$ docker pull registry.redhat.io/rhscl/mongodb-26-rhel7 $ docker pull registry.redhat.io/rhscl/mongodb-32-rhel7 $ docker pull registry.redhat.io/rhscl/mongodb-34-rhel7
OpenShift Dedicated provides a container image for running MongoDB. This image can provide database services based on username, password, and database name settings provided via configuration.
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/mongodb-26-rhel7 $ docker pull registry.redhat.io/rhscl/mongodb-32-rhel7 $ docker pull registry.redhat.io/rhscl/mongodb-34-rhel7
CentOS 7 Based Images
These images are available on Docker Hub:
$ docker pull centos/mongodb-26-centos7 $ docker pull centos/mongodb-32-centos7 $ docker pull centos/mongodb-34-centos7
To use these images, you can either access them directly from these registries or push them into your OpenShift Dedicated 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 Dedicated resources can then reference the ImageStream. You can find example ImageStream definitions for all the provided OpenShift Dedicated images.
You can configure MongoDB with an ephemeral volume or a persistent volume. The first time you use the volume, the database is created along with the database administrator user. Afterwards, the MongoDB 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 MongoDB daemon starts.
The following command creates a new database pod with MongoDB running in a container with an ephemeral volume:
$ oc new-app \ -e MONGODB_USER=<username> \ -e MONGODB_PASSWORD=<password> \ -e MONGODB_DATABASE=<database_name> \ -e MONGODB_ADMIN_PASSWORD=<admin_password> \ registry.redhat.io/rhscl/mongodb-26-rhel7
OpenShift Dedicated uses Software Collections (SCLs) to install and launch MongoDB. If you want to execute a MongoDB command inside of a running container (for debugging), you must invoke it using bash.
To do so, first identify the name of the running MongoDB 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 desired pod:
$ oc rsh <pod>
When you enter the container, the required SCL is automatically enabled.
You can now run mongo commands from the bash shell to start a MongoDB interactive session and perform normal MongoDB operations. For example, to switch to the sampledb database and authenticate as the database user:
bash-4.2$ mongo -u $MONGODB_USER -p $MONGODB_PASSWORD $MONGODB_DATABASE MongoDB shell version: 2.6.9 connecting to: sampledb >
When you are finished, press CTRL+D to leave the MongoDB session.
The MongoDB user name, password, database name, and admin password must be configured with the following environment variables:
Variable Name | Description |
---|---|
|
User name for MongoDB account to be created. |
|
Password for the user account. |
|
Database name. |
|
Password for the admin user. |
You must specify the user name, password, database name, and admin password. If you do not specify all four, the pod will fail to start and OpenShift Dedicated will continuously try to restart it. |
The administrator user name is set to admin and you must specify its password
by setting the |
MongoDB settings can be configured with the following environment variables:
Variable Name | Description | Default |
---|---|---|
|
Disable data file preallocation. |
|
|
Set MongoDB to use a smaller default data file size. |
|
|
Runs MongoDB in a quiet mode that attempts to limit the amount of output. |
|
Text search is enabled by default in MongoDB versions 2.6 and higher, and therefore has no configurable parameter. |
The MongoDB image can be run with mounted volumes to enable persistent storage for the database:
/var/lib/mongodb/data - This is the database directory where MongoDB stores database files.
Passwords are part of the image configuration, therefore the only supported
method to change passwords for the database user (MONGODB_USER
) and admin
user is by changing the environment variables MONGODB_PASSWORD
and
MONGODB_ADMIN_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 directly in MongoDB 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> ...] \ MONGODB_PASSWORD=<new_password> \ MONGODB_ADMIN_PASSWORD=<new_admin_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 |
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 MongoDB pod:
$ oc rsh <pod>
From the bash shell, verify the database user’s new password:
bash-4.2$ mongo -u $MONGODB_USER -p <new_password> $MONGODB_DATABASE --eval "db.version()"
If the password was changed correctly, you should see output like this:
MongoDB shell version: 2.6.9 connecting to: sampledb 2.6.9
To verify the admin user’s new password:
bash-4.2$ mongo -u admin -p <new_admin_password> admin --eval "db.version()"
If the password was changed correctly, you should see output like this:
MongoDB shell version: 2.6.9 connecting to: admin 2.6.9
OpenShift Dedicated 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 MongoDB templates should have been registered in the default openshift project by your cluster administrator during the initial cluster setup.
There are two templates available:
mongodb-ephemeral
is for development/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.
mongodb-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 Dedicated deployment.
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 via the service that was defined.
Red Hat provides a proof-of-concept template for MongoDB replication (clustering) using StatefulSet. You can obtain the example template from GitHub.
For example, to upload the example template into the current project’s template library:
$ oc create -f \ https://raw.githubusercontent.com/sclorg/mongodb-container/master/examples/petset/mongodb-petset-persistent.yaml
The example template uses persistent storage. You must have persistent volumes available in your cluster to use this template. |
As OpenShift Dedicated automatically restarts unhealthy pods (containers), it will restart replica set members if one or more of these members crashes or fails.
While a replica set member is down or being restarted, it may be one of these scenarios:
PRIMARY member is down:
In this case, the other two members elect a new PRIMARY. Until then, reads are not affected, but the writes fail. After a successful election, writes and reads process normally.
One of the SECONDARY member is down:
Reads and writes are unaffected. Depending on the oplogSize
configuration and
the write rate, the third member might fail to join back the replica set,
requiring manual intervention to re-sync its copy of the database.
Any two members are down:
When a three-member replica set member cannot reach any other member, it will step down from the PRIMARY role if it had it. In this case, reads might be served by a SECONDARY member, and writes fail. As soon as one more member is back up, an election picks a new PRIMARY member and reads and writes process normally.
All members are down:
In this extreme case, both reads and writes fail. After two or more members are back up, an election reestablishes the replica set to have a PRIMARY and a SECONDARY member, after which reads and writes process normally.
This is the recommended replication strategy for MongoDB.
For production environments, you must maintain as much separation between members as possible. It is recommended to use one or more of the node selection features to schedule StatefulSet pods onto different nodes, and to provide them storage backed by independent volumes. |
Only MongoDB 3.2 is supported.
You have to manually update replica set configuration in case of scaling down.
Changing a user and administrator password is a manual process. It requires:
updating values of environment variables in the StatefulSet configuration,
changing password in the database, and
restarting all pods one after another.
Assuming you already have three pre-created persistent volumes or configured persistent volume provisioning.
Create a new poject where you want to create a MongoDB cluster:
$ oc new-project mongodb-cluster-example
Create a new application using the example template:
$ oc new-app https://raw.githubusercontent.com/sclorg/mongodb-container/master/examples/petset/mongodb-petset-persistent.yaml
This command created a MongoDB cluster with three replica set members.
Check the status of the new MongoDB pods:
$ oc get pods
NAME READY STATUS RESTARTS AGE
mongodb-0 1/1 Running 0 50s
mongodb-1 1/1 Running 0 50s
mongodb-2 1/1 Running 0 49s
After creating a cluster from the example template, you have a replica set with three members. Once the pods are running you can perform various actions on these pods such as:
Checking logs for one of the pods:
$ oc logs mongodb-0
Log in to the pod:
$ oc rsh mongodb-0
sh-4.2$
Log in to a MongoDB instance:
sh-4.2$ mongo $MONGODB_DATABASE -u $MONGODB_USER -p$MONGODB_PASSWORD
MongoDB shell version: 3.2.6
connecting to: sampledb
rs0:PRIMARY>
MongoDB recommends an odd number of members in a replica set. If there
are sufficient available persistent volumes, or a dynamic storage provisioner is
present, scaling up is done by using the oc scale
command:
$ oc scale --replicas=5 statefulsets/mongodb
$ oc get pods
NAME READY STATUS RESTARTS AGE
mongodb-0 1/1 Running 0 9m
mongodb-1 1/1 Running 0 8m
mongodb-2 1/1 Running 0 8m
mongodb-3 1/1 Running 0 1m
mongodb-4 1/1 Running 0 57s
This creates new pods which connect to the replica set and updates its configuration.
Scaling up an existing database requires manual intervention if the database
size is greater than the |
To scale down a replica set it is possible to go from five to three members, or from three to only one member.
Although scaling up may be done without manual intervention when the
preconditions are met (storage availability, size of existing database and
oplogSize
), scaling down always require manual intervention.
To scale down:
Set the new number of replicas by using the oc scale
command:
$ oc scale --replicas=3 statefulsets/mongodb
If the new number of replicas still constitutes a majority of the previous number, the replica set may elect a new PRIMARY in case one of the pods that was deleted had the PRIMARY member role. For example, when scaling down from five members to three members.
Alternatively, scaling down to a lower number temporarily renders the replica set to have only SECONDARY members and be in read-only mode. For example, when scaling down from five members to only one member.
Update the replica set configuration to remove members that no longer exist.
This may be improved in the future, a possible implementation being setting a PreStop
pod hook that inspects the number of replicas (exposed via the downward API) and determines that the pod is being removed from the StatefulSet, and not being restarted for some other reason.
Purge the volume used by the decommissioned pods.