Greetings overflowers,

In Redis sentinel/cluster setup, can we use the WAIT command with the total number of slaves to ensure strong consistency across the Redis servers? Why not?

Kind regards

1 Answer 1


WAIT implements synchronous replication for Redis. Synchronous replication is required but not sufficient in order to achieve strong consistency. Strong consistency is practically the sum of two things:

  1. Synchronous replication to the majority of nodes on a distributed system.
  2. A way to orchestrate change of leadership (failover basically) so that it is guaranteed that only a node preserving the full history of acknowledged operations in the previous leader can be elected.

WAIT does not provide "2". The replication process in Redis is performed by Sentinel or Redis Cluster, and is not able to provide property 2 (since the synchronous replication in Redis is the exception not the rule, so there was no much focus on that aspect). However what Redis replication does is to attempt to promote the slave that appears to preserve the greatest amount of data. While this does not change the theoretical guarantees of Redis failover, that can still lose acknowledged writes, it means that if you use WAIT, there are more slaves having a given operation into their memory, and in turn it is a lot more likely that in the event of a failover, the operation will be retained. However while this will make a failure mode that discards the acknowledged operation hard to trigger, there always exists a failure mode with this properties.

TLDR: WAIT does not make Redis linearizable, what it does is to make sure the specified number of slaves will receive the write, that in turn makes failover more robust, but without any hard guarantee.

  • 4
    If you want distributed locks with hard guarantees, you have a much better way to do this! The redlock algorithm is an implementation using N different masters, synchronous replication implemented client-side, and is available for several languages. I hope this helps!
    – antirez
    Nov 11, 2015 at 10:37
  • 2
    I don't think your algorithm is safe. For example what happens after a failover? If you pick the slave without a given lock, even if the lock itself reached other N/2+1 nodes, the SETNX in the (new) master will succeed and also WAIT will succeed, since now the other instances are replicating from the new master. If you don't failover, then you can just use a single instance :-) Since you have anyway a non available system during failures. Btw to handle a multi-master system is IMHO simpler, so I would pick redlock regardless.
    – antirez
    Nov 11, 2015 at 11:52
  • 1
    The problem is with the locks already provided to other clients. Example: <old master> gives lock and writes to N/2+1 servers. FAILVER HAPPENS HERE <new master> was not among N/2+1 servers, now all the slaves replicate from it, so the old lock no longer exists inside Redis. However a client is using it. However <new server> will provide the same pock to another client: safety violation, game over.
    – antirez
    Nov 11, 2015 at 22:16
  • 1
    Yep as I said you are not considering that after failovers you may elect a slave which did not received the last lock (or any other past lock still valid from the POV of the client receiving it).
    – antirez
    Nov 12, 2015 at 13:57
  • 4
    Yes @ptntialunrlsd, by totally sacrificing availability of any kind during failures, you are indeed safe. So your replicas will not allow to survive failures but will make writes safer because you can run the different nodes in different geographical locations. All this makes sense if you run AOF in fsync=always mode, otherwise during restarts each replica may lose writes making the schema weak.
    – antirez
    Dec 15, 2015 at 17:08

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