/usr/lib/python2.7/dist-packages/celery/app/amqp.py is in python-celery 3.1.20-1.
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"""
celery.app.amqp
~~~~~~~~~~~~~~~
Sending and receiving messages using Kombu.
"""
from __future__ import absolute_import
import numbers
from datetime import timedelta
from weakref import WeakValueDictionary
from kombu import Connection, Consumer, Exchange, Producer, Queue
from kombu.common import Broadcast
from kombu.pools import ProducerPool
from kombu.utils import cached_property, uuid
from kombu.utils.encoding import safe_repr
from kombu.utils.functional import maybe_list
from celery import signals
from celery.five import items, string_t
from celery.utils.text import indent as textindent
from celery.utils.timeutils import to_utc
from . import app_or_default
from . import routes as _routes
__all__ = ['AMQP', 'Queues', 'TaskProducer', 'TaskConsumer']
#: Human readable queue declaration.
QUEUE_FORMAT = """
.> {0.name:<16} exchange={0.exchange.name}({0.exchange.type}) \
key={0.routing_key}
"""
class Queues(dict):
"""Queue name⇒ declaration mapping.
:param queues: Initial list/tuple or dict of queues.
:keyword create_missing: By default any unknown queues will be
added automatically, but if disabled
the occurrence of unknown queues
in `wanted` will raise :exc:`KeyError`.
:keyword ha_policy: Default HA policy for queues with none set.
"""
#: If set, this is a subset of queues to consume from.
#: The rest of the queues are then used for routing only.
_consume_from = None
def __init__(self, queues=None, default_exchange=None,
create_missing=True, ha_policy=None, autoexchange=None):
dict.__init__(self)
self.aliases = WeakValueDictionary()
self.default_exchange = default_exchange
self.create_missing = create_missing
self.ha_policy = ha_policy
self.autoexchange = Exchange if autoexchange is None else autoexchange
if isinstance(queues, (tuple, list)):
queues = dict((q.name, q) for q in queues)
for name, q in items(queues or {}):
self.add(q) if isinstance(q, Queue) else self.add_compat(name, **q)
def __getitem__(self, name):
try:
return self.aliases[name]
except KeyError:
return dict.__getitem__(self, name)
def __setitem__(self, name, queue):
if self.default_exchange and (not queue.exchange or
not queue.exchange.name):
queue.exchange = self.default_exchange
dict.__setitem__(self, name, queue)
if queue.alias:
self.aliases[queue.alias] = queue
def __missing__(self, name):
if self.create_missing:
return self.add(self.new_missing(name))
raise KeyError(name)
def add(self, queue, **kwargs):
"""Add new queue.
The first argument can either be a :class:`kombu.Queue` instance,
or the name of a queue. If the former the rest of the keyword
arguments are ignored, and options are simply taken from the queue
instance.
:param queue: :class:`kombu.Queue` instance or name of the queue.
:keyword exchange: (if named) specifies exchange name.
:keyword routing_key: (if named) specifies binding key.
:keyword exchange_type: (if named) specifies type of exchange.
:keyword \*\*options: (if named) Additional declaration options.
"""
if not isinstance(queue, Queue):
return self.add_compat(queue, **kwargs)
if self.ha_policy:
if queue.queue_arguments is None:
queue.queue_arguments = {}
self._set_ha_policy(queue.queue_arguments)
self[queue.name] = queue
return queue
def add_compat(self, name, **options):
# docs used to use binding_key as routing key
options.setdefault('routing_key', options.get('binding_key'))
if options['routing_key'] is None:
options['routing_key'] = name
if self.ha_policy is not None:
self._set_ha_policy(options.setdefault('queue_arguments', {}))
q = self[name] = Queue.from_dict(name, **options)
return q
def _set_ha_policy(self, args):
policy = self.ha_policy
if isinstance(policy, (list, tuple)):
return args.update({'x-ha-policy': 'nodes',
'x-ha-policy-params': list(policy)})
args['x-ha-policy'] = policy
def format(self, indent=0, indent_first=True):
"""Format routing table into string for log dumps."""
active = self.consume_from
if not active:
return ''
info = [QUEUE_FORMAT.strip().format(q)
for _, q in sorted(items(active))]
if indent_first:
return textindent('\n'.join(info), indent)
return info[0] + '\n' + textindent('\n'.join(info[1:]), indent)
def select_add(self, queue, **kwargs):
"""Add new task queue that will be consumed from even when
a subset has been selected using the :option:`-Q` option."""
q = self.add(queue, **kwargs)
if self._consume_from is not None:
self._consume_from[q.name] = q
return q
def select(self, include):
"""Sets :attr:`consume_from` by selecting a subset of the
currently defined queues.
:param include: Names of queues to consume from.
Can be iterable or string.
"""
if include:
self._consume_from = dict((name, self[name])
for name in maybe_list(include))
select_subset = select # XXX compat
def deselect(self, exclude):
"""Deselect queues so that they will not be consumed from.
:param exclude: Names of queues to avoid consuming from.
Can be iterable or string.
"""
if exclude:
exclude = maybe_list(exclude)
if self._consume_from is None:
# using selection
return self.select(k for k in self if k not in exclude)
# using all queues
for queue in exclude:
self._consume_from.pop(queue, None)
select_remove = deselect # XXX compat
def new_missing(self, name):
return Queue(name, self.autoexchange(name), name)
@property
def consume_from(self):
if self._consume_from is not None:
return self._consume_from
return self
class TaskProducer(Producer):
app = None
auto_declare = False
retry = False
retry_policy = None
utc = True
event_dispatcher = None
send_sent_event = False
def __init__(self, channel=None, exchange=None, *args, **kwargs):
self.retry = kwargs.pop('retry', self.retry)
self.retry_policy = kwargs.pop('retry_policy',
self.retry_policy or {})
self.send_sent_event = kwargs.pop('send_sent_event',
self.send_sent_event)
exchange = exchange or self.exchange
self.queues = self.app.amqp.queues # shortcut
self.default_queue = self.app.amqp.default_queue
self._default_mode = self.app.conf.CELERY_DEFAULT_DELIVERY_MODE
super(TaskProducer, self).__init__(channel, exchange, *args, **kwargs)
def publish_task(self, task_name, task_args=None, task_kwargs=None,
countdown=None, eta=None, task_id=None, group_id=None,
taskset_id=None, # compat alias to group_id
expires=None, exchange=None, exchange_type=None,
event_dispatcher=None, retry=None, retry_policy=None,
queue=None, now=None, retries=0, chord=None,
callbacks=None, errbacks=None, routing_key=None,
serializer=None, delivery_mode=None, compression=None,
reply_to=None, time_limit=None, soft_time_limit=None,
declare=None, headers=None,
send_before_publish=signals.before_task_publish.send,
before_receivers=signals.before_task_publish.receivers,
send_after_publish=signals.after_task_publish.send,
after_receivers=signals.after_task_publish.receivers,
send_task_sent=signals.task_sent.send, # XXX deprecated
sent_receivers=signals.task_sent.receivers,
**kwargs):
"""Send task message."""
retry = self.retry if retry is None else retry
headers = {} if headers is None else headers
qname = queue
if queue is None and exchange is None:
queue = self.default_queue
if queue is not None:
if isinstance(queue, string_t):
qname, queue = queue, self.queues[queue]
else:
qname = queue.name
exchange = exchange or queue.exchange.name
routing_key = routing_key or queue.routing_key
if declare is None and queue and not isinstance(queue, Broadcast):
declare = [queue]
if delivery_mode is None:
delivery_mode = self._default_mode
# merge default and custom policy
retry = self.retry if retry is None else retry
_rp = (dict(self.retry_policy, **retry_policy) if retry_policy
else self.retry_policy)
task_id = task_id or uuid()
task_args = task_args or []
task_kwargs = task_kwargs or {}
if not isinstance(task_args, (list, tuple)):
raise ValueError('task args must be a list or tuple')
if not isinstance(task_kwargs, dict):
raise ValueError('task kwargs must be a dictionary')
if countdown: # Convert countdown to ETA.
now = now or self.app.now()
eta = now + timedelta(seconds=countdown)
if self.utc:
eta = to_utc(eta).astimezone(self.app.timezone)
if isinstance(expires, numbers.Real):
now = now or self.app.now()
expires = now + timedelta(seconds=expires)
if self.utc:
expires = to_utc(expires).astimezone(self.app.timezone)
eta = eta and eta.isoformat()
expires = expires and expires.isoformat()
body = {
'task': task_name,
'id': task_id,
'args': task_args,
'kwargs': task_kwargs,
'retries': retries or 0,
'eta': eta,
'expires': expires,
'utc': self.utc,
'callbacks': callbacks,
'errbacks': errbacks,
'timelimit': (time_limit, soft_time_limit),
'taskset': group_id or taskset_id,
'chord': chord,
}
if before_receivers:
send_before_publish(
sender=task_name, body=body,
exchange=exchange,
routing_key=routing_key,
declare=declare,
headers=headers,
properties=kwargs,
retry_policy=retry_policy,
)
self.publish(
body,
exchange=exchange, routing_key=routing_key,
serializer=serializer or self.serializer,
compression=compression or self.compression,
headers=headers,
retry=retry, retry_policy=_rp,
reply_to=reply_to,
correlation_id=task_id,
delivery_mode=delivery_mode, declare=declare,
**kwargs
)
if after_receivers:
send_after_publish(sender=task_name, body=body,
exchange=exchange, routing_key=routing_key)
if sent_receivers: # XXX deprecated
send_task_sent(sender=task_name, task_id=task_id,
task=task_name, args=task_args,
kwargs=task_kwargs, eta=eta,
taskset=group_id or taskset_id)
if self.send_sent_event:
evd = event_dispatcher or self.event_dispatcher
exname = exchange or self.exchange
if isinstance(exname, Exchange):
exname = exname.name
evd.publish(
'task-sent',
{
'uuid': task_id,
'name': task_name,
'args': safe_repr(task_args),
'kwargs': safe_repr(task_kwargs),
'retries': retries,
'eta': eta,
'expires': expires,
'queue': qname,
'exchange': exname,
'routing_key': routing_key,
},
self, retry=retry, retry_policy=retry_policy,
)
return task_id
delay_task = publish_task # XXX Compat
@cached_property
def event_dispatcher(self):
# We call Dispatcher.publish with a custom producer
# so don't need the dispatcher to be "enabled".
return self.app.events.Dispatcher(enabled=False)
class TaskPublisher(TaskProducer):
"""Deprecated version of :class:`TaskProducer`."""
def __init__(self, channel=None, exchange=None, *args, **kwargs):
self.app = app_or_default(kwargs.pop('app', self.app))
self.retry = kwargs.pop('retry', self.retry)
self.retry_policy = kwargs.pop('retry_policy',
self.retry_policy or {})
exchange = exchange or self.exchange
if not isinstance(exchange, Exchange):
exchange = Exchange(exchange,
kwargs.pop('exchange_type', 'direct'))
self.queues = self.app.amqp.queues # shortcut
super(TaskPublisher, self).__init__(channel, exchange, *args, **kwargs)
class TaskConsumer(Consumer):
app = None
def __init__(self, channel, queues=None, app=None, accept=None, **kw):
self.app = app or self.app
if accept is None:
accept = self.app.conf.CELERY_ACCEPT_CONTENT
super(TaskConsumer, self).__init__(
channel,
queues or list(self.app.amqp.queues.consume_from.values()),
accept=accept,
**kw
)
class AMQP(object):
Connection = Connection
Consumer = Consumer
#: compat alias to Connection
BrokerConnection = Connection
producer_cls = TaskProducer
consumer_cls = TaskConsumer
queues_cls = Queues
#: Cached and prepared routing table.
_rtable = None
#: Underlying producer pool instance automatically
#: set by the :attr:`producer_pool`.
_producer_pool = None
# Exchange class/function used when defining automatic queues.
# E.g. you can use ``autoexchange = lambda n: None`` to use the
# amqp default exchange, which is a shortcut to bypass routing
# and instead send directly to the queue named in the routing key.
autoexchange = None
def __init__(self, app):
self.app = app
def flush_routes(self):
self._rtable = _routes.prepare(self.app.conf.CELERY_ROUTES)
def Queues(self, queues, create_missing=None, ha_policy=None,
autoexchange=None):
"""Create new :class:`Queues` instance, using queue defaults
from the current configuration."""
conf = self.app.conf
if create_missing is None:
create_missing = conf.CELERY_CREATE_MISSING_QUEUES
if ha_policy is None:
ha_policy = conf.CELERY_QUEUE_HA_POLICY
if not queues and conf.CELERY_DEFAULT_QUEUE:
queues = (Queue(conf.CELERY_DEFAULT_QUEUE,
exchange=self.default_exchange,
routing_key=conf.CELERY_DEFAULT_ROUTING_KEY), )
autoexchange = (self.autoexchange if autoexchange is None
else autoexchange)
return self.queues_cls(
queues, self.default_exchange, create_missing,
ha_policy, autoexchange,
)
def Router(self, queues=None, create_missing=None):
"""Return the current task router."""
return _routes.Router(self.routes, queues or self.queues,
self.app.either('CELERY_CREATE_MISSING_QUEUES',
create_missing), app=self.app)
@cached_property
def TaskConsumer(self):
"""Return consumer configured to consume from the queues
we are configured for (``app.amqp.queues.consume_from``)."""
return self.app.subclass_with_self(self.consumer_cls,
reverse='amqp.TaskConsumer')
get_task_consumer = TaskConsumer # XXX compat
@cached_property
def TaskProducer(self):
"""Return publisher used to send tasks.
You should use `app.send_task` instead.
"""
conf = self.app.conf
return self.app.subclass_with_self(
self.producer_cls,
reverse='amqp.TaskProducer',
exchange=self.default_exchange,
routing_key=conf.CELERY_DEFAULT_ROUTING_KEY,
serializer=conf.CELERY_TASK_SERIALIZER,
compression=conf.CELERY_MESSAGE_COMPRESSION,
retry=conf.CELERY_TASK_PUBLISH_RETRY,
retry_policy=conf.CELERY_TASK_PUBLISH_RETRY_POLICY,
send_sent_event=conf.CELERY_SEND_TASK_SENT_EVENT,
utc=conf.CELERY_ENABLE_UTC,
)
TaskPublisher = TaskProducer # compat
@cached_property
def default_queue(self):
return self.queues[self.app.conf.CELERY_DEFAULT_QUEUE]
@cached_property
def queues(self):
"""Queue name⇒ declaration mapping."""
return self.Queues(self.app.conf.CELERY_QUEUES)
@queues.setter # noqa
def queues(self, queues):
return self.Queues(queues)
@property
def routes(self):
if self._rtable is None:
self.flush_routes()
return self._rtable
@cached_property
def router(self):
return self.Router()
@property
def producer_pool(self):
if self._producer_pool is None:
self._producer_pool = ProducerPool(
self.app.pool,
limit=self.app.pool.limit,
Producer=self.TaskProducer,
)
return self._producer_pool
publisher_pool = producer_pool # compat alias
@cached_property
def default_exchange(self):
return Exchange(self.app.conf.CELERY_DEFAULT_EXCHANGE,
self.app.conf.CELERY_DEFAULT_EXCHANGE_TYPE)
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