Replication and Rebalancing

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Warning:
CockroachDB v19.2 is no longer supported. For more details, see the Release Support Policy.

This page walks you through a simple demonstration of how CockroachDB replicates, distributes, and rebalances data. Starting with a 3-node local cluster, you'll write some data and verify that it replicates in triplicate by default. You'll then add 2 more nodes and watch how CockroachDB automatically rebalances replicas to efficiently use all available capacity.

Before you begin

Make sure you have already installed CockroachDB.

Step 1. Start a 3-node cluster

  1. Use the cockroach start command to start 3 nodes:

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    $ cockroach start \
    --insecure \
    --store=rep-node1 \
    --listen-addr=localhost:26257 \
    --http-addr=localhost:8080 \
    --join=localhost:26257,localhost:26258,localhost:26259 \
    --background
    
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    $ cockroach start \
    --insecure \
    --store=rep-node2 \
    --listen-addr=localhost:26258 \
    --http-addr=localhost:8081 \
    --join=localhost:26257,localhost:26258,localhost:26259 \
    --background
    
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    $ cockroach start \
    --insecure \
    --store=rep-node3 \
    --listen-addr=localhost:26259 \
    --http-addr=localhost:8082 \
    --join=localhost:26257,localhost:26258,localhost:26259 \
    --background
    
  2. Use the cockroach init command to perform a one-time initialization of the cluster:

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    $ cockroach init \
    --insecure \
    --host=localhost:26257
    

Step 2. Write data

  1. Use the cockroach workload command to generate an example intro database:

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    $ cockroach workload init intro \
    'postgresql://root@localhost:26257?sslmode=disable'
    
  2. Open the built-in SQL shell and verify that the new intro database was added with one table, mytable:

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    $ cockroach sql --insecure --host=localhost:26257
    
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    > SHOW DATABASES;
    
      database_name
    +---------------+
      defaultdb
      intro
      postgres
      system
    (4 rows)
    
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    > SHOW TABLES FROM intro;
    
      table_name
    +------------+
      mytable
    (1 row)
    
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    > SELECT * FROM intro.mytable WHERE (l % 2) = 0;
    
      l  |                          v
    +----+------------------------------------------------------+
       0 | !__aaawwmqmqmwwwaas,,_        .__aaawwwmqmqmwwaaa,,
       2 | !"VT?!"""^~~^"""??T$Wmqaa,_auqmWBT?!"""^~~^^""??YV^
       4 | !                    "?##mW##?"-
       6 | !  C O N G R A T S  _am#Z??A#ma,           Y
       8 | !                 _ummY"    "9#ma,       A
      10 | !                vm#Z(        )Xmms    Y
      12 | !              .j####mmm#####mm#m##6.
      14 | !   W O W !    jmm###mm######m#mmm##6
      16 | !             ]#me*Xm#m#mm##m#m##SX##c
      18 | !             dm#||+*$##m#mm#m#Svvn##m
      20 | !            :mmE=|+||S##m##m#1nvnnX##;     A
      22 | !            :m#h+|+++=Xmm#m#1nvnnvdmm;     M
      24 | ! Y           $#m>+|+|||##m#1nvnnnnmm#      A
      26 | !  O          ]##z+|+|+|3#mEnnnnvnd##f      Z
      28 | !   U  D       4##c|+|+|]m#kvnvnno##P       E
      30 | !       I       4#ma+|++]mmhvnnvq##P`       !
      32 | !        D I     ?$#q%+|dmmmvnnm##!
      34 | !           T     -4##wu#mm#pw##7'
      36 | !                   -?$##m####Y'
      38 | !             !!       "Y##Y"-
      40 | !
    (21 rows)
    
  3. Exit the SQL shell:

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    > \q
    

Step 3. Verify replication

  1. To understand replication in CockroachDB, it's important to review a few concepts from the architecture:

    Concept Description
    Range CockroachDB stores all user data (tables, indexes, etc.) and almost all system data in a giant sorted map of key-value pairs. This keyspace is divided into "ranges", contiguous chunks of the keyspace, so that every key can always be found in a single range.

    From a SQL perspective, a table and its secondary indexes initially map to a single range, where each key-value pair in the range represents a single row in the table (also called the primary index because the table is sorted by the primary key) or a single row in a secondary index. As soon as that range reaches 64 MiB in size, it splits into two ranges. This process continues for these new ranges as the table and its indexes continue growing.
    Replica CockroachDB replicates each range (3 times by default) and stores each replica on a different node.
  2. With those concepts in mind, open the Admin UI at http://localhost:8080 and view the Node List:

    CockroachDB Admin UI

    Note that the Replicas count is the same on all three nodes. This indicates:

    • There are this many "ranges" of data in the cluster. These are mostly internal "system" ranges since you haven't added much table data.
    • Each range has been replicated 3 times (according to the CockroachDB default).
    • For each range, each replica is stored on different nodes.

Step 4. Add two more nodes

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$ cockroach start \
--insecure \
--store=rep-node4 \
--listen-addr=localhost:26260 \
--http-addr=localhost:8083 \
--join=localhost:26257 \
--background
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$ cockroach start \
--insecure \
--store=rep-node5 \
--listen-addr=localhost:26261 \
--http-addr=localhost:8084 \
--join=localhost:26257 \
--background

Step 5. Watch data rebalance

Back in the Admin UI, you'll see that there are now 5 nodes listed:

CockroachDB Admin UI

At first, the replica count will be lower for nodes 4 and 5. Very soon, however, you'll see those numbers even out across all nodes, indicating that data is being automatically rebalanced to utilize the additional capacity of the new nodes.

Step 6. Stop the cluster

  1. When you're done with your test cluster, use the cockroach quit command to gracefully shut down each node.

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    $ cockroach quit --insecure --host=localhost:26257
    
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    $ cockroach quit --insecure --host=localhost:26258
    
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    $ cockroach quit --insecure --host=localhost:26259
    
    Note:

    For the last 2 nodes, the shutdown process will take longer (about a minute each) and will eventually force the nodes to stop. This is because, with only 2 of 5 nodes left, a majority of replicas are not available, and so the cluster is no longer operational.

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    $ cockroach quit --insecure --host=localhost:26260
    
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    $ cockroach quit --insecure --host=localhost:26261
    
  2. To restart the cluster at a later time, run the same cockroach start commands as earlier from the directory containing the nodes' data stores.

    If you do not plan to restart the cluster, you may want to remove the nodes' data stores:

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    $ rm -rf rep-node1 rep-node2 rep-node3 rep-node4 rep-node5
    

What's next?

Explore other core CockroachDB benefits and features:


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