This document describes the current stable version of Kombu (5.3). For development docs, go here.
Source code for kombu.transport.redis
"""Redis transport module for Kombu.
Features
========
* Type: Virtual
* Supports Direct: Yes
* Supports Topic: Yes
* Supports Fanout: Yes
* Supports Priority: Yes
* Supports TTL: No
Connection String
=================
Connection string has the following format:
.. code-block::
redis://[USER:PASSWORD@]REDIS_ADDRESS[:PORT][/VIRTUALHOST]
rediss://[USER:PASSWORD@]REDIS_ADDRESS[:PORT][/VIRTUALHOST]
To use sentinel for dynamic Redis discovery,
the connection string has following format:
.. code-block::
sentinel://[USER:PASSWORD@]SENTINEL_ADDRESS[:PORT]
Transport Options
=================
* ``sep``
* ``ack_emulation``: (bool) If set to True transport will
simulate Acknowledge of AMQP protocol.
* ``unacked_key``
* ``unacked_index_key``
* ``unacked_mutex_key``
* ``unacked_mutex_expire``
* ``visibility_timeout``
* ``unacked_restore_limit``
* ``fanout_prefix``
* ``fanout_patterns``
* ``global_keyprefix``: (str) The global key prefix to be prepended to all keys
used by Kombu
* ``socket_timeout``
* ``socket_connect_timeout``
* ``socket_keepalive``
* ``socket_keepalive_options``
* ``queue_order_strategy``
* ``max_connections``
* ``health_check_interval``
* ``retry_on_timeout``
* ``priority_steps``
"""
from __future__ import annotations
import functools
import numbers
import socket
from bisect import bisect
from collections import namedtuple
from contextlib import contextmanager
from queue import Empty
from time import time
from vine import promise
from kombu.exceptions import InconsistencyError, VersionMismatch
from kombu.log import get_logger
from kombu.utils.compat import register_after_fork
from kombu.utils.encoding import bytes_to_str
from kombu.utils.eventio import ERR, READ, poll
from kombu.utils.functional import accepts_argument
from kombu.utils.json import dumps, loads
from kombu.utils.objects import cached_property
from kombu.utils.scheduling import cycle_by_name
from kombu.utils.url import _parse_url
from . import virtual
try:
import redis
except ImportError: # pragma: no cover
redis = None
try:
from redis import sentinel
except ImportError: # pragma: no cover
sentinel = None
logger = get_logger('kombu.transport.redis')
crit, warn = logger.critical, logger.warn
DEFAULT_PORT = 6379
DEFAULT_DB = 0
DEFAULT_HEALTH_CHECK_INTERVAL = 25
PRIORITY_STEPS = [0, 3, 6, 9]
error_classes_t = namedtuple('error_classes_t', (
'connection_errors', 'channel_errors',
))
# This implementation may seem overly complex, but I assure you there is
# a good reason for doing it this way.
#
# Consuming from several connections enables us to emulate channels,
# which means we can have different service guarantees for individual
# channels.
#
# So we need to consume messages from multiple connections simultaneously,
# and using epoll means we don't have to do so using multiple threads.
#
# Also it means we can easily use PUBLISH/SUBSCRIBE to do fanout
# exchanges (broadcast), as an alternative to pushing messages to fanout-bound
# queues manually.
def get_redis_error_classes():
"""Return tuple of redis error classes."""
from redis import exceptions
# This exception suddenly changed name between redis-py versions
if hasattr(exceptions, 'InvalidData'):
DataError = exceptions.InvalidData
else:
DataError = exceptions.DataError
return error_classes_t(
(virtual.Transport.connection_errors + (
InconsistencyError,
socket.error,
IOError,
OSError,
exceptions.ConnectionError,
exceptions.BusyLoadingError,
exceptions.AuthenticationError,
exceptions.TimeoutError)),
(virtual.Transport.channel_errors + (
DataError,
exceptions.InvalidResponse,
exceptions.ResponseError)),
)
def get_redis_ConnectionError():
"""Return the redis ConnectionError exception class."""
from redis import exceptions
return exceptions.ConnectionError
class MutexHeld(Exception):
"""Raised when another party holds the lock."""
@contextmanager
def Mutex(client, name, expire):
"""Acquire redis lock in non blocking way.
Raise MutexHeld if not successful.
"""
lock = client.lock(name, timeout=expire)
lock_acquired = False
try:
lock_acquired = lock.acquire(blocking=False)
if lock_acquired:
yield
else:
raise MutexHeld()
finally:
if lock_acquired:
try:
lock.release()
except redis.exceptions.LockNotOwnedError:
# when lock is expired
pass
def _after_fork_cleanup_channel(channel):
channel._after_fork()
class GlobalKeyPrefixMixin:
"""Mixin to provide common logic for global key prefixing.
Overriding all the methods used by Kombu with the same key prefixing logic
would be cumbersome and inefficient. Hence, we override the command
execution logic that is called by all commands.
"""
PREFIXED_SIMPLE_COMMANDS = [
"HDEL",
"HGET",
"HLEN",
"HSET",
"LLEN",
"LPUSH",
"PUBLISH",
"RPUSH",
"RPOP",
"SADD",
"SREM",
"SET",
"SMEMBERS",
"ZADD",
"ZREM",
"ZREVRANGEBYSCORE",
]
PREFIXED_COMPLEX_COMMANDS = {
"DEL": {"args_start": 0, "args_end": None},
"BRPOP": {"args_start": 0, "args_end": -1},
"EVALSHA": {"args_start": 2, "args_end": 3},
"WATCH": {"args_start": 0, "args_end": None},
}
def _prefix_args(self, args):
args = list(args)
command = args.pop(0)
if command in self.PREFIXED_SIMPLE_COMMANDS:
args[0] = self.global_keyprefix + str(args[0])
elif command in self.PREFIXED_COMPLEX_COMMANDS:
args_start = self.PREFIXED_COMPLEX_COMMANDS[command]["args_start"]
args_end = self.PREFIXED_COMPLEX_COMMANDS[command]["args_end"]
pre_args = args[:args_start] if args_start > 0 else []
post_args = []
if args_end is not None:
post_args = args[args_end:]
args = pre_args + [
self.global_keyprefix + str(arg)
for arg in args[args_start:args_end]
] + post_args
return [command, *args]
def parse_response(self, connection, command_name, **options):
"""Parse a response from the Redis server.
Method wraps ``redis.parse_response()`` to remove prefixes of keys
returned by redis command.
"""
ret = super().parse_response(connection, command_name, **options)
if command_name == 'BRPOP' and ret:
key, value = ret
key = key[len(self.global_keyprefix):]
return key, value
return ret
def execute_command(self, *args, **kwargs):
return super().execute_command(*self._prefix_args(args), **kwargs)
def pipeline(self, transaction=True, shard_hint=None):
return PrefixedRedisPipeline(
self.connection_pool,
self.response_callbacks,
transaction,
shard_hint,
global_keyprefix=self.global_keyprefix,
)
class PrefixedStrictRedis(GlobalKeyPrefixMixin, redis.Redis):
"""Returns a ``StrictRedis`` client that prefixes the keys it uses."""
def __init__(self, *args, **kwargs):
self.global_keyprefix = kwargs.pop('global_keyprefix', '')
redis.Redis.__init__(self, *args, **kwargs)
def pubsub(self, **kwargs):
return PrefixedRedisPubSub(
self.connection_pool,
global_keyprefix=self.global_keyprefix,
**kwargs,
)
class PrefixedRedisPipeline(GlobalKeyPrefixMixin, redis.client.Pipeline):
"""Custom Redis pipeline that takes global_keyprefix into consideration.
As the ``PrefixedStrictRedis`` client uses the `global_keyprefix` to prefix
the keys it uses, the pipeline called by the client must be able to prefix
the keys as well.
"""
def __init__(self, *args, **kwargs):
self.global_keyprefix = kwargs.pop('global_keyprefix', '')
redis.client.Pipeline.__init__(self, *args, **kwargs)
class PrefixedRedisPubSub(redis.client.PubSub):
"""Redis pubsub client that takes global_keyprefix into consideration."""
PUBSUB_COMMANDS = (
"SUBSCRIBE",
"UNSUBSCRIBE",
"PSUBSCRIBE",
"PUNSUBSCRIBE",
)
def __init__(self, *args, **kwargs):
self.global_keyprefix = kwargs.pop('global_keyprefix', '')
super().__init__(*args, **kwargs)
def _prefix_args(self, args):
args = list(args)
command = args.pop(0)
if command in self.PUBSUB_COMMANDS:
args = [
self.global_keyprefix + str(arg)
for arg in args
]
return [command, *args]
def parse_response(self, *args, **kwargs):
"""Parse a response from the Redis server.
Method wraps ``PubSub.parse_response()`` to remove prefixes of keys
returned by redis command.
"""
ret = super().parse_response(*args, **kwargs)
if ret is None:
return ret
# response formats
# SUBSCRIBE and UNSUBSCRIBE
# -> [message type, channel, message]
# PSUBSCRIBE and PUNSUBSCRIBE
# -> [message type, pattern, channel, message]
message_type, *channels, message = ret
return [
message_type,
*[channel[len(self.global_keyprefix):] for channel in channels],
message,
]
def execute_command(self, *args, **kwargs):
return super().execute_command(*self._prefix_args(args), **kwargs)
class QoS(virtual.QoS):
"""Redis Ack Emulation."""
restore_at_shutdown = True
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._vrestore_count = 0
def append(self, message, delivery_tag):
delivery = message.delivery_info
EX, RK = delivery['exchange'], delivery['routing_key']
# TODO: Remove this once we soley on Redis-py 3.0.0+
if redis.VERSION[0] >= 3:
# Redis-py changed the format of zadd args in v3.0.0
zadd_args = [{delivery_tag: time()}]
else:
zadd_args = [time(), delivery_tag]
with self.pipe_or_acquire() as pipe:
pipe.zadd(self.unacked_index_key, *zadd_args) \
.hset(self.unacked_key, delivery_tag,
dumps([message._raw, EX, RK])) \
.execute()
super().append(message, delivery_tag)
def restore_unacked(self, client=None):
with self.channel.conn_or_acquire(client) as client:
for tag in self._delivered:
self.restore_by_tag(tag, client=client)
self._delivered.clear()
def ack(self, delivery_tag):
self._remove_from_indices(delivery_tag).execute()
super().ack(delivery_tag)
def reject(self, delivery_tag, requeue=False):
if requeue:
self.restore_by_tag(delivery_tag, leftmost=True)
else:
self._remove_from_indices(delivery_tag).execute()
super().ack(delivery_tag)
@contextmanager
def pipe_or_acquire(self, pipe=None, client=None):
if pipe:
yield pipe
else:
with self.channel.conn_or_acquire(client) as client:
yield client.pipeline()
def _remove_from_indices(self, delivery_tag, pipe=None):
with self.pipe_or_acquire(pipe) as pipe:
return pipe.zrem(self.unacked_index_key, delivery_tag) \
.hdel(self.unacked_key, delivery_tag)
def restore_visible(self, start=0, num=10, interval=10):
self._vrestore_count += 1
if (self._vrestore_count - 1) % interval:
return
with self.channel.conn_or_acquire() as client:
ceil = time() - self.visibility_timeout
try:
with Mutex(client, self.unacked_mutex_key,
self.unacked_mutex_expire):
visible = client.zrevrangebyscore(
self.unacked_index_key, ceil, 0,
start=num and start, num=num, withscores=True)
for tag, score in visible or []:
self.restore_by_tag(tag, client)
except MutexHeld:
pass
def restore_by_tag(self, tag, client=None, leftmost=False):
def restore_transaction(pipe):
p = pipe.hget(self.unacked_key, tag)
pipe.multi()
self._remove_from_indices(tag, pipe)
if p:
M, EX, RK = loads(bytes_to_str(p)) # json is unicode
self.channel._do_restore_message(M, EX, RK, pipe, leftmost)
with self.channel.conn_or_acquire(client) as client:
client.transaction(restore_transaction, self.unacked_key)
@cached_property
def unacked_key(self):
return self.channel.unacked_key
@cached_property
def unacked_index_key(self):
return self.channel.unacked_index_key
@cached_property
def unacked_mutex_key(self):
return self.channel.unacked_mutex_key
@cached_property
def unacked_mutex_expire(self):
return self.channel.unacked_mutex_expire
@cached_property
def visibility_timeout(self):
return self.channel.visibility_timeout
class MultiChannelPoller:
"""Async I/O poller for Redis transport."""
eventflags = READ | ERR
#: Set by :meth:`get` while reading from the socket.
_in_protected_read = False
#: Set of one-shot callbacks to call after reading from socket.
after_read = None
def __init__(self):
# active channels
self._channels = set()
# file descriptor -> channel map.
self._fd_to_chan = {}
# channel -> socket map
self._chan_to_sock = {}
# poll implementation (epoll/kqueue/select)
self.poller = poll()
# one-shot callbacks called after reading from socket.
self.after_read = set()
def close(self):
for fd in self._chan_to_sock.values():
try:
self.poller.unregister(fd)
except (KeyError, ValueError):
pass
self._channels.clear()
self._fd_to_chan.clear()
self._chan_to_sock.clear()
def add(self, channel):
self._channels.add(channel)
def discard(self, channel):
self._channels.discard(channel)
def _on_connection_disconnect(self, connection):
try:
self.poller.unregister(connection._sock)
except (AttributeError, TypeError):
pass
def _register(self, channel, client, type):
if (channel, client, type) in self._chan_to_sock:
self._unregister(channel, client, type)
if client.connection._sock is None: # not connected yet.
client.connection.connect()
sock = client.connection._sock
self._fd_to_chan[sock.fileno()] = (channel, type)
self._chan_to_sock[(channel, client, type)] = sock
self.poller.register(sock, self.eventflags)
def _unregister(self, channel, client, type):
self.poller.unregister(self._chan_to_sock[(channel, client, type)])
def _client_registered(self, channel, client, cmd):
if getattr(client, 'connection', None) is None:
client.connection = client.connection_pool.get_connection('_')
return (client.connection._sock is not None and
(channel, client, cmd) in self._chan_to_sock)
def _register_BRPOP(self, channel):
"""Enable BRPOP mode for channel."""
ident = channel, channel.client, 'BRPOP'
if not self._client_registered(channel, channel.client, 'BRPOP'):
channel._in_poll = False
self._register(*ident)
if not channel._in_poll: # send BRPOP
channel._brpop_start()
def _register_LISTEN(self, channel):
"""Enable LISTEN mode for channel."""
if not self._client_registered(channel, channel.subclient, 'LISTEN'):
channel._in_listen = False
self._register(channel, channel.subclient, 'LISTEN')
if not channel._in_listen:
channel._subscribe() # send SUBSCRIBE
def on_poll_start(self):
for channel in self._channels:
if channel.active_queues: # BRPOP mode?
if channel.qos.can_consume():
self._register_BRPOP(channel)
if channel.active_fanout_queues: # LISTEN mode?
self._register_LISTEN(channel)
def on_poll_init(self, poller):
self.poller = poller
for channel in self._channels:
return channel.qos.restore_visible(
num=channel.unacked_restore_limit,
)
def maybe_restore_messages(self):
for channel in self._channels:
if channel.active_queues:
# only need to do this once, as they are not local to channel.
return channel.qos.restore_visible(
num=channel.unacked_restore_limit,
)
def maybe_check_subclient_health(self):
for channel in self._channels:
# only if subclient property is cached
client = channel.__dict__.get('subclient')
if client is not None \
and callable(getattr(client, 'check_health', None)):
client.check_health()
def on_readable(self, fileno):
chan, type = self._fd_to_chan[fileno]
if chan.qos.can_consume():
chan.handlers[type]()
def handle_event(self, fileno, event):
if event & READ:
return self.on_readable(fileno), self
elif event & ERR:
chan, type = self._fd_to_chan[fileno]
chan._poll_error(type)
def get(self, callback, timeout=None):
self._in_protected_read = True
try:
for channel in self._channels:
if channel.active_queues: # BRPOP mode?
if channel.qos.can_consume():
self._register_BRPOP(channel)
if channel.active_fanout_queues: # LISTEN mode?
self._register_LISTEN(channel)
events = self.poller.poll(timeout)
if events:
for fileno, event in events:
ret = self.handle_event(fileno, event)
if ret:
return
# - no new data, so try to restore messages.
# - reset active redis commands.
self.maybe_restore_messages()
raise Empty()
finally:
self._in_protected_read = False
while self.after_read:
try:
fun = self.after_read.pop()
except KeyError:
break
else:
fun()
@property
def fds(self):
return self._fd_to_chan
[docs]
class Channel(virtual.Channel):
"""Redis Channel."""
QoS = QoS
_client = None
_subclient = None
_closing = False
supports_fanout = True
keyprefix_queue = '_kombu.binding.%s'
keyprefix_fanout = '/{db}.'
sep = '\x06\x16'
_in_poll = False
_in_listen = False
_fanout_queues = {}
ack_emulation = True
unacked_key = 'unacked'
unacked_index_key = 'unacked_index'
unacked_mutex_key = 'unacked_mutex'
unacked_mutex_expire = 300 # 5 minutes
unacked_restore_limit = None
visibility_timeout = 3600 # 1 hour
priority_steps = PRIORITY_STEPS
socket_timeout = None
socket_connect_timeout = None
socket_keepalive = None
socket_keepalive_options = None
retry_on_timeout = None
max_connections = 10
health_check_interval = DEFAULT_HEALTH_CHECK_INTERVAL
#: Transport option to disable fanout keyprefix.
#: Can also be string, in which case it changes the default
#: prefix ('/{db}.') into to something else. The prefix must
#: include a leading slash and a trailing dot.
#:
#: Enabled by default since Kombu 4.x.
#: Disable for backwards compatibility with Kombu 3.x.
fanout_prefix = True
#: If enabled the fanout exchange will support patterns in routing
#: and binding keys (like a topic exchange but using PUB/SUB).
#:
#: Enabled by default since Kombu 4.x.
#: Disable for backwards compatibility with Kombu 3.x.
fanout_patterns = True
#: The global key prefix will be prepended to all keys used
#: by Kombu, which can be useful when a redis database is shared
#: by different users. By default, no prefix is prepended.
global_keyprefix = ''
#: Order in which we consume from queues.
#:
#: Can be either string alias, or a cycle strategy class
#:
#: - ``round_robin``
#: (:class:`~kombu.utils.scheduling.round_robin_cycle`).
#:
#: Make sure each queue has an equal opportunity to be consumed from.
#:
#: - ``sorted``
#: (:class:`~kombu.utils.scheduling.sorted_cycle`).
#:
#: Consume from queues in alphabetical order.
#: If the first queue in the sorted list always contains messages,
#: then the rest of the queues will never be consumed from.
#:
#: - ``priority``
#: (:class:`~kombu.utils.scheduling.priority_cycle`).
#:
#: Consume from queues in original order, so that if the first
#: queue always contains messages, the rest of the queues
#: in the list will never be consumed from.
#:
#: The default is to consume from queues in round robin.
queue_order_strategy = 'round_robin'
_async_pool = None
_pool = None
from_transport_options = (
virtual.Channel.from_transport_options +
('sep',
'ack_emulation',
'unacked_key',
'unacked_index_key',
'unacked_mutex_key',
'unacked_mutex_expire',
'visibility_timeout',
'unacked_restore_limit',
'fanout_prefix',
'fanout_patterns',
'global_keyprefix',
'socket_timeout',
'socket_connect_timeout',
'socket_keepalive',
'socket_keepalive_options',
'queue_order_strategy',
'max_connections',
'health_check_interval',
'retry_on_timeout',
'priority_steps') # <-- do not add comma here!
)
connection_class = redis.Connection if redis else None
connection_class_ssl = redis.SSLConnection if redis else None
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
if not self.ack_emulation: # disable visibility timeout
self.QoS = virtual.QoS
self._queue_cycle = cycle_by_name(self.queue_order_strategy)()
self.Client = self._get_client()
self.ResponseError = self._get_response_error()
self.active_fanout_queues = set()
self.auto_delete_queues = set()
self._fanout_to_queue = {}
self.handlers = {'BRPOP': self._brpop_read, 'LISTEN': self._receive}
if self.fanout_prefix:
if isinstance(self.fanout_prefix, str):
self.keyprefix_fanout = self.fanout_prefix
else:
# previous versions did not set a fanout, so cannot enable
# by default.
self.keyprefix_fanout = ''
# Evaluate connection.
try:
self.client.ping()
except Exception:
self._disconnect_pools()
raise
self.connection.cycle.add(self) # add to channel poller.
# copy errors, in case channel closed but threads still
# are still waiting for data.
self.connection_errors = self.connection.connection_errors
if register_after_fork is not None:
register_after_fork(self, _after_fork_cleanup_channel)
def _after_fork(self):
self._disconnect_pools()
def _disconnect_pools(self):
pool = self._pool
async_pool = self._async_pool
self._async_pool = self._pool = None
if pool is not None:
pool.disconnect()
if async_pool is not None:
async_pool.disconnect()
def _on_connection_disconnect(self, connection):
if self._in_poll is connection:
self._in_poll = None
if self._in_listen is connection:
self._in_listen = None
if self.connection and self.connection.cycle:
self.connection.cycle._on_connection_disconnect(connection)
def _do_restore_message(self, payload, exchange, routing_key,
pipe, leftmost=False):
try:
try:
payload['headers']['redelivered'] = True
payload['properties']['delivery_info']['redelivered'] = True
except KeyError:
pass
for queue in self._lookup(exchange, routing_key):
(pipe.lpush if leftmost else pipe.rpush)(
queue, dumps(payload),
)
except Exception:
crit('Could not restore message: %r', payload, exc_info=True)
def _restore(self, message, leftmost=False):
if not self.ack_emulation:
return super()._restore(message)
tag = message.delivery_tag
def restore_transaction(pipe):
P = pipe.hget(self.unacked_key, tag)
pipe.multi()
pipe.hdel(self.unacked_key, tag)
if P:
M, EX, RK = loads(bytes_to_str(P)) # json is unicode
self._do_restore_message(M, EX, RK, pipe, leftmost)
with self.conn_or_acquire() as client:
client.transaction(restore_transaction, self.unacked_key)
def _restore_at_beginning(self, message):
return self._restore(message, leftmost=True)
[docs]
def basic_consume(self, queue, *args, **kwargs):
if queue in self._fanout_queues:
exchange, _ = self._fanout_queues[queue]
self.active_fanout_queues.add(queue)
self._fanout_to_queue[exchange] = queue
ret = super().basic_consume(queue, *args, **kwargs)
# Update fair cycle between queues.
#
# We cycle between queues fairly to make sure that
# each queue is equally likely to be consumed from,
# so that a very busy queue will not block others.
#
# This works by using Redis's `BRPOP` command and
# by rotating the most recently used queue to the
# and of the list. See Kombu github issue #166 for
# more discussion of this method.
self._update_queue_cycle()
return ret
[docs]
def basic_cancel(self, consumer_tag):
# If we are busy reading messages we may experience
# a race condition where a message is consumed after
# canceling, so we must delay this operation until reading
# is complete (Issue celery/celery#1773).
connection = self.connection
if connection:
if connection.cycle._in_protected_read:
return connection.cycle.after_read.add(
promise(self._basic_cancel, (consumer_tag,)),
)
return self._basic_cancel(consumer_tag)
def _basic_cancel(self, consumer_tag):
try:
queue = self._tag_to_queue[consumer_tag]
except KeyError:
return
try:
self.active_fanout_queues.remove(queue)
except KeyError:
pass
else:
self._unsubscribe_from(queue)
try:
exchange, _ = self._fanout_queues[queue]
self._fanout_to_queue.pop(exchange)
except KeyError:
pass
ret = super().basic_cancel(consumer_tag)
self._update_queue_cycle()
return ret
def _get_publish_topic(self, exchange, routing_key):
if routing_key and self.fanout_patterns:
return ''.join([self.keyprefix_fanout, exchange, '/', routing_key])
return ''.join([self.keyprefix_fanout, exchange])
def _get_subscribe_topic(self, queue):
exchange, routing_key = self._fanout_queues[queue]
return self._get_publish_topic(exchange, routing_key)
def _subscribe(self):
keys = [self._get_subscribe_topic(queue)
for queue in self.active_fanout_queues]
if not keys:
return
c = self.subclient
if c.connection._sock is None:
c.connection.connect()
self._in_listen = c.connection
c.psubscribe(keys)
def _unsubscribe_from(self, queue):
topic = self._get_subscribe_topic(queue)
c = self.subclient
if c.connection and c.connection._sock:
c.unsubscribe([topic])
def _handle_message(self, client, r):
if bytes_to_str(r[0]) == 'unsubscribe' and r[2] == 0:
client.subscribed = False
return
if bytes_to_str(r[0]) == 'pmessage':
type, pattern, channel, data = r[0], r[1], r[2], r[3]
else:
type, pattern, channel, data = r[0], None, r[1], r[2]
return {
'type': type,
'pattern': pattern,
'channel': channel,
'data': data,
}
def _receive(self):
c = self.subclient
ret = []
try:
ret.append(self._receive_one(c))
except Empty:
pass
while c.connection is not None and c.connection.can_read(timeout=0):
ret.append(self._receive_one(c))
return any(ret)
def _receive_one(self, c):
response = None
try:
response = c.parse_response()
except self.connection_errors:
self._in_listen = None
raise
if isinstance(response, (list, tuple)):
payload = self._handle_message(c, response)
if bytes_to_str(payload['type']).endswith('message'):
channel = bytes_to_str(payload['channel'])
if payload['data']:
if channel[0] == '/':
_, _, channel = channel.partition('.')
try:
message = loads(bytes_to_str(payload['data']))
except (TypeError, ValueError):
warn('Cannot process event on channel %r: %s',
channel, repr(payload)[:4096], exc_info=1)
raise Empty()
exchange = channel.split('/', 1)[0]
self.connection._deliver(
message, self._fanout_to_queue[exchange])
return True
def _brpop_start(self, timeout=1):
queues = self._queue_cycle.consume(len(self.active_queues))
if not queues:
return
keys = [self._q_for_pri(queue, pri) for pri in self.priority_steps
for queue in queues] + [timeout or 0]
self._in_poll = self.client.connection
command_args = ['BRPOP', *keys]
if self.global_keyprefix:
command_args = self.client._prefix_args(command_args)
self.client.connection.send_command(*command_args)
def _brpop_read(self, **options):
try:
try:
dest__item = self.client.parse_response(self.client.connection,
'BRPOP',
**options)
except self.connection_errors:
# if there's a ConnectionError, disconnect so the next
# iteration will reconnect automatically.
self.client.connection.disconnect()
raise
if dest__item:
dest, item = dest__item
dest = bytes_to_str(dest).rsplit(self.sep, 1)[0]
self._queue_cycle.rotate(dest)
self.connection._deliver(loads(bytes_to_str(item)), dest)
return True
else:
raise Empty()
finally:
self._in_poll = None
def _poll_error(self, type, **options):
if type == 'LISTEN':
self.subclient.parse_response()
else:
self.client.parse_response(self.client.connection, type)
def _get(self, queue):
with self.conn_or_acquire() as client:
for pri in self.priority_steps:
item = client.rpop(self._q_for_pri(queue, pri))
if item:
return loads(bytes_to_str(item))
raise Empty()
def _size(self, queue):
with self.conn_or_acquire() as client:
with client.pipeline() as pipe:
for pri in self.priority_steps:
pipe = pipe.llen(self._q_for_pri(queue, pri))
sizes = pipe.execute()
return sum(size for size in sizes
if isinstance(size, numbers.Integral))
def _q_for_pri(self, queue, pri):
pri = self.priority(pri)
if pri:
return f"{queue}{self.sep}{pri}"
return queue
def _put(self, queue, message, **kwargs):
"""Deliver message."""
pri = self._get_message_priority(message, reverse=False)
with self.conn_or_acquire() as client:
client.lpush(self._q_for_pri(queue, pri), dumps(message))
def _put_fanout(self, exchange, message, routing_key, **kwargs):
"""Deliver fanout message."""
with self.conn_or_acquire() as client:
client.publish(
self._get_publish_topic(exchange, routing_key),
dumps(message),
)
def _new_queue(self, queue, auto_delete=False, **kwargs):
if auto_delete:
self.auto_delete_queues.add(queue)
def _queue_bind(self, exchange, routing_key, pattern, queue):
if self.typeof(exchange).type == 'fanout':
# Mark exchange as fanout.
self._fanout_queues[queue] = (
exchange, routing_key.replace('#', '*'),
)
with self.conn_or_acquire() as client:
client.sadd(self.keyprefix_queue % (exchange,),
self.sep.join([routing_key or '',
pattern or '',
queue or '']))
def _delete(self, queue, exchange, routing_key, pattern, *args, **kwargs):
self.auto_delete_queues.discard(queue)
with self.conn_or_acquire(client=kwargs.get('client')) as client:
client.srem(self.keyprefix_queue % (exchange,),
self.sep.join([routing_key or '',
pattern or '',
queue or '']))
with client.pipeline() as pipe:
for pri in self.priority_steps:
pipe = pipe.delete(self._q_for_pri(queue, pri))
pipe.execute()
def _has_queue(self, queue, **kwargs):
with self.conn_or_acquire() as client:
with client.pipeline() as pipe:
for pri in self.priority_steps:
pipe = pipe.exists(self._q_for_pri(queue, pri))
return any(pipe.execute())
[docs]
def get_table(self, exchange):
key = self.keyprefix_queue % exchange
with self.conn_or_acquire() as client:
values = client.smembers(key)
if not values:
# table does not exists since all queues bound to the exchange
# were deleted. We need just return empty list.
return []
return [tuple(bytes_to_str(val).split(self.sep)) for val in values]
def _purge(self, queue):
with self.conn_or_acquire() as client:
with client.pipeline() as pipe:
for pri in self.priority_steps:
priq = self._q_for_pri(queue, pri)
pipe = pipe.llen(priq).delete(priq)
sizes = pipe.execute()
return sum(sizes[::2])
[docs]
def close(self):
self._closing = True
if self._in_poll:
try:
self._brpop_read()
except Empty:
pass
if not self.closed:
# remove from channel poller.
self.connection.cycle.discard(self)
# delete fanout bindings
client = self.__dict__.get('client') # only if property cached
if client is not None:
for queue in self._fanout_queues:
if queue in self.auto_delete_queues:
self.queue_delete(queue, client=client)
self._disconnect_pools()
self._close_clients()
super().close()
def _close_clients(self):
# Close connections
for attr in 'client', 'subclient':
try:
client = self.__dict__[attr]
connection, client.connection = client.connection, None
connection.disconnect()
except (KeyError, AttributeError, self.ResponseError):
pass
def _prepare_virtual_host(self, vhost):
if not isinstance(vhost, numbers.Integral):
if not vhost or vhost == '/':
vhost = DEFAULT_DB
elif vhost.startswith('/'):
vhost = vhost[1:]
try:
vhost = int(vhost)
except ValueError:
raise ValueError(
'Database is int between 0 and limit - 1, not {}'.format(
vhost,
))
return vhost
def _filter_tcp_connparams(self, socket_keepalive=None,
socket_keepalive_options=None, **params):
return params
def _connparams(self, asynchronous=False):
conninfo = self.connection.client
connparams = {
'host': conninfo.hostname or '127.0.0.1',
'port': conninfo.port or self.connection.default_port,
'virtual_host': conninfo.virtual_host,
'username': conninfo.userid,
'password': conninfo.password,
'max_connections': self.max_connections,
'socket_timeout': self.socket_timeout,
'socket_connect_timeout': self.socket_connect_timeout,
'socket_keepalive': self.socket_keepalive,
'socket_keepalive_options': self.socket_keepalive_options,
'health_check_interval': self.health_check_interval,
'retry_on_timeout': self.retry_on_timeout,
}
conn_class = self.connection_class
# If the connection class does not support the `health_check_interval`
# argument then remove it.
if hasattr(conn_class, '__init__'):
# check health_check_interval for the class and bases
# classes
classes = [conn_class]
if hasattr(conn_class, '__bases__'):
classes += list(conn_class.__bases__)
for klass in classes:
if accepts_argument(klass.__init__, 'health_check_interval'):
break
else: # no break
connparams.pop('health_check_interval')
if conninfo.ssl:
# Connection(ssl={}) must be a dict containing the keys:
# 'ssl_cert_reqs', 'ssl_ca_certs', 'ssl_certfile', 'ssl_keyfile'
try:
connparams.update(conninfo.ssl)
connparams['connection_class'] = self.connection_class_ssl
except TypeError:
pass
host = connparams['host']
if '://' in host:
scheme, _, _, username, password, path, query = _parse_url(host)
if scheme == 'socket':
connparams = self._filter_tcp_connparams(**connparams)
connparams.update({
'connection_class': redis.UnixDomainSocketConnection,
'path': '/' + path}, **query)
connparams.pop('socket_connect_timeout', None)
connparams.pop('socket_keepalive', None)
connparams.pop('socket_keepalive_options', None)
connparams['username'] = username
connparams['password'] = password
connparams.pop('host', None)
connparams.pop('port', None)
connparams['db'] = self._prepare_virtual_host(
connparams.pop('virtual_host', None))
channel = self
connection_cls = (
connparams.get('connection_class') or
self.connection_class
)
if asynchronous:
class Connection(connection_cls):
def disconnect(self, *args):
super().disconnect(*args)
channel._on_connection_disconnect(self)
connection_cls = Connection
connparams['connection_class'] = connection_cls
return connparams
def _create_client(self, asynchronous=False):
if asynchronous:
return self.Client(connection_pool=self.async_pool)
return self.Client(connection_pool=self.pool)
def _get_pool(self, asynchronous=False):
params = self._connparams(asynchronous=asynchronous)
self.keyprefix_fanout = self.keyprefix_fanout.format(db=params['db'])
return redis.ConnectionPool(**params)
def _get_client(self):
if redis.VERSION < (3, 2, 0):
raise VersionMismatch(
'Redis transport requires redis-py versions 3.2.0 or later. '
'You have {0.__version__}'.format(redis))
if self.global_keyprefix:
return functools.partial(
PrefixedStrictRedis,
global_keyprefix=self.global_keyprefix,
)
return redis.Redis
[docs]
@contextmanager
def conn_or_acquire(self, client=None):
if client:
yield client
else:
yield self._create_client()
@property
def pool(self):
if self._pool is None:
self._pool = self._get_pool()
return self._pool
@property
def async_pool(self):
if self._async_pool is None:
self._async_pool = self._get_pool(asynchronous=True)
return self._async_pool
@cached_property
def client(self):
"""Client used to publish messages, BRPOP etc."""
return self._create_client(asynchronous=True)
@cached_property
def subclient(self):
"""Pub/Sub connection used to consume fanout queues."""
client = self._create_client(asynchronous=True)
return client.pubsub()
def _update_queue_cycle(self):
self._queue_cycle.update(self.active_queues)
def _get_response_error(self):
from redis import exceptions
return exceptions.ResponseError
@property
def active_queues(self):
"""Set of queues being consumed from (excluding fanout queues)."""
return {queue for queue in self._active_queues
if queue not in self.active_fanout_queues}
[docs]
class Transport(virtual.Transport):
"""Redis Transport."""
Channel = Channel
polling_interval = None # disable sleep between unsuccessful polls.
default_port = DEFAULT_PORT
driver_type = 'redis'
driver_name = 'redis'
implements = virtual.Transport.implements.extend(
asynchronous=True,
exchange_type=frozenset(['direct', 'topic', 'fanout'])
)
if redis:
connection_errors, channel_errors = get_redis_error_classes()
def __init__(self, *args, **kwargs):
if redis is None:
raise ImportError('Missing redis library (pip install redis)')
super().__init__(*args, **kwargs)
# All channels share the same poller.
self.cycle = MultiChannelPoller()
[docs]
def register_with_event_loop(self, connection, loop):
cycle = self.cycle
cycle.on_poll_init(loop.poller)
cycle_poll_start = cycle.on_poll_start
add_reader = loop.add_reader
on_readable = self.on_readable
def _on_disconnect(connection):
if connection._sock:
loop.remove(connection._sock)
# must have started polling or this will break reconnection
if cycle.fds:
# stop polling in the event loop
try:
loop.on_tick.remove(on_poll_start)
except KeyError:
pass
cycle._on_connection_disconnect = _on_disconnect
def on_poll_start():
cycle_poll_start()
[add_reader(fd, on_readable, fd) for fd in cycle.fds]
loop.on_tick.add(on_poll_start)
loop.call_repeatedly(10, cycle.maybe_restore_messages)
health_check_interval = connection.client.transport_options.get(
'health_check_interval',
DEFAULT_HEALTH_CHECK_INTERVAL
)
loop.call_repeatedly(
health_check_interval,
cycle.maybe_check_subclient_health
)
[docs]
def on_readable(self, fileno):
"""Handle AIO event for one of our file descriptors."""
self.cycle.on_readable(fileno)
if sentinel:
class SentinelManagedSSLConnection(
sentinel.SentinelManagedConnection,
redis.SSLConnection):
"""Connect to a Redis server using Sentinel + TLS.
Use Sentinel to identify which Redis server is the current master
to connect to and when connecting to the Master server, use an
SSL Connection.
"""
pass
[docs]
class SentinelChannel(Channel):
"""Channel with explicit Redis Sentinel knowledge.
Broker url is supposed to look like:
.. code-block::
sentinel://0.0.0.0:26379;sentinel://0.0.0.0:26380/...
where each sentinel is separated by a `;`.
Other arguments for the sentinel should come from the transport options
(see `transport_options` of :class:`~kombu.connection.Connection`).
You must provide at least one option in Transport options:
* `master_name` - name of the redis group to poll
Example:
-------
.. code-block:: python
>>> import kombu
>>> c = kombu.Connection(
'sentinel://sentinel1:26379;sentinel://sentinel2:26379',
transport_options={'master_name': 'mymaster'}
)
>>> c.connect()
"""
from_transport_options = Channel.from_transport_options + (
'master_name',
'min_other_sentinels',
'sentinel_kwargs')
connection_class = sentinel.SentinelManagedConnection if sentinel else None
connection_class_ssl = SentinelManagedSSLConnection if sentinel else None
def _sentinel_managed_pool(self, asynchronous=False):
connparams = self._connparams(asynchronous)
additional_params = connparams.copy()
additional_params.pop('host', None)
additional_params.pop('port', None)
sentinels = []
for url in self.connection.client.alt:
url = _parse_url(url)
if url.scheme == 'sentinel':
port = url.port or self.connection.default_port
sentinels.append((url.hostname, port))
# Fallback for when only one sentinel is provided.
if not sentinels:
sentinels.append((connparams['host'], connparams['port']))
sentinel_inst = sentinel.Sentinel(
sentinels,
min_other_sentinels=getattr(self, 'min_other_sentinels', 0),
sentinel_kwargs=getattr(self, 'sentinel_kwargs', None),
**additional_params)
master_name = getattr(self, 'master_name', None)
if master_name is None:
raise ValueError(
"'master_name' transport option must be specified."
)
return sentinel_inst.master_for(
master_name,
redis.Redis,
).connection_pool
def _get_pool(self, asynchronous=False):
return self._sentinel_managed_pool(asynchronous)
class SentinelTransport(Transport):
"""Redis Sentinel Transport."""
default_port = 26379
Channel = SentinelChannel
