2

Mongo

From this resource I understand why mongo is not A(Highly Available) based on below statement

MongoDB supports a “single master” model. This means you have a master node and a number of slave nodes. In case the master goes down, one of the slaves is elected as master. This process happens automatically but it takes time, usually 10-40 seconds. During this time of new leader election, your replica set is down and cannot take writes

Is it for the same reason Mongo is said to be Consistent(as write did not happen so returning the latest data in system ) but not Available(not available for writes) ?

Till re-election happens and write operation is in pending, can slave return perform the read operation ? Also does user re-initiate the write operation again once master is selected ?

But i do not understand from another angle why Mongo is highly consistent As said on Where does mongodb stand in the CAP theorem?,

Mongo is consistent when all reads go to the primary by default.

But that is not true. If under Master/slave model , all reads will go to primary what is the use of slaves then ? It further says If you optionally enable reading from the secondaries then MongoDB becomes eventually consistent where it's possible to read out-of-date results. It means mongo may not be be consistent with master/slaves(provided i do not configure write to all nodes before return). It does not makes sense to me to say mongo is consistent if all read and writes go to primary. In that case every other DB also(like cassandra) will be consistent . Is n't it ?

Cassandra From this resource I understand why Cassandra is A(Highly Available ) based on below statement

Cassandra supports a “multiple master” model. The loss of a single node does not affect the ability of the cluster to take writes – so you can achieve 100% uptime for writes

But I do not understand why cassandra is not Consistent ? Is it because node not available for write(as coordinated node is not able to connect) is available for read which can return stale data ?

  • Did you find an answer? – tomer.z Sep 20 '18 at 0:39
2

Consistency in the CAP paradigm also includes "eventual consistency" which MongoDB supports. In a contrast to ACID systems, the read in CAP systems does not guarantee a safe return.

In simple words, this means that your Master could have an updated value, but if you do read from Slave, it does not necessarily return the updated value, and that it's okay to no have this updated value by design.

The concept of eventual consistency is explained in an excellent answer here.

By architecture, Cassandra is supposed to be consistent; it offers a special implementation of eventual consistency called the 'tunable consistency' which would meant that the client application may choose the method of handling this- it even offers multi data centre consistency support at low levels! Most issues from row wise inconsistency in Cassandra comes from the fact that Cassandra uses client timestamps to determine which value is the most recent, and not the server side ones, which may be tad bit confusing to understand at first.

I hope this helps!

  • I am not able to understand why mongo is said to be CP but cassandra is AP ? Ragarding mongo db support for "eventual consistency", I believe this is true for cassandra also but a node can give stale data but eventually it will be consistent . Is n't it ? – user3198603 Jun 2 '18 at 1:47
  • Can you please explain any scenario where cassandra may not be eventually consistent ? Consider we have three nodes C1,C2 and C3 . Client writes(W1) to C1 but it gets down before writing to replication node(C2). Now read/write request will be served by C2(which was earlier served by C1). Now when C1 gets back after sometime , Data W1 will be written to Node C2 also which makes Cassandra also eventual consistent. Then why cassandra is said to be not consitent(or eventual consistent) ? – user3198603 Jun 12 '18 at 18:32

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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