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Binding Percona XtraDB Cluster components to Specific Kubernetes/OpenShift Nodes

The operator does good job automatically assigning new Pods to nodes with sufficient to achieve balanced distribution across the cluster. Still there are situations when it worth to ensure that pods will land on specific nodes: for example, to get speed advantages of the SSD equipped machine, or to reduce costs choosing nodes in a same availability zone.

Appropriate sections of the deploy/cr.yaml file (such as pxc, haproxy, and proxysql) contain keys which can be used to do this, depending on what is the best for a particular situation.

Node selector

nodeSelector contains one or more key-value pairs. If the node is not labeled with each key-value pair from the Pod’s nodeSelector, the Pod will not be able to land on it.

The following example binds the Pod to any node having a self-explanatory disktype: ssd label:

nodeSelector:
  disktype: ssd

Affinity and anti-affinity

Affinity makes Pod eligible (or not eligible - so called “anti-affinity”) to be scheduled on the node which already has Pods with specific labels. Particularly this approach is good to to reduce costs making sure several Pods with intensive data exchange will occupy the same availability zone or even the same node - or, on the contrary, to make them land on different nodes or even different availability zones for the high availability and balancing purposes.

Percona Operator for MySQL provides two approaches for doing this:

  • simple way to set anti-affinity for Pods, built-in into the Operator,

  • more advanced approach based on using standard Kubernetes constraints.

Simple approach - use topologyKey of the Percona Operator for MySQL

Percona Operator for MySQL provides a topologyKey option, which may have one of the following values:

  • kubernetes.io/hostname - Pods will avoid residing within the same host,

  • topology.kubernetes.io/zone - Pods will avoid residing within the same zone,

  • topology.kubernetes.io/region - Pods will avoid residing within the same region,

  • none - no constraints are applied.

The following example forces Percona XtraDB Cluster Pods to avoid occupying the same node:

affinity:
  topologyKey: "kubernetes.io/hostname"

Advanced approach - use standard Kubernetes constraints

Previous way can be used with no special knowledge of the Kubernetes way of assigning Pods to specific nodes. Still in some cases more complex tuning may be needed. In this case advanced option placed in the deploy/cr.yaml file turns off the effect of the topologyKey and allows to use standard Kubernetes affinity constraints of any complexity:

affinity:
   advanced:
     podAffinity:
       requiredDuringSchedulingIgnoredDuringExecution:
       - labelSelector:
           matchExpressions:
           - key: security
             operator: In
             values:
             - S1
         topologyKey: topology.kubernetes.io/zone
     podAntiAffinity:
       preferredDuringSchedulingIgnoredDuringExecution:
       - weight: 100
         podAffinityTerm:
           labelSelector:
             matchExpressions:
             - key: security
               operator: In
               values:
               - S2
           topologyKey: kubernetes.io/hostname
     nodeAffinity:
       requiredDuringSchedulingIgnoredDuringExecution:
         nodeSelectorTerms:
         - matchExpressions:
           - key: kubernetes.io/e2e-az-name
             operator: In
             values:
             - e2e-az1
             - e2e-az2
       preferredDuringSchedulingIgnoredDuringExecution:
       - weight: 1
         preference:
           matchExpressions:
           - key: another-node-label-key
             operator: In
             values:
             - another-node-label-value

See explanation of the advanced affinity options in Kubernetes documentation .

Tolerations

Tolerations allow Pods having them to be able to land onto nodes with matching taints. Toleration is expressed as a key with and operator, which is either exists or equal (the latter variant also requires a value the key is equal to). Moreover, toleration should have a specified effect, which may be a self-explanatory NoSchedule, less strict PreferNoSchedule, or NoExecute. The last variant means that if a taint with NoExecute is assigned to node, then any Pod not tolerating this taint will be removed from the node, immediately or after the tolerationSeconds interval, like in the following example:

tolerations:
- key: "node.alpha.kubernetes.io/unreachable"
  operator: "Exists"
  effect: "NoExecute"
  tolerationSeconds: 6000

The Kubernetes Taints and Toleratins contains more examples on this topic.

Priority Classes

Pods may belong to some priority classes. This allows scheduler to distinguish more and less important Pods to resolve the situation when some higher priority Pod cannot be scheduled without evicting a lower priority one. This can be done adding one or more PriorityClasses in your Kubernetes cluster, and specifying the PriorityClassName in the deploy/cr.yaml file:

priorityClassName: high-priority

See the Kubernetes Pods Priority and Preemption documentation to find out how to define and use priority classes in your cluster.

Pod Disruption Budgets

Creating the Pod Disruption Budget is the Kubernetes style to limits the number of Pods of an application that can go down simultaneously due to such voluntary disruptions as cluster administrator’s actions during the update of deployments or nodes, etc. By such a way Distribution Budgets allow large applications to retain their high availability while maintenance and other administrative activities.

We recommend to apply Pod Disruption Budgets manually to avoid situation when Kubernetes stopped all your database Pods. See the official Kubernetes documentation for details.

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Last update: 2024-12-14