Redis Pub/Sub with Reliability

Question

I've been looking at using Redis Pub/Sub as a replacement to RabbitMQ.

From my understanding Redis's pub/sub holds a persistent connection to each of the subscribers, and if the connection is terminated, all future messages will be lost and dropped on the floor.

One possible solution is to use a list (and blocking wait) to store all the message and pub/sub as just a notification mechanism. I think this gets me most of the way there, but I still have some concerns about the failure cases.

1. what happens when a subscriber dies, and comes back online, how should it process all it's pending messages?
2. when a malformed message comes though the system, how do you handle those exceptions? DeadLetter Queue?
3. is there a standard practice to implementing a retry policy?

Answer 1

When a subscriber (consumer) dies, your list will continue to grow until the client returns. Your producer could trim the list (from either side) once it reaches a specific limit, but that is something you would need to handle at the application level. If you include a timestamp within each message, your consumer can then act on the age of a message, assuming you have application logic you want to enforce on message age.

I'm not sure how a malformed message would enter the system, as the connection to Redis is usually TCP with the its integrity assurances. But if this happens, perhaps due to a bug in message encoding at the producer layer, you could provide a general mechanism for handling errors by keeping a queue-per-producer that received consumer's exception messages.

Retry policies will depend greatly on your application needs. If you need 100% assurance that a message has been received and processed, then you should consider using Redis transactions (MULTI/EXEC) to wrap the work done by a consumer, so you can ensure that a client doesn't remove a message unless it has completed its work. If you need explicit acknowlegement, then you could use an explicit ACK message on a queue dedicated to the producer process(es).

Without knowing more about your application needs, it's hard to know how to choose wisely. Generally, if your messages require full ACID protection, then you probably also need to use redis transactions. If your messages are only meaningful when they are timely, then transactions may not be needed. It sounds as though you can't tolerate dropped messages, so your approach of using a list is good. If you need to implement a priority queue for your messages, you can use the sorted set (the Z-commands) to store your messages, using their priority as the score value, along with a polling consumer.

Answer 2

What I did is use a sorted set using the timestamp as the score and the key to the data as the member value. I use the score from the last item to retrieve the next few ones and then get the keys. Once the work is done I wrap both the zrem and the del in a MULTI/EXEC transaction.

Essentially what Edward said, but with the twist of storing the keys in the sorted set, as my messages can be pretty big.

Hope this helps!

Answer 3

If you want a pub/sub system where subscribers won't lose messages when they die, consider using Redis Streams instead of Redis Pub/sub.

Redis Streams have their own architecture and pros/cons to Redis Pub/sub. With Redis Streams, a subscriber can issue the command:

the last message I received was X, now give me the next message; if there is no new message, then wait for one to arrive.

Antirez's article linked above is a good intro to Redis streams with more info.

Answer 4

Here is a class I wrote just for this purpose:

import logging

from redis import StrictRedis

# Defaults
CONNECT_TIMEOUT_SECS = 5.0  # Control how long to wait while establishing a connection
REQUEST_TIMEOUT_SECS = 120.0  # Request socket timeout


class RedisBaseClient(object):

    def __init__(self, config=None, connect_timeout_secs=CONNECT_TIMEOUT_SECS,
                 request_timeout_secs=REQUEST_TIMEOUT_SECS):
        """
        Load config
        :param config: dict, config
        :param connect_timeout_secs: float, re-connect timeout seconds
        :param request_timeout_secs: float, timeout seconds
        """
        self.read_conn = None
        self.write_conn = None
        self.config = config or {}

        self.CONNECT_TIMEOUT_SECS = connect_timeout_secs
        self.REQUEST_TIMEOUT_SECS = request_timeout_secs

        self.read_connection()

    def _connect(self, host, port):
        return StrictRedis(host=host,
                           port=port,
                           socket_keepalive=False,
                           retry_on_timeout=True,
                           socket_timeout=self.REQUEST_TIMEOUT_SECS,
                           socket_connect_timeout=self.CONNECT_TIMEOUT_SECS)

    def read_connection(self):
        """
        Returns a read connection to redis cache
        """
        if not self.read_conn:
            try:
                self.read_conn = self._connect(self.config['read_host'], self.config['read_port'])
            except KeyError:
                logging.error("RedisCache.read_connection invalid configuration")
                raise
            except Exception as e:
                logging.exception("RedisCache.read_connection unhandled exception {}".format(e))
                raise

        return self.read_conn

    def write_connection(self):
        """
        Returns a write connection to redis cache
        """
        if not self.write_conn:
            try:
                self.write_conn = self._connect(self.config['write_host'], self.config['write_port'])
            except KeyError:
                logging.error("RedisCache.write_connection invalid configuration")
                raise
            except Exception as e:
                logging.exception("RedisCache.write_connection unhandled exception {}".format(e))
                raise

        return self.write_conn


class RedisQueue(RedisBaseClient):

    def get_queue_msg_count(self, q_name):
        """
        Get queue message count
        Return the size of the queue (list).
        :param q_name: str, redis key (queue name)
        :return:
        """
        try:
            msg_count = self.read_connection().llen(q_name)
        except Exception as e:  # pragma: no cover
            msg_count = 0
            logging.warning("RedisQueue.get_queue_msg_count no data for queue {}. {}".format(q_name, e))
        return msg_count

    def is_empty(self, q_name):
        """
        Return True if the queue is empty, False otherwise.
        :param q_name: str, queue name
        :return: bool, is empty
        """
        return self.get_queue_msg_count(q_name) == 0

    def publish(self, q_name, data):
        """
        Publish msg/item to queue.
        :param q_name: str, queue name
        :param data: str, data (message)
        :return: bool, success
        """
        try:
            self.write_connection().rpush(q_name, data)
        except Exception as e:  # pragma: no cover
            logging.warning("RedisQueue.publish for queue {}, msg {}. {}".format(q_name, data, e))
            return False
        return True

    def publish_multiple(self, q_name, data_list):
        """
        Publish multiple msg/items to queue.
        :param q_name: str, queue name
        :param data_list: list of str, data (message)
        :return: bool, success
        """
        try:
            self.write_connection().rpush(q_name, *data_list)
        except Exception as e:  # pragma: no cover
            logging.warning("RedisQueue.publish_multiple for queue {}. {}".format(q_name, e))
            return False
        return True

    def flush_queue(self, q_name):
        """
        Flush a queue to clear work for consumer
        :param q_name:
        :return:
        """
        try:
            self.write_connection().delete(q_name)
        except Exception as e:  # pragma: no cover
            logging.exception("RedisQueue.flush_queue {} error {}".format(q_name, e))
            return False
        return True

    def flush_queues(self, q_names):
        """
        Flush all queues
        :return: bool, success
        """
        try:
            self.write_connection().delete(*q_names)
        except Exception as e:  # pragma: no cover
            logging.exception("RedisQueue.flush_queues {} error {}".format(q_names, e))
            return False
        return True

    def get_messages(self, q_name, prefetch_count=100):
        """
        Get messages from queue
        :param q_name: str, queue name
        :param prefetch_count: int, number of msgs to prefetch
            for consumer (default 1000)
        """
        pipe = self.write_connection().pipeline()
        pipe.lrange(q_name, 0, prefetch_count - 1)  # Get msgs (w/o pop)
        pipe.ltrim(q_name, prefetch_count, -1)  # Trim (pop) list to new value

        messages, trim_success = pipe.execute()

        return messages

    def get_message(self, q_name, timeout=None):
        """
        Pop and return an msg/item from the queue.
        If optional args timeout is not None (the default), block
        if necessary until an item is available.
        Allows for blocking via timeout if queue
        does not exist.
        :param q_name: str, queue name
        :param timeout: int, timeout wait seconds (blocking get)
        :return: str, message
        """
        if timeout is not None:
            msg = self.read_connection().blpop(q_name, timeout=timeout)
            if msg:
                msg = msg[1]
        else:
            msg = self.read_connection().lpop(q_name)

        return msg

    def get_message_safe(self, q_name, timeout=0, processing_prefix='processing'):
        """
        Retrieve a message but also send it to
        a processing queue for later acking
        :param q_name: str, queue name
        :param timeout:
        :param processing_prefix:
        :return:
        """
        # Too bad blpoplpush does not exist
        # item = self.read_connection().brpoplpush(q_name, "{}:{}".format(q_name, processing_prefix), timeout=timeout)

        msg = self.get_message(q_name=q_name, timeout=timeout)
        if msg:
            self.write_connection().lpush("{}:{}".format(q_name, processing_prefix), msg)
        return msg

    def ack_message_safe(self, q_name, message, processing_prefix='processing'):
        """
        Acknowledge a message has been processed
        :param q_name: str, queue name
        :param message: str, message value
        :param processing_prefix: str, prefix of processing queue name
        :return: bool, success
        """
        self.read_connection().lrem("{}:{}".format(q_name, processing_prefix), -1, message)
        return True

    def requeue_message_safe(self, q_name, processing_prefix='processing'):
        """
        Move unprocessed messages from processing queue
        to original queue for re-processing
        :param q_name:
        :param processing_prefix:
        :return: bool, success
        """
        msgs = self.write_connection().lrange("{}:{}".format(q_name, processing_prefix), 0, -1)  # Get all msgs
        if msgs:
            msgs = msgs[::-1]  # Reverse order
            pipe = self.write_connection().pipeline()
            pipe.rpush(q_name, *msgs)
            pipe.ltrim("{}:{}".format(q_name, processing_prefix), 0, -1)  # Cleanup
            pipe.execute()
        return True

Just initialize RedisQueue and use the functions. I think this is what you were after.