zulip/zerver/lib/queue.py

263 lines
9.6 KiB
Python

from __future__ import absolute_import
from django.conf import settings
import pika
import logging
import ujson
import random
import time
import threading
import atexit
from collections import defaultdict
from zerver.lib.utils import statsd
# This simple queuing library doesn't expose much of the power of
# rabbitmq/pika's queuing system; its purpose is to just provide an
# interface for external files to put things into queues and take them
# out from bots without having to import pika code all over our codebase.
class SimpleQueueClient(object):
def __init__(self):
self.log = logging.getLogger('zulip.queue')
self.queues = set()
self.channel = None
self.consumers = defaultdict(set)
self._connect()
def _connect(self):
start = time.time()
self.connection = pika.BlockingConnection(self._get_parameters())
self.channel = self.connection.channel()
self.log.info('SimpleQueueClient connected (connecting took %.3fs)' % (time.time() - start,))
def _reconnect(self):
self.connection = None
self.channel = None
self.queues = set()
self._connect()
def _get_parameters(self):
return pika.ConnectionParameters(settings.RABBITMQ_HOST,
credentials = pika.PlainCredentials(
settings.RABBITMQ_USERNAME, settings.RABBITMQ_PASSWORD))
def _generate_ctag(self, queue_name):
return "%s_%s" % (queue_name, str(random.getrandbits(16)))
def _reconnect_consumer_callback(self, queue, consumer):
self.log.info("Queue reconnecting saved consumer %s to queue %s" % (consumer, queue))
self.ensure_queue(queue, lambda: self.channel.basic_consume(consumer,
queue=queue,
consumer_tag=self._generate_ctag(queue)))
def _reconnect_consumer_callbacks(self):
for queue, consumers in self.consumers.items():
for consumer in consumers:
self._reconnect_consumer_callback(queue, consumer)
def close(self):
if self.connection:
self.connection.close()
def ready(self):
return self.channel is not None
def ensure_queue(self, queue_name, callback):
'''Ensure that a given queue has been declared, and then call
the callback with no arguments.'''
if not self.connection.is_open:
self._connect()
if queue_name not in self.queues:
self.channel.queue_declare(queue=queue_name, durable=True)
self.queues.add(queue_name)
callback()
def publish(self, queue_name, body):
def do_publish():
self.channel.basic_publish(
exchange='',
routing_key=queue_name,
properties=pika.BasicProperties(delivery_mode=2),
body=body)
statsd.incr("rabbitmq.publish.%s" % (queue_name,))
self.ensure_queue(queue_name, do_publish)
def json_publish(self, queue_name, body):
try:
return self.publish(queue_name, ujson.dumps(body))
except (AttributeError, pika.exceptions.AMQPConnectionError):
self.log.warning("Failed to send to rabbitmq, trying to reconnect and send again")
self._reconnect()
return self.publish(queue_name, ujson.dumps(body))
def register_consumer(self, queue_name, consumer):
def wrapped_consumer(ch, method, properties, body):
try:
consumer(ch, method, properties, body)
ch.basic_ack(delivery_tag=method.delivery_tag)
except Exception as e:
ch.basic_nack(delivery_tag=method.delivery_tag)
raise e
self.consumers[queue_name].add(wrapped_consumer)
self.ensure_queue(queue_name,
lambda: self.channel.basic_consume(wrapped_consumer, queue=queue_name,
consumer_tag=self._generate_ctag(queue_name)))
def register_json_consumer(self, queue_name, callback):
def wrapped_callback(ch, method, properties, body):
return callback(ujson.loads(body))
return self.register_consumer(queue_name, wrapped_callback)
def drain_queue(self, queue_name, json=False):
"Returns all messages in the desired queue"
messages =[]
def opened():
while True:
(meta, _, message) = self.channel.basic_get(queue_name)
if not message:
break;
self.channel.basic_ack(meta.delivery_tag)
if json:
message = ujson.loads(message)
messages.append(message)
self.ensure_queue(queue_name, opened)
return messages
def start_consuming(self):
self.channel.start_consuming()
def stop_consuming(self):
self.channel.stop_consuming()
# Patch pika.adapters.TornadoConnection so that a socket error doesn't
# throw an exception and disconnect the tornado process from the rabbitmq
# queue. Instead, just re-connect as usual
class ExceptionFreeTornadoConnection(pika.adapters.TornadoConnection):
def _adapter_disconnect(self):
try:
super(ExceptionFreeTornadoConnection, self)._adapter_disconnect()
except (pika.exceptions.ProbableAuthenticationError,
pika.exceptions.ProbableAccessDeniedError,
pika.exceptions.IncompatibleProtocolError) as e:
logging.warning("Caught exception '%r' in ExceptionFreeTornadoConnection when \
calling _adapter_disconnect, ignoring" % (e,))
class TornadoQueueClient(SimpleQueueClient):
# Based on:
# https://pika.readthedocs.org/en/0.9.8/examples/asynchronous_consumer_example.html
def __init__(self):
super(TornadoQueueClient, self).__init__()
self._on_open_cbs = []
def _connect(self, on_open_cb = None):
self.log.info("Beginning TornadoQueueClient connection")
if on_open_cb:
self._on_open_cbs.append(on_open_cb)
self.connection = ExceptionFreeTornadoConnection(
self._get_parameters(),
on_open_callback = self._on_open,
stop_ioloop_on_close = False)
self.connection.add_on_close_callback(self._on_connection_closed)
def _reconnect(self):
self.connection = None
self.channel = None
self.queues = set()
self._connect()
def _on_open(self, connection):
self.connection.channel(
on_open_callback = self._on_channel_open)
def _on_channel_open(self, channel):
self.channel = channel
for callback in self._on_open_cbs:
callback()
self._reconnect_consumer_callbacks()
self.log.info('TornadoQueueClient connected')
def _on_connection_closed(self, connection, reply_code, reply_text):
self.log.warning("TornadoQueueClient lost connection to RabbitMQ, reconnecting...")
from tornado import ioloop
# Try to reconnect in two seconds
retry_seconds = 2
def on_timeout():
try:
self._reconnect()
except pika.exceptions.AMQPConnectionError:
self.log.critical("Failed to reconnect to RabbitMQ, retrying...")
ioloop.IOLoop.instance().add_timeout(time.time() + retry_seconds, on_timeout)
ioloop.IOLoop.instance().add_timeout(time.time() + retry_seconds, on_timeout)
def ensure_queue(self, queue_name, callback):
def finish(frame):
self.queues.add(queue_name)
callback()
if queue_name not in self.queues:
# If we're not connected yet, send this message
# once we have created the channel
if not self.ready():
self._on_open_cbs.append(lambda: self.ensure_queue(queue_name, callback))
return
self.channel.queue_declare(queue=queue_name, durable=True, callback=finish)
else:
callback()
def register_consumer(self, queue_name, consumer):
def wrapped_consumer(ch, method, properties, body):
consumer(ch, method, properties, body)
ch.basic_ack(delivery_tag=method.delivery_tag)
if not self.ready():
self.consumers[queue_name].add(wrapped_consumer)
return
self.consumers[queue_name].add(wrapped_consumer)
self.ensure_queue(queue_name,
lambda: self.channel.basic_consume(wrapped_consumer, queue=queue_name,
consumer_tag=self._generate_ctag(queue_name)))
queue_client = None
def get_queue_client():
global queue_client
if queue_client is None:
if settings.RUNNING_INSIDE_TORNADO and settings.USING_RABBITMQ:
queue_client = TornadoQueueClient()
elif settings.USING_RABBITMQ:
queue_client = SimpleQueueClient()
return queue_client
def setup_tornado_rabbitmq():
# When tornado is shut down, disconnect cleanly from rabbitmq
if settings.USING_RABBITMQ:
atexit.register(lambda: queue_client.close())
# We using a simple lock to prevent multiple RabbitMQ messages being
# sent to the SimpleQueueClient at the same time; this is a workaround
# for an issue with the pika BlockingConnection where using
# BlockingConnection for multiple queues causes the channel to
# randomly close.
queue_lock = threading.RLock()
def queue_json_publish(queue_name, event, processor):
with queue_lock:
if settings.USING_RABBITMQ:
get_queue_client().json_publish(queue_name, event)
else:
processor(event)