: return False return self.communicator.checkconsumer(self.red.currentconsumer["Host"])