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doctorondemand
doctorondemand / celery python
Repository URL to install this package:
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Version:
4.2.2 ▾
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# -*- coding: utf-8 -*-
"""The old AMQP result backend, deprecated and replaced by the RPC backend."""
from __future__ import absolute_import, unicode_literals
import socket
from collections import deque
from operator import itemgetter
from kombu import Consumer, Exchange, Producer, Queue
from celery import states
from celery.exceptions import TimeoutError
from celery.five import monotonic, range
from celery.utils import deprecated
from celery.utils.log import get_logger
from .base import BaseBackend
__all__ = ('BacklogLimitExceeded', 'AMQPBackend')
logger = get_logger(__name__)
class BacklogLimitExceeded(Exception):
"""Too much state history to fast-forward."""
def repair_uuid(s):
# Historically the dashes in UUIDS are removed from AMQ entity names,
# but there's no known reason to. Hopefully we'll be able to fix
# this in v4.0.
return '%s-%s-%s-%s-%s' % (s[:8], s[8:12], s[12:16], s[16:20], s[20:])
class NoCacheQueue(Queue):
can_cache_declaration = False
class AMQPBackend(BaseBackend):
"""The AMQP result backend.
Deprecated: Please use the RPC backend or a persistent backend.
"""
Exchange = Exchange
Queue = NoCacheQueue
Consumer = Consumer
Producer = Producer
BacklogLimitExceeded = BacklogLimitExceeded
persistent = True
supports_autoexpire = True
supports_native_join = True
retry_policy = {
'max_retries': 20,
'interval_start': 0,
'interval_step': 1,
'interval_max': 1,
}
def __init__(self, app, connection=None, exchange=None, exchange_type=None,
persistent=None, serializer=None, auto_delete=True, **kwargs):
deprecated.warn(
'The AMQP result backend', deprecation='4.0', removal='5.0',
alternative='Please use RPC backend or a persistent backend.')
super(AMQPBackend, self).__init__(app, **kwargs)
conf = self.app.conf
self._connection = connection
self.persistent = self.prepare_persistent(persistent)
self.delivery_mode = 2 if self.persistent else 1
exchange = exchange or conf.result_exchange
exchange_type = exchange_type or conf.result_exchange_type
self.exchange = self._create_exchange(
exchange, exchange_type, self.delivery_mode,
)
self.serializer = serializer or conf.result_serializer
self.auto_delete = auto_delete
def _create_exchange(self, name, type='direct', delivery_mode=2):
return self.Exchange(name=name,
type=type,
delivery_mode=delivery_mode,
durable=self.persistent,
auto_delete=False)
def _create_binding(self, task_id):
name = self.rkey(task_id)
return self.Queue(
name=name,
exchange=self.exchange,
routing_key=name,
durable=self.persistent,
auto_delete=self.auto_delete,
expires=self.expires,
)
def revive(self, channel):
pass
def rkey(self, task_id):
return task_id.replace('-', '')
def destination_for(self, task_id, request):
if request:
return self.rkey(task_id), request.correlation_id or task_id
return self.rkey(task_id), task_id
def store_result(self, task_id, result, state,
traceback=None, request=None, **kwargs):
"""Send task return value and state."""
routing_key, correlation_id = self.destination_for(task_id, request)
if not routing_key:
return
with self.app.amqp.producer_pool.acquire(block=True) as producer:
producer.publish(
{'task_id': task_id, 'status': state,
'result': self.encode_result(result, state),
'traceback': traceback,
'children': self.current_task_children(request)},
exchange=self.exchange,
routing_key=routing_key,
correlation_id=correlation_id,
serializer=self.serializer,
retry=True, retry_policy=self.retry_policy,
declare=self.on_reply_declare(task_id),
delivery_mode=self.delivery_mode,
)
return result
def on_reply_declare(self, task_id):
return [self._create_binding(task_id)]
def wait_for(self, task_id, timeout=None, cache=True,
no_ack=True, on_interval=None,
READY_STATES=states.READY_STATES,
PROPAGATE_STATES=states.PROPAGATE_STATES,
**kwargs):
cached_meta = self._cache.get(task_id)
if cache and cached_meta and \
cached_meta['status'] in READY_STATES:
return cached_meta
else:
try:
return self.consume(task_id, timeout=timeout, no_ack=no_ack,
on_interval=on_interval)
except socket.timeout:
raise TimeoutError('The operation timed out.')
def get_task_meta(self, task_id, backlog_limit=1000):
# Polling and using basic_get
with self.app.pool.acquire_channel(block=True) as (_, channel):
binding = self._create_binding(task_id)(channel)
binding.declare()
prev = latest = acc = None
for i in range(backlog_limit): # spool ffwd
acc = binding.get(
accept=self.accept, no_ack=False,
)
if not acc: # no more messages
break
if acc.payload['task_id'] == task_id:
prev, latest = latest, acc
if prev:
# backends are not expected to keep history,
# so we delete everything except the most recent state.
prev.ack()
prev = None
else:
raise self.BacklogLimitExceeded(task_id)
if latest:
payload = self._cache[task_id] = self.meta_from_decoded(
latest.payload)
latest.requeue()
return payload
else:
# no new state, use previous
try:
return self._cache[task_id]
except KeyError:
# result probably pending.
return {'status': states.PENDING, 'result': None}
poll = get_task_meta # XXX compat
def drain_events(self, connection, consumer,
timeout=None, on_interval=None, now=monotonic, wait=None):
wait = wait or connection.drain_events
results = {}
def callback(meta, message):
if meta['status'] in states.READY_STATES:
results[meta['task_id']] = self.meta_from_decoded(meta)
consumer.callbacks[:] = [callback]
time_start = now()
while 1:
# Total time spent may exceed a single call to wait()
if timeout and now() - time_start >= timeout:
raise socket.timeout()
try:
wait(timeout=1)
except socket.timeout:
pass
if on_interval:
on_interval()
if results: # got event on the wanted channel.
break
self._cache.update(results)
return results
def consume(self, task_id, timeout=None, no_ack=True, on_interval=None):
wait = self.drain_events
with self.app.pool.acquire_channel(block=True) as (conn, channel):
binding = self._create_binding(task_id)
with self.Consumer(channel, binding,
no_ack=no_ack, accept=self.accept) as consumer:
while 1:
try:
return wait(
conn, consumer, timeout, on_interval)[task_id]
except KeyError:
continue
def _many_bindings(self, ids):
return [self._create_binding(task_id) for task_id in ids]
def get_many(self, task_ids, timeout=None, no_ack=True,
on_message=None, on_interval=None,
now=monotonic, getfields=itemgetter('status', 'task_id'),
READY_STATES=states.READY_STATES,
PROPAGATE_STATES=states.PROPAGATE_STATES, **kwargs):
with self.app.pool.acquire_channel(block=True) as (conn, channel):
ids = set(task_ids)
cached_ids = set()
mark_cached = cached_ids.add
for task_id in ids:
try:
cached = self._cache[task_id]
except KeyError:
pass
else:
if cached['status'] in READY_STATES:
yield task_id, cached
mark_cached(task_id)
ids.difference_update(cached_ids)
results = deque()
push_result = results.append
push_cache = self._cache.__setitem__
decode_result = self.meta_from_decoded
def _on_message(message):
body = decode_result(message.decode())
if on_message is not None:
on_message(body)
state, uid = getfields(body)
if state in READY_STATES:
push_result(body) \
if uid in task_ids else push_cache(uid, body)
bindings = self._many_bindings(task_ids)
with self.Consumer(channel, bindings, on_message=_on_message,
accept=self.accept, no_ack=no_ack):
wait = conn.drain_events
popleft = results.popleft
while ids:
wait(timeout=timeout)
while results:
state = popleft()
task_id = state['task_id']
ids.discard(task_id)
push_cache(task_id, state)
yield task_id, state
if on_interval:
on_interval()
def reload_task_result(self, task_id):
raise NotImplementedError(
'reload_task_result is not supported by this backend.')
def reload_group_result(self, task_id):
"""Reload group result, even if it has been previously fetched."""
raise NotImplementedError(
'reload_group_result is not supported by this backend.')
def save_group(self, group_id, result):
raise NotImplementedError(
'save_group is not supported by this backend.')
def restore_group(self, group_id, cache=True):
raise NotImplementedError(
'restore_group is not supported by this backend.')
def delete_group(self, group_id):
raise NotImplementedError(
'delete_group is not supported by this backend.')
def __reduce__(self, args=(), kwargs={}):
kwargs.update(
connection=self._connection,
exchange=self.exchange.name,
exchange_type=self.exchange.type,
persistent=self.persistent,
serializer=self.serializer,
auto_delete=self.auto_delete,
expires=self.expires,
)
return super(AMQPBackend, self).__reduce__(args, kwargs)
def as_uri(self, include_password=True):
return 'amqp://'