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Replication Introduction¶
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Replication is the process of synchronizing data across multiple servers.
Redundancy and Data Availability¶
Replication provides redundancy and increases data availability. With multiple copies of data on different database servers, replication provides a level of fault tolerance against the loss of a single database server.
In some cases, replication can provide increased read capacity as clients can send read operations to different servers. Maintaining copies of data in different data centers can increase data locality and availability for distributed applications. You can also maintain additional copies for dedicated purposes, such as disaster recovery, reporting, or backup.
Replication in MongoDB¶
A replica set is a group of mongod
instances that maintain
the same data set. A replica set contains several data bearing nodes
and optionally one arbiter node. Of the data bearing nodes, one and
only one member is deemed the primary node, while the other nodes are
deemed secondary nodes.
The primary node receives all write
operations. A replica set can have only one primary capable of
confirming writes with { w: "majority" }
write concern; although in some circumstances, another mongod instance
may transiently believe itself to also be primary.
[1] The primary records all changes to its data
sets in its operation log, i.e. oplog. For more information on primary node
operation, see Replica Set Primary.
The secondaries replicate the primary’s oplog and apply the operations to their data sets such that the secondaries’ data sets reflect the primary’s data set. If the primary is unavailable, the replica set will elect a secondary to be primary. For more information on secondary members, see Replica Set Secondary Members.
You may add an extra mongod
instance to a replica set as an
arbiter. Arbiters do not maintain a
data set. The purpose of an arbiter is to maintain a quorum in a
replica set by responding to heartbeat and election requests by other
replica set members. Because they do not store a data set, arbiters can
be a good way to provide replica set quorum functionality with a
cheaper resource cost than a fully functional replica set member with a
data set. If your replica set has an even number of members, add an
arbiter to obtain a majority of votes in an election for primary.
Arbiters do not require dedicated hardware. For more information on
arbiters, see Replica Set Arbiter.
An arbiter will always be an arbiter whereas a primary may step down and become a secondary and a secondary may become the primary during an election.
Asynchronous Replication¶
Secondaries apply operations from the primary asynchronously. By applying operations after the primary, sets can continue to function despite the failure of one or more members. For more information on replication mechanics, see Replica Set Oplog and Replica Set Data Synchronization.
Automatic Failover¶
When a primary does not communicate with the other members of the set for more than 10 seconds, an eligible secondary will hold an election to elect itself the new primary. The first secondary to hold an election and receive a majority of the members’ votes becomes primary.
See Replica Set Elections and Rollbacks During Replica Set Failover for more information.
Read Operations¶
By default, clients read from the primary [1]; however, clients can specify a read preference to send read operations to secondaries. Asynchronous replication to secondaries means that reads from secondaries may return data that does not reflect the state of the data on the primary. For information on reading from replica sets, see Read Preference.
In MongoDB, clients can see the results of writes before they are made durable:
- Regardless of write concern, other clients can see the result of the write operations before the write operation is acknowledged to the issuing client.
- Clients can read data which may be subsequently rolled back.
Additional Features¶
Replica sets provide a number of options to support application
needs. For example, you may deploy a replica set with members in
multiple data centers, or
control the outcome of elections by adjusting the
priority
of some
members. Replica sets also support dedicated members for reporting,
disaster recovery, or backup functions.
See Priority 0 Replica Set Members, Hidden Replica Set Members and Delayed Replica Set Members for more information.
[1] | (1, 2) In some circumstances, two nodes in a replica set
may transiently believe that they are the primary, but at most, only
one of them will be able to complete writes with { w:
"majority" } write concern. The node that can complete
{ w: "majority" } writes is the current
primary, and the other node is a former primary that has not yet
recognized its demotion, typically due to a network partition.
When this occurs, clients that connect to the former primary may
observe stale data despite having requested read preference
primary , and new writes to the former primary will
eventually roll back. |