The mongodb documentation suggests that a replica set should have an odd number of voting nodes. What is the reason for this?

up vote 7 down vote accepted

Let's imagine that a replica set has even number of nodes (4, for example). Then an unfortunate network partition happens that splits the set in half (2 + 2). Which partition should accept writes? First? Second? Both? What should happen when network is restored? These are all hard questions.

Having odd number of nodes eliminates the questions entirely. The set can't be split exactly in half. So the bigger part will accept writes (to be exact, node must see more than half of nodes (including self) to be elected as primary. So it's 1 of 1, 2 of 3, 3 of 5, 4 of 7 and so on).

  • Correct - MongoDB voting works on the concept of quorum en.wikipedia.org/wiki/Quorum_(distributed_computing) – sweaves Apr 22 '13 at 17:56
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    By the way this is called split-brain. Search for it if you need more info. – Mike Argyriou Sep 15 '15 at 20:02
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    Let me admit my ignorance and ask the naive question... If only one node goes down in an odd numbered replica set, than you have the 'even number of nodes' problem. It would seem like the probability of one node going down would be greater than the probability of two nodes going down. So why wouldn't you want an even number of nodes to guard against the event that has the greater probability? – JohnC Mar 23 '16 at 22:00
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    @JohnC: one node going down is not a problem at all. The other nodes still form the majority and can perform elections, etc. Odd number of nodes requirement is to protect from network partitions when the cluster is split in half. If it contained even number of nodes, then majority can't be formed (as explained in the answer). – Sergio Tulentsev Mar 24 '16 at 8:54
  • Thanks Sergio, makes sense.. Another naive question... If a network partition split does occur and the 'incumbent' primary node is alive but on the minority side of the split, I presume that the node will discontinue its primary node role? – JohnC Mar 28 '16 at 18:00

The voting is done by a majority of voting members.

Imagine a Replica Set with three (voting) members. Let’s say that Node A is primary, and nodes B+C are secondaries. Node A goes down, so nodes B+C go to election. They still do form a majority (two out of three). The election is first decided by priority. If both Nodes B & C have the same priority, then the one who is most up to date in respect to the failed primary (oplog) wins. Let’s say it’s Node B.

Once node A comes back alive, there is no new election. Node B remains the master, and C+A are now secondaries.

On the other hand, if two nodes go down you don’t have a majority, so the replica set can’t accept updates (apply writes) any more until at least one of the two failing servers becomes alive (and connected by the single surviving node) again.

Imagine now a Replica Set with four (voting) members. Let’s say that Node A is primary, and nodes B+C+D are secondaries. Node A goes down, so nodes B+C+D go to election. They of course form majority (three out of four)

However, if two nodes go down you don’t have a majority (two out of four), so the replica set is again at read only mode.

So that’s why an odd number is recommended; If you loose a single member in a 3 members replica set, it’s the same as loosing a single member in a 4 members replica set: you still gain quorum majority and a new primary can be elected (the RS can still elect a new master by majority). On the other hand, if you loose two members in a 3 members replica set or a 4 members replica set (or n/2 members of n-members replica set) – again – the impact is the same: No new leader can be voted by election.

So, to make a long story short, there is no redundancy gain by having an even number of members in a replica set.

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