Everywhere I look, I see that MongoDB is CP. But when I dig in I see it is eventually consistent. Is it CP when you use safe=true? If so, does that mean that when I write with safe=true, all replicas will be updated before getting the result?

up vote 82 down vote accepted

MongoDB is strongly consistent by default - if you do a write and then do a read, assuming the write was successful you will always be able to read the result of the write you just read. This is because MongoDB is a single-master system and all reads go to the primary by default. If you optionally enable reading from the secondaries then MongoDB becomes eventually consistent where it's possible to read out-of-date results.

MongoDB also gets high-availability through automatic failover in replica sets: http://www.mongodb.org/display/DOCS/Replica+Sets

  • 7
    According to aphyr.com/posts/322-call-me-maybe-mongodb-stale-reads even if you read from the primary node in the replica set you may get stale or dirty data. So is MongoDB strong consistent?? – Mike Argyriou Sep 29 '15 at 17:59
  • 3
    Awesome experiments by Kyle. It really hunts mongo down. I wonder if there are production systems, for example using MongoDB doing payment transactions? If it's just a personal website, who cares strong consistency then. – xin Jun 28 '16 at 15:11
  • 3
    Just for the record, MongoDB v3.4 passed the test designed by Kyle so yes, MongoDB is strongly consistent, even with ReplicaSet and Sharding : mongodb.com/mongodb-3.4-passes-jepsen-test – Maxime Beugnet Oct 19 '17 at 22:06
  • 1
    This answer might be a bit too simplistic, since MongoDB can sacrifice availability from time to time, based on configuration. JoCa's better explains the situations in which it behaves CA/CP/AP – PaoloC Feb 14 at 12:07

This should help answer the question, along with other NoSQL and other persistent storage systems.

enter image description here

  • 3
    this looks interesting, but is there a reference or an original blog this was taken off? I'd like to read the whole thing. – tutuDajuju Jun 28 '16 at 11:50
  • 2
  • @Timothy Perez - mongodb is cp. How does it is not comes under A(availability) category? – user1668782 Aug 14 '16 at 6:37
  • 6
    Please note that this image is an oversimplification and there is no such thing as a CA distributed system - to understand this please read: codahale.com/you-cant-sacrifice-partition-tolerance – elnygren Nov 13 '16 at 17:42
  • Let's interpret this triangle. Systems generally try to remain both Consistent (by some definition...) and Accessible in the face of hardware failures and operational mistakes. But in some unlucky situations that becomes impossible. In such desperate situation, an AP system gives up Consistency, and a CP system then gives up Availability. A CA system though, does something much more wonderful: it gives up on this harsh world, and mirrors your system into a parallel universe where networks are 100% reliable! Sadly you stuck in this universe with the angry customer... – ddekany Jul 6 at 18:16

I agree with Luccas post. You can't just say that MongoDB is CP/AP/CA, because it actually is a trade-off between C, A and P, depending on both database/driver configuration and type of disaster: here's a visual recap, and below a more detailed explanation.

    Scenario                   | Main Focus | Description
    ---------------------------|------------|------------------------------------
    No partition               |     CA     | The system is available 
                               |            | and provides strong consistency
    ---------------------------|------------|------------------------------------
    partition,                 |     AP     | Not synchronized writes 
    majority connected         |            | from the old primary are ignored                
    ---------------------------|------------|------------------------------------
    partition,                 |     CP     | only read access is provided
    majority not connected     |            | to avoid separated and inconsistent systems

Consistency:

MongoDB is strongly consistent when you use a single connection or the correct Write/Read Concern Level (Which will cost you execution speed). As soon as you don't meet those conditions (especially when you are reading from a secondary-replica) MongoDB becomes Eventually Consistent.

Availability:

MongoDB gets high availability through Replica-Sets. As soon as the primary goes down or gets unavailable else, then the secondaries will determine a new primary to become available again. There is an disadvantage to this: Every write that was performed by the old primary, but not synchronized to the secondaries will be rolled back and saved to a rollback-file, as soon as it reconnects to the set(the old primary is a secondary now). So in this case some consistency is sacrificed for the sake of availability.

Partition Tolerance:

Through the use of said Replica-Sets MongoDB also achieves the partition tolerance: As long as more than half of the servers of a Replica-Set is connected to each other, a new primary can be chosen. Why? To ensure two separated networks can not both choose a new primary. When not enough secondaries are connected to each other you can still read from them (but consistency is not ensured), but not write. The set is practically unavailable for the sake of consistency.

  • So if Im using the correct write/read concern level,it means all wrotes and reads go to the primary (if I understood correctly), so what exactly do the secondaries do? Just sit there on standby in case the primary goes down? – tomer.z Sep 20 at 0:45
  • @tomer.z you may want to read this section of the manual: You can use secondaries for reading. If you are using "majority" Read-Level the read will be valid as soon as a majority of the members acknowledged the read. The same goes for the "majority" Write-Level. If you are using "majority" Concern-Level for both, then you have a consistent database. You may want read more about this in the manual. – JoCa Sep 20 at 11:34

As a brilliant new article showed up and also some awesome experiments by Kyle in this field, you should be careful when labeling MongoDB, and other databases, as C or A.

Of course CAP helps to track down without much words what the database prevails about it, but people often forget that C in CAP means atomic consistency (linearizability), for example. And this caused me lots of pain to understand when trying to classify. So, besides MongoDB give strong consistency, that doesn't mean that is C. In this way, if one make this classifications, I recommended to also give more depth in how it actually works to not leave doubts.

Yes, it is CP when using safe=true. This simply means, the data made it to the masters disk. If you want to make sure it also arrived on some replica, look into the 'w=N' parameter where N is the number of replicas the data has to be saved on.

see this and this for more information.

I'm not sure about P for Mongo. Imagine situation:

  • Your replica gets split into two partitions.
  • Writes continue to both sides as new masters were elected
  • Partition is resolved - all servers are now connected again
  • What happens is that new master is elected - the one that has highest oplog, but the data from the other master gets reverted to the common state before partition and it is dumped to a file for manual recovery
  • all secondaries catch up with the new master

The problem here is that the dump file size is limited and if you had a partition for a long time you can loose your data forever.

You can say that it's unlikely to happen - yes, unless in the cloud where it is more common than one may think.

This example is why I would be very careful before assigning any letter to any database. There's so many scenarios and implementations are not perfect.

If anyone knows if this scenario has been addressed in later releases of Mongo please comment! (I haven't been following everything that was happening for some time..)

  • 1
    MongoDB's election protocol is designed to have (at most) a single primary. A primary can only be elected (and sustained) by a strict majority of configured replica set voting members (n/2 +1). In the event of a network partition, only one partition (with the majority of voting members) can elect a primary; a prior primary in a minority partition will step down and become a secondary. This is the way replica sets have always worked. In the event a former primary has accepted writes that were not replicated, they will be rolled back (saved to disk) when that member rejoins the replica set. – Stennie Jun 17 at 20:32

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.