Package io.kubernetes.client.openapi.models

Class V1TopologySpreadConstraint

java.lang.Object
io.kubernetes.client.openapi.models.V1TopologySpreadConstraint
@Generated(value="org.openapitools.codegen.languages.JavaClientCodegen", date="2023-06-18T15:05:57.863601Z[Etc/UTC]") public class V1TopologySpreadConstraint extends Object
TopologySpreadConstraint specifies how to spread matching pods among the given topology.

  • Field Details

  • Constructor Details

    • V1TopologySpreadConstraint

      public V1TopologySpreadConstraint()

  • Method Details

    • labelSelector

      public V1TopologySpreadConstraint labelSelector(V1LabelSelector labelSelector)

    • getLabelSelector

      @Nullable public V1LabelSelector getLabelSelector()
      Get labelSelector
      Returns:
      labelSelector

    • setLabelSelector

      public void setLabelSelector(V1LabelSelector labelSelector)

    • matchLabelKeys

      public V1TopologySpreadConstraint matchLabelKeys(List<String> matchLabelKeys)

    • addMatchLabelKeysItem

      public V1TopologySpreadConstraint addMatchLabelKeysItem(String matchLabelKeysItem)

    • getMatchLabelKeys

      @Nullable public List<String> getMatchLabelKeys()
      MatchLabelKeys is a set of pod label keys to select the pods over which spreading will be calculated. The keys are used to lookup values from the incoming pod labels, those key-value labels are ANDed with labelSelector to select the group of existing pods over which spreading will be calculated for the incoming pod. The same key is forbidden to exist in both MatchLabelKeys and LabelSelector. MatchLabelKeys cannot be set when LabelSelector isn't set. Keys that don't exist in the incoming pod labels will be ignored. A null or empty list means only match against labelSelector. This is a beta field and requires the MatchLabelKeysInPodTopologySpread feature gate to be enabled (enabled by default).
      Returns:
      matchLabelKeys

    • setMatchLabelKeys

      public void setMatchLabelKeys(List<String> matchLabelKeys)

    • maxSkew

      public V1TopologySpreadConstraint maxSkew(Integer maxSkew)

    • getMaxSkew

      public Integer getMaxSkew()
      MaxSkew describes the degree to which pods may be unevenly distributed. When `whenUnsatisfiable=DoNotSchedule`, it is the maximum permitted difference between the number of matching pods in the target topology and the global minimum. The global minimum is the minimum number of matching pods in an eligible domain or zero if the number of eligible domains is less than MinDomains. For example, in a 3-zone cluster, MaxSkew is set to 1, and pods with the same labelSelector spread as 2/2/1: In this case, the global minimum is 1. | zone1 | zone2 | zone3 | | P P | P P | P | - if MaxSkew is 1, incoming pod can only be scheduled to zone3 to become 2/2/2; scheduling it onto zone1(zone2) would make the ActualSkew(3-1) on zone1(zone2) violate MaxSkew(1). - if MaxSkew is 2, incoming pod can be scheduled onto any zone. When `whenUnsatisfiable=ScheduleAnyway`, it is used to give higher precedence to topologies that satisfy it. It's a required field. Default value is 1 and 0 is not allowed.
      Returns:
      maxSkew

    • setMaxSkew

      public void setMaxSkew(Integer maxSkew)

    • minDomains

      public V1TopologySpreadConstraint minDomains(Integer minDomains)

    • getMinDomains

      @Nullable public Integer getMinDomains()
      MinDomains indicates a minimum number of eligible domains. When the number of eligible domains with matching topology keys is less than minDomains, Pod Topology Spread treats \"global minimum\" as 0, and then the calculation of Skew is performed. And when the number of eligible domains with matching topology keys equals or greater than minDomains, this value has no effect on scheduling. As a result, when the number of eligible domains is less than minDomains, scheduler won't schedule more than maxSkew Pods to those domains. If value is nil, the constraint behaves as if MinDomains is equal to 1. Valid values are integers greater than 0. When value is not nil, WhenUnsatisfiable must be DoNotSchedule. For example, in a 3-zone cluster, MaxSkew is set to 2, MinDomains is set to 5 and pods with the same labelSelector spread as 2/2/2: | zone1 | zone2 | zone3 | | P P | P P | P P | The number of domains is less than 5(MinDomains), so \"global minimum\" is treated as 0. In this situation, new pod with the same labelSelector cannot be scheduled, because computed skew will be 3(3 - 0) if new Pod is scheduled to any of the three zones, it will violate MaxSkew. This is a beta field and requires the MinDomainsInPodTopologySpread feature gate to be enabled (enabled by default).
      Returns:
      minDomains

    • setMinDomains

      public void setMinDomains(Integer minDomains)

    • nodeAffinityPolicy

      public V1TopologySpreadConstraint nodeAffinityPolicy(String nodeAffinityPolicy)

    • getNodeAffinityPolicy

      @Nullable public String getNodeAffinityPolicy()
      NodeAffinityPolicy indicates how we will treat Pod's nodeAffinity/nodeSelector when calculating pod topology spread skew. Options are: - Honor: only nodes matching nodeAffinity/nodeSelector are included in the calculations. - Ignore: nodeAffinity/nodeSelector are ignored. All nodes are included in the calculations. If this value is nil, the behavior is equivalent to the Honor policy. This is a beta-level feature default enabled by the NodeInclusionPolicyInPodTopologySpread feature flag.
      Returns:
      nodeAffinityPolicy

    • setNodeAffinityPolicy

      public void setNodeAffinityPolicy(String nodeAffinityPolicy)

    • nodeTaintsPolicy

      public V1TopologySpreadConstraint nodeTaintsPolicy(String nodeTaintsPolicy)

    • getNodeTaintsPolicy

      @Nullable public String getNodeTaintsPolicy()
      NodeTaintsPolicy indicates how we will treat node taints when calculating pod topology spread skew. Options are: - Honor: nodes without taints, along with tainted nodes for which the incoming pod has a toleration, are included. - Ignore: node taints are ignored. All nodes are included. If this value is nil, the behavior is equivalent to the Ignore policy. This is a beta-level feature default enabled by the NodeInclusionPolicyInPodTopologySpread feature flag.
      Returns:
      nodeTaintsPolicy

    • setNodeTaintsPolicy

      public void setNodeTaintsPolicy(String nodeTaintsPolicy)

    • topologyKey

      public V1TopologySpreadConstraint topologyKey(String topologyKey)

    • getTopologyKey

      public String getTopologyKey()
      TopologyKey is the key of node labels. Nodes that have a label with this key and identical values are considered to be in the same topology. We consider each <key, value> as a \"bucket\", and try to put balanced number of pods into each bucket. We define a domain as a particular instance of a topology. Also, we define an eligible domain as a domain whose nodes meet the requirements of nodeAffinityPolicy and nodeTaintsPolicy. e.g. If TopologyKey is \"kubernetes.io/hostname\", each Node is a domain of that topology. And, if TopologyKey is \"topology.kubernetes.io/zone\", each zone is a domain of that topology. It's a required field.
      Returns:
      topologyKey

    • setTopologyKey

      public void setTopologyKey(String topologyKey)

    • whenUnsatisfiable

      public V1TopologySpreadConstraint whenUnsatisfiable(String whenUnsatisfiable)

    • getWhenUnsatisfiable

      public String getWhenUnsatisfiable()
      WhenUnsatisfiable indicates how to deal with a pod if it doesn't satisfy the spread constraint. - DoNotSchedule (default) tells the scheduler not to schedule it. - ScheduleAnyway tells the scheduler to schedule the pod in any location, but giving higher precedence to topologies that would help reduce the skew. A constraint is considered \"Unsatisfiable\" for an incoming pod if and only if every possible node assignment for that pod would violate \"MaxSkew\" on some topology. For example, in a 3-zone cluster, MaxSkew is set to 1, and pods with the same labelSelector spread as 3/1/1: | zone1 | zone2 | zone3 | | P P P | P | P | If WhenUnsatisfiable is set to DoNotSchedule, incoming pod can only be scheduled to zone2(zone3) to become 3/2/1(3/1/2) as ActualSkew(2-1) on zone2(zone3) satisfies MaxSkew(1). In other words, the cluster can still be imbalanced, but scheduler won't make it *more* imbalanced. It's a required field.
      Returns:
      whenUnsatisfiable

    • setWhenUnsatisfiable

      public void setWhenUnsatisfiable(String whenUnsatisfiable)

    • equals

      public boolean equals(Object o)
      Overrides:
      equals in class Object

    • hashCode

      public int hashCode()
      Overrides:
      hashCode in class Object

    • toString

      public String toString()
      Overrides:
      toString in class Object