The MongoDB Community Kubernetes Operator is a Custom Resource Definition and a Controller.
You create and update MongoDB resources by defining a MongoDB resource definition. When you apply the MongoDB resource definition to your Kubernetes environment, the Operator:
-
Creates a StatefulSet that contains one pod for each replica set member.
-
Writes the Automation configuration as a ConfigMap and mounts it to each pod.
-
Creates one init container and two containers in each pod:
-
An init container which copies the
cmd/versionhook
binary to the mainmongod
container. This is run beforemongod
starts to handle version upgrades. -
A container for the
mongod
process binary.mongod
is the primary daemon process for the MongoDB system. It handles data requests, manages data access, and performs background management operations. -
A container for the MongoDB Agent. The Automation function of the MongoDB Agent handles configuring, stopping, and restarting the
mongod
process. The MongoDB Agent periodically polls themongod
to determine status and can deploy changes as needed.
-
-
Creates several volumes:
data-volume
which is persistent and mounts to/data
on both the server and agent containers. Stores server data as well asautomation-mongod.conf
written by the agent and some locks the agent needs.automation-config
which is mounted from the previously generated ConfigMap to both the server and agent. Only lives as long as the pod.healthstatus
which contains the agent's current status. This is shared with themongod
container where it's used by the pre-stop hook. Only lives as long as the pod.
-
Initiates the MongoDB Agent, which in turn creates the database configuration and launches the
mongod
process according to your MongoDB resource definition.
This architecture maximizes use of the MongoDB Agent while integrating naturally with Kubernetes to produce a number of benefits.
- The database container is not tied to the lifecycle of the Agent container or to the Operator, so you can:
- Use your preferred Linux distribution inside the container.
- Update operating system packages on your own schedule.
- Upgrade the Operator or Agent without affecting the database image or uptime of the MongoDB servers.
- Containers are immutable and have a single responsibility or process, so you can:
- Describe and understand each container.
- Configure resources independently for easier debugging and triage.
- Inspect resources independently, including tailing the logs.
- Expose the state of each container.
- Pods are defined as StatefulSets so they benefit from stable identities.
- You can upgrade the Operator without restarting either the database or the MongoDB Agent containers.
- You can set up a MongoDB Kubernetes cluster offline once you download the Docker containers for the database and MongoDB Agent.
The MongoDB Community Kubernetes Operator uses the Automation function of the MongoDB Agent to efficiently handle rolling upgrades. The Operator configures the StatefulSet to block Kubernetes from performing native rolling upgrades because the native process can trigger multiple re-elections in your MongoDB cluster.
When you update the MongoDB version in your resource definition and reapply it to your Kubernetes environment, the Operator initiates a rolling upgrade:
-
The Operator changes the StatefulSet update strategy from
RollingUpdate
toOnDelete
. -
The Operator updates the image specification to the new version of MongoDB and writes a new Automation configuration ConfigMap to each pod.
-
The MongoDB Agent chooses the first pod to upgrade and stops the
mongod
process using a local connection anddb.shutdownServer
. -
Kubernetes will restart the
mongod
container causing the version change hook to run and check the state of the MongoDB Agent. If the MongoDB Agent expects themongod
process to start with a new version, the hook uses a Kubernetes API call to delete the pod. -
The Kubernetes Controller downloads the target version of MongoDB from its default docker registry and restarts the pod with the target version of
mongod
in the database container. -
The MongoDB Agent starts. It checks the target version of the new
mongod
, then generates the configuration file for themongod
process. -
The
mongod
process receives the configuration file from the MongoDB Agent and starts. -
The MongoDB Agent reaches goal state.
-
The MongoDB Agent chooses the next pod to upgrade and repeats the process until all pods are upgraded.
-
The Operator changes the StatefulSet update strategy from
OnDelete
back toRollingUpdate
.
This upgrade process allows the MongoDB Agent to:
- Perform pre-conditions.
- Upgrade the secondaries first.
- Wait for the secondaries' oplogs to catch up before triggering an election.
- Upgrade quickly for large replica sets.
- Consider voting nodes.
- Ensure a replica set is always available throughout the entire upgrade process.
MongoDB images are available on Docker Hub.