Install and Configure MariaDB for Cloudera Software
To use a MariaDB database, follow these procedures. For information on compatible versions of MariaDB, see Database Requirements.
Installing MariaDB Server
- If you already have a MariaDB database set up, you can skip to the section Configuring and Starting the MariaDB Server to verify that your MariaDB configurations meet the requirements for Cloudera Manager.
- It is important that the datadir directory (/var/lib/mysql by default), is on a partition that has sufficient free space. For more information, see Storage Space Planning for Cloudera Manager.
- Install MariaDB server:
OS Command RHEL compatible sudo yum install mariadb-server
SLES sudo zypper install mariadb-server
Note: Some SLES systems encounter errors when using the zypper install command. For more information on resolving this issue, see the Novell Knowledgebase topic, error running chkconfig.Ubuntu sudo apt-get install mariadb-server
If these commands do not work, you might need to add a repository or use a different yum install command, particularly on RHEL 6 compatible operating systems. For more assistance, see the following topics on the MariaDB website:- RHEL compatible: Installing MariaDB with yum
- SLES: MariaDB Package Repository Setup and Usage
- Ubuntu: Installing MariaDB .deb Files
Configuring and Starting the MariaDB Server
- Stop the MariaDB server if it is running:
- RHEL 7 compatible:
sudo systemctl stop mariadb
- RHEL 6 compatible, Ubuntu, SLES:
sudo service mariadb stop
- RHEL 7 compatible:
- If they exist, move old InnoDB log files /var/lib/mysql/ib_logfile0 and /var/lib/mysql/ib_logfile1 out of /var/lib/mysql/ to a backup location.
- Determine the location of the option file, my.cnf (/etc/my.cnf by default).
- Update my.cnf so that it conforms to the following requirements:
- To prevent deadlocks, set the isolation level to READ-COMMITTED.
- The default settings in the MariaDB installations in most distributions use conservative buffer sizes and memory usage. Cloudera Management Service roles need high write throughput because they might insert many records in the database. Cloudera recommends that you set the innodb_flush_method property to O_DIRECT.
- Set the max_connections property according to the size of your cluster:
- Fewer than 50 hosts - You can store more than one database (for example, both the Activity Monitor and Service Monitor) on the same host. If you do this, you should:
- Put each database on its own storage volume.
- Allow 100 maximum connections for each database and then add 50 extra connections. For example, for two databases, set the maximum connections to 250. If you store five databases on one host (the databases for Cloudera Manager Server, Activity Monitor, Reports Manager, Cloudera Navigator, and Hive metastore), set the maximum connections to 550.
- More than 50 hosts - Do not store more than one database on the same host. Use a separate host for each database/host pair. The hosts do not need to be reserved exclusively for databases, but each database should be on a separate host.
- Fewer than 50 hosts - You can store more than one database (for example, both the Activity Monitor and Service Monitor) on the same host. If you do this, you should:
- Although binary logging is not a requirement for Cloudera Manager installations, it provides benefits such as MariaDB replication or point-in-time incremental recovery after a database restore. The provided example configuration enables the binary log. For more information, see The Binary Log.
Here is an option file with Cloudera recommended settings:
[mysqld] datadir=/var/lib/mysql socket=/var/lib/mysql/mysql.sock transaction-isolation = READ-COMMITTED # Disabling symbolic-links is recommended to prevent assorted security risks; # to do so, uncomment this line: symbolic-links = 0 # Settings user and group are ignored when systemd is used. # If you need to run mysqld under a different user or group, # customize your systemd unit file for mariadb according to the # instructions in http://fedoraproject.org/wiki/Systemd key_buffer = 16M key_buffer_size = 32M max_allowed_packet = 32M thread_stack = 256K thread_cache_size = 64 query_cache_limit = 8M query_cache_size = 64M query_cache_type = 1 max_connections = 550 #expire_logs_days = 10 #max_binlog_size = 100M #log_bin should be on a disk with enough free space. #Replace '/var/lib/mysql/mysql_binary_log' with an appropriate path for your #system and chown the specified folder to the mysql user. log_bin=/var/lib/mysql/mysql_binary_log #In later versions of MariaDB, if you enable the binary log and do not set #a server_id, MariaDB will not start. The server_id must be unique within #the replicating group. server_id=1 binlog_format = mixed read_buffer_size = 2M read_rnd_buffer_size = 16M sort_buffer_size = 8M join_buffer_size = 8M # InnoDB settings innodb_file_per_table = 1 innodb_flush_log_at_trx_commit = 2 innodb_log_buffer_size = 64M innodb_buffer_pool_size = 4G innodb_thread_concurrency = 8 innodb_flush_method = O_DIRECT innodb_log_file_size = 512M [mysqld_safe] log-error=/var/log/mariadb/mariadb.log pid-file=/var/run/mariadb/mariadb.pid # # include all files from the config directory # !includedir /etc/my.cnf.d
- If AppArmor is running on the host where MariaDB is installed, you might need to configure AppArmor to allow MariaDB to write to the binary.
- Ensure the MariaDB server starts at boot:
OS Command RHEL 7 compatible sudo systemctl enable mariadb
RHEL 6 compatible sudo chkconfig mariadb on
SLES sudo chkconfig --add mariadb
Ubuntu sudo chkconfig mariadb on
Note: chkconfig may not be available on recent Ubuntu releases. You may need to use Upstart to configure MariaDB to start automatically when the system boots. For more information, see the Ubuntu documentation or the Upstart Cookbook. - Start the MariaDB server:
- RHEL 7 compatible:
sudo systemctl start mariadb
- RHEL 6 compatible, Ubuntu, SLES:
sudo service mariadb start
- RHEL 7 compatible:
- Run /usr/bin/mysql_secure_installation to set the MariaDB root password and other security-related settings. In a new installation, the root password is blank. Press the Enter key when you're prompted for the root password. For the rest of the prompts, enter the responses listed below
in bold:
sudo /usr/bin/mysql_secure_installation
[...] Enter current password for root (enter for none): OK, successfully used password, moving on... [...] Set root password? [Y/n] Y New password: Re-enter new password: [...] Remove anonymous users? [Y/n] Y [...] Disallow root login remotely? [Y/n] N [...] Remove test database and access to it [Y/n] Y [...] Reload privilege tables now? [Y/n] Y [...] All done! If you've completed all of the above steps, your MariaDB installation should now be secure. Thanks for using MariaDB!
Installing the MySQL JDBC Driver for MariaDB
The MariaDB JDBC driver is not supported. Follow the steps in this section to install and use the MySQL JDBC driver instead.
Install the JDBC driver on the Cloudera Manager Server host, as well as any other hosts running services that require database access. For more information on Cloudera software that uses databases, see Required Databases.
OS | Command |
---|---|
RHEL |
Important: Do not use the yum install command to
install the MySQL driver package, because it installs OpenJDK, and then uses the Linux alternatives command to set the system JDK to be OpenJDK.
|
SLES |
sudo zypper install mysql-connector-java |
Ubuntu or Debian |
sudo apt-get install libmysql-java |
Creating Databases for Cloudera Software
- Cloudera Manager Server
- Cloudera Management Service roles:
- Activity Monitor (if using the MapReduce service in a CDH 5 cluster)
- Reports Manager
- Each Hive metastore
- Sentry Server
- Cloudera Navigator Audit Server
- Cloudera Navigator Metadata Server
The databases must be configured to support the MySQL utf8 character set encoding.
Record the values you enter for database names, usernames, and passwords. The Cloudera Manager installation wizard requires this information to correctly connect to these databases.
- Log in as the root user, or another user with privileges to create database and grant privileges:
mysql -u root -p
Enter password:
- Create databases for each service you are using from the below table:
CREATE DATABASE <database> DEFAULT CHARACTER SET utf8 DEFAULT COLLATE utf8_general_ci;
Query OK, 1 row affected (0.00 sec)
GRANT ALL ON <database>.* TO '<user>'@'%' IDENTIFIED BY '<password>';
Query OK, 0 rows affected (0.00 sec)
You can use any value you want for <database>, <user>, and <password>. The following examples are the default names provided in the Cloudera Manager configuration settings, but you are not required to use them:Table 1. Databases for Cloudera Software Service Database User Cloudera Manager Server scm scm Activity Monitor amon amon Reports Manager rman rman Hue hue hue Hive Metastore Server metastore hive Sentry Server sentry sentry Cloudera Navigator Audit Server nav nav Cloudera Navigator Metadata Server navms navms Oozie oozie oozie - Confirm that you have created all of the databases:
SHOW DATABASES;
You can also confirm the privilege grants for a given user by running:SHOW GRANTS FOR '<user>'@'%';
Setting Up the Cloudera Manager Database
After completing the above instructions to install and configure MariaDB databases for Cloudera software, continue to Step 5: Set up the Cloudera Manager Database to configure a database for Cloudera Manager.
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