Apache Cassandra backup and recovery
by Rackspace Technology Staff
Introduction
Database backup and recovery is one of the crucial day-to-day activities that a database administrator (DBA) performs. A database backup is a copy of your data that can be used to recover the data in the event of data loss.This blog shows you how to backup Apache© Cassandra© databases and restore them after a failure.
Though Apache Cassandra is decentralized, it can endure single and multi-node failures without losing any business data, as long as one of the nodes in the cluster contains data. However, as a best practice, you should configure a backup for the databases.
In case of any failure, such as an entire cluster rebuild, data corruption, accidental data deletion, and so on, you can recover the data from the backup and continue business operations with minimal or no impact.
More and more companies are using NoSQL databases, such as Cassandra, to successfully manage the large volume of business data, more popularly known as Big Data. Cassandra, widely used by many major organizations, ensures scalability, fault-tolerance, and consistency to support Big Data.
Cassandra database backup and restore
You can use the following utilities to take a snapshot of a Cassandra database
and restore it when required:
- nodetool (To take the snapshot)
- sstableloader (To restore the snapshot backup)
The following image illustrates moving from a cloud cluster to a Cassandra
cluster by using `sstableloader`:
Backup
The following example uses `nodetool` to take a snapshot of Cassandra database
keyspace(users) with a table called employee.
Source Cassandra cluster details:
$ nodetool -u cassandra -pw ******** -h localhost status
Datacenter: us-central1
=======================
Status=Up/Down
|/ State=Normal/Leaving/Joining/Moving
-- Address Load Tokens Owns (effective) Host ID Rack
UN 10.128.0.2 121.52 KiB 256 63.3% 5957997f-7471-4c21-bead-37a6604812e2 f
UN 10.128.0.3 92.22 KiB 256 68.0% 87c2a663-a965-4675-b5ed-c4a46d77c796 f
UN 10.128.0.4 225.3 KiB 256 68.8% 8e12557f-be00-4387-bff3-ef51f431b9a0 f
Use the following command to backup keyspace:
$ nodetool -h localhost -u cassandra -pw ****** snapshot users -t "users-201904201800"
Requested creating snapshot(s) for [users] with snapshot name [users-201904201800] and options {skipFlush=false}
Snapshot directory: users-201904201800
This creates a backup snapshot as shown in the following example:
/bitnami/cassandra/data/data/users/employee-c1319df0636211e9a0e3570eb7f8fd5f/snapshots/users-201904201800
$ ls -ltr
total 44
-rw-r--r-- 2 cassandra cassandra 16 Apr 20 12:05 md-1-big-Filter.db
-rw-r--r-- 2 cassandra cassandra 56 Apr 20 12:05 md-1-big-Summary.db
-rw-r--r-- 2 cassandra cassandra 32 Apr 20 12:05 md-1-big-Index.db
-rw-r--r-- 2 cassandra cassandra 134 Apr 20 12:05 md-1-big-Data.db
-rw-r--r-- 2 cassandra cassandra 10 Apr 20 12:05 md-1-big-Digest.crc32
-rw-r--r-- 2 cassandra cassandra 43 Apr 20 12:05 md-1-big-CompressionInfo.db
-rw-r--r-- 2 cassandra cassandra 4683 Apr 20 12:05 md-1-big-Statistics.db
-rw-r--r-- 2 cassandra cassandra 92 Apr 20 12:05 md-1-big-TOC.txt
-rw-r--r-- 1 cassandra cassandra 31 Apr 20 12:05 manifest.json
-rw-r--r-- 1 cassandra cassandra 865 Apr 20 12:05 schema.cql
$ date
Sat Apr 20 12:08:21 UTC 2019
Now, archive the /snapshot backup directory files and move the tar file to the /bitnami/Cassandra/data/data/backup directory.
$ tar -cvf users-201904201800.tar
manifest.json
md-1-big-CompressionInfo.db
md-1-big-Data.db
md-1-big-Digest.crc32
md-1-big-Filter.db
md-1-big-Index.db
md-1-big-Statistics.db
md-1-big-Summary.db
md-1-big-TOC.txt
schema.cql
$ ls -ltr
total 64
-rw-r--r-- 2 cassandra cassandra 16 Apr 20 12:05 md-1-big-Filter.db
-rw-r--r-- 2 cassandra cassandra 56 Apr 20 12:05 md-1-big-Summary.db
-rw-r--r-- 2 cassandra cassandra 32 Apr 20 12:05 md-1-big-Index.db
-rw-r--r-- 2 cassandra cassandra 134 Apr 20 12:05 md-1-big-Data.db
-rw-r--r-- 2 cassandra cassandra 10 Apr 20 12:05 md-1-big-Digest.crc32
-rw-r--r-- 2 cassandra cassandra 43 Apr 20 12:05 md-1-big-CompressionInfo.db
-rw-r--r-- 2 cassandra cassandra 4683 Apr 20 12:05 md-1-big-Statistics.db
-rw-r--r-- 2 cassandra cassandra 92 Apr 20 12:05 md-1-big-TOC.txt
-rw-r--r-- 1 cassandra cassandra 31 Apr 20 12:05 manifest.json
-rw-r--r-- 1 cassandra cassandra 865 Apr 20 12:05 schema.cql
-rw-r--r-- 1 cassandra cassandra 20480 Apr 20 12:22 users-201904201800.tar
cp *.tar /bitnami/cassandra/data/data/backup.
/bitnami/cassandra/data/data/backup
$ ls -ltr
-rw-r--r-- 1 cassandra cassandra 20480 Apr 20 12:23 users-201904201800.tar
After copying the backup tar file to a non-default location, drop the employee
table.
NOTE: Cassandra distributes data based on the defined partition keys and replication actors across the cluster, so you must run this backup command from all your nodes. This example uses the Linux© shell script in crontab, which backs up all nodes at once.
$ cqlsh -u cassandra -p *******
Connected to Test_Cassandra at 127.0.0.1:9042.
[cqlsh 5.0.1 | Cassandra 3.11.4 | CQL spec 3.4.4 | Native protocol v4]
Use HELP for help.
cassandra@cqlsh> use users;
cassandra@cqlsh:users> select * from employee;
emp_id | employee_address | employee_name
--------+------------------+---------------
8796 | Singapore | Joy
5647 | London | Mike
3452 | Canada | Nancy
6453 | China | John
(4 rows)
cassandra@cqlsh:users> drop table employee;
cassandra@cqlsh:users> select * from employee;
InvalidRequest: Error from server: code=2200 [Invalid query] message="unconfigured table employee"
Restore
To restore the employee table from the keyspace (users) snapshot backup,, you must use the sstableloader utility. The sstableloader utility not only copies the set of sstables to each node but also transfers the appropriate part of the data to every node based on the replication strategy defined for a cluster. Note that it is not necessary to have an empty table to restore the
data.
Use the following steps to restore the tar file into backup/users:
$ pwd
/bitnami/cassandra/data/data/backup/users
$ ls -ltr
total 20
-rw-r--r-- 1 cassandra cassandra 20480 Apr 20 12:23 users-201904201800.tar
$ tar -xvf *.tar
manifest.json
md-1-big-CompressionInfo.db
md-1-big-Data.db
md-1-big-Digest.crc32
md-1-big-Filter.db
md-1-big-Index.db
md-1-big-Statistics.db
md-1-big-Summary.db
md-1-big-TOC.txt
schema.cql
Create a soft link for the user directory with the name of the table that you
are going to restore.
$ ln -s /bitnami/cassandra/data/data/backup/users employee
$ ls -ltr
total 64
-rw-r--r-- 1 cassandra cassandra 865 Apr 20 12:05 schema.cql
-rw-r--r-- 1 cassandra cassandra 92 Apr 20 12:05 md-1-big-TOC.txt
-rw-r--r-- 1 cassandra cassandra 56 Apr 20 12:05 md-1-big-Summary.db
-rw-r--r-- 1 cassandra cassandra 4683 Apr 20 12:05 md-1-big-Statistics.db
-rw-r--r-- 1 cassandra cassandra 32 Apr 20 12:05 md-1-big-Index.db
-rw-r--r-- 1 cassandra cassandra 16 Apr 20 12:05 md-1-big-Filter.db
-rw-r--r-- 1 cassandra cassandra 10 Apr 20 12:05 md-1-big-Digest.crc32
-rw-r--r-- 1 cassandra cassandra 134 Apr 20 12:05 md-1-big-Data.db
-rw-r--r-- 1 cassandra cassandra 43 Apr 20 12:05 md-1-big-CompressionInfo.db
-rw-r--r-- 1 cassandra cassandra 31 Apr 20 12:05 manifest.json
-rw-r--r-- 1 cassandra cassandra 20480 Apr 20 12:23 users-201904201800.tar
lrwxrwxrwx 1 cassandra cassandra 41 Apr 20 15:56 employee -> /bitnami/cassandra/data/data/backup/users
Create the table structure by using the .cql file that was generated by the snapshot backup.
When you execute the backup for **keyspace**, it generates a file called schema.cql that contains the data definition language (DDL) of the objects that reside in keyspace.
Use schema.cql to create an employee object, which got dropped by mistake.
$ cqlsh -u cassandra -p ******** -f schema.cql
Warnings:
dclocal_read_repair_chance table option has been deprecated and will be removed in version 4.0
dclocal_read_repair_chance table option has been deprecated and will be removed in version 4.0
$ cqlsh -u cassandra -p ******* -f schema.cql
Restore data from the snapshot by using sstableloader, which reads every sstables from the backup and streams the data into the cluster. It then transfers the relevant part of data to each node based on the replication strategy defined in the cluster.
Syntax: sstableloader -u <username> -pw passwrod -d <hostname> <employee table softlink name with location>
Use the following command to restore the data:
$ sstableloader -u cassandra -pw ******** -d cassandra-cluster-1-node-0 /bitnami/cassandra/data/data/backup/users/employee
Established connection to initial hosts
Opening sstables and calculating sections to stream
Streaming relevant part of /bitnami/cassandra/data/data/backup/users/md-1-big-Data.db to [/10.128.0.2, /10.128.0.3, /10.128.0.4]
progress: [/10.128.0.2]0:0/1 0 % [/10.128.0.3]0:0/1 0 % [/10.128.0.4]0:1/1 100% total: 33% 0.032KiB/s (avg: 0.032KiB/s)
progress: [/10.128.0.2]0:0/1 0 % [/10.128.0.3]0:0/1 0 % [/10.128.0.4]0:1/1 100% total: 33% 0.000KiB/s (avg: 0.031KiB/s)
progress: [/10.128.0.2]0:0/1 0 % [/10.128.0.3]0:1/1 100% [/10.128.0.4]0:1/1 100% total: 66% 0.113KiB/s (avg: 0.050KiB/s)
progress: [/10.128.0.2]0:1/1 100% [/10.128.0.3]0:1/1 100% [/10.128.0.4]0:1/1 100% total: 100% 85.129KiB/s (avg: 0.074KiB/s)
progress: [/10.128.0.2]0:1/1 100% [/10.128.0.3]0:1/1 100% [/10.128.0.4]0:1/1 100% total: 100% 0.000KiB/s (avg: 0.073KiB/s)
progress: [/10.128.0.2]0:1/1 100% [/10.128.0.3]0:1/1 100% [/10.128.0.4]0:1/1 100% total: 100% 0.000KiB/s (avg: 0.073KiB/s)
Summary statistics:
Connections per host : 1
Total files transferred : 3
Total bytes transferred : 0.393KiB
Total duration : 5346 ms
Average transfer rate : 0.073KiB/s
Peak transfer rate : 0.074KiB/s
Repeat these steps for every node to retrieve the data from their sstables.
Repair the data by using `nodetool repair`, which compares all replicas of the data stored on the node on which the command runs and updates each replica to the newest version.
$ nodetool repair -u Cassandra -pw ********
[2019-04-21 07:59:14,701] Starting repair command #1 (5b123ad0-640b-11e9-a0e3-570eb7f8fd5f), repairing keyspace users with repair options (parallelism: parallel, primary range: false, incremental: true, job threads: 1, ColumnFamilies: [], dataCenters: [], hosts: [], # of ranges: 768, pull repair: false)
[2019-04-21 07:59:16,450] Repair completed successfully
[2019-04-21 07:59:16,451] Repair command #1 finished in 1 second
[2019-04-21 07:59:16,460] Replication factor is 1. No repair is needed for keyspace 'system_auth'
[2019-04-21 07:59:16,474] Starting repair command #2 (5c22e780-640b-11e9-a0e3-570eb7f8fd5f), repairing keyspace system_traces with repair options (parallelism: parallel, primary range: false, incremental: true, job threads: 1, ColumnFamilies: [], dataCenters: [], hosts: [], # of ranges: 513, pull repair: false)
finished (progress: 1%)
[2019-04-21 07:59:17,653] Repair completed successfully
[2019-04-21 07:59:17,653] Repair command #2 finished in 1 second
Validate data into the employee table, which we dropped. The previous command restored the data from the backup you took previously. Now you need to validate the data to see if it was restored properly.
$ cqlsh -u cassandra -p ********
Connected to Test_Cassandra at 127.0.0.1:9042.
[cqlsh 5.0.1 | Cassandra 3.11.4 | CQL spec 3.4.4 | Native protocol v4]
Use HELP for help.
cassandra@cqlsh> use users;
cassandra@cqlsh:users> select * from employee;
emp_id | employee_address | employee_name
--------+------------------+---------------
8796 | Singapore | Joy
5647 | London | Mike
3452 | Canada | Nancy
6453 | China | John
(4 rows)
Conclusion
In this post, you learned how to backup and restore a table into a Cassandra database. However, if you need to restore a full keyspace/database, use the preceding steps without the table restore part. You must recreate the keyspace and load data by using `sstableloader`.
The number of nodes in the source and target databases cluster doesn’t matter with `sstableloader` because it reads each sstables from the backup. Then, it streams the data into the cluster while placing the data according to the defined replication strategy in the cluster.
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