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MariaDB - Database Images | Using Images | OpenShift Container Platform 3.11
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Overview

OpenShift Container Platform provides a container image for running MariaDB. This image can provide database services based on username, password, and database name settings provided in a configuration file.

Versions

Currently, OpenShift Container Platform provides versions 10.0 and 10.1 of MariaDB.

Images

These images come in two flavors, depending on your needs:

  • RHEL 7

  • CentOS 7

RHEL 7 Based Images

The RHEL 7 images are available through the Red Hat Registry:

$ docker pull registry.redhat.io/rhscl/mariadb-100-rhel7
$ docker pull registry.redhat.io/rhscl/mariadb-101-rhel7

CentOS 7 Based Images

These images are available on Docker Hub:

$ docker pull openshift/mariadb-100-centos7
$ docker pull centos/mariadb-101-centos7

To use these images, you can either access them directly from these registries or push them into your OpenShift Container Platform container image registry. Additionally, you can create an ImageStream that points to the image, either in your container image registry or at the external location. Your OpenShift Container Platform resources can then reference the ImageStream. You can find example ImageStream definitions for all the provided OpenShift Container Platform images.

Configuration and Usage

Initializing the Database

The first time you use the shared volume, the database is created along with the database administrator user and the MariaDB root user (if you specify the MYSQL_ROOT_PASSWORD environment variable). Afterwards, the MariaDB daemon starts up. If you are re-attaching the volume to another container, then the database, database user, and the administrator user are not created, and the MariaDB daemon starts.

The following command creates a new database pod with MariaDB running in a container:

$ oc new-app \
    -e MYSQL_USER=<username> \
    -e MYSQL_PASSWORD=<password> \
    -e MYSQL_DATABASE=<database_name> \
    registry.redhat.io/rhscl/mariadb-101-rhel7

Running MariaDB Commands in Containers

OpenShift Container Platform uses Software Collections (SCLs) to install and launch MariaDB. If you want to execute a MariaDB command inside of a running container (for debugging), you must invoke it using bash.

To do so, first identify the name of the running MariaDB pod. For example, you can view the list of pods in your current project:

$ oc get pods

Then, open a remote shell session to the pod:

$ oc rsh <pod>

When you enter the container, the required SCL is automatically enabled.

You can now run mysql commands from the bash shell to start a MariaDB interactive session and perform normal MariaDB operations. For example, to authenticate as the database user:

bash-4.2$ mysql -u $MYSQL_USER -p$MYSQL_PASSWORD -h $HOSTNAME $MYSQL_DATABASE
Welcome to the MySQL monitor.  Commands end with ; or \g.
Your MySQL connection id is 4
Server version: 5.5.37 MySQL Community Server (GPL)
...
mysql>

When you are finished, enter quit or exit to leave the MySQL session.

Environment Variables

The MariaDB user name, password, and database name must be configured with the following environment variables:

Table 1. MariaDB Environment Variables
Variable Name Description

MYSQL_USER

User name for MySQL account to be created.

MYSQL_PASSWORD

Password for the user account.

MYSQL_DATABASE

Database name.

MYSQL_ROOT_PASSWORD

Password for the root user (optional).

You must specify the user name, password, and database name. If you do not specify all three, the pod will fail to start and OpenShift Container Platform will continuously try to restart it.

MariaDB settings can be configured with the following environment variables:

Table 2. Additional MariaDB Settings
Variable Name Description Default

MYSQL_LOWER_CASE_TABLE_NAMES

Sets how the table names are stored and compared.

0

MYSQL_MAX_CONNECTIONS

The maximum permitted number of simultaneous client connections.

151

MYSQL_MAX_ALLOWED_PACKET

The maximum size of one packet or any generated/intermediate string.

200M

MYSQL_FT_MIN_WORD_LEN

The minimum length of the word to be included in a FULLTEXT index.

4

MYSQL_FT_MAX_WORD_LEN

The maximum length of the word to be included in a FULLTEXT index.

20

MYSQL_AIO

Controls the innodb_use_native_aio setting value if the native AIO is broken.

1

MYSQL_TABLE_OPEN_CACHE

The number of open tables for all threads.

400

MYSQL_KEY_BUFFER_SIZE

The size of the buffer used for index blocks.

32M (or 10% of available memory)

MYSQL_SORT_BUFFER_SIZE

The size of the buffer used for sorting.

256K

MYSQL_READ_BUFFER_SIZE

The size of the buffer used for a sequential scan.

8M (or 5% of available memory)

MYSQL_INNODB_BUFFER_POOL_SIZE

The size of the buffer pool where InnoDB caches table and index data.

32M (or 50% of available memory)

MYSQL_INNODB_LOG_FILE_SIZE

The size of each log file in a log group.

8M (or 15% of available memory)

MYSQL_INNODB_LOG_BUFFER_SIZE

The size of the buffer that InnoDB uses to write to the log files on disk.

8M (or 15% of available memory)

MYSQL_DEFAULTS_FILE

Point to an alternative configuration file.

/etc/my.cnf

MYSQL_BINLOG_FORMAT

Set sets the binlog format, supported values are row and statement.

statement

Volume Mount Points

The MariaDB image can be run with mounted volumes to enable persistent storage for the database:

  • /var/lib/mysql/data - The MySQL data directory is where MariaDB stores database files.

When mounting a directory from the host into the container, ensure that the mounted directory has the appropriate permissions. Also verify that the owner and group of the directory match the user name running inside the container.

Changing Passwords

Passwords are part of the image configuration, therefore the only supported method to change passwords for the database user (MYSQL_USER) and admin user is by changing the environment variables MYSQL_PASSWORD and MYSQL_ROOT_PASSWORD, respectively.

You can view the current passwords by viewing the pod or deployment configuration in the web console or by listing the environment variables with the CLI:

$ oc set env pod <pod_name> --list

Changing database passwords through SQL statements or any way other than through the environment variables aforementioned causes a mismatch between the values stored in the variables and the actual passwords. Whenever a database container starts, it resets the passwords to the values stored in the environment variables.

To change these passwords, update one or both of the desired environment variables for the related deployment configuration(s) using the oc set env command. If multiple deployment configurations utilize these environment variables, for example in the case of an application created from a template, you must update the variables on each deployment configuration so that the passwords are in sync everywhere. This can be done all in the same command:

$ oc set env dc <dc_name> [<dc_name_2> ...] \
  MYSQL_PASSWORD=<new_password> \
  MYSQL_ROOT_PASSWORD=<new_root_password>

Depending on your application, there may be other environment variables for passwords in other parts of the application that should also be updated to match. For example, there could be a more generic DATABASE_USER variable in a front-end pod that should match the database user’s password. Ensure that passwords are in sync for all required environment variables per your application, otherwise your pods may fail to redeploy when triggered.

Updating the environment variables triggers the redeployment of the database server if you have a configuration change trigger. Otherwise, you must manually start a new deployment in order to apply the password changes.

To verify that new passwords are in effect, first open a remote shell session to the running MariaDB pod:

$ oc rsh <pod>

From the bash shell, verify the database user’s new password:

bash-4.2$ mysql -u $MYSQL_USER -p<new_password> -h $HOSTNAME $MYSQL_DATABASE -te "SELECT * FROM (SELECT database()) db CROSS JOIN (SELECT user()) u"

If the password was changed correctly, you should see a table like this:

+------------+---------------------+
| database() | user()              |
+------------+---------------------+
| sampledb   | user0PG@172.17.42.1 |
+------------+---------------------+

To verify the root user’s new password:

bash-4.2$ mysql -u root -p<new_root_password> -h $HOSTNAME $MYSQL_DATABASE -te "SELECT * FROM (SELECT database()) db CROSS JOIN (SELECT user()) u"

If the password was changed correctly, you should see a table like this:

+------------+------------------+
| database() | user()           |
+------------+------------------+
| sampledb   | root@172.17.42.1 |
+------------+------------------+

Creating a Database Service from a Template

OpenShift Container Platform provides a template to make creating a new database service easy. The template provides parameter fields to define all the mandatory environment variables (user, password, database name, etc) with predefined defaults including auto-generation of password values. It will also define both a deployment configuration and a service.

The MariaDB templates should have been registered in the default openshift project by your cluster administrator during the initial cluster setup. See Loading the Default Image Streams and Templates for more details, if required.

There are two templates available:

  • mariadb-ephemeral is for development or testing purposes only because it uses ephemeral storage for the database content. This means that if the database pod is restarted for any reason, such as the pod being moved to another node or the deployment configuration being updated and triggering a redeploy, all data will be lost.

  • mariadb-persistent uses a persistent volume store for the database data which means the data will survive a pod restart. Using persistent volumes requires a persistent volume pool be defined in the OpenShift Container Platform deployment. Cluster administrator instructions for setting up the pool are located in Persistent Storage Using NFS.

You can instantiate templates by following these instructions.

Once you have instantiated the service, you can copy the user name, password, and database name environment variables into a deployment configuration for another component that intends to access the database. That component can then access the database through the service that was defined.

Troubleshooting

This section describes some troubles you might encounter and presents possible resolutions.

Linux Native AIO Failure

Symptom

The MySQL container fails to start and the logs show something like:

151113  5:06:56 InnoDB: Using Linux native AIO
151113  5:06:56  InnoDB: Warning: io_setup() failed with EAGAIN. Will make 5 attempts before giving up.
InnoDB: Warning: io_setup() attempt 1 failed.
InnoDB: Warning: io_setup() attempt 2 failed.
Waiting for MySQL to start ...
InnoDB: Warning: io_setup() attempt 3 failed.
InnoDB: Warning: io_setup() attempt 4 failed.
Waiting for MySQL to start ...
InnoDB: Warning: io_setup() attempt 5 failed.
151113  5:06:59  InnoDB: Error: io_setup() failed with EAGAIN after 5 attempts.
InnoDB: You can disable Linux Native AIO by setting innodb_use_native_aio = 0 in my.cnf
151113  5:06:59 InnoDB: Fatal error: cannot initialize AIO sub-system
151113  5:06:59 [ERROR] Plugin 'InnoDB' init function returned error.
151113  5:06:59 [ERROR] Plugin 'InnoDB' registration as a STORAGE ENGINE failed.
151113  5:06:59 [ERROR] Unknown/unsupported storage engine: InnoDB
151113  5:06:59 [ERROR] Aborting
Explanation

MariaDB’s storage engine was unable to use the kernel’s AIO (Asynchronous I/O) facilities due to resource limits.

Resolution

Turn off AIO usage entirely, by setting environment variable MYSQL_AIO to have value 0. On subsequent deployments, this arranges for the MySQL configuration variable innodb_use_native_aio to have value 0.

Alternatively, increase the aio-max-nr kernel resource. The following example examines the current value of aio-max-nr and doubles it.

$ sysctl fs.aio-max-nr
fs.aio-max-nr = 1048576
# sysctl -w fs.aio-max-nr=2097152

This is a per-node resolution and lasts until the next node reboot.