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NodePool(mapping=None, *, ignore_unknown_fields=False, **kwargs)
NodePool contains the name and configuration for a cluster's node pool. Node pools are a set of nodes (i.e. VM's), with a common configuration and specification, under the control of the cluster master. They may have a set of Kubernetes labels applied to them, which may be used to reference them during pod scheduling. They may also be resized up or down, to accommodate the workload.
Attributes | |
---|---|
Name | Description |
name |
str
The name of the node pool. |
config |
google.cloud.container_v1.types.NodeConfig
The node configuration of the pool. |
initial_node_count |
int
The initial node count for the pool. You must ensure that your Compute Engine `resource quota |
locations |
MutableSequence[str]
The list of Google Compute Engine zones __
in which the NodePool's nodes should be located.
If this value is unspecified during node pool creation, the
Cluster.Locations __
value will be used, instead.
Warning: changing node pool locations will result in nodes
being added and/or removed.
|
network_config |
google.cloud.container_v1.types.NodeNetworkConfig
Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults. |
self_link |
str
[Output only] Server-defined URL for the resource. |
version |
str
The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here __.
|
instance_group_urls |
MutableSequence[str]
[Output only] The resource URLs of the `managed instance groups |
status |
google.cloud.container_v1.types.NodePool.Status
[Output only] The status of the nodes in this pool instance. |
status_message |
str
[Output only] Deprecated. Use conditions instead. Additional information about the current status of this node pool instance, if available. |
autoscaling |
google.cloud.container_v1.types.NodePoolAutoscaling
Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present. |
management |
google.cloud.container_v1.types.NodeManagement
NodeManagement configuration for this NodePool. |
max_pods_constraint |
google.cloud.container_v1.types.MaxPodsConstraint
The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool. |
conditions |
MutableSequence[google.cloud.container_v1.types.StatusCondition]
Which conditions caused the current node pool state. |
pod_ipv4_cidr_size |
int
[Output only] The pod CIDR block size per node in this node pool. |
upgrade_settings |
google.cloud.container_v1.types.NodePool.UpgradeSettings
Upgrade settings control disruption and speed of the upgrade. |
placement_policy |
google.cloud.container_v1.types.NodePool.PlacementPolicy
Specifies the node placement policy. |
update_info |
google.cloud.container_v1.types.NodePool.UpdateInfo
Output only. [Output only] Update info contains relevant information during a node pool update. |
etag |
str
This checksum is computed by the server based on the value of node pool fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding. |
queued_provisioning |
google.cloud.container_v1.types.NodePool.QueuedProvisioning
Specifies the configuration of queued provisioning. |
best_effort_provisioning |
google.cloud.container_v1.types.BestEffortProvisioning
Enable best effort provisioning for nodes |
Classes
PlacementPolicy
PlacementPolicy(mapping=None, *, ignore_unknown_fields=False, **kwargs)
PlacementPolicy defines the placement policy used by the node pool.
QueuedProvisioning
QueuedProvisioning(mapping=None, *, ignore_unknown_fields=False, **kwargs)
QueuedProvisioning defines the queued provisioning used by the node pool.
Status
Status(value)
The current status of the node pool instance.
Values:
STATUS_UNSPECIFIED (0):
Not set.
PROVISIONING (1):
The PROVISIONING state indicates the node
pool is being created.
RUNNING (2):
The RUNNING state indicates the node pool has
been created and is fully usable.
RUNNING_WITH_ERROR (3):
The RUNNING_WITH_ERROR state indicates the node pool has
been created and is partially usable. Some error state has
occurred and some functionality may be impaired. Customer
may need to reissue a request or trigger a new update.
RECONCILING (4):
The RECONCILING state indicates that some work is actively
being done on the node pool, such as upgrading node
software. Details can be found in the statusMessage
field.
STOPPING (5):
The STOPPING state indicates the node pool is
being deleted.
ERROR (6):
The ERROR state indicates the node pool may be unusable.
Details can be found in the statusMessage
field.
UpdateInfo
UpdateInfo(mapping=None, *, ignore_unknown_fields=False, **kwargs)
UpdateInfo contains resource (instance groups, etc), status and other intermediate information relevant to a node pool upgrade.
UpgradeSettings
UpgradeSettings(mapping=None, *, ignore_unknown_fields=False, **kwargs)
These upgrade settings control the level of parallelism and the level of disruption caused by an upgrade.
maxUnavailable controls the number of nodes that can be simultaneously unavailable.
maxSurge controls the number of additional nodes that can be added to the node pool temporarily for the time of the upgrade to increase the number of available nodes.
(maxUnavailable + maxSurge) determines the level of parallelism (how many nodes are being upgraded at the same time).
Note: upgrades inevitably introduce some disruption since workloads need to be moved from old nodes to new, upgraded ones. Even if maxUnavailable=0, this holds true. (Disruption stays within the limits of PodDisruptionBudget, if it is configured.)
Consider a hypothetical node pool with 5 nodes having maxSurge=2, maxUnavailable=1. This means the upgrade process upgrades 3 nodes simultaneously. It creates 2 additional (upgraded) nodes, then it brings down 3 old (not yet upgraded) nodes at the same time. This ensures that there are always at least 4 nodes available.
These upgrade settings configure the upgrade strategy for the node pool. Use strategy to switch between the strategies applied to the node pool.
If the strategy is ROLLING, use max_surge and max_unavailable to control the level of parallelism and the level of disruption caused by upgrade.
- maxSurge controls the number of additional nodes that can be added to the node pool temporarily for the time of the upgrade to increase the number of available nodes.
- maxUnavailable controls the number of nodes that can be simultaneously unavailable.
- (maxUnavailable + maxSurge) determines the level of parallelism (how many nodes are being upgraded at the same time).
If the strategy is BLUE_GREEN, use blue_green_settings to configure the blue-green upgrade related settings.
- standard_rollout_policy is the default policy. The policy is used to control the way blue pool gets drained. The draining is executed in the batch mode. The batch size could be specified as either percentage of the node pool size or the number of nodes. batch_soak_duration is the soak time after each batch gets drained.
- node_pool_soak_duration is the soak time after all blue nodes are drained. After this period, the blue pool nodes will be deleted.
.. _oneof: https://proto-plus-python.readthedocs.io/en/stable/fields.html#oneofs-mutually-exclusive-fields