Consider three nodes(A,B,C) getting key/value data. And the following steps happened

  1. Node A receive key:value (1:15). It is a leader
  2. It replicate to node B and node C
  3. Entry made to node B in pre commit log
  4. Node C fail the entry
  5. Ack from node B is lost.
  6. Nod A fail the entry and sent failure to client
  7. Node A is still leader and B is not in quorum
  8. Client read from node A for key 1 and it returned old value.
  9. node A is down
  10. Node B and node C is up
  11. now node B has an entry in precommit log and node C doesn't.

How does log matching happen at this time. Is node Bgoing to commit that entry or going to discard it. If it is going to commit thenit would be read inconsistent or if it is going to discard then there could be data loss in other cases

1 Answer 1


The error is in step 8. Every read operation must be replicated to other nodes otherwise you risk getting stale data, the system should serve read after it writes a dummy value to the log. In your case (B is offline), the "read" must affect nodes A and C, so when node B comes back online and A dies, C would be able to invalidate B's records.

This is a tricky problem and even Etcd run into it in the past (now it's fixed).

  • It makes sense writing a dummy entry and replicating it for read. But it can impact the performance of reads. But i guess that is a penalty to do consistent reads. Oct 10, 2017 at 23:11
  • @rishabhmittal: Yes, this makes reads linearizable which has a cost. See also the PACELC theorem. Note that there are Paxos variants that employ the use of read leases to grant the ability for nodes to do linearizable reads entirely locally.
    – GManNickG
    Oct 11, 2017 at 6:35
  • @GManNickG Can you please name those Paxos variants? As I understand it's impossible to achieve it with leases because any system (except hard real-time systems) may experience uncontrollable freezes at any time (GC pauses, virtualization issues etc.) so the leases may expire without a system knowing about it.
    – rystsov
    Oct 11, 2017 at 14:08
  • 1
    See "Paxos Quorum Leases: Fast Reads Without Sacrificing Writes", which is essentially a more structured approach to ensuring leases are properly respect. Indeed, one of their assumptions is that while clocks don't need to be synchronized, they do need to have similar-enough drift rate that a simple wait buffer guarantees lease expiration will be detected on the remote node. [1/2]
    – GManNickG
    Oct 11, 2017 at 20:49
  • 1
    By before it serves a request, do you mean before sending the response but after reading and validating the lease? That would still be linearizable right? Otherwise, I think as long as you verify your lease after your local read you're okay - if you paused between, as long as your hardware clock still went up you'll detect your read became out of date. If you're using a software clock that pauses with the VM, I think you're screwed, but I pack that back in with "get a clock that ticks at a ~constant rate".
    – GManNickG
    Oct 12, 2017 at 0:31

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