How to use pub/sub channels in Redis
implement the Publish/Subscribe messaging
(citing Wikipedia) senders (publishers) are not programmed to send
their messages to specific receivers (subscribers). Rather, published
messages are characterized into channels, without knowledge of what (if
any) subscribers there may be. Subscribers express interest in one or
more channels, and only receive messages that are of interest, without
knowledge of what (if any) publishers there are. This decoupling of
publishers and subscribers can allow for greater scalability and a more
dynamic network topology.
For instance in order to subscribe to channels
client issues a
SUBSCRIBE providing the names of the channels:
SUBSCRIBE foo bar
Messages sent by other clients to these channels will be pushed by Redis to all the subscribed clients.
A client subscribed to one or more channels should not issue commands,
although it can subscribe and unsubscribe to and from other channels.
The replies to subscription and unsubscribing operations are sent in
the form of messages, so that the client can just read a coherent
stream of messages where the first element indicates the type of
message. The commands that are allowed in the context of a subscribed
Please note that when using
redis-cli, in subscribed mode
commands such as
PUNSUBSCRIBE cannot be used because
redis-cli will not accept any commands and can only quit the mode with
Format of pushed messages
A message is an array-reply with three elements.
The first element is the kind of message:
subscribe: means that we successfully subscribed to the channel given as the second element in the reply. The third argument represents the number of channels we are currently subscribed to.
unsubscribe: means that we successfully unsubscribed from the channel given as second element in the reply. The third argument represents the number of channels we are currently subscribed to. When the last argument is zero, we are no longer subscribed to any channel, and the client can issue any kind of Redis command as we are outside the Pub/Sub state.
message: it is a message received as result of a
PUBLISHcommand issued by another client. The second element is the name of the originating channel, and the third argument is the actual message payload.
Database & Scoping
Pub/Sub has no relation to the key space. It was made to not interfere with it on any level, including database numbers.
Publishing on db 10, will be heard by a subscriber on db 1.
If you need scoping of some kind, prefix the channels with the name of the environment (test, staging, production...).
Wire protocol example
SUBSCRIBE first second *3 $9 subscribe $5 first :1 *3 $9 subscribe $6 second :2
At this point, from another client we issue a
against the channel named
> PUBLISH second Hello
This is what the first client receives:
*3 $7 message $6 second $5 Hello
Now the client unsubscribes itself from all the channels using the
UNSUBSCRIBE command without additional arguments:
UNSUBSCRIBE *3 $11 unsubscribe $6 second :1 *3 $11 unsubscribe $5 first :0
The Redis Pub/Sub implementation supports pattern matching. Clients may subscribe to glob-style patterns in order to receive all the messages sent to channel names matching a given pattern.
Will receive all the messages sent to the channel
All the glob-style patterns are valid, so multiple wildcards are supported.
Will then unsubscribe the client from that pattern. No other subscriptions will be affected by this call.
Messages received as a result of pattern matching are sent in a different format:
- The type of the message is
pmessage: it is a message received as result of a
PUBLISHcommand issued by another client, matching a pattern-matching subscription. The second element is the original pattern matched, the third element is the name of the originating channel, and the last element the actual message payload.
PUNSUBSCRIBE commands are acknowledged by the system sending a message
punsubscribe using the same format as the
unsubscribe message format.
Messages matching both a pattern and a channel subscription
A client may receive a single message multiple times if it's subscribed to multiple patterns matching a published message, or if it is subscribed to both patterns and channels matching the message. Like in the following example:
SUBSCRIBE foo PSUBSCRIBE f*
In the above example, if a message is sent to channel
foo, the client
will receive two messages: one of type
message and one of type
The meaning of the subscription count with pattern matching
message types, the last argument is the count of subscriptions still
active. This number is actually the total number of channels and
patterns the client is still subscribed to. So the client will exit
the Pub/Sub state only when this count drops to zero as a result of
unsubscribing from all the channels and patterns.
From 7.0, sharded Pub/Sub is introduced in which shard channels are assigned to slots by the same algorithm used to assign keys to slots.
A shard message must be sent to a node that own the slot the shard channel is hashed to.
The cluster makes sure the published shard messages are forwarded to all nodes in the shard, so clients can subscribe to a shard channel by connecting to either the master responsible for the slot, or to any of its replicas.
SPUBLISH are used to implement sharded Pub/Sub.
Sharded Pub/Sub helps to scale the usage of Pub/Sub in cluster mode. It restricts the propagation of message to be within the shard of a cluster. Hence, the amount of data passing through the cluster bus is limited in comparison to global Pub/Sub where each message propagates to each node in the cluster. This allows users to horizontally scale the Pub/Sub usage by adding more shards.
Pieter Noordhuis provided a great example using EventMachine and Redis to create a multi user high performance web chat.
Client library implementation hints
Because all the messages received contain the original subscription causing the message delivery (the channel in the case of message type, and the original pattern in the case of pmessage type) client libraries may bind the original subscription to callbacks (that can be anonymous functions, blocks, function pointers), using a hash table.
When a message is received an O(1) lookup can be done in order to deliver the message to the registered callback.