# Copyright 2011 OpenStack Foundation # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import functools import itertools import logging import os import socket import ssl import time import uuid import kombu import kombu.connection import kombu.entity import kombu.exceptions import kombu.messaging from oslo_config import cfg from oslo_utils import netutils import six from six.moves.urllib import parse from oslo_messaging._drivers import amqp as rpc_amqp from oslo_messaging._drivers import amqpdriver from oslo_messaging._drivers import common as rpc_common from oslo_messaging._i18n import _ from oslo_messaging._i18n import _LI from oslo_messaging import exceptions rabbit_opts = [ cfg.StrOpt('kombu_ssl_version', default='', help='SSL version to use (valid only if SSL enabled). ' 'Valid values are TLSv1 and SSLv23. SSLv2, SSLv3, ' 'TLSv1_1, and TLSv1_2 may be available on some ' 'distributions.' ), cfg.StrOpt('kombu_ssl_keyfile', default='', help='SSL key file (valid only if SSL enabled).'), cfg.StrOpt('kombu_ssl_certfile', default='', help='SSL cert file (valid only if SSL enabled).'), cfg.StrOpt('kombu_ssl_ca_certs', default='', help='SSL certification authority file ' '(valid only if SSL enabled).'), cfg.FloatOpt('kombu_reconnect_delay', default=1.0, help='How long to wait before reconnecting in response to an ' 'AMQP consumer cancel notification.'), cfg.StrOpt('rabbit_host', default='localhost', help='The RabbitMQ broker address where a single node is ' 'used.'), cfg.IntOpt('rabbit_port', default=5672, help='The RabbitMQ broker port where a single node is used.'), cfg.ListOpt('rabbit_hosts', default=['$rabbit_host:$rabbit_port'], help='RabbitMQ HA cluster host:port pairs.'), cfg.BoolOpt('rabbit_use_ssl', default=False, help='Connect over SSL for RabbitMQ.'), cfg.StrOpt('rabbit_userid', default='guest', help='The RabbitMQ userid.'), cfg.StrOpt('rabbit_password', default='guest', help='The RabbitMQ password.', secret=True), cfg.StrOpt('rabbit_login_method', default='AMQPLAIN', help='The RabbitMQ login method.'), cfg.StrOpt('rabbit_virtual_host', default='/', help='The RabbitMQ virtual host.'), cfg.IntOpt('rabbit_retry_interval', default=1, help='How frequently to retry connecting with RabbitMQ.'), cfg.IntOpt('rabbit_retry_backoff', default=2, help='How long to backoff for between retries when connecting ' 'to RabbitMQ.'), cfg.IntOpt('rabbit_max_retries', default=0, help='Maximum number of RabbitMQ connection retries. ' 'Default is 0 (infinite retry count).'), cfg.BoolOpt('rabbit_ha_queues', default=False, help='Use HA queues in RabbitMQ (x-ha-policy: all). ' 'If you change this option, you must wipe the ' 'RabbitMQ database.'), # NOTE(sileht): deprecated option since oslo_messaging 1.5.0, cfg.BoolOpt('fake_rabbit', default=False, help='Deprecated, use rpc_backend=kombu+memory or ' 'rpc_backend=fake'), ] LOG = logging.getLogger(__name__) def _get_queue_arguments(conf): """Construct the arguments for declaring a queue. If the rabbit_ha_queues option is set, we declare a mirrored queue as described here: http://www.rabbitmq.com/ha.html Setting x-ha-policy to all means that the queue will be mirrored to all nodes in the cluster. """ return {'x-ha-policy': 'all'} if conf.rabbit_ha_queues else {} class RabbitMessage(dict): def __init__(self, raw_message): super(RabbitMessage, self).__init__( rpc_common.deserialize_msg(raw_message.payload)) self._raw_message = raw_message def acknowledge(self): self._raw_message.ack() def requeue(self): self._raw_message.requeue() class ConsumerBase(object): """Consumer base class.""" def __init__(self, channel, callback, tag, **kwargs): """Declare a queue on an amqp channel. 'channel' is the amqp channel to use 'callback' is the callback to call when messages are received 'tag' is a unique ID for the consumer on the channel queue name, exchange name, and other kombu options are passed in here as a dictionary. """ self.callback = callback self.tag = six.text_type(tag) self.kwargs = kwargs self.queue = None self.reconnect(channel) def reconnect(self, channel): """Re-declare the queue after a rabbit reconnect.""" self.channel = channel self.kwargs['channel'] = channel self.queue = kombu.entity.Queue(**self.kwargs) try: self.queue.declare() except Exception as e: # NOTE: This exception may be triggered by a race condition. # Simply retrying will solve the error most of the time and # should work well enough as a workaround until the race condition # itself can be fixed. # TODO(jrosenboom): In order to be able to match the Execption # more specifically, we have to refactor ConsumerBase to use # 'channel_errors' of the kombu connection object that # has created the channel. # See https://bugs.launchpad.net/neutron/+bug/1318721 for details. LOG.exception(_("Declaring queue failed with (%s), retrying"), e) self.queue.declare() def _callback_handler(self, message, callback): """Call callback with deserialized message. Messages that are processed and ack'ed. """ try: callback(RabbitMessage(message)) except Exception: LOG.exception(_("Failed to process message" " ... skipping it.")) message.ack() def consume(self, *args, **kwargs): """Actually declare the consumer on the amqp channel. This will start the flow of messages from the queue. Using the Connection.iterconsume() iterator will process the messages, calling the appropriate callback. If a callback is specified in kwargs, use that. Otherwise, use the callback passed during __init__() If kwargs['nowait'] is True, then this call will block until a message is read. """ options = {'consumer_tag': self.tag} options['nowait'] = kwargs.get('nowait', False) callback = kwargs.get('callback', self.callback) if not callback: raise ValueError("No callback defined") def _callback(raw_message): message = self.channel.message_to_python(raw_message) self._callback_handler(message, callback) self.queue.consume(*args, callback=_callback, **options) def cancel(self): """Cancel the consuming from the queue, if it has started.""" try: self.queue.cancel(self.tag) except KeyError as e: # NOTE(comstud): Kludge to get around a amqplib bug if six.text_type(e) != "u'%s'" % self.tag: raise self.queue = None class DirectConsumer(ConsumerBase): """Queue/consumer class for 'direct'.""" def __init__(self, conf, channel, msg_id, callback, tag, **kwargs): """Init a 'direct' queue. 'channel' is the amqp channel to use 'msg_id' is the msg_id to listen on 'callback' is the callback to call when messages are received 'tag' is a unique ID for the consumer on the channel Other kombu options may be passed """ # Default options options = {'durable': False, 'queue_arguments': _get_queue_arguments(conf), 'auto_delete': True, 'exclusive': False} options.update(kwargs) exchange = kombu.entity.Exchange(name=msg_id, type='direct', durable=options['durable'], auto_delete=options['auto_delete']) super(DirectConsumer, self).__init__(channel, callback, tag, name=msg_id, exchange=exchange, routing_key=msg_id, **options) class TopicConsumer(ConsumerBase): """Consumer class for 'topic'.""" def __init__(self, conf, channel, topic, callback, tag, exchange_name, name=None, **kwargs): """Init a 'topic' queue. :param channel: the amqp channel to use :param topic: the topic to listen on :paramtype topic: str :param callback: the callback to call when messages are received :param tag: a unique ID for the consumer on the channel :param exchange_name: the exchange name to use :param name: optional queue name, defaults to topic :paramtype name: str Other kombu options may be passed as keyword arguments """ # Default options options = {'durable': conf.amqp_durable_queues, 'queue_arguments': _get_queue_arguments(conf), 'auto_delete': conf.amqp_auto_delete, 'exclusive': False} options.update(kwargs) exchange = kombu.entity.Exchange(name=exchange_name, type='topic', durable=options['durable'], auto_delete=options['auto_delete']) super(TopicConsumer, self).__init__(channel, callback, tag, name=name or topic, exchange=exchange, routing_key=topic, **options) class FanoutConsumer(ConsumerBase): """Consumer class for 'fanout'.""" def __init__(self, conf, channel, topic, callback, tag, **kwargs): """Init a 'fanout' queue. 'channel' is the amqp channel to use 'topic' is the topic to listen on 'callback' is the callback to call when messages are received 'tag' is a unique ID for the consumer on the channel Other kombu options may be passed """ unique = uuid.uuid4().hex exchange_name = '%s_fanout' % topic queue_name = '%s_fanout_%s' % (topic, unique) # Default options options = {'durable': False, 'queue_arguments': _get_queue_arguments(conf), 'auto_delete': True, 'exclusive': False} options.update(kwargs) exchange = kombu.entity.Exchange(name=exchange_name, type='fanout', durable=options['durable'], auto_delete=options['auto_delete']) super(FanoutConsumer, self).__init__(channel, callback, tag, name=queue_name, exchange=exchange, routing_key=topic, **options) class Publisher(object): """Base Publisher class.""" def __init__(self, channel, exchange_name, routing_key, **kwargs): """Init the Publisher class with the exchange_name, routing_key, and other options """ self.exchange_name = exchange_name self.routing_key = routing_key self.kwargs = kwargs self.reconnect(channel) def reconnect(self, channel): """Re-establish the Producer after a rabbit reconnection.""" self.exchange = kombu.entity.Exchange(name=self.exchange_name, **self.kwargs) self.producer = kombu.messaging.Producer(exchange=self.exchange, channel=channel, routing_key=self.routing_key) def send(self, msg, timeout=None): """Send a message.""" if timeout: # # AMQP TTL is in milliseconds when set in the header. # self.producer.publish(msg, headers={'ttl': (timeout * 1000)}) else: self.producer.publish(msg) class DirectPublisher(Publisher): """Publisher class for 'direct'.""" def __init__(self, conf, channel, topic, **kwargs): """Init a 'direct' publisher. Kombu options may be passed as keyword args to override defaults """ options = {'durable': False, 'auto_delete': True, 'exclusive': False, 'passive': True} options.update(kwargs) super(DirectPublisher, self).__init__(channel, topic, topic, type='direct', **options) class TopicPublisher(Publisher): """Publisher class for 'topic'.""" def __init__(self, conf, channel, exchange_name, topic, **kwargs): """Init a 'topic' publisher. Kombu options may be passed as keyword args to override defaults """ options = {'durable': conf.amqp_durable_queues, 'auto_delete': conf.amqp_auto_delete, 'exclusive': False} options.update(kwargs) super(TopicPublisher, self).__init__(channel, exchange_name, topic, type='topic', **options) class FanoutPublisher(Publisher): """Publisher class for 'fanout'.""" def __init__(self, conf, channel, topic, **kwargs): """Init a 'fanout' publisher. Kombu options may be passed as keyword args to override defaults """ options = {'durable': False, 'auto_delete': True, 'exclusive': False} options.update(kwargs) super(FanoutPublisher, self).__init__(channel, '%s_fanout' % topic, None, type='fanout', **options) class NotifyPublisher(TopicPublisher): """Publisher class for 'notify'.""" def __init__(self, conf, channel, exchange_name, topic, **kwargs): self.durable = kwargs.pop('durable', conf.amqp_durable_queues) self.queue_arguments = _get_queue_arguments(conf) super(NotifyPublisher, self).__init__(conf, channel, exchange_name, topic, **kwargs) def reconnect(self, channel): super(NotifyPublisher, self).reconnect(channel) # NOTE(jerdfelt): Normally the consumer would create the queue, but # we do this to ensure that messages don't get dropped if the # consumer is started after we do queue = kombu.entity.Queue(channel=channel, exchange=self.exchange, durable=self.durable, name=self.routing_key, routing_key=self.routing_key, queue_arguments=self.queue_arguments) queue.declare() class Connection(object): """Connection object.""" pools = {} def __init__(self, conf, url): self.consumers = [] self.consumer_num = itertools.count(1) self.conf = conf self.max_retries = self.conf.rabbit_max_retries # Try forever? if self.max_retries <= 0: self.max_retries = None self.interval_start = self.conf.rabbit_retry_interval self.interval_stepping = self.conf.rabbit_retry_backoff # max retry-interval = 30 seconds self.interval_max = 30 self._ssl_params = self._fetch_ssl_params() self._login_method = self.conf.rabbit_login_method if url.virtual_host is not None: virtual_host = url.virtual_host else: virtual_host = self.conf.rabbit_virtual_host self._url = '' if self.conf.fake_rabbit: LOG.warn("Deprecated: fake_rabbit option is deprecated, set " "rpc_backend to kombu+memory or use the fake " "driver instead.") self._url = 'memory://%s/' % virtual_host elif url.hosts: for host in url.hosts: transport = url.transport.replace('kombu+', '') transport = url.transport.replace('rabbit', 'amqp') self._url += '%s%s://%s:%s@%s:%s/%s' % ( ";" if self._url else '', transport, parse.quote(host.username or ''), parse.quote(host.password or ''), host.hostname or '', str(host.port or 5672), virtual_host) elif url.transport.startswith('kombu+'): # NOTE(sileht): url have a + but no hosts # (like kombu+memory:///), pass it to kombu as-is transport = url.transport.replace('kombu+', '') self._url = "%s://%s" % (transport, virtual_host) else: for adr in self.conf.rabbit_hosts: hostname, port = netutils.parse_host_port( adr, default_port=self.conf.rabbit_port) self._url += '%samqp://%s:%s@%s:%s/%s' % ( ";" if self._url else '', parse.quote(self.conf.rabbit_userid), parse.quote(self.conf.rabbit_password), hostname, port, virtual_host) self._initial_pid = os.getpid() self.do_consume = True self._consume_loop_stopped = False self.channel = None self.connection = kombu.connection.Connection( self._url, ssl=self._ssl_params, login_method=self._login_method, failover_strategy="shuffle") LOG.info(_LI('Connecting to AMQP server on %(hostname)s:%(port)d'), {'hostname': self.connection.hostname, 'port': self.connection.port}) # NOTE(sileht): just ensure the connection is setuped at startup self.ensure(error_callback=None, method=lambda: True) LOG.info(_LI('Connected to AMQP server on %(hostname)s:%(port)d'), {'hostname': self.connection.hostname, 'port': self.connection.port}) # NOTE(sileht): # value choosen according the best practice from kombu: # http://kombu.readthedocs.org/en/latest/reference/kombu.common.html#kombu.common.eventloop self._poll_timeout = 1 if self._url.startswith('memory://'): # Kludge to speed up tests. self.connection.transport.polling_interval = 0.0 self._poll_timeout = 0.05 # FIXME(markmc): use oslo sslutils when it is available as a library _SSL_PROTOCOLS = { "tlsv1": ssl.PROTOCOL_TLSv1, "sslv23": ssl.PROTOCOL_SSLv23 } _OPTIONAL_PROTOCOLS = { 'sslv2': 'PROTOCOL_SSLv2', 'sslv3': 'PROTOCOL_SSLv3', 'tlsv1_1': 'PROTOCOL_TLSv1_1', 'tlsv1_2': 'PROTOCOL_TLSv1_2', } for protocol in _OPTIONAL_PROTOCOLS: try: _SSL_PROTOCOLS[protocol] = getattr(ssl, _OPTIONAL_PROTOCOLS[protocol]) except AttributeError: pass @classmethod def validate_ssl_version(cls, version): key = version.lower() try: return cls._SSL_PROTOCOLS[key] except KeyError: raise RuntimeError(_("Invalid SSL version : %s") % version) def _fetch_ssl_params(self): """Handles fetching what ssl params should be used for the connection (if any). """ ssl_params = dict() # http://docs.python.org/library/ssl.html - ssl.wrap_socket if self.conf.kombu_ssl_version: ssl_params['ssl_version'] = self.validate_ssl_version( self.conf.kombu_ssl_version) if self.conf.kombu_ssl_keyfile: ssl_params['keyfile'] = self.conf.kombu_ssl_keyfile if self.conf.kombu_ssl_certfile: ssl_params['certfile'] = self.conf.kombu_ssl_certfile if self.conf.kombu_ssl_ca_certs: ssl_params['ca_certs'] = self.conf.kombu_ssl_ca_certs # We might want to allow variations in the # future with this? ssl_params['cert_reqs'] = ssl.CERT_REQUIRED # Return the extended behavior or just have the default behavior return ssl_params or None def ensure(self, error_callback, method, retry=None, timeout_is_error=True): """Will retry up to retry number of times. retry = None means use the value of rabbit_max_retries retry = -1 means to retry forever retry = 0 means no retry retry = N means N retries """ current_pid = os.getpid() if self._initial_pid != current_pid: LOG.warn("Process forked after connection established! " "This can result in unpredictable behavior. " "See: http://docs.openstack.org/developer/" "oslo_messaging/transport.html") self._initial_pid = current_pid if retry is None: retry = self.max_retries if retry is None or retry < 0: retry = None def on_error(exc, interval): error_callback and error_callback(exc) interval = (self.conf.kombu_reconnect_delay + interval if self.conf.kombu_reconnect_delay > 0 else interval) info = {'hostname': self.connection.hostname, 'port': self.connection.port, 'err_str': exc, 'sleep_time': interval} if 'Socket closed' in six.text_type(exc): LOG.error(_('AMQP server %(hostname)s:%(port)s closed' ' the connection. Check login credentials:' ' %(err_str)s'), info) else: LOG.error(_('AMQP server on %(hostname)s:%(port)s is ' 'unreachable: %(err_str)s. Trying again in ' '%(sleep_time)d seconds.'), info) # XXX(nic): when reconnecting to a RabbitMQ cluster # with mirrored queues in use, the attempt to release the # connection can hang "indefinitely" somewhere deep down # in Kombu. Blocking the thread for a bit prior to # release seems to kludge around the problem where it is # otherwise reproduceable. # TODO(sileht): Check if this is useful since we # use kombu for HA connection, the interval_step # should sufficient, because the underlying kombu transport # connection object freed. if self.conf.kombu_reconnect_delay > 0: time.sleep(self.conf.kombu_reconnect_delay) def on_reconnection(new_channel): """Callback invoked when the kombu reconnects and creates a new channel, we use it the reconfigure our consumers. """ self._set_current_channel(new_channel) self.consumer_num = itertools.count(1) for consumer in self.consumers: consumer.reconnect(new_channel) LOG.info(_LI('Reconnected to AMQP server on ' '%(hostname)s:%(port)d'), {'hostname': self.connection.hostname, 'port': self.connection.port}) def execute_method(channel): self._set_current_channel(channel) method() recoverable_errors = (self.connection.recoverable_channel_errors + self.connection.recoverable_connection_errors) try: autoretry_method = self.connection.autoretry( execute_method, channel=self.channel, max_retries=retry, errback=on_error, interval_start=self.interval_start or 1, interval_step=self.interval_stepping, on_revive=on_reconnection, ) ret, channel = autoretry_method() self._set_current_channel(channel) return ret except recoverable_errors as exc: self._set_current_channel(None) # NOTE(sileht): number of retry exceeded and the connection # is still broken msg = _('Unable to connect to AMQP server on ' '%(hostname)s:%(port)d after %(retry)d ' 'tries: %(err_str)s') % { 'hostname': self.connection.hostname, 'port': self.connection.port, 'err_str': exc, 'retry': retry} LOG.error(msg) raise exceptions.MessageDeliveryFailure(msg) def _set_current_channel(self, new_channel): if self.channel is not None and new_channel != self.channel: self.connection.maybe_close_channel(self.channel) self.channel = new_channel def close(self): """Close/release this connection.""" if self.connection: self._set_current_channel(None) self.connection.release() self.connection = None def reset(self): """Reset a connection so it can be used again.""" self._set_current_channel(self.connection.channel()) self.consumers = [] self.consumer_num = itertools.count(1) def declare_consumer(self, consumer_cls, topic, callback): """Create a Consumer using the class that was passed in and add it to our list of consumers """ def _connect_error(exc): log_info = {'topic': topic, 'err_str': exc} LOG.error(_("Failed to declare consumer for topic '%(topic)s': " "%(err_str)s"), log_info) def _declare_consumer(): consumer = consumer_cls(self.conf, self.channel, topic, callback, six.next(self.consumer_num)) self.consumers.append(consumer) return consumer return self.ensure(_connect_error, _declare_consumer) def iterconsume(self, limit=None, timeout=None): """Return an iterator that will consume from all queues/consumers.""" timer = rpc_common.DecayingTimer(duration=timeout) timer.start() def _raise_timeout(exc): LOG.debug('Timed out waiting for RPC response: %s', exc) raise rpc_common.Timeout() def _error_callback(exc): self.do_consume = True timer.check_return(_raise_timeout, exc) LOG.exception(_('Failed to consume message from queue: %s'), exc) def _consume(): if self.do_consume: queues_head = self.consumers[:-1] # not fanout. queues_tail = self.consumers[-1] # fanout for queue in queues_head: queue.consume(nowait=True) queues_tail.consume(nowait=False) self.do_consume = False poll_timeout = (self._poll_timeout if timeout is None else min(timeout, self._poll_timeout)) while True: if self._consume_loop_stopped: self._consume_loop_stopped = False raise StopIteration try: return self.connection.drain_events(timeout=poll_timeout) except socket.timeout as exc: poll_timeout = timer.check_return( _raise_timeout, exc, maximum=self._poll_timeout) for iteration in itertools.count(0): if limit and iteration >= limit: raise StopIteration yield self.ensure(_error_callback, _consume) def publisher_send(self, cls, topic, msg, timeout=None, retry=None, **kwargs): """Send to a publisher based on the publisher class.""" def _error_callback(exc): log_info = {'topic': topic, 'err_str': exc} LOG.exception(_("Failed to publish message to topic " "'%(topic)s': %(err_str)s"), log_info) def _publish(): publisher = cls(self.conf, self.channel, topic=topic, **kwargs) publisher.send(msg, timeout) self.ensure(_error_callback, _publish, retry=retry) def declare_direct_consumer(self, topic, callback): """Create a 'direct' queue. In nova's use, this is generally a msg_id queue used for responses for call/multicall """ self.declare_consumer(DirectConsumer, topic, callback) def declare_topic_consumer(self, exchange_name, topic, callback=None, queue_name=None): """Create a 'topic' consumer.""" self.declare_consumer(functools.partial(TopicConsumer, name=queue_name, exchange_name=exchange_name, ), topic, callback) def declare_fanout_consumer(self, topic, callback): """Create a 'fanout' consumer.""" self.declare_consumer(FanoutConsumer, topic, callback) def direct_send(self, msg_id, msg): """Send a 'direct' message.""" timer = rpc_common.DecayingTimer(duration=60) timer.start() # NOTE(sileht): retry at least 60sec, after we have a good change # that the caller is really dead too... while True: try: self.publisher_send(DirectPublisher, msg_id, msg) except self.connection.channel_errors as exc: # NOTE(noelbk/sileht): # If rabbit dies, the consumer can be disconnected before the # publisher sends, and if the consumer hasn't declared the # queue, the publisher's will send a message to an exchange # that's not bound to a queue, and the message wll be lost. # So we set passive=True to the publisher exchange and catch # the 404 kombu ChannelError and retry until the exchange # appears if exc.code == 404 and timer.check_return() > 0: LOG.info(_LI("The exchange to reply to %s doesn't " "exist yet, retrying...") % msg_id) time.sleep(1) continue raise return def topic_send(self, exchange_name, topic, msg, timeout=None, retry=None): """Send a 'topic' message.""" self.publisher_send(TopicPublisher, topic, msg, timeout, exchange_name=exchange_name, retry=retry) def fanout_send(self, topic, msg, retry=None): """Send a 'fanout' message.""" self.publisher_send(FanoutPublisher, topic, msg, retry=retry) def notify_send(self, exchange_name, topic, msg, retry=None, **kwargs): """Send a notify message on a topic.""" self.publisher_send(NotifyPublisher, topic, msg, timeout=None, exchange_name=exchange_name, retry=retry, **kwargs) def consume(self, limit=None, timeout=None): """Consume from all queues/consumers.""" it = self.iterconsume(limit=limit, timeout=timeout) while True: try: six.next(it) except StopIteration: return def stop_consuming(self): self._consume_loop_stopped = True class RabbitDriver(amqpdriver.AMQPDriverBase): def __init__(self, conf, url, default_exchange=None, allowed_remote_exmods=None): conf.register_opts(rabbit_opts) conf.register_opts(rpc_amqp.amqp_opts) connection_pool = rpc_amqp.ConnectionPool(conf, url, Connection) super(RabbitDriver, self).__init__(conf, url, connection_pool, default_exchange, allowed_remote_exmods) def require_features(self, requeue=True): pass